\?
I
k
r
TABLE OF
CONTENTS
Page
HOP
PRODUCTION
STATISTICS
Hop Growers of America, Annual Statistical Report
32nd Annual Convention, Agenda
U.S. Hop Production by States, 1985-1988
U.S. and World Hop Production, 1971-1988
Leaf and Stem Content
HOP
1
2
3
4
5
1988 Federal Hop Inspection Report
Disposition of Production
Brewery Consumption and Exports
U.S. Hop Exports by Countries of Destination
U.S. Exports of Hops and Hop Products
U.S. Imports of Hops and Hop Products
U.S. Hop Stocks on September 1
Supply and Disposition, 1981-1988
6
7
8
10
11
12
13
14
World Beer Production, 1982-1987
Microbreweries in the USA, 1987
15
16
Sold-ahead Survey of Hops for 1988
U.S. Hop Acreage, 1976-1988
1988 U.S. Hop Production by State and Variety
1988 IHGC Acreage and Production
Hop Growers of America Annual Expenditures
IHG Congress, Australia
1987 Hop Production Compared to Pre-Harvest Estimates
Estimated Benefits of Hops to Oregon Agriculture
17
18
19
20
21
22
24
25
BREEDING
Exchange of Germplasm and Preliminary Evaluation
Hop Germplasm Distributed in 1988
Hop Cones and Related Materials Distributed in 1988
Germplasm Received at Corvallis in 1988
New Accession Numbers Assigned in 1988
Hop Genotypes Discarded in 1988
Crosses Made in 1988
'•
27
32
33
36
37
38
Intermediate and Advanced Evaluation
Seeded Hop Variety World Collection
Seedless Observation Nursery (Smith Yard)
Female Germplasm Nursery
Female Selections from the 1987 Nursery
Virus Data of Various Hop Genotypes
Virus Data of Triploid Hallertauer Selections
Virus Data of Imported Hops
Hop Virus Conference, Giessen, West Germany (Skotland)
39
40
44
45
48
53
60
61
Computer Printouts of 1988 Hop Analyses
Summary of Male Hop Analyses
Male Lupulin Analyses
Certified Analyses and Maturity Samples
Samples with Farnesene, Low Cohumulone and Low Myrcene
64
65
67
68
Page
Samples with Farnesene, Low Cohumulone and Good Yield Potential ..
69
1988 Females, Bale Samples
1988 Females, Five-Cone Samples
Native Wild Yugoslavian Males
70
82
89
USDA RESEARCH REPORTS
AND PLANS
1988 USDA CRIS Report
1988 State CRIS Report
USDA Technology Transfer in FY 1987
92
93
94
ARF Report, Project 3618 (Hop Research Council)
ARF Report, Project 3625 (Oregon Hop Commission)
97
98
ARF Report, Project 3634 (Miller Brewing Company)
Preliminary Observations of Oregon Crop, June and July 1988
99
100
Verticillium Wilt in Hops
105
U.S.
108
Ill
Hops Grown in Columbia
USDA Cooperative Agreement, Prosser, WA, No 58-9AHZ-3-742
Closing Documents of Contract No. 58-9AHZ-3-742
114
New USDA-Prosser Research Agreement, No. 58-91H2-8-136
119
USDA-Prosser Cooperative Agreement 58-9AHZ-3-742, Final Report ... 123
USDA-Prosser Cooperative Agreement 58-91H2-8-136, Progress Report
124
Quarterly Progress Report, Prosser, 1/1-3/31, 1988
Quarterly Progress Report, Prosser, 4/1-6/30, 1988
Quarterly Progress Report, Prosser, 7/1-9/30, 1988
Quarterly Progress Report, Prosser, 10/1-12/31, 1988
Virus Data of Triploid Hallertauer Selection for Northern Idaho ..
125
127
132
134
137
MISCELLANEOUS
U.S. Hop Varieties Growing Near Wallowa, Oregon
Pesticides Used on Hops in Foreign Countries
138
139
U.S. Hop Pesticide Status Report
142
New EPA Pesticide Residue Policy
Hop Pesticide Uses in Various IHGC Countries
Tolerance for Ridomil (Metalaxyl) ..':
1988 Certified Analyses of Experimental Off-Station Plots
146
147
155
159
1988 Off-Station Plots, Anheuser Busch Samples
159a
Triploid Hallertauer Inventory, Off-Station Plots, by Grower
Analyses of New Zealand Hop Samples
European Varieties in the OSU Germplasm Collection
Oil Chromatograms of European Aroma Hops and Tetrapl. Hallert. ...
Chromatograms and Oil Composition of Hallert. Selections in OR,
160
162
164
165
Wa, and ID
Sample Chromatograms With the New GC Plotter
New Experimental Hops (Statesman Journal, Salem, Oregon)
Oregon Hop Commission, Hop Pamphlet
AP Article, Experimental Hops (Corvallis Gazette-Times)
Hop Culture in Yakima Over 100 Years Ago
Experimental Hops in Oregon, Silverton-Mt. Angel Paper
Advantages of Paper Hop Twine
Anonymous Criticism of U.S. Hops (Verticillium Wilt)
171
183
187
189
190
192
193
194
195
HOP GROWERS OF AMERICA, INC.
ANNUAL STATISTICAL REPORT
1987/88
PRESENTED:
JANUARY 18, 1989
33RD ANNUAL HGA CONVENTION
SPARKS, NEVADA
Hop Growers of America, inc.
P.O.Box 9218 • Yakima, WA 98909 • 509/248-7043
HOP GROWERS
3 2ND
OF
JANUARY
LONG
AMERICA,
ANNUA.L
INC.
CONVENTION
20,
BEACH,
21,
& 22
CALIFORNIA
AGENDA
January
9:00
21,
1988
A.M.
I.
II.
Call to order - President Alcid Roy, Roll Call
Minutes of 10/29/87 meeting - Secretary David Strausz
III.
Financial
IV.
Manager's
V.
U.S.D.A.
VI.
Report
Contract
1988 Acreage Counts/Production Figures
VII.
1988 Sold Ahead Survey
VIII.
Retrieval
IX.
of
HGA
Mr.
Harry Kubo,
Labor
January
V
VI
VII
Guidelines
Nisei Growers League
Issues"
Terry 'Witt,
Oregonians
"Pesticide
Issues"
Dr.
L.
J o s e pI
'Hop Usaoe
IV
Reimbursement
Uodate
1988
"Farm
III
Travel
Data
Guest Speakers:
Mr.
I
Production
P.M.
XI.
11
of
Statistical
January 21,
9:00
1987
Establishment
X.
1:30
Report - Treasurer Bill Coleman
22,
Ovades,
and
Brevin:
The
for Food S Shelter
Center
for
Bre1.
Roy,
Roil
les
renas
1988
A.M.
Call
.o
craer
"esident
A lei
Hop Research Council Report
State Reports
1988 HGA Meeting Schedule
1988
KGA
Annual
- Dr.
Convention
Assignment of IHGC delegates for Hobart,
Other
Call
Paul Hoskins
Tasmania,
Business
/"A.,
Australia
U.S. HOP STATISTICS
TOTAL PRODUCTION
Actual
Bales
CA
1908
Year:
Total
WA
ID
OR
.10,992
55,716
200,619
275,327
L907
10,000
43,705
106,279
240,064
1906
25,290
43,612
179,554
240,464
1905
25,207
41,635
104,243
251,165
1900
3,745,151
10,032,460
39,972,610
54,550,22 1
1907
3,703,600
0,355,37 1
36,003,242
40,942,213
49,010,000
49,645,010
Actual Founds
Year:
1986
5,000,000
0,466,000
35,552,000
1905
4,901,539
0,110,025
36,545,454
* Included In Washington totals.
U.S. Hop Production 1950 - 1988
00000
1
>-\
1
72000_
0
64000_
0
0
56000_
40000
0
32000_
\
O-o-O
48000
p
u
.^^'V-
24000
n
d
5
16000
0000
0
. |-H--hHH-H-hl-l--l-l--H--l--l-hl--hH-l-f-l--^H-H--l-l-l-l-l-l-f1950 1953 1956 1959 1962 1965 I960 1971
Crop Year
o5035 I
Prepared January 1989
Hop Qrowers of America, Inc.
•iniirrp. nsnA
poi^
hat
Qf-^fp Oomm!.s,q!nn«*
1974 1977 1900 1903 1906
U.S./WORLD PRODUCTION - 1971 TO DATE
U.S.
W. GERMANY
OTHER WORLD
TOTAL WORLD
PRODUCTION
PRODUCTION
PRODUCTION
PRODUCTION
(Million Pounds)
49.7 (25%)
5 1.3 (22%)
197 1.
1972
54.8 (20%)
57.0 (23%)
55.9 (22%)
1973
1974
1975
(25%)
(20%)
(32%)
(30%)
(29%)
(26%)
(32%)
(28%)
1979
57.8
54.8
55.1
54.9
(25%)
(2 1%)
(23%)
(2 1%)
68.8 (27%)
1900
75.6 (29%)
59.3 (23%)
1901
79. 1 (20%)
70.6 (25%)
68. 1 (24%)
74.3
93.7
81.2
78.3
1976
1977
1970
1902
1903
56.2
49.7
49.0
48.9
54.3
1904
1905
1906
"> 1987
•
53.4
66.9
84.9
73.9
7 1.5
62.6
0 1.6
66.9
1900
(20%)
(10%)
(19%)
(19%)
(2 1%)
(26"/,.)
(29%)
(28%)
(28%)
78.5 (28%)
75.2 (29%)
60.2 (27%)
65.0 (25%)
•
2 10.1 (100%)
230.6 (100%)
268.5 (100%)
249.3 (100%)
250.2 (100%)
230.1 (100%)
259.5 (100%)
239.4 (100%
260.9 (1007,.)
107.0 (5 1%)
1 12.4 (50%)
120.0 (48%)
1 18.4 (47%)
122.9 (49%)
1 15.0 (49%)
123.5 (47%)
I 17.4 (49%)
' 137.2 (53%)
123.0 (487o)
132.7 (46%)
144.9 (46%)
137.9 (40%)
148.2 (52%)
147.4 (54%)
134.7 (52%)
257.9
206.1
317.2
207.2
202.7
275.5
250.9
259.6
264.5
142.5 (55%)
145.2 (55%)
(100%)
(100%)
(100%)
(100%)
(100%)
(100%)
(100%)
(100%)
(100%)
* Ncjures For 1988 arc estimates.
♦Totals may not add due to rounding.
US
I
i •i
I
I
i'»/1
|-|
ci/s
Hop I'roihicihm
I --( — !- -|
i >»//
t'Vl
|
tri',,fi
-
lymi
-I--I'.•m i
I
Wi-;il
I
i 'M i
I
i • mc.
I
I
I
I
i-i/i
i<jm7
-I
I
I
\>i.'\
I
i'j/s
[icirri.Ki H«|>
(
•
I
-.','/
PnnliHll h>M i'*/l
f
I
</'t
I " •
iw
lOhH
t
»
I''*'
(»<>(. frit
-ri -•
miter wwId Hop Propicillin
l')"/l
-
luljl WlMlrt lh>|l PtotJtictlOTl 19/1 - 19'JO
lOtid
./*--*'
VSt)
/:••[
i (ft
llfll
61.
i?
I—I—I —I—I—I—I—I—I—I— I—(--1—l-l— I— I—Hi'i7i
i'jjj
nn
><m
1179
torn
i9u.i
i*
19117
I--H—|—(
1>JV I
Prepared Ja'nuary 1989
1—1-+—I
I97S
ll'/
1
1—(—1—1—l-l- -|—I • I-
1979
Crop fear
Crop Ytar
107
19/J
?I0 I
1901
I9B1
191)5
190/
j
I
U. S. HOP STATISTICS
LEAF & STEM CONTENT (%)
CA.
U. S. Average
Crop Year
WA.
OR.
ID.
1974
1.95
1.57
1.02
.56
1.72
1975
1.75
1.24
.97
.65
1.53
1976
L.23
1.43
1.16
.80
1.24
1977
1.46
1.91
1.15
.90
1.49
1970
1.30
2.19
1.34
1.07
1.40
1979
1.92
2.32
1.38
1.03
1.93
1900
2.57
2. 19
1.04
1.66
2.43
1901
1.93
2.49
1.60
2.73
2.01
1902
1.13
1.80
1.24
1.24
1.26
1903
1.25
1.44
1.20
1.20
1.20
1904
1.07
1.77
1.27
1.26
1.10
1905
1.25
1.56
1.16
0.06
1.16
1906
0.95
0.92
0.73
0.46
0.93
1907
1.14
1.55
1.20
0.45
1.23
1980
0.92
.20
0.00
.00
1974 1975 1976 1977 1970 1979 1900 1901 1982 1903 1984 1985 1906 1987 1980
Crop Year
.72
Prepared January 1989
Hop Growers of America, Inc.
Wash.
% of Total
Total
Calif.
Idaho
Oregon
(67)
(32)
(100)
(100)
Idaho (%)
31,842 (1.20)
27,361 (1.27)
25,595 (1.16)
25,301 (0.73)
18,880 (1.28)
18,992 (1.01)
952
330
26
31
35
(1.26)
(0.06)
(0.46)
(0.45)
(0.0O)
Calif. (%)
3,277 (1.20)
(1.28)
(1.18)
(1.16)
(0.93)
(1.23)
(1.00)
Total (%)
347,875
285,628
252,348
248,602
248,864
275,327
(49)
(36)
(54)
19.1%
52,565
0
0
41.139 (21)
11,426 (20)
1%
46.8%
128,813
0
10,184
19,976
98,653
1%
7.2%
19,831
0
0
15,273 (8)
4.558 (8)
2%'
(17)
(19)
(21)
17.4%
47,944
0
4,004
10,720
33,220
2%
3.7%
10,266
0
0
6,615 (3)
3,651 (7)
3%
4.4%
12,045
0
4,870 (2)
6,850 (12)
325 (2)
3%
1.9%
5,112
0
0
2,512 (1)
2,600 (5)
4%
(1)
1.11
2,989
0
0
2,146
843
4%
1.3%
3,667
0
0
1,247 (0
2,420 (4)
5%
(0)
(0)
0
0.9%
2,356
0
0
2,356 (4)
6%
0.2%
657
0
0
455
202
5%
4.1%
11,371
0
0
11,116 (20)
0%
2
0
0
0
2(0)
Over 6%
255 (0)
Over 6%
0%
0
0
0
0
6%
Table 2 - number of Bales In Each Leaf &Stem Category - Percent of Total In Parenthesis
42,289 (1.56)
43,672 (0.92)
43,705 (1.55)
•55,716(1.28)
Oregon (%)
53,343 (1.44)
36,020 (1.77)
• Includes 47 bales of Oregon-grown hops Inspected by the Stateof Washington.
NOTE: At the request of the hop growers' organizations, state agencies, and other Interested parties, the United States
Department of Agriculture. Federal Qraln Inspection Service, Is reporting Information taken from officially certificated
hops Inspected by the Federal-State hop Inspection service each year. The above tables give the final results asof riovem-
61.8%
170,159
133,543
17,589
18,992
35
0%
82,877
Total
(31)
(29)
(23)
(100)
30.17o
35
Calif.
% of Total
4,479
15,822
Idaho
Oregon
0%
62.541
Wash.
1988
1987
1986
1985
1984
1983
Wash. ( %)
259,413 (1.25)
221,295 (1.07)
184,134(1.25)
179,603 (0.95)
186,248 (1.14)
200,584 (0.92)
Table 1 • Total number of Bales Inspected - Weighted Average of Leaf & Stem In Parenthesis
USDA, Federal Qraln Inspection Service
Prepared By
1988 HOP INSPECTION REPORT
(1001
(100)
(100)
(100)
100.0%
275,327
35
18,992
'55,716
200.584
Total
(100)
(100)
(100)
(100)
(100)
100.0%
273,327
200.584
•55,716
18,992
35
Total
26,691
22,168
29,159
(53%
(58%
(70%
26,091
28,562
55,427
1984-85
19.85-86
1986-87
1987-88
(58%
(48%
(45%
(60%
(69%
(+ )
1,520
s
d
n
u
0
p
24500.
0
0
700oJ_
~
'1972-73
ol
3500 I
l
1
I
i
:
197^-75
197S-7?
1975-7
9SC-3:
Year
:=£
;9£^-35
'960-37
:972-
(100%)
(100%)
(100%)
(100%)
(100%)
(100%)
(100%)
(1 00%)
(100%)
(100%)
(100%)
(100%)
(100%)
(100%)
!•:•:•:•?!
;97^-?;
•VI t-V
•VI IV
V: i-V
;o ;.•:•
34,465
29,159
22,168
26,691
29,195
26,689
24,495
28,346
24,870
27,070
24,196
56,763
22,767
21,701
25,594
21,774
(76%)
(66%)
(59%)
(65%)
(65%)
(64%)
(55%)
(67%)
(59%)
(68%)
(66%)
(66%)
(69%)
(62%)
(65%)
(63%)
-9^6-77
t.\-
m
VVV i.
:9ec-s:
Year
i9?E-,9
Vl [Vv
1962-33
a m ;p <m m £
[,ySi Svj iw
•:'-.i !'•:
:o >:•
m ;%WA
.-•.I k
mm
Si P
196--35
•>,1 v-
::\ •:•
11,158
14,626'
18,039
14,774
15,677
14,549
17,346
14,601
17,595
12,883
12,280
1 1,666
10,365
15,411
15,584
12,955
1966-37
ft
:1 t-'.VV
73 ryS
(41%)
(55%)
(55%)
(56%)
(45%)
(53%)
(24%)
(4 1%)
(54%)
(52%)
(31%)
(34%)
(34%)
(37%)
(37%)
(58%)
Hops
Wet Usage
Foreign
(1,000 lbs.
Met Usage
U.S. Mops
U.S. BREWERY USAGE
Total Hop Usage U.S. Breweries
'(100%)
;(100%)
rOOojKy •s £
C ift; M
:oooojjS
:S00Cjj/l>
2oooc_[i;<-:
! t'-.-.'
10500
. 1-3000.
Tt'.->
25COO_!jvV
30C0C rf-'S
3300C_[__
OOOOJ.
•=50CCJ_
50000^.
50,964
48,962
49,615
56,055
67,995
78,154
78,926
74,41 1
54,757
54,755
54,690
56,763
55,550
56,565
54,108
51,164
Product
Salable '
17500.
21000.
28000.
0
31500.
U.S. Brewery Usage U.S. and Foreign Hops
4 5 million pounds minus adjustment to reflect more accurate export figure.
35000.
(2%)
(-2%) 12,600 (16%)
(4%)
14,050 (18%)
(4%)
7,016
(11%)
( - 8%)
2,564
(4%)
(2%)
490
(1%)
(-17%)
(320) ( - 1%)
(- 1%) (10,650) (- 15%)
2 Total usage less imports adjusted for year end inve ntory changes.
3 Less than xh of 1%.
(2%)
(5%)
(14%)
(=)
(4,470) (-8%)
sold in normal ou tlets.
(1,892)
2,673
5,098
(4,554)
866
(8,259)
(8,798)
(2,580) (-4%)
2,580 (3%)
6,110
7,700
2,750
1,410
Stocks
(11%)
1,310 (2%)
6,502 (12%) (1,140) (-2%)
2,760
(5%) (7,620) ( - 14%)
(%)
1,749
(5%)
(1,460) ; - 3%)
3,816 (7%)
2,505
IP
Difference
(1,000 lbs.)
1 Total production less fire loss and reserves not yet
34,965
25,700
(47%;
(56%
32,181
31,352
1983-84
(51%
(54%;
(38%
24,495
24,870
28,346
26,689
19.82-83
1981-82
1980-81
(67%)
41,965
(57%
43,725 {55%
34,742 (44%;
36,373
1979-80
(50%
(45%
(44%
(45%
(45%
(58%
(41%
(40%
(•*-)
27,070
24,196
22,678
(51 %
(46%
(59%
25,132
22,767
(51%
32,545
1976-77
21,701
(45%
1977-78
28,959
1975-76
25,594
21,774
U.S. Hops
(55%
(48%
(+ )
1978-79
25,215
27,955
1974-75
27,969
'25,479
1972-73
1973-74
Exports
Unaccountable
Usage of J
Domestic
Increase or
(Decrease) in
Plus or
(Minus)
Met Domestic
DISPOSITION OF PRODUCTION
1/
36,894
36,220
35,451
34,617
35,078
34,476
34,644
35,331
35,582
32,632
29,542
As Hops
9,209
7,567
5,590
6,014
6,294
6,562
7,195
7,616
6,883
7,321
6,934
5/
(Hop Equivalent]
As Extract
3/
11,998
8,960
7,805
10,068
10,740
16,817
21,713
19,605
17,045
17,336
13,903
As Hops
23,432
19,400
18,288
21,284
21,441
17,925
22,012
22,360
19,692
15,207
11,229
1979-50
535-36
?e?-3a
u
o
P
0
0
0
:9~7-73
d
;IilvlW
••>. r.-\
U.S. Brewery Hop Consumption by Form
-^5000 ,
Year
ce
U.S. Hop Exports by Form
Includes 3.5 million pounds minus .adjustment to reflect more accurate domestic extract consumption
3/
figure.
5 million pounds minus adjustment to reflect more accurate export extract figure.
IS
2/
(Hop Equivalent]
As Extract
II
n
s
46,103
43,787
40,207
41,465
41,372
41,038
41,839
42,947
42,465
39,953
36,476
Total
EXPORTS
ed by .Treasury Department. Export Conversion factor is based on USDA Hop Market Hews Service.
d
13623
4.0-1
4.0-1
4.0-1
4.0-1
4.0-1
4.0-1
4.0-1
4.0-1
4.0-1
4.0-1
3.5-1
Export
BREWERY CONSUMPTION
n
u
o
P
0
0
0
1/
Domestic Conversion Factor is based on actual pounds of hops used in production of extract as report
5.4-1
4.7-1
1984-85
1987-88
5.1-1
1983-84 .
6.6-1
5.0-1
1982-83
5.6-1
4.4-1
1081-82
1986-87
3.5-1
1980-81
1985-86
4.4-1
1979-80
'
4.4-1
2.8-1
Domestic
1978-79
1977-78
.
Marketing
Year:
FACTOR
EXTRACT CONVERSION
BREAKDOWN OF BREWERY CONSUMPTION AND EXPORTS • (In 1,000 Ibs.j
3
I
o
3
35,427
28,360
26,091
31,352
32,181
34,742
43,725
41,965
36,737 2/
32,543
25,132
Total
HOPS U.S.A.
number -107
Movcmbcr 21, 1900
Worldwide Interest in U.S. Hops Pushes Export Totals up 24%
U.S. Import of foreign hops drops 24.1% during same period
Continued strong Interest In U.S.
grown hops throughout the world
helped push the 1987/80 export total
to 35,427,000 pounds, 24.9% higher
Major export destinations for U.S.
hops during the period September 1,
1987 to September 1. 1900 were
Brazil
(7,417.000
lbs.).
Mexico
throughout the world who tooK
delivery of quality hops from the
(6,899,000), Colombia p.757,000).
Canada (2,973.000). West Ocrmany
(1,820,000). Phllllplncs (1,554,000),
The Netherlands (1,540.000), and
Nigeria (1,060,000). These eight na
tions accounted for shipment of
United States.
27,020,000
than
the
1986/87
total.
This
7,067,000 pound Increase over the
year previous was created by the de
mand
of
more
than
57
countries
pounds,
or
more
than
three-quarters of the 1907/00 U.S.
hop exports. At the same time, these
eight nations represented only 14% of
the
total
countries
receiving
U.S.
hops, and accounted for 23.6% of the
total beer production of the world In
1907.
In the Import arena for the same
period, U.S. brewers took delivery of
ll, 138,000 pounds of foreign hops.
This was down 3,510,000 pounds
from 1906/07, or a decline of more
U.S. Hop Exports/Imports 79/00 to (17/80
-:-=CC0
39500
352CO
I
30800
26-"-00
than 24%. The bulk of Import came In
as cones with only 302,000 pounds of
pellets and 11,000 pounds of extract
Imported Into the United States.
Only 12 nations exported hops to
the U.S. In
270C0
1987/88 with West Ocr
many leading the way with 9.006.000
lbs.
They were followed by
I7600
13200
03 00
<^--00
-J-
-I-
-t-
-+-
1979/80 1980/81 1991/32 1982/83 1983/8-31981/85 1935/36 1905/*
Marketing Year
. EXPOfiTS
DinPORTS
Czechoslovakia [1,168.000), France
(401,000), Poland (320,000), Canada (97,000),
—\ Yugoslavia (08.000). New Zealand (31,000), Australia
<537 (7,000), Qautcmala (7,000), Northern Ireland (7,000),
Costa Rica (4,000), and Colombia (2,000). West Ocrmany
and Czechoslovakia accounted for 91.3% of all hops Im
ported Into the United States.
SUMMARY OP UNITED STATES EXPORTS BY COUNTRIES cV REGIONS OP DESTINATION • IN I.OOO LBS.
1 BB0-R7
Canada
McjIlci
Ttllct.
r.«t».ct
Tol.l 4 /
2.973
391
139
2.003
1.700
0.1199
30O
1.339
0.333
I.DUO
9.1172
09 1
I.07U
0.36O
29
I 10
rllct.
'.alracl
510
19(1
97
no. Arneil
Costa Klca
22
I 13
r.l Salvador
Guatemala
0(1
1 1
10
13
13
Honduras
I'ar
Ci
ilral America
I I
37
•10
. 390
10
101
20
00
327
37
21
10
[lahanno
13
narbadm
Dominican Republic
•1 11
10
Haiti
2
273
Jamaica
11
10
leeward (V Windward
TrhddadToha||u
32
Caribbean
7110
22.1
Arjlcnlhia
230
71
llullvln
03
71
2111
340
7.117
40
300
99
309
709
42
7
70
1.213
099
0.013
itraill
1.300
Chile
15
103
717
20
1
70
301
9
937
3.737
530
171
337
2.330
19
200
29
137
577
Colombia
r.cuador
71
rrcncli Wcsl Indies
2.001
I 1
30
Id
16
(liiyana
tlulhi-.ila.id) Antilles
13
3'2
10
9
30
32
103
731
I'arauo.iy
Peru
212
Uruguay
I I
Venezuela
22
.771
Su. America
129
9
10
92
.53
231
13
210
(10 7
1.1197
13.907
2.001
2.000
.010
I 1.912
10(1
I 2II
hclgluml.uxenibmirg
Trance
I I
11
Ireland
121
023
2 20
I3
37
Italy
netherlands
Spain
U.K. • no. Ireland
West Oermany. red.
Hep. nf
r.uropcan Comin.
010
20
Surlname
373
1.310
III
72
114
4 30
219
996
00
310
37
207
121)
003
209
13
1.2211
111)
1.(120
02
I I
UOI
3.02 7
7
2U
rlnland
39
I0I
31
I24
31
121
300
60
272
201
29
I 10
Switzerland
Olhcr r.iiropcan
797
20
32
Czechoslovakia
U.5.3.K.
Caslcrn Europe
13
73
Cameroon
Ghana
10
Ivory Coast
10
8
1.000
980
33
190
Mauritius
nlgerla
South Africa
Togo
33
Zaire
I I
Western Africa MrX
Africa
132
14
29
l 16
103
1.0(17
I 17
79
33.
I9as-n7
1987-aa
olal 4/
relict*
Cone*
fcllcla
Extra
64
04
Australia
tlangladesll
9
China (Taiwan)
9
Hong Hong
Indonesia
Ir m|
44
.170
13
•
75
Japan
ID
Philippines
264
32
00
304
039
II
02
i3
37
220
raklslan
355
7
7
392
436
Korea, Rep. of
Malaysia
1
48
22
2
30
1.354
40
128
396
2
OKAflD TOTAL
20
8
80
40
I0O
31
4
2
12
701
397
3.330
473
810
292
2.431
0.700
3.838
33.427
4.978
3.982
4.830
28.360
Thailand
Asia Oceania
192
22
Seychelles
Slnyapore
I.6I6
1.000 LBS.
SUMMARY OP UNITED STATES EXPORTS BY COUNTRIES flf REQIONS OP DESTINATION
SUMMARY OP UNITED STATES HOP IMPORTS
BY COUNTRIES
Of REGIONS OP ORIQIN - 1,000 LBS.
PORTS BY
COU
rdlcta
Australia
atract
Total 4/
7
7
24
Belgium-Luxembourg
Canada
2
4
Costa Klca
Czechoslovakia
Trance
Guatemala
Ocrmany. Ted. Hep.
I 13
97
97
Colombia
1,106
1.160
401
401
7
8.794
1 1
3.338
3.071
202
282 •
7
2 '
9.000
7.343 •
2 •
438 •
7.801 •
73
Korea
2
Mexico
7
7
31
31
320
937
937
flew Zealand
Foland-Danzig
320
71
Soviet Union
U. Kingdomno. Ireland
QHAMD TOTAL
7
7
Yugoslovakla
88
10.792
302
2
BO
11.138
• Correction
4/ natural hop equivalent [hops and pellets plus extract converted at 4 to 1).
13.7B3*
B71*
14,636'
10
U.S. EXPORTS OF HOPS, PELLETS &t HOP EXTRACT (1,000 lbs.]
t.c.c.
MrUrj. Yr.
ISrazll
CnniKJii
US5K
Mexico
Colomb.
Japan
11
Other
W.Oer.
•Africa
Other
World
MOPS
1.073
1901-02
1.316
0)3
2.304
4,720
0
04 4
01
5,102
755
01
1902-03
1,129
300
1,10 4
2.513
0
176
22
1,002
22 1
197
720
1903-01
770
120
106
1.045
10
4 02
0
1,290
130
06
603
1904-05
2.090
490
O
000
0
101
0
305
0
77
203
1903-06
994
360
0
505
04
59
0
4 56
134
39
02 7
I90G-U7
2.004
99
O
050
330
392
220
62
434
1 17
2 55
1907-00
1,300
2
0
1,649
9
103
101
1,220
322
4
420
190 1-02
2.406
300
15
74
392
12
44
50
25
543
1902-03
3,930
324
1.119
030
013
0
312
70
4 2
069
PELLETS
1903-04
1.002
002
1.71 1
13
324
23
100
137
56
022
1904-05
1,970
394
1,037
212
530
0
0
0
431
490
1903-00
1,002
0
906
340
624
0
0
0
121
4 04
1900-07
1,2 13
300
391
474
077
0
I I
13
79
623
1907-00
4,643
97
340
0
450
31
739
HOPS ( Including Pe
132
0
40
lets
1970-79
4,270
999
5,743
2.193
0
03 1
43 1
77
345
41 1
1.994
197900
4,600
900
1.997
2,577
0
001
306
2,073
37 0
591
1.670
2.173
1900-0 I
3.291
001
2,509
4,714
0
1,122
240
3, 136
1.025
60 7
190 1-02
4,002
1,323
2,504
4.744
73
1,230
9.5
3, I43
003
I 12
1,610
1902-03
5,007
1,130
1,104
3.634
030
791
2 2
2,194
297
239
1,509
1.507
1903-04
2,372
1.000
166
2,736
25
900
25
1,470
2 75
142
1904-05
4,000
1,092
0
2,323
212
639
0
303
0
500
. 099
1905-06
2,070
360
0
1,4 1 1
412
603
0
430
233
160
1,2 12
1900-07
3.2 17
399
0
1.449
1,010
1.069
73
447
190
070
1907-00
0,025
99
O
2.109
9
039
1,220
454
55
1,159
440
0
30
0
3.020
2.030
0
0
364
332
270
2.304
203
900
1,120
700
660
350
704
4.497
2.064
0,304
2,300
3.000
1.340
3,740
0
0
0
0
0
0
0
633
400
312
310
0
230
404
030
1.192
1.010
OOO
304
724
392
220
141
EXTRACT-MOP EQUIVALENT f Actual X
II
1,472
900
5,204
2.016
1.472
5,372
1979-00
2,524
•3.332
I90O0I
2,000
5,1 20
1901-02
1,330
4,330
1902-03
710
3.032
1903-04
750
3.700
1904-03
1,012
7.030
1903-00
1,972
4,000
1900-07
2,790
6.130
1907-00
1.392
0,000
0
0
0
0
0
0
0
1979-00
7.132
•4,312
2,445
2.443
5,020
001
0 70
3,149
1.040
1,379
O.UOO
1900-01
6,099
3,001
2.509
4,714
2.050
1,122
700
3,540
3.041
2,131
7.532
7.330
2.53 1
1.023
3,714
2,132
060
5.133
2,200
1.240
3,020
2.743
1,132
3.127
000
1,112
3.432
1,276
1.420
4.092
2,120
1.932
5.572
TOTAL ( Inlcudlng Mop Equivalent of Extract )
1901-02
3,339
3,033
2.564
5.009
4,570
1,237
746
5,904
3,330
1,937
1902-03
3,003
4.902
1.134
4.542
3,314
792
490
3.300
2.429
1,091
6.729
1903-04
3,120
4.716
100
3.004
0,309
900
337
3,294
2,355
1,390
5.335
1904-03
3,000
0.120
0
3.233
2,000
039
316
3.026
1903-00
4,040
5,020
0
2.071
5,412
603
1900-07
0,013
0,555
0
2.003
2,330
1,009
1907-00
7,417
0,099
0
2.973
3,737
639
2,743
1,600
1,1 13
1,272
4.044
430
797
1,723
1.616
5.770
623
1,020
2,502
1,907
0,731
may not afjr ec with addl tlon of Individual Items because of rounding,,
Note: Totals
•
905
1,020
0
5 million pounds plus adjustment
to reflect more accurate export flfjure.
US
i......... ._(
i
1
1—
i— i-i
-I
1 HIW 81 iai9?IW 8 J :M1 8* I WI4-9S IW1 aft I W*ar !'«!,•(
US
n
Ptllil
(>twt»
IMI'I]
I*
/
I'll*
••J* 3
IM7 01
US.
\
Ci—•
1
i itrict
//
/
mi, tl
I
1Ofll-tV.
isaie
i»rt?
^\- •—
1,14,1*
l.pwli
.041/ 7
U
I'*©* B
I9B7/8*
/>'
,,
in/"**.
//
#W
lyei a?
P»*,/M
/ ..
M31
IH«
-^,
I6*0fl
.-*-.
nm
9Wft
J?M
_
l*i!7
•WW
1*34
73*4
"«
0
ival-tf
iva?-<>)
IMl-S-4
l9«->v.»
iM*r
Prepared January 1989
Hnn Orowf*r<; of Amprlrn
t*o)-M
l"*o4#F
IM7-M
1
•fJt-97
tWM)
IW1J-B
.
12
U.S. IMPORTS OF HOPS, PELLETS 6C HOP EXTRACT [1,000 lbs.)
Matg.Ycar
W. Ocr.
Cicch.
Poland
Yu goalavl
a
Trance
nclglu m
Australia
Othera
Total
nors
1901-02
23
1 1.400
2.004
1.030
124
320
22
242
31
10,729
I9B2II3
93
9,776
1.007
1,200
2
400
2 7
77
131
13.300
1903-01
203
I0..132
3.003
0-10
0
2 40
33
0
127
14.000
1904-113
139
1 1.333
1.002
320
0
30O
2 3
01
101
11.300
19113-00
07
13.422
2.7 13
140
00
320
23
100
3
l 7.2 I 2
I 9(16-87
I 13
7.330
3.07 1
937
0
200
0
0
1 1
13.760
1907-00
97
0.794
1.100
320
0
401
0
0
11
10.792
PELLETS
J9;ll-(>2
190203
360
0
0
231
0
0
0
0
01 1
012
22
0
123
0
0
0
0
737
4 8
OOO
10
0
0
0
0
0
I
1904-03
30O
4
0
0
0
0
0
10
104
190300
307
20
0
0
0
0
0
Oil)
1903-84
190
190007
0
443
207
0
0
0
24
0
104
800
190700
0
160
2
0
00
0
0
7
37
302
I10K9 AflD rELLETS
1979 00
130
1 1.232
1.441
924
2.000
320
19
190
I 90
10.004
1900 01
133
0.3D3
2.301
1.033
1.431
404
21
130
301
14.393
19111-02
33
1 1.020
2,004
1,030
373
320
22
212
12
1 7.344
11)117 03
93
10.300
1,909
1,200
123
400
27
77
30
14.337
1903-114
204
1 1.400
3,013
640
0
2 40
33
0
120
13.000
loo-i 03
139
1 1.093
I.OOO
320
0
300
23
01
144
14.770
iuii3-na
73
1 4.009
2.711
440
230
320
23
160
109
10.030
lf)IIB-f)7
I 13
7.773
3,330
937
0
2 00
21
0
1 13
14.020
1911700
97
8.902
1.100
320
08
401
0
7
31
1 1.094
2
EXTRACT
MOf EQUIVALEilT (Actual x 4)
1979 BO
A.0-1
0
0
0
0
0
0
0
0
2
1900 01
4.0-1
0
0
0
o-
0
0
0
0
4
1901-82
4.0-1
0
0
0
0
0
0
0
0
4
2
1982-03
4.0-1
0
4
0
0
0
0
0
0
0
12
198304
4.0-1
0
10
0
0
0
0
0
0
2
12
1904-03
A.0-1
0
2
0
0
0
0
0
0
1
3
190300
4.0-1
0
0
0
0
0
0
0
0
9
9
1900-0 7
1.0-1
0
0
0
0
0
0
0
0
0
0
0
44
0
0
0
0
0
0
0
44
190708
TOTAL (Including Hop Equlva lent of Extract)
1979-00
130
1 1.232
1.441
92 4
2.000
320
19
190
190
10.060
1900 0]
133
3.394
2.301
1.033
1.431
404
24
130
331
14,001
1901-02
23
1 1.029
2.004
1.038
373
320
22
242
13
17.340
19112-03
93
10.309
1.909
1.260
123
4O0
27
77
40
14.349
I9M3-H4
204
1 1.410
3.013
640
0
2 40
33
0
130
13.072
19114-83
139
1 1.097
I.OOO
320
0
300
23
01
143
14.774
100
1903-0(1
73
14.009
2.741
4 40
320
23
110
18.039
1980-87
I 13
7.773
3.330
937
0
200
24
0
1 13
14.028
190700
97
9.OO0
1.100
320
BO
401
0
7
31
1 1.130
of Indlvldua 1 Items due to
hole: Total may not ag
•
230
rounding.
LeJJ than 300 11)3.
US
1*1*
)
Import i
IMI/6?
t»
I9S'/M
i *??o
1
,
it?W
0
-—"*—••—-s^
1*41?
^
0
0
0
0
0
l>
9>i?0
0
>l't>
u
ivwa
11 / 76
ijos-4
IOJJ?
6*110
p
tJVM
u
W7
1I6A
n
d
WV1
s
IVH
I'M).
62
1961-0-4
I'M)? 81
194-1-03
IW-B*
1904-9/
190 7-M
US.
196,-B?
I962-B1
Import l/Pf ll>
IS-9J04
Prepared January 1989
Hop Qrowers of America, Inc.
<*niirrp? PAS
M^na
,<>64-a3
(9**B1
fttr
fl**
• I7J-I6
1965-06
I966-0T
I98/-IM
1966-07
1907-M
HOP STOCKS
13
September 1 U.S. lIojg_StocRs (1,000 lbs.]
Stocks
1902
1983
1904
190 5
1906
1987
1980
Growers
1,200
1,300
j,300
1.400
1,390
1,620
1,750
Dealers
2,090
3,000
6,256
10,930
8,930
6,500
9,160
Brewers
43,740
56,700
60,400
50,130
60,630
62,430
49,090
TOTAL
47,030
61,000
60,096
70,460
70,950
70,630
60,000
Total Stocks 197 2-198 7 [1,000 lbs.]
1972
20,770
1900
32,000
1.973
30,200
1901
34,430
1974
33,720
1902
47,030
1975
42, 170
1903
61,000
60,096
1.976
50,400
1904
1977
50,400
1905
70,460
1970
47,540
1906
70,950
1979
30,290
1907
70,630
1900
60,000
U.S. ScpUmbi.T I Stock:; \<)VA - I'JUO
/ li it in
&
e>
o
d I'll in
0
0
0
Sf ,111«l
• IM/IKI
•1,'W.KJ
P
IViOl l
0
•.'•It'll IIJ
ti
/i if id
..
0
»•
n
(1
5
1 '1700
/Kid,
0
•II
1
!;/;•
I- - I--I- - I
|.j/-l
IM76
I'17)1
I
!-• -I--I
191111
IMM','
I
I
I- I- -I—I •
r'MI'l
IW
Year
,'11/71.1
Grower/Doalor/llrowor Slocks
1902
moo
/IIMSO
1
f, (IISS
0
Sf,/6t)
0
'I'JW.S
0
<r.."b /0.
p
JVI7S
0
203(10.
u
2 1205
n
rl
s
Miyo,
709\
0
1902
1903
I90'l
1905
1906
September 1/Year
1-3 Grower
Prepared January 1989
Mop Growers of America, Inc.
KHleoler
10 Brewer
1907
1900
'MHO
14
SUPPLY ADD DISPOSITION I90I-8g TO DATE (In 1,000 lbs.)
SUPPLY
190 1-02 1902-03 1903-04 1904-05 1905-0(5 I90G-07 1907-00 1900-09
Oinyin Stuck '
34.430
47,030
G 1.000
60,090
70,4 60
70,950
70,630
S.-ilnblc I'mil. •
70,97.6
70,154
07,993
56,053
49,615
4 0,962
50,964
17.340
14,349
15.672
14.7 74
10,039
14,626
I 1,130
Imports
TOTA1,
60.000
130.702 139,533 144.740 130.923 130.114 134.530 132.732
DISPOSITION
ISrcwcry L's;icif.
I'.xpoi Lcrl
C.iinyoiit Slocks '
Hiil;inciii(| IU'.iii
TOTAL
lliippinci K;ilc
4 1,039
4 1,030
4 1,372 3
4 1,4 65
40.207
43,707
46.103
43,725
34,742
32,101'
31,352
26.091
20.360
35,427
'17.030
61,000
00.096
70,4 60
70,950
70,630
60,000
_(I.M92J
2,673
3.090 3
(4,354)
066
(0,239)
(0,790)
30,702
139,533
1 4 4,740
30.923
30. I 1 4
.2 12
.2 1 1
.2 14
.200
.224
.23.3
.2 13
lliewer, dealer and tjmwer stocks as tit Sept. I
I'l'ndiiclimi less lin- loss ;intl icscrvc Imps not solid in normal outlets.
Includes 3.5 niillion pouiuls minus adjustment U) reflect imin: accurate domestic extract consumption limne.
II! Ilrnwory llsags l'JIII/112 - I')I17/III!
r.r,
t.^lc
|<)ltl/N7
P,l
/ll t
;*?«/
.••7M
y//"
m ;:;;'.'1
/i-r,
/.m>
7HMI
iU»pS
iiiiisii
i'nt-1 »t*i
i<m% nt.
U.S. Mu|t Ixt.ml-, 1901/1)2 -
i o
i)
?»IMi
ni
iyir//Wl
i
,...,
I
I'
•* !
"
•" 1•W/////&
I'JM 1/117
I'lOM
—-,-,-,-•
r j^ns
IIISOO
IWXM
KKisxilsiil
.•«•. m
on to*
i"<*v. n/
I'm/ nn
.''IIZ/MM
('• 2;/.
1211?
'-•• i ip§
b:J
i-hii I-:
IM1,'
n
s
pill
U.S. l(»)»orl of Hops
. '. -|
'-•
mm mma
lip ll$ll I-jlJ SKjM ma ./.v:j\-;.v,
IKv/fvi-i
88
i'Wii-07
,<J«?-01
Year
•
wm"
Jl
fwij .1-;
ill
i-m-i «\
,.,M I,
Year
I7J-I6
Prepared January 1909
Mop Growers ol America, Inc.
Source: USDA
Paor 1 n
15
WORLD BEER PRODUCTION 1982 - 1987
1982
1983
1984
1985
1986
1987
% Chanqe
87 vs. 86
I.OOO Hectolitres
AMERICAS
United States
228,050
230,331
226.490
226.823
230,543
229,297
Brazil
29,500
29,000
28,350
30,250
43.760
47,500
+
8.54
7.68
0.55
Mexico
27.583
23,611
23,082
27,392
29,287
31,537
+
Canada
23,667
22,599
23,012
22,126
22.815
23,114
+
1.31
Colombia (est.)
13.438
11.760
14.500
13,800
16,600
17,600
+
6.02
Venezuela
12.000
11,769
3 1.820
10.300
11,200
12,100
Other
24.230
23.469
24.173
23,923
31,056
32,624
+
+
5.04
358,468
352,539
353.427
358,616
385,263
393,772
+
2.20
+
1.23
SUB TOTAL
8.03
WESTERn EUROPE
West Germany
United Kingdom
94,816
94,980
92,286
93.294
94,100
92,744
59,780
61,700
61.470
62,500
59,166
59,897
Trance
22,410
22,086
20,288
20,802
24,126
19,894
Spain
21,499
22,082
21.832
23,353
20,653
25.000
fletherlands
16,180
17.327
17,048
17,529
17,988
17,547
Belgium
15.000
14.620
14.976
14,500
13,715
13.990
Other
SUB TOTAL
1.45
-
+
-
+
17.55
21.03
2.46
2.00
52,779
32.814
51,660
53,063
34,618
50,381
+
3.22
282,464
285,609
279,560
285,041
284,368
285,453
+
0.38
EASTERN EUROPE
USSR (estimated)
East Ocrmany [est.)
68,000
68,000
66.100
60,000
55,000
50,000
25,000
25,500
26,000
25,500
24,300
23,000
Czechoslovakia
24,921
24.956
23,780
22,354
22,783
22,228
Yugoslavia
13,402
12,378
13,600
10,505
10,500
11,790
Romania (est.)
11,500
11,500
11,500
11,500
11,000
10,000
Poland
10,300
10,076
9,660
10,801
11,380
11,644
Other
9.10
+
-
+
-
+
2.88
2.44
12.28
9.10
2.31
13,925
13,412
13,512
14.372
18,322
16,600
167,048
165,822
164,152
155,032
153,285
147,262
47,335
49,323
46,689
47,461
49,980
53,500
+
7.04
12,300
16.6O0
20.000
32,000
40,000
30,000
+
25.00
Phllllplnes
7,700
8,700
9.230
8,100
8,300
10,200
3,988
7,070
7.800
7,907
8,065
8,800
+
+
22.89
South Korea
2,825
11,076
2,999
3,071
3,333
3,537
3,864
9.24
9,531
9,930
9,832
8,690
9,445
+
+
8.68
87,224
94,223
96,720
108,653
118,572
135,809
+
14.53
13,000
13,300
14,500
18,000
+
24.13
9,000
10,000
6,840
7,000
+
2.33
SUB TOTAL
-
—
9.40
3.93
FAR EAST
Japan
China (est.)
Taiwan
Other
SUB TOTAL
.
9.11
ArRICA
South Africa
12,000
12,000
Mlgerla
10,380
10,000
Cameroon
3,370
4,180
4,729
4,900
5.400
5.50O
+
1.85
Zaire (est.)
2.780
2,949
3,027
3,000
3,200
4,310
+
34.68
2,500
2,300
13,762
2,400
14,336
2,700
+
9.37
15,380
3,200
14,864
3,500
14,642
15,833
+
6.51
45,672
45,191
46,492
49,480
48,004
54,143
+
12.78
Turkey
3,200
3,300
2,625
2,200
2,200
2,500
+
Other
1,732
1,601
1,473
1,461
1,443
1,445
+
13.63
0.01
4,932
4,901
4,098
3,661
3,643
3,945
+
8.28
19,682
19,350
18,949
18,503
18,170
18,765
+
3.27
3,801
3,800
3,839
3,940
3,924
4,087
+
4.15
889
811
861
862
882
927
+
5.10
24,372
23.961
23,649
23,303
22,976
23,779
+
3.49
968.448
972,288
968,098
983,624
1,016,111
1,044,163
+
2.76
Kenya
Other
SUB TOTAL
"•
HEAR EAST
SUB TOTAL
OCEANIA
Australia
Mew Zealand
Other
SUB TOTAL
WORLD TOTALS
Frepared October 1988
Hop Orowers of America, Inc.
Source: Barth Report, July 1988
^ l . -i«
A l a ,.„
16
Btfauwelt International 1988 (IV..
Micro breweries in the USA 1987
Brewery
Old N.Y. Brewing Co.
Sierra Nevada Brewing Co.
Independent Ale Brewery
Boulder Brewing Co.
City/State
New York, N.Y.
Chico, Calif.
Seattle, Wash.
Boulder, Colo.
Yakima, Wash.
Portland, Maine
Middlcton, Wis.
Production
Capacity
hi
h
17 550
17 550
12 402
17 550
11 700
17 550
6 700
10881
5616
7 020
5 3S2
7 020
4914
11700
4 680
7 020
Widmer Brewing Co.
Junction, Vt.
Modesto, Calif.
Kalama, Wash.
Portland, Ore.
Helena, Mont.
Portland, Ore.
Colville, Wash.
Portland, Ore.
2 952
4 688
Xcelsior Brewery
Santa Rosa, Calif.
2 650
42 120
Abita Brewing Co.
Abita Springs, La.
2 340
3 150
Chesapeake Bay Brewing Co.
Sprecher BrewingCo.
Va. Beach, Va.
2 340
7 137
Milwaukee, Wis.
Park City, Utah
2 282
5 850
2 106
3510
St. Paul, Minn.
1771
7 020
Douglas, Alaska
1755
4 680
Boston, Mass.
Amana, Iowa
Vernon, N.J.
1755
7 020
1 755
4 212
Yakima Brewing & Malting Co.
D.L. Geary Brewing Co.
Capital Brewery
Catamount Brewing Co.
Stanislaus Brewing Co.
Hart Brewing
Bridgeport Brewing Co.
Mont. Beverage Ltd.
Portland Brewing Co.
Hale's Ales Ltd. # 1 and # 2
Schirf Brewing Co.
Summit Brewing Co.
Chinook Alaskan Brewing Co.
Massachusetts Bay Brewing Co.
Millstream Brewing Co.
Vernon Vallery Brewery
William S. Newman Brewing Co.
Kemper Brewing Co.
Reinheitsgebot Brewing Co.
Snake River Brewing Co.
Stoudt Brewing
Nevada City Brewing Co.
Oregon Trail Brewery
Thousand Oaks Brewing Co.
Hood River Brewing Co.
Kalamazoo Brewing Co.
White River
3 744
3 861
3 621
5 850
3 393
4 680
3 393
3510
3510
23 400
3197
3 042
1755
16 380
Albany, N.Y.
Rollingbay, Wash.
t-755
7 605
1 404
2 340
Piano, Texas
Caldwell, Idaho
Adamstown, Penn.
1 287
1 872
791
1 170
544
3510
Nevada City, Calif
491
702
482
1404
Corvcallis, Ore.
'
Berkely, Calif.
409
452
Hood River, Ore.
Kalamazoo, Mich.
Chico, Calif.
Paonia, Colo.
387
2 952
292
702
138
James Page Brewing Co.
Angeles Brewing Co.
Golden Pacific Brewing Co.
Minneapolis, Colo
117
187
526
6 084
Chatsworth, Calif.
K.A.
K.A.
Emeryville, Calif.
K.A.
K.A.
Kuefner Brewing Co.
Monroe, Wash.
K.A.
K.A.
Oldenberg Brewery
Fort Mitchell, Ky.
Wailuku, Maui,
K.A.
K.A.
Saxton Brewey
Valley Brewing
Pacific BrewinggCo.
Under the Oaks Brewery
Union Brewery
K.A. = no information available
138
Hawaii
K.A.
117 000
Ojai, Calif.
K.A.
K.A.
Va. City, Nev.
K.A.
K.A.
p. 365
17
U.S. HOP STATISTICS
HQA Survey of Quantities of Hops Sold Ahead with Prior Years' Comparisons
J 983
1984
1985
1986
1987*
1988
% of
Survey
Survey
Survey
Survey
Survey
Survey
1987
Crop
25.7
40.0
47.8
98
13.2
32.7
43.8
90
12.0
7.2
25.4
38.3
78
0
1.4
10.0
28.7
59
1.3.7
24.2
50
13.7
28
1908
2.4
13.4
29.4
1989
0
5.1
16.9
1990
0
1.0
1991
0
0
-
-
-
-
1992
1993
"
-
-
"
"
'
Response from 63% of Qrowers
1900 Survey - Pounds IndicaLed Sold Ahead
50
M
45
40.
1
1
35
1
0
30
i'i
%
p
25
20.
I)
11
'5
rl
10
!.v\v\vV''/.'v
'v!vSv £$$
••|
1008
1989
i 990
199 I
Crrip Year
GlriillionPounds
Prepared January 1989
Hop Qrowers of America, Inc.
1992
199
U. S. HOP STATISTICS
U. S. Hop Acreage Harvested, J 976 - .1988
Harvested
Struny For
Actual
Harvest
Struny For
(Rounded)
Harvest
Down
Stand in (j
1976
3 1,000
3 1,003
0
1977
30,600
30,60 1
1970
3 1,000
1979
Actual
(Koundr.d
Total
If a rvested
\\y Stale.)
100
100
30,903
30,900
0
59
59
30,542
30,500
30,940
0
06
06
30,062
30,900
31,000
3 1,054
0
'10
40
3 1,006
3 1,000
1900
37,100
37,07 1
()'"
10
10
37,053
37,100
1 90 1
'13,100
'13,053
0
0
43,053
43, 100
1902
4 1,700
41,696
007 '
1205 2
2092
39,604
39,60O
1 903
37,200
37,100
03 3
266 '*
349
36.039
30,900
1 904
3 1,300
3 1.34 5
97 '
400 s
497
30,048
30,000
1905
20,500
20,498
0
354 r'
354
28, 14 4
20.100
1906
25,000
2'1,93 5
0
0
0
24,935
25,000
1907
20,300
20,300
0
0
0
20,300
20,300
1 900
33.900
33,912
0
1 I '
1 1
33,901
33,900
Un Iin rv cs ted
0
1 All in Washington.
2
|,097 in WA., 154 in OK., 34 in 10.
a
34 in WA. and '29 in OK.
11
250 in WA. and 16 in CA.
5
3 13 in WA. and 07 in ID.
o
1 19 in WA. and 235 in OK.
U.S. Hop Acreage Harvested 1976 - 1988
AA0Q0_
T
39600.
0
35200.
t
30000_
./
O
.0
<y
1
1
26'-IOO_
1
22000
A
1 7600
c
r
13200.
e
0000_
s
'MOO.
0
H
1
1-
1
1
1
1
1- _|
1
1—
1976 1977 1970 1979 1900 1981 1902 1903 1904 1985 1906 1907 1900
Crop Year
o 30900
Prepared January 1989
Hop Qrowers of America, Inc.
i a r~
ricrirt
una
n,.
19
1988 United States Hop Production By State/Variety
United States Totals
Acres
Aqulla 1/
Production
Yield/Acre
299.9
451,140
Banner 1 /
1504.33
330.5
506.005
Cascade I /
1.01 1.5
1495.00
2.049.724
Chinook 2/
2026.42
1.202.5
Cluster II
2.604.050
8.552.4
2030.92
Erolca II
17.187.393
930.9
2000.05
Higgle 31
1.773,605
1009.02
034.7
806.006
Qalcna
1061.47
5,501.0
3,005.9
nugget 4/
Olympic
Perle 4/
9.950.834
1810.10
5.968,525
1934.13
293.3
600.506
2074.09
929.6
94I.C38
1012.95
Tettnanger 4/
2.070.3
Willamette 4/
2.299.042
860.97
6.132.0
Other
7.071.715
1153.10
2.040.6
2,250.280
1102.75
TOTAL
33,912.7
54,550.221
1600.55
1/ Washington only - Idaho and Oregon Included In "Other"
2/ Washington and Idaho only - Oregon Included In "Other"
3/ Oregon only - Washington and Idaho Included In "Other"
4/ Washington and Oregon only - Idaho Included In "Other"
Idaho
Acred
Production
Chinook
221.5
340.762
Cluster
1538.43
493.1
925.703
Erolca
1077.48
379.4
620,039
Oalena
1636.37
528.4
908.898
1720.09
Yield/Acre
Other-
1,307.5
948,869
725.71
TOTAL
2.929.9
3,745.151
1270.25
Other includes.- Aqulla, Banner. Cascade. Hallertauer. nugget. Perle. Tettnanger. Talisman. Willamette, and Experimental.
Oregon
Fuggle
Acre*
Production
834.7
886.006
1061.47
Yield/Acre
Oalena
146.3
nugget
204,843
1946.98
1.378.8
2,911.973
2111.96
1027.57
Perle
337.7
Tettnanger
347,012
424.4
414,656
Willamette
977.04
4.040.2
5,016.139
1241.56
Other*
535.1
971.831
1816.17
TOTAL
7.697.2
10.832.460
1407.32
' Other Includes: Aqulla. Banner. Cascade, Chinook, Cluster, English, and experimental.
Washington
Acres
Aqulla
Production
299.9
451,148
Banner
1504.33
338.5
506,085
Cascade
1495.08
1,011.5
Chinook
Yield/Acre
2,049,724
2026.42
1.061
Cluster
2,263,888
2133.73
8.059.3
Erolca
16,261,610
1,152,766
2016.00
559.5
Oalena
4.827.1
nugget
Olympic
8,765,093
1815.81
1.707.1
3,056.552
1790.49
293.3
2060.35
608.506
Perle
2074.69
591.9
Tettnanger
594,626
1004.61
2.245.9
Willamette
1.884.386
839.03
2.092.6
Other*
2,055,576
982.31
198.0
329,580
1664.55
TOTAL
23,285.6
39,972,610
1716.58
• Other Includes: English, fuggle. Hallertauer, and Experimental.
-California totals Included In Washington data toprotect grower confidentiality
Prepared January 1989 - Hop Qrowers of Amerlc
8.7
7,469
% Change '87-'08
86,203
1HQC 1987 Total
Change '87-'88
- 1.8
(1,090)
61,268
60,178
93,672
IHQC 1988 Total
321
20,267
5,572
13,645
Poland
0
828
351
3,904
5,617
5,510
0
18,824
1,161
714
2,681
ALPHA
USA
7,878
395
Hungary
Yugoslavia
49
857
France
3,966
Spain
United Kingdom
220
29,528
East Qermany
30,057
Czechoslovakia
1,186
Bulgaria
WestQermany
319
0
AROMA
Belgium
Australia
COUNTRY
1988 ACREAQE [In Acres)
4.3
6,379
147,471
153,850
33,912
5,893
7,878
1,223
1,208
3,953
9,583
5,730
29,528
48,881
2,347
1,033
2,681
TOTAL
- 10.3
(10,492,684)
102,095,246
91,602,562
38,776,599
429,897
0
1,157,084
548,945
3,574,759
6,210,138
6,726,014
0
27,122,532
1,046,524
884,375
5,125,695
ALPHA
3.6
7,011,952
196,201,794
203,213,746
54,557,126
6,283,110
10,582,080
1,406,094
1,727,855
3,580,932
10,836,822
6,959,812
33,884,702
65,211,076
1,731,714
1,326,728
5,125,695
TOTAL
(In F ounds)
Paris, Trance - March 10, 1989
Prepared: HQA M arch 1989
Source: IHQC Economic Committee Meeting
18.6
17,504,636
94,106,548
111,611,184
15,780,527
5,853,213
10,582,080
249,010
1,178,910
6,173
4,626,684
233,798
33,884,702
38,088,544
685,190
442,353
0
AROMA
PRODU CTION
231
- 4.5
(284)
6260.2
5976.1
2200
127
304
32.8
35.3
121.7
394.2
226.7
614.8
1601.2
42.9
44.5
0
1.1
1,008
93,673
94,681
14,144
5,683
7,660
358
971
25
4,045
124
29,528
30,888
897
358
- 1.0
(605)
60,181
59,576
19,768
371
0
815
339
3,879
5,814
5,461
0
18,533
1,161
754
2,681
ALPHA
o
IX)
0.3
403
153.854
154,257
33,912
6,054
7,660
1,173
1,310
3,904
9,859
5,585
29,528
49,421
2,058
1,112
2,681
TOTAL
(In Acres)
AROMA
(In Tons)
Tons
1989
198
ACREAQE ESTIMATES
ALPHA PRODUCTION
1988 IHGC Acreage and Production Recap
& 1989 Acreage Projections
$3350.00
$100.00
Domestic Travel
$80.00
Insurance
$0.00
$10,00
$0.00
$100.00
$0.00
$20,501.65
$0.00
$0.00
$0.00
$0.00
$100.00
$0.00
$6,619.96
Miscellaneous
Translations
Sold Ahead Survey
State Filing Fees
$0.00
$2000.00
$0.00
$5,911.65
$0,00
$5,176.65
•V?f??1Si fr-iTH.
$0.00
$100.00
$0.00
$0.00
$10.00
$0.00
$0.00
$125.00
$155.00
$ 155.00
$0.00
583.33
$0.00
$0.00
$2100.00
'jS-177'63"
$ 10.00
54.706.65
$7,745.65
$5,32 1"65
10 00
$0.00
$0.00
56.696.65
' ... .soioo"
190 00
) 100.00
$100,00
$0.00
to 00
$0.00
10 00
I 10 00
to.oo
to 00
50.00
590.00
$0.00"
$0 00
$ 10 00
$125.0o"
$500 00
50.00
to.oo
! 155.00
$125.00
5 155.00
$..155.00
10.00
1 155.00
$0.00
$155.00
$ 155.00
10,00
$2914.00
15.(103 65
10.00
5 100 00
10.00
10.00
1 10 00
t 125 00
10.00
10.00
$ 155.00
1 155 00
1205.00
_'_ _"
.,,
-.
1000 o ,
! 1 1.'/•.: 1 oo |
"jo 00
J9-1.5 l-l 1 1
12.000,-0
! 100 oo
$i.l f.O 06,
1 100 oo ;
10 .„:
! ion 00 '
J 1,006 •••
i',,,,. -.,,
1 in,, 0,
,,". '
1., .;..
t l.'O.O 00
)•:,
1500 00
! 120 oo '
13.633 3-
10.860 0,.
1 105 06 '
t 155 00 :
13.2-1-I 00
-,'j-i'j :••,
1 1..-27 OO
I iQ.oo-0 00
18.450 ..0
ii/Vvoo;-
I .'I.OOO 00
13.000 '0
1 ,',..'MO 00
1 j 1,000 •'.•:
10 1/170 ••<;•
1 ; .I,1-, ' '• .;
1 :.>•.
11
!,,..-.
10 0,1 .
!>j 0-., •
$8', -,5 ;
53-17.00
"" """103 33
"to.oo
183 33
10.00
$0.00
$ 10.00
$0.00
$0.00
$0.00
$155.00
$155.00
$0.00
10,00
183 33
$0.00
J.'OoO •;„-, :
1 100 00 •
1166 0,..
1-1000 00 '
1 VO o.- '
1320 00 :
12'.00 06 ;
:
„, .
i5-i.-'? .-)'.
', ooo
SO 00
5 100,00
.00.,.
10'.'-
16.1.533 it,
ikjI.'.i
|0'/- :'-' '
DKEnrrr.
10.00
$2 100.00
10,00
$ 100 00
I 166 66
} 125 00
1 125,00
1 166 66
1 166.66
50,00
5500,00
1500.00
"to.oo
1500 00
10,00
$325.00
$325 00
"t325"00
5320 00
12666.66
15-177 63
$320 00
t'2666.66
15-177.83
15-17 7 f;3
1 100 00
10OO
5 0 OC
$0 00
$5 57/8.3
NOVEMPFR
1320,00
!2666~66'
$83.33
$0.00
$63.33
$0.00
5 100.00
$125.00
$ 166.66
5500.00
$0.00
$325.00
$320,00
$2666,66
$5477Te3
$547 7.83
1547 7.83
t loo.oo
Jjp'xoo
\5AJ7AyL
! 100.00
to'oo
10,00
10.00
""to'oo
to 00
1537?" .8.3'
OCTOBER
50JX[
'!'_'.„ JP o°
1537 7 63
SEPTEMBER
"~" -10X50 "
10.00
$5377.83
AUGUST
$0.00
$100.00
$125.00
$ 166.66
$125.00
) 166.66
$0.00
$5p°„°i!.
$0 00
$500.00
$325,00
$320,00
$2666.66
l5477~83
$5477.63
$ 100,00
$0.00_
' J 0X>0
$0.00
15377.83_
JULY
$325.00
$320.00
$2666.66
$5477.83
_ . _
15477.83
jn oo.oo_
$0.00
to.oo
$0.00
$6,831.65
JUNE
CpWP-/f<&r)
$7,196.65
$90.00
$90.00
$100.00
$0.00
J 0.00
$10.00
$0.00
$500.00
$0.00
$155.00
$IS5.00
$0.00
$83.33
$0.00
$1000.00
$10.00
$125.00
$0.00
$0.00
$155.00
$ 155.00
$0.00
$83.33
$90.00
$0.00
$100.00
$125.00
$0.00
$0.00
$10.00
$125.00
$0.00
$125.00
$155.00
$155.00
$0.00
$83.33
$220.00
$0.00
$100,00
$0.00
$100.00
* MM^HfattfirfUtk^e,^
1988 CASH FLOW PROJECTION
TOTAL
Fieldmen
Utilities
$0.00
$0.00
Professional
$0.00
$0.00
$155.00
$0.00
$1928.31
Equipment Malnlanence
Equipment
$5155.00
$45.00
583.33
Office Supplies
$155.00
$0.00
$83.33
$70.00
Oues/Subscrlplions
For. Reporter/USOA •.*-
$7500.00
$0.00
Eorelgn Travel
$125.00
$125.00
$166.66
$125.00
$125.00
Postage
$166.66
$166.66
$166.66
Phone
$166.66
$0.00
$500.00
$0.00
$500.00
to.oo
$500.00
$0.00
$500.00
$0.00
Promotion
$500.00
$325.00
$320.00
$2666.66
$5477.83
_ . .
$5477.e3
$100.00
Rent
$325.00
$325.00
$325.00
$325.00
Benefits
$2666.66
$5477.83
—
$5477.83
$100.00
$0.00
$0.00
$320.00
$2666.66
$5477.83
- _ .
$5477 83
$100.00
$0.00
$0.00
$5377.63
$0.00
MAY
$0.00
$5377.83
APRIL
$320.00
$320.00
$2666.66
$5477.83
$320.00
$2666.66
$31183.79
Wage Taxes
Salaries
EXPENSES
TOTAL
. _ .
$5477.83
1/1/88 checking balance
$ 1487.14
$29696.65
♦
TOTAL
$100.00
$100.00
Interest Income
$0.00
$0.00
$0.00
$0.00
$e854.30
$100.00
$0.00
$5377.63
$0.00
$5377.83
MARCH
Elkins, Manager.
$15264.52'
$S377j53
FEBRUARY
California
Idaho
Washington
Oregon
INCOME
JANUARY
prepared by Bill
Hop Growers of America Inc. : Annual Expenditures and income for 1988.
22
Siair (.'omim.s.sK ms, :iih ! Inloi~v
To: Board i<: i >;
From: Bill Elki::
Re: ! V8S IliCC
M;
I'ai'.i,
:Ul.ci', 1lop ( irowcrs ol AniLii'ii:;i
HIGHLIGHTS OF 1988 IHGC
HOBART, TASMANIA, AUSTRALIA
FEBRUARY 9-12, 1988
1. The Countries present or reporting at the 36th International Hop Growers Congress were:
Australia, Bulgaria, Czechoslovakia, France, West Germany, Hungary, Poland, Spain, United
Kingdom, USA, and Yugoslavia. No report was given by Belgium or East Germany.
1987 hop acreage o( the countries present or reporting was 140,118 acres which produced a
1987 crop of 186,595,360 pounds. 84,847 acres were in aroma hops, and 55,271 acres were in
alpha hops.
While everyone agreed that February was too early too make an accurate estimate of 1988
acreage, the basic feeling was that acreage will increase 1,730 acres netfor 1988. Aroma acreage
will be around 86,237 acres, arid alpha 55,387. West Germany did not attempt to make an
estimate at this time. 1988 projections reflect 1987 data, which might change drastically as they are
continuing their quest to receive a grubbing subsidy from the EEC.
Without a doubt, the single most evident trend will be the sliifting from alpha to aroma varieties
worldwide. This will only solidify the U.S. role as the premeir alpha producer in the world.
2. I had the opportunity to tour a number of Australian hop yards during my visit. While their
area under production is small (2,499 acres this year) they do have some advantages due to
geographic location and climate.
They are virtually disease and pest free. They receive their irrigation supply from the local
rivers and creeks at very low cost. They are able to produce a crop that is harvested in March of
eachyear.
There are also some drawbacks. At tliis time they only grow one variety- the Pride of
Ringwood, although I did run across a planting of Clusters and Brewers Gold. Geographically,
they are out there on their own-it's a long way to anywhere. Most of the production is used by the
Australian breweries. The leftovers are exported, but at what prices I don't know. 1 did hear one
report of a grower having sent free hops to an asian brewer for the past five years trying to develop
a market. Additionally, even with their small acreages some farms have extracting or peUetizing
operations on them.
My first impression upon seeing this was that they must be getting a ton of money for their
hops to be able to make ends meet. This does not seem to be the case. Many growers have, or are
about to, sell out or merge with breweries or hop dealers. Elders IXL, lohn I. Haas, and
HopUnion are active in the area in a number of ways.
They were all quite interested in the Bond Corporation acquisition of G. Heileman and
Pittsburgh Brewing, and seem to think that Carlton-Unitcd will be acquiring a U.S. brewer.
They all appear to be good growers, are good humored people who roll with the punches, and
have the potential to become bigger players in (lie market.
3. The Technical Commission meeting covered a number of topics:
23
I. Virus Diseases of Hop
II. Virus Free Hops: Benefits and Production Techniques
III. Stringing and Training of Hops in Australia
IV. The Semi-Mechanical Stringing of Hop Training Wires
V. Solar Drying of Hops
VI. Safety and Reliability of Hop Garden Structures
Ifanyone is interested in any of these topics Ihave the reports available for your review.
4. The manager ofbrewing materials for a major United Kingdom brewer was-in attendance. He
reported that he had recently been in the U.S. and made agood sized purchase of our hops. He
noted thathehas been delighted with ourhops, but questioned how long we could sell atsuch low
prices without undermining our industry.
5. The West German Delegation presented a resolution calling for (he IHGC countries to work
together to call on our governments to establish asingle set ofchemical residue tolerances
worldwide for hops. This all relates back to the E.P.A. regulations enacted in the U.S. After
much discussion the IHGC agreed that this idea should be explored. This issue really is the West
German hot button.
6. Dueto the fact that theTasmania IHGC was out of rotation with the usual August meeting
schedule, theExecutive Committee agreed to hold a special meeting in August of 1088 in
Czechoslovakia. Additionally, there will not be a March meeting in Paris. The 1989 congress is
planned for Madrid, Spain- but the Spanish delegation was not in attendance and their plans for
1989 have not been coniinned. The United Kingdom invited IHGC to hold the 1990 congress in
Hereford, WyeValley, Britain. IHGCaccepted this invitation.
7. TheWest Germans reported that the U.S.S.R. and East Germany have been dumping hops on
the market. Primarily Brewers Gold and Northern Brewers- ataround 100 DM per zentner (54<t
pound). Needless to say, this did notsit too well with them.
8. U.S. growers in attendance included: Alcid Roy, Lee Hcfflinger. Ron Brulotte, Dave Strausz,
Harlan Shinn, Gene Smith, Kevin Smith, and Dave Smith. Cal Skotland from Prosser-WSU was
also present.
24
Agricultural
United States
LA-))} Department of
Research
'Zs£0 Agriculture
Service
To:
Pacific West Area DEPT. GF CROP SCIENCE
Oregon State university
CORVALLtS, OREGON 0733?
Feb. 14, 1
Interested parties
From:
Al
Haunold
USDA,ARS, Corvallis, OR.
Subject:
1987 US Hop Production as calculated from bale counts
Information received from Bill Elkins, Hop Growers of America Inc.
State
Total pounds
IDAHO
3,719 360
33,742
OREGON
8,552 475
77vB88
WASHINGTON
36,883 242
334,603
Total
49,155 077
445,933
zentners
The December 1987 issue of Hopfenrundschau, page 407 carried the
following figures :"
1987 preharvest estimate:
48,942 120 lbs ;
444,000 zentner
1987 postharvest (Nov.) estimate: 47,950 050 lbs;435,000 zentner
The latest German production figures (Dec. 15, 1987, Hopfenr. page 413)
are:
65,079 461 lbs
or
590,397 zentners
25
July 28, 1988.
To:
Dr.
From:
Sheldon, Ladd, Head,
Crop Science Department
Dr. Alfred Haunold, project leader, Hop Research.
Subject:
Estimated benefits td Oregon Agriculture from hops.
1988
Va ri ety
acres
estimated
$--value
production
es>timate
Mill.
Mill
1bs
Willamette, released 1976
4040
5.0
11
Nugget, released 1983
1380
2.8
4
340
0.2
0.4
5760
8.0
15.4
Perled, introduced from
Germany in 1980
Totals:
$$
The three varieties listed
above represent about 75% of the total Oregon hop acreage in 1988.
Washington and Idaho had the following acreages and benefits
Willamette
Nugget
Perle
2093-1
1707 [estimated benefits in 1988: 9-10 Mill. $$
592J
The actual production (see table with US production, page...)
for Willamette, but somewhat higher for Nugget and Perle.
was fairly close
26
Busch Agricultural
Resources, Inc.
June 27, 1988
Dr. A. Haunold
Department Crop Science
Oregon State University
Corvallis, OR
97331
Dear Al:
A-B has received the hop acreage report for 1988 prepared by
the Hop Growers of America. It is of interest to note that 70.4
percent of the Oregon acreage are your varieties:
Willamette
and Nugget.
At this point, I predict that 90 percent plus of the Oregon acreage
will be planted to your varieties (about the time you approach
retirement).
Thank you for your cooperation and good work.
Yours sincerely,
Paul H. HosKins
PHH/vw
27
Table 1.
Hop Germplasm Distributed in 198
Date
Recipient
sent
Annen, Jerome
Mt. Angel,
Tune-
OR
97362
Variety
or selection
21120
Sept.
Amount
2500
hill 1:47
Reasons and remarks
potted plants 3 A off-station test for Miller
Brew. Co. special aroma hop.
Virus tested
(--++-)
Anheuser Busch Inc.
Aug. 4
21455
AG Resources
388
potted plants: Elisa score:
--+--, off-station
test at Bonners Ferry, N. Idaho
Yakima, WA 98902
c/o John Reeves
21456
470
potted plants: Elisa score:
, North Idaho
testing
21457
400
potted plants: Elisa score:
, North Idaho
testing
21458
400
potted plants: Elisa score:
, North Idaho
testing
21459
386
potted plants: Elisa score:
, North Idaho
testing
CGN Center for Genetic
Jan.
14
Resources, Wageningen
Cooper, Mrs. Inez
Hampstead, MD 21074
Apr.
Crosby, Kevin
March 30
7
97071
Eppler, Dr. Arne
5
Feb. 2
19172M
5
64103M
5
64035M
19058M
5
63015M
5
56013, Cascade
5
10
hobby gardening
21102M
25
triploid male yield stimulators for planting in
21104M
21105M
25
21106M
25
21175M
25
21176M
25
21177M
25
21178M
25
21189M
25
21190M
25
21191M
25
21192M
25
65009
5
Universitat Giessen
21193, Nugget
5
Inst. f. Phytopathologie
63015M
5
West Germany
65101, Talisman
5
21102M
21392M
5
5
64007
5
Goschie, Herman
rhizomes, for germplasm collection, Holland
19039M
The Netherlands
Woodburn, OR
19036M
May-June
21497, Tettnanger B
2100
7365 Meridian Rd.
Silverton, OR
97381
Willamette and Nugget yards
morphological studies, germplasm collection,
virus studies
(a triploid)
(a tetraploid)
German virus-free Tettnanger, potted softwood
cuttings, red stem, 3A off-station test,
started fall 1987; for comparison with com
mercial Tettnanger grown in OR (green stem)
Hop Union,
C.E.
Inc.
Apr. 18
21455
500
from Goschie farms Inc. for low trellis testing
21456
500
from Don Weathers, for low trellis testing in
21490
500'
21457
500
from Coleman farms Inc. for low trellis testing
21458
500
from Paul Serres, for low trellis testing in WA.
21459
500
from Stauffer farms Inc. for low trellis testing
21491
500
potted softwood cuttings for low trellis testing
Zimmermann
Yakima, WA
98909
in WA.
WA.
in WA.
in WA.
in WA.
28
Table 1.
continued
Date
Recipient
sent
Variety
or selection
Amount
56013, Cascade
21193, Nugget
10
21227, Perle
21041, Willamette
21015, Tettnanger
10
10
21101M
20
21102M
20
and Gene Probasco
21104M
20
Salem, OR
21175M
20
21177M
20
21189M
20
21190M
20
Hohmann, Ken
March 9
Rt. 1, Box 153
Wallowa, OR 97885
Haas, J. I. Inc.
c/o Pete Vandeneynde
May 12
97303
April 29
21455
21459
10
Reasons and remarks
testing in NE Oregon to evaluate production
potential
10
800
800
triploid males for yield stimulation
softwood cuttings from J.I. Haas Inc., Yakima,
WA, to establish 1A commercial plots in
Canada for Labatt and Molson breweries.
Dec.
Idaho Hop Commission
14
2
21496, Tettnanger A
21497, Tettnanger B
March 22
21490
Feb. 18
21182, Galena
21041, Willamette
56013, Cascade
1320
c/o Dan Dixon, Greenleaf farms, Inc.
Caldwell, ID
propagation and genotype evaluation
Z
rhizomes (incl. 120 from USDA plots, remainder
from Don Weathers, Salem. OR) for for Idaho
off-stn. planting
83605
Justin, Steven
Vermont Dept. Agric.
Montpellier, VT
05602
Kellner, Robert
April 19
Dir., Hop Res. Inst.
Zatec, Czechoslovakia
Kenny, Dr. S. T.
IAREC, P.O.B. 30
Prosser, WA 99350
Feb.
16
March 8
10
evaluate production potential
10
10
21182, Galena
21220, Eroica
21193, Nugget
7
21225, Olympic
21226, Chinook
7
7
7
variety testing, germpl. coll. mailed via Germ
plasm Repository-USDA-ARS
7
21496, Tettnanger A
90
21497, Tettnanger B
90
21491
30
21491
1
21492
10
10
potted softwood cuttings of German Tettnanger
clone (red stem), virus free, to establish WA
off-stn. plot
potted plants to establish WA off-station plot
mother crovn, hill No. 149:44 for propagation in
WA
21493
March 14
8401-04,34,41,65,68,
70,76,113,132,145,
158,163,175,192,196
8
8402-21,36,45,68,80,
93,99,106,136
8
ea
8403-03,07,41,45,86,
111,112,129
8
ea
8404-03,06,18,23,63,
72,79,88,89,106
8405-02,10,13,24,
21491
8405-27,31,38,39,45,
52,59,84,101,103,104
e
rhizomes, exptl. planting
rhizomes, exptl. planting
female *85 Nursery selections for planting at
Prosser, WA
29
Table 1.
continued
Date
Recipient
Kenny, Dr. S.T.
sent
March 14
Variety
or selection
Amount
8406-04,16,26,30,38,
44,45,49,54,58,62,
8 ea
Reasons and remarks
female '85 nursery selections for planting
at Prosser, WA.
64,65,79,84,85,88,90
8407-01,06,08,15,20,22,
23,26,35,37,38,42,43
8 ea
8408-01,04,06,11,12,16,
8 ea
18,19
21492
8408-30,31,43,46,47,51,
8 ea
61,63,66,70,72,74,
79,80,82,89,92,93,
21493
8408-106,108,114,115,
119,125,126
8409-18
8410-16,26,28,52,57,
69,75,80,85,86,96,
. 8 ea
8 ea
102
8401-37M,93M,105M
4 ea
triploid male observation Nursery
190M
8402-89M.92M.102M
124M.172M
8403-15M,27M,28M,57M,
69M,72M,115M
8404-33M,47M,75M,92M,
128M
8405-43M.62M
84O6-06M,09M,23M,32M,
37M,60M,73M
8408-35M,54M,110M,129M
8409-14M,17M,64M,68M
8410-88M.90M
124M
Kisgeci, Dr. Jan
Inst, for Hop. Res.
Univ.
Jan.
14
Novi Sad
21182,Galena
5
21220,Eroica
5
variety testing
-» —
Yugoslavia
Skotland, Dr. C. B.
P.O.Box 30, IAREC
Prosser, WA 99350
Jan.
Jan.
Feb.
8
26
2
21014,Hallertauer m.f.
2 ea
hills 7:1 to 7:4, separately ,virus assay
21015,Tettnanger
2 ea
hills 8:1 to 8:4, separately
21490
2
ea
hills 210:23 to 210:27, separately
21490
2 ea
hills 229:28 to 229:32, separately
64007
2 ea
64007
2 ea
hills 17:49, 17:50, separately
hills 232:01-232:05, separately
61021,Swiss Tettnanger
2 ea
hills 19:01 to 19:05, separately
21179.Hersbrucker- E
2 ea
hills 6:01 to 6:05, separately
19105
2 ea
19110
2 ea
hills 1:49, 1:50
2:49, 2:50
3:49, 3:50
19120
2 ea
21041,Willamette
2 ea
24:05 to 24:08
2
227:01 to 227:05
ea
30
Table 1.
continued
Date
Recipient
sent
Skotland, Dr. C.
Feb.
2
Variety
or selection
Reasons
21049,Styrian
ea
21056,Bullion 10A
ea
21112,Wye Target
ea
21182,Galena
ea
8:05 to 8:08; 239:01 to 239:05
ea
237:01 to
ea
7:05 to 7:08
31:05 to 31:08
21193,Nugget
21196,Bullion 6A
21220,Eroica
ea
16
March 8
229:12 to 229:16
ea
210:17 to 210:21
21226 .Chinook
ea
226:28 to
,Perle
48209 .Fuggle H
56013 .Cascade
64100 .Bullion
ea
220:01 to 220:05, 32:01 to 32:04
ea
10:01 to 10:04
13:01 to 13:04
ea
3:05 to 3:08
64107 ,No.
Brewer
65101 .Talisman
ea
4:05 to 4:08
ea
5:05 to
,Yak.Cluster
21116 ,Brew. Gold
ea
6:05 to 6:08
ea
15:09 to 15:12
ea
21040, Columbia
62013, Comet
ea
65009
ea
ea
63015M
ea
64032M
ea
64033M
ea
64037M
ea
21185, Hersbrucker-G
20
21014>
20
Hallertauer mf
1
21120
Sel 8301-01 to
226:32
5:08
hills 23:05 to 23:08, separately
20:01 to 20:04, separately
228:23 to 228:27, separately
"
26:55, 26:56, separately
29:55, 29:56, separately
30:55, 30:56, separately
"
"
"
4:57, 4:58, separately
4:01 to 4:04, composite
7:01 to 7:04, composite
ea
hills 1:47, 1:48, separately
separately, virus assay
75
ea
Sel 8302-01 to 18
ea
Sel 8303-01 to 143
ea
ii
Sel 8309-01 to 39
Skotland, Dr. C.B.
virus testing
237:05
21225 .Olympic
65102
Feb.
hills 241:01 to 241:05
206:01 to 206:05
16:09 to 16:12
ea
21227
Skotland, Dr. C.
and remarks
i*
e
hills 22:81 to 22:84, separately
21186, Spalter
1
virus testing and cleanup
21514,
21515,
21516,
21518,
21525,
21526,
potted plants, virus testing
March 9
21459
April 19
June 2
1
Hersbrucker-6
3
Hersbrucker-8
3
Hersbrucker-9
3
Hersbrucker alpha
3
Osvald Klon 72
3
Osvald Klon 126
3
21120
21497, Tettnanger B
• 21077, Saazer
21186, Spalter
2
20
hill 1:47, potted plants
potted plants for propagation
2
hills 21:05 to 21:07
2
hills 22:02 to 22:04
Serres, Paul
Woodburn, OR 97071
May 18
21491
1000
potted plants, new Hallertauer triploid selec
tion, off-station plot
Washington Hop Comm.
Feb.
21457
3000
rhizomes from Weathers Ranch,
19
Yakima, WA
98901
Don Weathers
Salem, OR
Salem, OR, to
replant 3A Washington off-station plot
504 No Naches Ave.
May 12
21496, Tettnanger A
Dec.
21187, Southern Brewer
3000
potted plants to complete 3A off-station plot
97303
Zimbabwe Ministry of
Agriculture
via USDA Germpl.
Repository,
Corvallis, OR
6
variety testing
United States
Agricultural
Department of
Agriculture
Research
Pacific West Area
31
Service
Feb. 19, 1
To:
Oregon Off-station Cooperators
From: Al Haunold, USDA,ARS
Coordinator
Subject:
Request for hop roots for additional off-stfion testing.
At the recent Hop Commission meeting in Woodburn on Feb. 16 we discussed
the requests from Washington and Idaho for additional roots as follows:
Hop Union (Chuck Zimmermann) in cooperation with Anheuser Busch wants to
test all 7 off-station
Hallertauer triploids under a low trellis system
in Washington and they need 500 roots of each selection.
The Washington Hop Commission wants to re-establish USDA 21457 at another
location since the original planting was in heptachlor ground. They
need 3000 roots total.
Idaho needs about 3000 roots of USDA 21490 and 21491 to establish these
selection in Idaho off-station plots:
The Oregon Hop Commission will
reimburse the growers for the roots at
the rate of $ 300,- per thousand.
Hop Union Co. will pay the Oregon Hop
Commission for 6 lots of 500 roots each.
will
The Hop Research Council
reimburserthe Oregon Hop Commission for the two lots of 3000 roots.
Hops will be supplied as follows:
Goschie Farms:
USDA 21455 --- 500 roots'
Don Weathers :
21456 —
500
"
Coleman Farms:
21457 --- 500';
"
Paul Serres
:
21458 —
500
"
Stauffer Bros:
21459 —
500
"
USDA
21490
---
3000 roots
21457
—
3000
I will supply planting stock of USDA 21491 to both Hop Union and Idaho
"
since the Oregon off-station planting at Paul Serres is too young to take
cuttings in the field.
Please dig the roots at your convenience and call me so that they can
be picked up: Tel.No. home: 752-3358 ; work: 754-2964
cc:
C.E. Zimmermann , Hop Union Co.
Paul Hoskins , Anheuser Busch Inc.
Dan Dixon, ID Hop Commission
Washington Hop Commission
Sam Likens, Hop Res. Council
Oregon Hop Commission
32
Table 2.
Hop cones and other hop-related materials distributed in 1988.
Dates
sent
Recipient
Anheuser Busch,
c/o Dr.
St.
Inc.
Variety,
Feb. 28
Paul Hoskins
louis, MO
63131
Sep. 28
Brewer's Digest
selection, or item
Amount
21470, Hallertauer tripl. sel.
1 lb
21481,
- " -
1 lb
21484,
- " -
1 lb
slides of Hallertauer selections
IL
pilot brewing
article in Brew. Digest
magazine
c/o Dori Whitney
Chicago,
cones for hand evaluation,
60646
Columbia River Brewery
Apr. 19
21456, Hallertauer tripl. sel.
2000 g
cones for semi-commercial
brewing tests
c/o Karl Ockert,
brewmaster
1313 NW Marshall
Portland, OR
97209
Aug. 15
Durant, Lucia
21484,
2000 g
(a Bu x ZS seedling)
Corvallis, OR
cones for Lannate (aphicide)
residue method development
OSU, Ag Chem Dept.
97331
Harris, John, brewmaster
Aug. 18
21456, Hallertauer tripl. sel.
3 lbs
21490, Hallertauer tripl. sel.
2
lbs
21457, Hallertauer tripl.
2
lbs
cones for brewing trials
Deschutes River Brewery
1044 NW Bond St.
Bend, OR
97701
- " -
Oct.
Jan. 14
Peto-Seed Co.
c/o Dr.
13
sel.
21456, Hallertauer tripl. sel.
600 g
26013, Cascade
300 g
brewing trials
Jim McFerson
Jersey City,
NJ
Jan. 7
Skotland, Dr. C.B.
for heptachlor residue work
directly N of building
IAREC, P. 0. Box 30
Prosser, WA
2 lbs
Soil Sample #1, Main Hop Yard
99350
Soil Sample #2, Smith Yard,
2
lbs
-
" -
-
" -
fallow area N of hops
July 22
Stephen, Thad
P. 0.
21531, Universal
4 leaves
21527,
Blato
4 leaves
grown plants for virus
21529,
Osvald Klon 31
4 leaves
indexing
21530, Osvald Klon 114
4
leaves
21528, Lucan
4
leaves
mature hop leaves of green-
June 10
21456, Hallertauer tripl. sel.
500 g
cones for brewing trial
Jan. 13
56013, Cascade
250 g
loose cones for photo display
Box 932
Willows, CA
85988
Teufel, Alfred
c/o Frankenmuth
Brewery Co.
Frankenmuth, MI
48734
33
Table 3.
Germplasm received at Corvallis in 1988
Amount
received
Supplier
Czechoslovakia (Ing. Robt.
May 10
Kellner) Institute for Hop
Research,
Zalec
Nov.
23
Remarks
Variety
7
Blato,
7
Lucan, 21528
21527
Derived from Saazer.
7
Osvald clone No. 31, 21529
7
Osvald clone No. 114, 21530
7
Universal, 21531
10
Osvald clone No.
10
Zlatan, 21533
72,
21532
Derived
from Saazer.
4
Hersbrucker clone No. 6, 21514
near Wolnzach, W. Germany
4
Hersbrucker clone No. 8, 21515
(via A. Liebhard, Geisen-
4
Hersbrucker Clone No. 9, 21516
hausen
4
Hersbrucker, red ste, 21517
Reddish
4
Hersbrucker-Alpha, 21518
Higher alpha than
HUH, Hop Research Institut
April 14
Amount
Rooted softwood cut
tings, virus free.
stem.
regular Hersbrucker.
Kenny, Dr. Stephen T.
IAREC,
March 15
4 each
8154-212, Hersbrucker x OP
P. 0. Box 30
Prosser, WA
(see
Pros
-230, Hersbrucker x OP
Miller, Stroh,
-237,
- " -
Stroh
-264,
- " -
Stroh
-274,
- " -
Miller
4 each
8252-115; 21285 (BOR) x 19172M
4 each
8253-138; 21285 (BOR) x 64033M
-229
4 each
8254-142;
- " -
21285 (BOR) x 64037M
"' -165
15
Anh. Busch, Coors
Anh. Busch
Miller interested
- " "
Anh. Busch;
'88 WA
off station
-244
March 24
interested
Miller interested
Coors
-167
Institute for Hop Research
Co.
('87 HRC Rep.,
ser), pp.29-32.
99350
Kralj, Dr. Dragica
Miller Brew.
-253
Coors, Miller, Stroh
-267
Coors
Osvald clone No.
72,
Derived from Saazer
(see folllowing let
USDA 21525
ter); a choice clone
Zalec, Yugoslavia
liked by Anh. Busch.
Osvald clone No.
USDA 21526
126,
Derived from the
English Fuggle (see
following letter).
34
Table
3.
continued
Amount
Supplier
Novi Sad (University of)
received
Amount
May 12
10
Variety
Ap 71/74/2a, USDA 21519
Remarks
Seedling of a cross
between Apolon (21051)
and a male from [Dunav
(21081) x Dunav] x No.
Brewer-OP; alpha 7,
beta 8, yield 2300
lb/A; resistant to
Downy mildew.
10
Ba ll/72/19a, USDA 21520
Seedling of a cross
between Backa (21080)
x
[Groene Bel (21216)
x (Groene Bel x No.
Brewer-OP)]; alpa
4.0, beta 6, yield
1800 lbs/A; resistant
to Downy mildew.
Skotland, Dr.
P.
0.
C. B.
June 2
USDA 21523
Box 30
Prosser, WA
Lubelski, virus free
Potted plant obtained
from 21113 by meristem
tip culture and soft
99350
wood propagation.
Nadwislanska, virus free
USDA 21524
Potted plant obtained
from 21114 by meristem
tip culture and soft
wood propagation.
July 12
Saazer-36, virus free
USDA 21521
Meristems No. 223, 255
potted plants from
hill No.
36, S.T.
Kenny yard, Prosser.
Most vigorous.
Saazer-38
USDA 21522
Potted plants, meristem
No. 231, from hill
No. 38, S.T. Kenny
yard, Prosser.
Less
vigorous than Saazer36.
Wye College, England
Dec.
8
21534, tetraploid Saazer,
Received as baby crowns
Dept. of Hop Research
closely related to
from rooted softwood
(Dr. Peter Darby)
21077 and 21532
cuttings
letter from Dr.
gica Kralj, hop breeder, Institut for Hop Research
Zalec, Yugoslavia, regarding the origin of various Saaz er
Dear
Al,
date :
I was glad to receive your letter.
new
season.
It
situation we
was
good
yield
March 14, 1
We are also preparing for the
last
year
are not so successful.
but
due
to
the
I am looking forward
common
to
this
year's selection which I think it will be registered. We already
have
the
elite
forecast
yield
in
becomes
which
production
true,
we
and
will
it
have
is
doing
well.
If
Savinjaki golding with
my
the
is known for Aurora. You asked me for SEMS clones.
Unfortunately we have
only
two in our colection,
number 72 and
126. We have already sent you the plants of these clones.
I am
enclosing you the literature in connection with Zatec hops. I am
also trying to give you a short summary of it.
^KSems (1S99-1967) selected in the population usteoki osrvenjak
(red
hop)
the
blatech.
native
They
early
cervenjak
in
Vrbica
and
Polepskych
propagated it in Usteck and Zatec. This has mixed
later on with the population of early oervenjak which gives_p_oor_
yield.
They also produced green hop (Zelenak). In the years 1927 - 1952
F.
Osvald
prepared
selection
froD
the
the
first
series
population
of
Podlesi clones 31, 11 and n't had
which did not give good results.
In 1969
the
two
varieties
synthesis
of
of
hop
individual
fields
higher
in
positive
the
yield
and
area
of
clone
126
Aromat and Slrem were introduoed and
numerous
clones
chosen
in
the
hop
form
gardens of
Zateo hop3. For aromatic hop Beranek i3 mentioned:
1500 - 1700 kg/ha,
1-1,5? of alpha acids and relation alpha and
beta fraction 1:1,35 - 1,50.
Osvald
clone
31 was
chosen from the population in Rakovnik.
is suitable for production onlpoOjT.
from
Destnice.
It
downy
mildew.
Its
shorter
than
different
is
Zateo
soil.
But
good
for
growing
hop.
it
brewery.
season
It
does
is
not
It
soil. Osvald clone 72 comes
is
It
for
plastic
like
the
is
susceptible
two
to
and
soil
three
grows
which
well
i3
too
to
days
in
rich
with nitrogen.
Osvald clone 111 wa3 chosen in Destnice.
than other Zatec varieties.
rich
humus,
It has bigger cones
It grows well in warmer regions,
medium heavy soil.
The growing season is
on
three days
shorter than that of Zateo hop.
Osvald clone 126 was
variety Fuggle3.
Aromat
comes
chosen from
the population of the English
It is a half green hop.
from
the
population
of
hops
from
Lhoty-Dzabno
(Lounske Podlesy, reg. number R 13/13). It belongs to the group
of
Zatec
polurani
(half
early)
cervenjak
(red
hop).
It
has
higher yield than the clone 72 and 12-15J more alpha acids and a
good hop aroma.
It ha3 a bigger resistance against downy mildew
than the medium early Zatec red hop and it has fewer leaves.
Slrem is also colled
Potoka
(AU
reg.
Aururo.
number
It comes
P52/19).
from Sirem in
It
belongs
to
Udoli
the
Zlateho
standard
polurani Ssrvenjak. Technloal ripeness is similar to that of the
usual
population of
Zatec
hop3.
It
has
big
leaves.
In warmer
areas it gives llj more alpha aoids. It grows well on heavy to
medium heavy soil.
35
clones
36
Table 4:
New Accession numbers assigned in 1988.
Accession
No.
Source
Location
Name or Pedigree
21514
34:5-12
W.
Germany
Hersbrucker-6; clone No. 6 of German Hersbrucker; virusfree
21515
35:5-12
W.
Germany
Hersbrucker-8; clone No.
21516
36:5-12
W.
Germany
Hersbrucker-9; clone No. 9 of German Hersbrucker, virusfree; higher
alpha; best yield potential of German Hersbrucker clones
21517
37:5-12
W.
Germany
Red-stemmed Hersbrucker; virusfree, red stem selection; higher alpha
potential
21518
38:5-12
W.
Germany
Hersbrucker-Alpha; virusfree; higher alpha potential (up to 6-7%),
lower
21519
39:5-8
Yugoslavia
8 of German Hersbrucker; virusfree
rate
Apolon, (21051) x [Dunav, 21081 x (Dunav x Northern Brewer - OP)]
Ap71/74-2a
21520
39:9-12
Yugoslavia
Ba 11/72-19a
Backa, 21080 x [Groene Bel, 21216 x Groene Bel x Northern Brewer - OP)]
21521
208:6-8
Prosser, WA
Saazer-36; virsufree meristem tip cultured USDA 21077 from C.B. Skot
land.
Meristem No. 223, 223, 255 (now hills # 208:6,7,8 at Corvallis);from S. T. Kenny yard, hill No. 36. Prosser, WA.
21522
209:6-8
Prosser, WA
Saazer-38; virsufree meristem tip cultured USDA 21077 from C.B. Skot
land. Meristem No. 231, 231, 231 (now hills # 209:6,7,8 at Corval
lis); from S. T. Kenny yard, hill No. 38. Prosser, WA.
21523
222:6-10
Prosser, WA
Virusfree, 21113,
21524
223:6-10
Prosser, WA
Virusfree 21114, Nadwislanska, by meristem tip culture.
21525
Greenhouse
Zalec,
Yugoslavia
Osvald clone No. 72 (obtained from Dragica Kralj), selected by F.
Osvald from commercial Saazer near Destnice, Czechoslovakia; higher
Lubelska, by meristem tip culture.
yield potential; of special interest to Anheuser Busch.
21526 •
Greenhouse
Zalec,
Yugoslavia
Osvald clone No. 126, selected by F. Osvald from commercial Fuggle.
Obtained from Dragica Kralj, Zalec.
21527
Greenhouse
Zatec, Cze
Blato, derived from Saazer.
choslovakia
21528
Greenhouse
-
"
-
Lucan, derived from Saazer.
21529
Greenhouse
-
"
-
Osvald clone 31; selected by F. Osvald from commercial Saazer near
Rakovnik, Czechoslovakia; suitable for poorer soils; alpha 4; beta 8.
21530
Greenhouse
....
Osvald clone 114; selected by F. Osvald from commercial Saazer near
Destnice; this clone has larger cones, prefers warmer regions, med.
heavy soils with high organic matter; matures 3 days earlier than
Saazer; alpha 4-5; beta 8.
21531
Greenhouse
21532
Greenhouse
21533
Greenhouse
Universal, derived from Saazer.
Osvald clone 72, obtained from Ing. Robert Kellner, Zatec, CSR, at the
end of the 1988 season; selection is of special interest to Anheuser
Busch. alpha 3-5; beta 7-10.
Zlatan, derived from Saazer, obtained from Ing. R. Kellner, Zatec, at
the end of the 1988 season.
21534
Greenhouse
Dr. Peter
Darby
Wye College,
England
Tetraploid Saazer; rooted softwood cuttings, received as baby crowns in
December 1988; closely related to 21077 and 21532.
37
Table 5.
Hop genotypes discarded in 1988.
Accession
1988
No.
Location
Name or Pedigree
Reason
21198
227:12-16
65009 x
19046M
very late maturity, very low
H/C ratio
21504
226:23-27
64003 x
21268M
yellow fleck, top crop, v. poor
yield
21510
224:28-32
64003 x
21271M
yellow fleck, v. poor yield
21091
237:28-32
21003 x
19010M
virus infection, poor yield
21334
50:55-60
64107 x
21108M
very weak, died in the field
21411
103:3-4
21153 x
21153M
very poor growth, weak crown
21413
107:3-4
II
21142M
102:7-8
65104 x 6772-20M
very poor growth, slipdown
21165
101:11-12
19001 x
21153M
too late in maturity
21166
103:11-12
65011 x
21153M
21174M
104:11-12
(56008-)P) x OP
21103M
101:43-44
21003 x
21107M
102:45-46
21003 x OP
21301M
116:13-14
65009 x
21418M
116:15-16
21255 x 21328M-
21430M
123:21-22
56013 x 19062M
_ H _
Fu 1-1
64035M
very weak, poor laterals
very weak, downy mildew crown
infection
21431M
114:23-24
_ ii _
56013 x 19173M
too late, poor vigor
West GH
195:45
195:46
West GH
West GH
East GH
1:47
1:47
2:48
2:48
8802
8803
8804
8805
8806
8807
8808
8809
8810
8811
X
8309-26M
X
8309-32M
X
8309-32M
X
8309-26M
X
8309-32M
8309-32M:
-32M mixture
X
8309-26M
X
19046M
X
21119M
X
19046M
X
21119M
-
"
-
x LCS-FuS] x do
x LCS-FuS] x LCS-FuS
x LCS-FuS] x do
x LCS-FuS] x LCS-FuS
x ZaS]
[(LGpS x Fu-FuS)
21121
[(LGpS x Fu-FuS)
21121
[(LGpS x Fu-FuS)
21120
[(LGpS x Fu-FuS)
21120
Osvald clone 72 x tetrapl. male
21525
Tettnanger B x tetrapl. male
21497 x 8309-26M;
Tettnanger B x tetrapl. male
21497
Tettnanger B x tetrapl. male
21497
Tettnanger A x tetrapl. male
21496
Swiss Tettnanger x tetrapl. male
61021
Swiss Tettnanger x tetrapl. male
61021
Pedigree y
y 8309-26M: Cas X [(BG x EG-XS)
West GH
of female
8801
Location
Crosses made in 1988,
No.
6,
Cross
Table
poor seed set
0.1030
high beta types; sisterbrother mating
poor seed set; get low alpha,
high beta types; backcross
poor seed set; get low alpha,
0.1625
backcross
sister-brother mating to get
low alpha, high beta types
genotypes;
get low alpha, high beta
cross, many seeds empty
obtain triploids; late Sept.
obtain triploids
empty.
obtain triploids; most seeds
empty
obtain triploids; most seeds
empty,
obtain triploids; most seeds
empty
obtain triploids; most seeds
1.6535
6.2261
1.2308
0.6948
1.0941
1.2198
0.0535
2.4977
obtain triploids; most seeds
1.1247
empty
Reason and remarks
Seed
weight
CO
CO
II
II
10:
12:
17:
21-
48209
56002
61019
62051
10 5-8
21173
66052
19
23
27
29
33
21114
21276
21280
21282
65104
—
ti
ti
it
it
ti
ii
it
ii
it
9-12
II
11
31
Lat Cluster Sel L-8
9/8
9/8
Wye Saxon
19
19
Early Prolific
Pride of Kent
19
19
Nadwislanska
Lubelski-Pulawi
9/8
Wye Target
19
31
Brewer
Cascade vf?
Blue No.
BaiSka
19
19
Star
Nordgaard 1478
Swiss Tettnanger St- 1
31
19
Willamette
19
Styrian Golding
9/8
Pride of Ringwood
19
19
9/8
Spalter
Strisselspalt
Alliance
19
Janus
19
Yugoslavia Golding
235
85
1312
576
128
384
1493
907
277
299
540
555
427
640
796
704
569
320
171
171
491
171
9/8
Backa
501
149
523
19
19
9/7
lbs/A
Aug.
Fuggle-N
Fuggle-H
Yield-/
Date
Harvest
Hersbrucker-E
Name
Bight of 4 -hill plot x,10665
18
21113
green w
16
21112
1/
14
21092
32
8
29
21217
21197
9
27
21215
21080
11
24
21041
21079
II
20
21049
It
12
66050
II
tl
22
31
21186
II
II
It
It
9:
6: 1-4
Row:Hill
Location
4.2
6.8
9.1
4.1
3.0
3.8
11.8
5.8
5.1
4.7
4.7
2.9
7.9
4.5
4.2
5.4
9.8
4.8
4.2
3.8 .
4.2
3.2
4.3
3.8
4.1
%
a
2.7
3.8
5.5
1.8
3.1
2.9
5.3
4.2
2.1
5.8
2.3
1.6
3.3
3.0
2.2
2.1
5.6
3.5
4.3
2.4
2.3
6.7
2.3
2.3
5.3
%
0
61
64
62
70
49
56
69
58
71
45
67
65
70
60
66
72
64
57
50
61
65
32
65
63
43
ratio
(Duality
42
20
37
23
21
23
35
34
22
21
26
26
30
30
29
31
31
25
22
25
27
21
27
28
24
%
CoH
0.26
0.52
2.43
0.50
0.25
1.51
0.52
0.72
0.22
0.70
0.45
1.02
0.33
0.46
0.66
0.41
0.74
0.29
0.61
0.44
0.47
0.62
0.38
ml/100 g
oil
Agronomic and quality data of hops grown in the Seeded Hop Variety World Collection,
Corvallis.
1988. Pruned March 28; trained May 8-15.
21016
21179
No.
Accession
Table 7.
baby
very high oil
Fuggle type
triploid
like Hersbrucker
Remarks
U3
OO
•
"
"
"
"
"
223
224
225
227
229
231
232
233
234
235
236
-42
8020-32
8021-11
21041
21404
64007
8401-70
21238
8303-58
-66
21397 x
241 ; "
244 :
77
88
21406
8303-
-
57
8303-122
-163
01
ti
"
213 :
215
"
211 :
205 : "
"
204 :
-121
-
"
"
203 :
-119
8301-
"
201 :6-10
21397 x
ii
"
21397 x
"
"
248
"
- 94
Galena
-104
ii
rr
"
240 : "
21405
246
SuperAlpha
AlphAroma
"
•
239
64035M
19058M
64035M
65009 x 64035M
21182
Nugget
"
237
238 :
H
21397 x
64035M
19172M
21397 x
Blisk
19058M
19105 x
Green Bullet
21193
"
"
Sticklebract
it
21268M
19185 x
Willamette
21267M
M
19185 x
64035M
it
"
"
21397 x
Perle
"
21194
21403
"
221
8303-37
it
"
220
21227
II
»
219
n
218
"
8303-17
-29
21397 x
"
215:
217:
8019-03
-20
21266M
64035M
19185 x
"
214:
21049
L
L
ME
L
E
L
L
VE
20
54
60
59
2.6
4.6
3.4
3.0
7.1
4.9
lOOe
600e
46
6.0
5.1
20
10
lOOOe
4.5
2.9
600e
15
8
1374
40
3.2
2.7
600e
20
12
46
3.4
10
52
64
2.5
2.7
20
10
6.1
57
55
68
5.2
3.2
4.8
67
600e
6.7
3.9
10.4
600e
1130
8/31
20
25
2133
12
8/2
5.0
10.1
1075
12
28
61
400e
15
15
9.0
14.3
2133
2
6/20
26
74
8.0
62
4.8
13.3
793
12
13.5
1578
12
25
6
20
23
789
20
25
27
28
17
19
23
16
19
26
35
33
42
24
21
45
40
3.2
4.1
2.7
2.8
544
34
24
7
70
45
7
15
20
25
18
15
6.5
39
32
9.2
4.0
72
25
41
27
65
28
70
64
1874
5.4
6.5
4.4
4.4
42
69
7
lOOe
2.2
20
5
18
10.9
2378
1578
7
6
28
15
6
8.2
1954
356
6
2.4
5.8
6.4
495
6
3.5
3.1
7.0
1809
20
18
64
40
1.8
4.4
20
15
54
41
26
23
38
30
69
4.1
3.3
4.9
25
34
51
63
•4.2
3.8
65
63
2.2
6.4
56
57
4.3
5.4
35
66
24
33
69
3.8
5.8
8/31
8/31
2.9
28
25
8
3.1
500e
400e
15
15
6/30
9.2
448
2.3
8/31
5.8
512
400e
6
28
15
30
3.9
15
7.1
683
•
870
1374
4.2
444
6
6
6.9
10.8
1305
8/31
2
5.7
964
6
25
8.7
11.1
657
1203
8/31
8/31
15
62
4.6
7.5
530
6
1.04
1.20
0.91
1.76
2.78
1.50
2.19
0.28
0.79
0.76
0.84
0.30
0.99
2.15
1.46
1.54
0.47
1.56
37
70
4.0
9.2
930
8/31
31
ml/lOOg
%
Sept.
8/26
8/26
15
E
Styrian Golding
"
Qua1i tv
ratio
oil
lbs/A
Yield-/
CoH
Date
Harvest
6/30
6/22
6
20
10
"
213:
n
6/22
25
12
E
15
4
E
25
15
30
20
Most
ME
20
10
July
First
Flowering
ME
L
ME
ity—'
Matur-
Banner
19058M
210:
-63
21397 x
21287
"
208:
8301-47
Bullion
It
"
206:
21056
II
204:
21370
ft
202:
n
Atlas x (t
tetr.
201: 1-5
21369
21368
Name or pedigree
No.
Location
May 2-12.
Row:Hill
March 17; trained:
Sel.
Pruned:
Hop varieties and selections grown in the Seeda* Observation Nursery (Smith Yard), Corvallis, 19£
Accession or
Table 8.
med.
top
crop
flowers
cones
stem
stem
small
baby
red
red
red stem
male
sparse
red stripes
red stem,
baby
sleeper
red stem
nice,
small cones
sleeper
cones
flowers
small cones
male
triploid
triploid
triploid
Remarks
CD
21397 x 64035M
233
8303-124
-142
2
Cascade x
65009 x 63012M
21397 x
244
245
247
248
21287
21407
21408
8304-12
L
20
242
-73
207
209
8406-64
8304-29
21361M
19185 x
21055 x
Eroica, v.f.
219
222
223
224
225
229
230
231
232
8026-152
21502
21382
21251
21220
21261
21285
8304-89
237
-120
21108M
21362M
X
X
X
X
X
65009
65009
21055
21397
21055
21397 x
204 17-21
212
215
217
218
219
21181
21199
21247
8308-44
21248
8308-46
19046M
21397
243
E
21362M
21108M
ME
19182M
L
19046M
21337M
X
65009
242
21180
8306-02
X
21397 x
236
90
8304-
19058M
64037M
Cascade x
19046M
65009 x
233
234
21409
21503
64037M
19046M
21397 x
BOR-704
65009 x
19058M
21109M
Cascade x
21353M
21344M •
19185 x
218
21228
8025-57
Hallertauer m.f. ? (Fu type)
it
19058M
L
tt
206
21397 x
Cascade x
205
21500
21501
64037M
21397 x
203
8304-20
8.
1226
1290
13
7
1
1101
930
30
631
lOOOe
20
30
15
lOOOe
887
lOOOe
555
1561
15
25
20
28
lOOOe
1109
2082
853
500e
384
1271
1237
796
1092
1416
28
12
12
563
1297
25
20
13
13
8/2
25
13
13
8
13
8
1
1
lOOe
lOOOe
5.8
17.3
8.6
16.0
8.0
4.3
9.8
3.4
3.2
7
6.
2.
7.
11.
14.6
11.8
10.5
6.4
6.6
5.3
4.2
5.2
9.2
10.9
572
1839
7
13
2.7
583
1
11.0
1860
2.1
6.7
400e
lOOOe
7
2
800e
3.8
1.9
2.5
3.8
2.8
6.6
6.8
6.1
6.1
5.2
11
2378
1
9
2
1035
7
60
71
68
78
61
51
56
54
38
48
50
56
52
42
54
72
72
60
55
63
77
68
52
65
58
62
31
64
56
40
30
63
69
63
31
58
42
59
65
66
5,
3.2
P
Oualitv
ratio
4.
3.
7.
10.
a
560
1081
700e
1561
1160
lbs/A
Yield-/
7
1
1
1
Sept.
Date
Harvest
20
28
25
28
28
20
22
18
28
25
22
22
25
30
12
15
15
15
30
30
30
8/2
15
6
Most
12
15
2
15
15
20
15
15
12
15
20
12
15
15
20
20
12
15
10
20
15
12
15
202
21513
19058M
18
8304-15
Cascade x
15
249
201 12-16
21483
64037M
OP
20
Banner
20
21397 x 64037M
235
241
25
5
6/27
July
First
Flowering
8304-67
21268M
19785 x
216
230
8021-40
ity-=/
Matur-
SoBx[Ha-0Px(Saazer x Ha-OP)]
Name or pedigree
21485
6-10
Location
Row:Hill
No.
Sel.
continued
Accession or
Table 8 :
24
35
21
39
38
39
30
28
21
17
33
25
16
15
21
39
37
19
29
25
27
27
17
21
20
23
23
28
20
15
17
49
40
39
27
22
23
21
41
17
%
CoH
1.93
1.00
1.21
2.18
0.53
1.65
78
10
90
22
1.00
1.20
1.2E
1.15
0.49
1.01
2.21
1.27
1.71
0.24
ml/lOOg
oil
stem
stem
cones
top crop
nice, medium cone
sleeper
rich in lupulin
weak arms?
Downy mildew
red stem, yellow fleck
DM/cones
red stem
red stem
baby, varieg. leaves
red stem
g* , co mpact
red
red
Remarks
j
i
1
42
0-
O
C
T)
u
en
C
u
C
3
M
O
O
r-- o
ro o
r-l
o
m
f-i
on
r^
co
oo
cr>
CM
ON
a
<f<tCSOOCT>t—lOOOOfO'
(NNNCMCvJHNOJHN
r-'r^iTlO^CNr-IOOCNr^
rOCMCMCMCM<tCMrOCNrO
irii-icomcM<tmosooCT\
mr-roco<f-ooNCMrocM
in<tmvo<trovovo<jvo
<tr^c^<tooor^t-in<t
m»ou)N>D<fcoirnom
cominm<t<JCT»cNinr^
-4-cocoinrovommvovo
co 4
rHr-^<jvovococoinrv-o*
O«—*«-HOC0CMr^COOin
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mvoinr^<]-cMmoovoo
r^ni-lvor^<tcricor^cT<
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4
n
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4
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CO
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n
r^ o
•
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m
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sf CM O
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r-in-stvooNOOcoO'
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on
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vo
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w
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4.6
400e
400e
400e
9
25
18
25
18
20
12
10
15
8
12
12
E
E
E
ME
E
E
»
••
-
213
214
215
216
218
220
223
225
226
8407-35
-43
21492
21507
21508
21509
21384
8408-46
21226
229
231
232
233 :
234
235 :
21490
7003-154
21197
21493
21222
21197
:
238
239
241 :
21511
21512
21246
"
..
"
"
25
31
67
73
74
5.1
2.3
5.1
8.1
4.7
300e
356
563
13
26
25
22
15
15
15
8
E
E
E
L
21397 x 21381M
Aquila
Swiss-Tettnanger St-2
SuperAlpha
21055 x
21108M
21254 x 21335M
21254 x
21328M
66
2.4
4.6
785
20
10
E
Swiss-Tettnanger St-1
^/green wt/5-hill plot x 0.08532; e - visual estimate
3.5
567
14
20
10
2.1
395
13
8/3
25
L
ME
8.4
555
13
25
11.0
3.6
5.1
9.7
14.2
839
14
30
18
3.7
20
26
57
8.5
11.3
.736
13
30
18
28
37
76
1.44
1.07
1.68
1.25
1.47
0.75
27
0.66
1.67
2.24
45
20
31
80
61
58
38
26
16
44
19046M
65009 x
"
8.2
6.5
661
14
20
10
20
3.7
553
9
53
6.5
5.8
4.1
725
14
20
tt
21397 x
47
32
23
0.90
0.85
33
32
0.96
2.95
1.69
ml/lOOg
oil
29
31
19
19
24
23
27
20
25
78
10
57
28
15
4.1
5.5
400e 1301
14
25
15
4.2
60
5.1
7.7
495
2
15
8
14.5
57
4.3
5.8
779
14
3.4
25
68
4.1
7.2
74
4.2
725
52
6.3
5.8
9
59
48
4.4
6.3
11.8
64
2.9
1024
77
62
%
CoH
15
21381M
21381M
21397 x
Chinook
64035M
21271M
64100 x
rt
64003 x
^E, ME, L - early, medium early, late
:
236
21405
.
:
"
228
"
"
227
8309-05
ii
»
..
"
•i
n
21381M
6619-04 x 63015M
21397 x
»
21397 x 21380M
n
8408-74
.
5.3
400e
25
12
ME
21397 x
n
21361M
212-
8406-38
Oualitv
ratio
4.8
3.1
614
14
4.9
15.8
400e
30
8/3
20
%
P
%
15
a
L
lbs/A
ME
Yield^/
21361M
Sept.
Date
65009 x 64035M
Harvest
21397 x
ii
Most
210:
July
First
209: 28-32
Flowerine
21195
ity-/
8406-04
Matur
Name or pedigree
Row: Hill
No.
Loca *"i i"in
concluded
Sel.
8:
Accession or
Table
stem
male
flowers
large, fluffy cones
Fuggle type, green stem
Fuggle type, green stem
large cones
downy mildew
red stem
yellow fleck
WA off station
large cones
red
large cones
Remarks
x
64035M
21335M
19046M
x
poor, good, very good
11
-/p, G, VG
it
35
21181
19046M
21108M
19058M .
34
65009 x
64107
19105 x
LGpS x Fu - FuS
65009 x
21254 x
19005
Pedigree
21180
H
25 .51-52
21451
"
17:
1-49-50
it
tt
ti
it
n
It
64007
19105
26
8
21127
21373
6
21125
22
4
21123
7611-143
2
3
21122
It
1- 47-48
21121
21120
Location
Row:Hill
or Sel.
No.
Accession
P
VG
G
VG
VG
P
G-VG
G-P
VG-P
G
VG-P
VG
G
Vigor—'
Pruned March 28; trained May 15-18.
9
9
9
9
9
9
9
9
9
8
8
8
277
1344
384
1343
1600
213
363
299
448
427
469
576
896
lb/A
Sept.
8
Yield
Date
Harvest
10.4
8.7
6.7
2.4
1.3
11.5
10.1
0.8
0.8
0.7
1.5
0.8
1.4
%
a
. 5.5
6.7
2.8
6.7
6.0
5.1
3.5
3.7
2.0
4.5
3.6
5.1
6.9
%
P
Table " : Selected Yield and Quality Data from the Female Germplasm Nursery.
65
57
70
26
17
69
74
19
29
13
29
14
17
ratio
'
41
27
29
28
35
20
23
41
40
46
50
47
41
%
CoH
Corvallis,
1.68
1.77
0.60
0.81
0.95
0.61
0.42
0.15
0.50
0.45
0.78
0.67
ml/lOOg
oil
1988.
poor pick
Remarks
-pi
45
Table 10 : Promising female selections from the 1987 Nursery, grown in the seeded Main
Yard, Corvallis.
1988.
Planted May 18-20, 1987; pruned March 21; trained May 10, 1988.
Chrom.
Location
Sel.
No.
Row:Hill
Pedigree
No.
Aug.
Yield-/
a
P
lbs/A
%
%
7.5
2.5
75
ratio
CoH
oil
%
ml/lOOg
32
171:32
61021 x
20
29
2300e
- 46
46
ti
20
1152
5.1
2.9
63
29
0.98
- 47
47
ii
20..
9/8
9/8
1408
8.5
3.9
69
24
0.89
- 58
172:05
It
20
23
1280
5.3
2.2
70
25
0.68
20
22
1706
8.8
3.9
69
26
0.99
20
9/8
1578
9.2
3.4
73
23
0.82
22
1706
8.4
4.2
67
23
0.42
20
9/8
9/8
1920
5.6
3.0
65
24
0.67
1322
6.5
3.2
67
26
1.06
20
23
1621
6.7
2.6
72
25
0.92
9/8
9/8
1578
8.3
3.8
69
24
1.08
20
2686
7.6
2.7
74
23
1.16
30
2800e
7.9
3.1
72
20
20
23
1536
8.1
3.5
70
24
0.54
1.03
8601-
1
Quality
Date
harv.
8309-26M
25
8602-
19
172:26
61021 x
-
35
42
ll
-
55
173:09
It
- 94
48
tt
- 95
49
It
- 97
51
It
-102
174:03
ll
-119
20
II
-125
26
ll
-162
175:10
tt
-165
13
tt
20
6.5
6.0
52
22
14
tt
20
9/8
9/8
2304
-166
2090
7.0
5.4
56
25
1.16
-169
17
ll
20
23
1920
7.7
3.3
70
25
0.98
-170
18
tt
20
9/8
1749
7.8
4.6
63
24
0.98
-189
37
ll
20
30
1493e
6."8
2.0
78
17
-207
176:02
tt
20
23
1962
6.5
5.8
53
22
0.63
-236
31
tl
20
23
1578
7.0
2.8
71
25
0.68
-246
41
ll
20
24
1536
8.9
3.0
75
30
1.04
-247
42
tl
20
24
1450
11.3
4.1
73
26
0.95
-252
47
It
20
24
1706
7.6
2.9
72
30
0.45
-265
177:07
It
20
24
1450
7.2
4.9
60
26
1.06
-272
14
tt
20
24
1578
6.8
2.9
70
24
0.86
-274
16
:• 24
1664
12.3
3.2
79
23
1.13
-292
34
24
1365
6.4
2.1
75
29
0.70
-300
42
0.86
8309-26M
II
"
it
20
24
1280
8.7
4.0
69
25
20
24
1237
6.7
2.5
73
21
0.87
-305
47
ii
-320
178:09
it
20
25
1792
7.2
4.7
60
25
0.90
-326
15
ti
20 ••
25
1365
8.9
2.5
78
24
0.90
-333
22
ti
20
25
1877
10.8
3.3
77
26
1.67
-348
37
•I
20
25
1920
6.3
3.3
66
26
0.65
-353
42
it
20
25
1664
6.6
3.3
67
24
0.58
20
25
1408
5.5
5.9
48
21
0.97
20
25
1706
6.4
4.3
60
26
0.88
26
1834
11.4
5.1
69
23
0.82
-357
46
ii
-361
50
ti
-365
179:01
ti
-368
04
n
26
2133
14.5
5.2
74
28
0.70
-370
06
M
20
26
1664
7.6
2.4
76
29
0.43
-388
24
ii
20
25
1450
5.7
2.5
70
29
0.28
-399
35
ti
20
25
1621
7.6
2.7
73
26
0.68
-411
47
ti
20
25
1450
10.1
3.6
74
25
0.87
-415
51
it
25
1450
10.3
3.5
75
23
0.30
"3"
VO
3
C
•r-l
W
O
O
o
a)
r-l
O
«X
-II
r-l
>
>*
a>
rC
4->
Q
•
BO
o
o
to
rO
bO
in
H
in
<f
ro
co
r~^
o
i—i
<f
on
P-on
oo
r-l ro
co
on
co
in
vo
o
co
m
r^
<t
n
on
n
co
cn
cm
oo
o
co
ai
O
iH
lO
CTi
O
-4 O
vTi -^
O
O
CTi
CO
O
on
co
OOOOOiHOO
vo,—i^ocor-^-d-inr-^
vOM>ffvcoon<f
rHOiHOOOOOOO
MoinMnMnmaco
ocor-^vovovooooNONON
CMCMCMCMCMCMCMCMCMcO
CM<tONvOinvOrHONU~lO
O
<fH<tmi/inincoNH
cocor~-mr^r-LOvx)<taN
HOOvtNCMNvOvtCO
voirirlvoini/Ktvoinin
ONCNior-ocoocor-ON
tnvor^.vor-r-mrvvovo
O
O
CMCNCMCMCMCMCMCMCMCM
o
o
COCOCOOrO^tONVOvOCO
o
o
CMCMCMCMCMCMCMCMCMCN
O
CN
O
CM
<}• r-^ co
co<j-vor-~Loo<fmONO
mvOvOiovoiONvO<}i—
O
CM
cMiHvocMcocoinr^covo
r---r~-r-~mvominLni^-Ln
O
o>
CO
r-
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r-l
CM
CO
vo
co
O
r^vo<)-CNLnooG^voco<j
VO
r-^
o
rH
HCNMCNlCNINCMCNlCNCvJ
VO
vo
in
voooNr^o\voovoGNO
Lnro<J-rOiHcMcocMcocM
NintTivroivDI/lvOinvO
comr-icor~^roa\vDi-ir^
vo
Ln<}-rocM<f<J-rHro<l-<t
vo
MCMro<f<tsr<tmcMvr
r-~Ocor-^<l-OiH,—iloon
voinvor-^vor-^r^r^r^r^
<h
Ovoo<j-<frHinmmin
COvOCNIOxrHCMOvOvOLn
Oi<t«1lOHNCClolAO
<t
co
o
H
in<r<tco<t-c-ococMicMCM
co cm <j- <r
r-^
VO
o
CM
o
ONONONONONONONONONON
OOOirOvOnaivOrNfO
CTivOirivDlAMO<t<tvO
o
rlCOrimtOCVKtvOOm
rH
iHrHrHrHi-lt-lr-lrH
CO
NNvtMNCNO-CtinO
ONOrooNr-~r^<j-ovo<)<tooa\--frococMinrocM
LnincMrocooNCMr~~cMco
vOvOvOONONOmcMCMON
COCO(Tl<t-stHHCOCOsf
1H1H1H1—I i - I H H C O i - I H
CM
on co in
O
un <r
i-l
<t
O
rH
CM
CM CO
COONrHcOCMCOONOm-Ct
r-.invOrHr^r^oocor-^i—
coiovocNOOcor-^tnin
ONOOONCMinOrOONvD
str^h-NOisfsrcMHCO
iHHHHHHCvlNNN
CM CM
r-l
CM CM CM
CM
COCTNONONONONCOCOrOON
CM
o
OWW\r-lt-lrH\
o
corororocorocororoco
CM
OOOOOOOOOO
O
O
CO
CO
o
O
CM
CO
O
O
CM
CO
O
O
CM
CO
C-J
o
CslCMCMCMCNONCMCMCMCO
o
CO VO VO Ui (Ti \ C J i a\ 0\ O
CM
2
rH
ON
00
CMCMCMCMCMCMCMCMcOrO
(OstlOvOvOMDOvOrl
CMCOiHCMLOr^COONrHCM
ON
O
irivOsfuNCONCOCTiHCN
HCv|CO<f<tOHCNcO<f
O
2
i
|H
CO
CO
COOMHvfulvO(MOOH
ooonononoocoioooco
H
rH rH rH <H CM
p^
co
rH
UN.NO\Hv0hinHst<f
CMCOCO<r<f<tCM<J-CMrH
CM
vo
o
ON
CM
CO
ro
oo
ON
o
X
vO
CM
st
CO
CM
oo
CO
s
i
rH
CM
O
CM CO CO
VO
r~~ONvoco<t<ti~^inr-^ON
OrHCMCMCOOOrHrHrH
VO
cm
in
i
o
<t
i
on
rH CM CO
i
in
O
i
iHcMcococovovoi^r-^r^
CO
i
CM<trHrooNCMLncoinr^
co
i
r-^
vo
CO
rH
OO
iH
i
vo
vo
CO
rH
i
in
vo
CO
I—I
i
vo
CO
•
Oin<tinoo<tiHcMinco
<-ovoOvor-~coroco<fin
<f<fininininvovovovo
CM
o
co
vO
CO
O
in
vo
CO
r-l
roco<fcMCMcocMrovo<f
rH<fro<fOOOOiHCM
O
iH
a)
cu
to
X)
•r-l
PM
•rH
rH
r-l
X,
O
cc;
O
z
o
u
O
E
O
rC
o
C
o
Ll
•H
a)
i-i
GO
0
IC
o
rJ
c5
H
-a
47
Table 10
concluded
Chrom.
Location
Sel.
No.
Row:Hill
Pedigree
No.
Aug.
8603-314
190:44
61021 x
-326
191:03
it
-337
14
tl
-346
23
ii
20
-350
27
II
20
-400
192:24
n
-403
27
n
-412
36
it
-418
42
ii
193:15
11
-444
83 D9-32M
30
20
-454
25
»
-473
44
ii
-481
52
rr
-484
194:02
tl
20
-498
16
11
20
-539
195:04
ii
-548
• 13
"
-564
29
"
Qualitv •
Date
harv.
9/2
9/2
9/2
9/2
9/2
9/3
9/3
9/6
9/6
9/6
9/6
9/6
Yieldi/
a
P
ratio
lbs/A
CoH
oil
%
ml/100^
1450
6.5
4.7
58
24
1.49
1322
5.7
2.2
73
25
0.52
0.81
1109
5.2
2.2
70
28
1280
9.9
3.6
73
20
1.32
1493
5.6
2.1
73
27
0.62
23
811
7.8
3.2
71
1109
7.2
3.9
65
21
0.98
981
8.6
3.5
71
29
0.64
1450
5.1
1.9
73
28
0.40
1493
7.2
6.9
51
23
1.18
27
1920
5.0
2.7
65
1664
5.3
1.9
74
29
9/7
9/7
1877
8.2
4.9
62
22
1.19
1856
7.8
4,
65
22
0.88
9/7
9/8
1109
5,
2.
68
28
0.81
939
5.
5.
48
24
0.64
9/8
9/7
1237
5.
2.
75
29
1.26
1258
6.
2.
68
24
0.85
0.72
21496
45
Tettnanger
A
26
426
3.4
3.7
48
25
0.77
21497
46
Tettnanger
B
26
469
4.0
3.4
54
24
0.77
21485
47
SoB x
2176
9.1
4.5
67
18
1.40
"2261
9.3
4.5
67
18
1.25
21485
[(Ha -OP x
(Saaz x Ha-OP)]
48
tl
9/9
9/9
-/yield/pl in g x 0.42654
e = visual estimate, 5-cone analysis for quality
48
Table 11 : Virus data of various hop genotypes grown at Corvallis, OR in
1987, sampled in winter 1987/88. ELISA tests by C.B. Skotland,
Prosser,
WA.
Sampling
Accession
Location
or Sel. No
Row:Hill
Name or Pedigree
1:57
Zattler seedling
64034M
date
PNRV
CaMV
12/2-87
HMV
+
HLV
AmHLV
++
•7
+
58
64035M
type 1/
virus
2:57
58
64036M
3:57
58
21337M
4:59
64107 x
21111M
60
19058M
18:53
EG x
+
+
+
+
+
XS
54
21482
21:41
21397 x
64037M
+
21119M
43
+
44
-f
21:57
19105 x
19046M
58
64033M
30:55
+
+
+
+
Zattler Seedling
ii
56
21397
tetrap. Hall. m.f.
+
+
+
86
+
++
87
+
+
++
60
21491
149:44
21458
22 :65
Cas x
21136M
++
II
++
+
+
49:59
+
+
+
+
+
+
+
21381M
++
-f
-f
38:85
++
+
42
+
+
+
+
21397 x 21337M
21397 x
++
64037M
66
21459
67
-r
68
+
22 :81
82
83
84
++
21397 x 21362M
-
++
2/29-88
?
+
?
+
++
49
Table 11: continued
Accession
Location
or
Row:Hill
Sel.
21483
No
Sampling
Name or Pedigree
virus
HLV
43
+
+
44
+
+
28:41
21397 x
64037M
PNRV
CaMV
tvpe-'
HMV
date
AmHLV
12/2-87
42
21484
24:69
21397 x
21237M
+
70
++
-
+
-
71
72
21490
21490
35:86
+
21397 x
21381M
1/26-88
+
87
+
88
+
229:28
-
29
-
30
-
31
-
32
21490
64007
-
210:23
+
24
+
25
+
26
+
27
+
232:01
19105 x
-
-
19058M
-
-
04
19:01
-
Swiss-Tettnanger
-
03
-
04
21179
6:01
Hersbrucker-E
-
-
03
-
04
1:49
50
+
+
+
+
+
+
+
++
-
-
LGpS x Fu-FuS
II
2/4-88
+
+
-
-
-
+
+
+
+
?
+
++
+
++
+
++
+
++
+
?
++
?
++
2:49
XS x B31S-B31
++
19120
3:49
Sunshine Seedlg. 25S
++
++
+
?
19110
50
+
?
?
++
+
+
-
02
19105
+
+
-
02
61021
+
-
-
+
++
-
»
-H-
50
Table 11:
continued
Accession
Location
or Sel.
Row:Hill
21041
No
24
5
6
7
8
21041
21049
21056
227
214
206
21182
239.
8:
4
2
3
M
4
II
5
II
1
Bullion 10A
2
tl
It
5
It
ii
3
tt
4
n
5
H
2
3
16:
12
21196
7
5
6
7
8
21220
31
5
6
7
2/29-88
-
-f-f
++
++
-
++
-
+
++
++
2/4-88
++
++
?
++
+
++
+
-f-f
+
++
+
++
+
++
++
+
++
++
+
-f-f
++
+
++
++
+
-f-f
++
+
-f-f
-f-f
+
++
++
+
++
+
-f-f
•f+
-f-f
+
++
+
++
?
_
it
?
+
ii
-
Nugget
-f-f
tl
?
tl
-
-
-
Wye Target
-
it
++
ii
-
-
++
+
5
11
++
?
tt
AmHLV
+
n
It
10
HLV
+
Galena
4
9
HMV
+
Galena
2
1
CaMV
++
II
4
7
21112
Styrian Gold
tt
5
2/4-88
it
ll
1
PNRV
ll
3
1
date
type 1/
virus
n
tt
8
237:
Willamette
it
6
21193
Name or Pedigree
2
3
21182
Sampling
-
++
-f-f
+
+
-f
-f-f
-
-f-f
-f-f
-
-
-
-
-f-f
-f-f
+
++
-f
+
-
-
tt
Bullion 6A
ti
ii
+
-f
M
+
-f
+
-+
tt
+
+
ti
+
+
+
+
Eroica
-
-
++
51
Table
11:
continued
Accession
Location
or Sel.
Row:Hill
21220
No
229
12
Sampling
Name or Pedigree
Eroica
13
II
14
11
21226
21227
21227
56013
64100
64107
65101
226
220
32
13
3-
4:
5:
17
Olympic
19
>i
20
ii
21
n
28
Chinook
29
it
31
it
32
n
-
-
-
-
-
II
-
Perle
2
tt
5
tt
1
tt
2
ll
++
++
++
+
++
++
+
++
+
++
-
-
-
-
-
-
11
-
tl
-
-
-
3
It
4
II
1
Cascade
2
n
3
ti
4
it
5
Bullion
6
it
7
n
+
?
8
n
+
?
It
-
-
-
-
++
+
tl
tt
++
+
-
-
++
-f-f
-
-
+
-
-
-
-
?
-f
-f-f
?
++
++
?
++
-f-f
++
-f-f
?
-f-f
++
++
++
+
-f-f
-f
+
-
-f
-
-f+
+
+-f
++
-f
++
+
?
+
?
+
?
++
-f
++
+
?
++
+
-f-f
++
+
++
++
-f
-f-f
+
-
+
++
+
-f-f
-f-f
-f
6
-f-f
+
7
u
+
1
+-f
+
8
ii
+
?
++
+
5
8
5
6
II
-
-
-f-f
1
Brewer
-
++
+
No.
-
+
•I
5
++
++
+
-
-
++
++
tt
-
+
-
++
-f-f
++
-f
-
-
+
-f-f
-
-
++
-
AmHLV
++
-
-
-
HLV
-
-
-
1
HMV
-
-
-
18
7
6:
-
-
ii
6
65102
2/4-88
CaMV
II
16
210
PNRV
ll
15
21225
date
-Ll
t \ pe-'
virus
+
-
-
-
-f-f
-
++
-f
-f-f
tt
-f
?
++
+
++
it
+
+
++
++
++
-f-f
+
++
-t-f
++
Talisman
it
Yakima Clus
tt
_
_
_
_
-
-
-
-
tt
4-f
-f
++
+
++
+
-
-
-
52
Table H : continued
Accession
Location
or
Row:Hill
Sel.
No
15 : 9
21116
10
11
12
23 : 5
21040
6
7
20
62013
228
65009
21120
+
?
-
Columbia
2/29-8v
-
u
-
•I
++
-
3
n
4
ti
-
-
EG-XS
-
ll
-
25
II
26
tt
HLV
AmHLV
++
+
+
-f-f
+
+
++
+
-f
++
-f
-
-
tt
-f
-f
-f
++
-f-f
+
-f-f
II
+
Zattler Seedl
56
30 56
It
57
tt
58
tl
1:47
19005 x
-f
-
-
-
+
+
++
+
++
++
+
++
++
-f
-f-f
-f-f
+
-f
-f
++
-
-f
-f
?
-f
+
-f-f
-f-f
+
+
+
-f
+
HMV
Hop Mosaic Virus
HLV
Hop Latent Virus
American Hop Latent Virus
AmHLV
-f
=
?
=
negative, no infection
slight to moderate infection
heavy to very heavy infection
questionable
-
-f
19046M
Prunus Necrotic Ringspot (cherry strain)
"
(apple strain)
CaMV
-
-f-f
++
(used for SW increase)
i/pNRV
-
-f-f
++
-f
(not increased)
-
++
+
1:48
-
-f-f
-
BG2 x 1906
-
++
-
-
BG x
tvne-'
HMV
?
++
-
II
4
64037M
++
tl
it
29 55
2/4/88
++
Comet
56
CaMV
11
2
23
PNRV
-
1
26 55
64033M
Gold
virus
date
ll
8
27
64032M
Brewer's
it
24
63015M
Sampling
Name or Pedigree
-
-f-f
53
Table 12:
Virus data of Oregon-grown hops - 1988 season, grown in the
seeded (main) yard.
Sampled:
Nov. 24 to Dec. 1, 1987.
ELISA analyses by C.B. Skotland, Prosser, WA. (Hal 1.tripi.selections)
virus type—/
Accession
Location
Name
or Sel.
Row:Hill
or Pedigree
No.
8301-01
1
-02
2
-03
3
tt
-04
4
it
-05
5
It
-06
6
tl
-07
7
tt
-08
8
tt
-09
9
tt
21455
13
21397 x
19058M
tt
PNRV
CAMV
HMV
++
++
++
++
-f-f
++
++
++
++
++
-f
++
-f
-f-f
+
++
+
++
10
13
10
14
10
15
+
10
16
+
Mt.
Hood
+
-f-f
+
++
21469
11
13
8301-12
12
ll
-13
13
tl
-14
14
It
-15
15
tt
-16
16
ll
-17
17
tt
21470
18
II
8301-19
19
ti
-20
20
tl
-21
21
tt
-22
22
ll
-23
23
II
-24
24
tt
-25
25
ii
-26
26
it
-27
27
It
-28
28
ll
-29
29
tl
-30
30
tt
-31
31
ll
-32
32
It
-f
-33
33
ll
+
-34
34
tt
?
-35
35
tt
-f
-36
36
tt
-37
37
ll
-f
-38
38
tt
+
-39
39
tt
?
-40
40
II
+
21397 x
19058M
HLV
-
-
+
.
+
-f
-
++
-f-f
-f-f
-f
++
-f
-f-f
+
-f-f
-f
++
++
-f-f
+
++
-f
++
+
++
-f
+
+
+
-f
-f
-f
-f
-
-f-f
+
-
-
-
-
-
++
-
-
-
-
-
-
-
-
++
AmHLV
++
P4->
W
U
C
•H
t-l
•H
i
<N. +
2
00
m
rH
ON
o
r-l
fON
X
CD
CD
bfi
•i-l
CD
CU Pm
CM
ro
rH
T)
O
O
-S
i
i
'
+
-f
+
'
+
+
+
+
+
+
i
+
i
+
i
i
i
i
i
i
+
i
+
+
ii
i
i
rlNCOsfflvOMOOlO
<f<j-<f<j-<J-<t<i-<l-<fin
HCMCOHOICOsfinvON
<t <!- -*
r-l
H
cO
•H
S3
CT)
-P
Pi
m
-o
CD
T)
O
o
r3
o
O
r-l
a
•H
C
•U
o
o
o
C
rH
1—1
CD
CXI
•H
cn
00
I
I
I
I
I
I
I
1
I
I
I
+
-f
1
I
I
i
I
i
+
+
i
I
+
i
i
i-«
CO
i
r-
i
+
4-
I
+
i
i
i
i
•
+
i
I
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
i
+
+
i
+
+
i
iiii
i
i
+
i
i
i
i
i
-+-
i
i
i
i
i
i
i
i
•
•
•
i
—|—
•
i
•
•
•
>
t • '
•
i
rH CM
I
CO
I
O
I
CO
I
CM
I
ON
I
CM
I
OO
rH
1
iHiHCMCMCMCMCNCMCMCM
r»
cooNOriNrn^invON
i
oooNOiHcMco<tinvor^-
i
r~- r i
CM CO st ID
i
r—
i
H
i
co<j-invor~-oooNO
i
iHcMco<j-invor~cooNO
i
ininininininmininvo
i
vovovovovovovor^•
O
w
O0
co
CD
<J-
i-l
CN
(D
o
o
iH
<
o
CO
r-l
H
rfl
55
Table 12 :
continued
1/
virus type—'
Accession
Location
Name
or Sel.
No
Row:Hill
or Pedigree
8302-01
.
21397
33
17
-02
34
ii
-03
35
tt
36
tl
21472
x
PNRV
64033M
CAMV
HMV
HLV
-f
-
+
-
++
-f-f
+
++
+
+-f
M
8302-05
37
-06
38
"
+
-07
39
"
+
-08
40
-09
1
21
-10
2
ll
-11
3:
"
-12
4
tt
-13
5
ii
-14
6
ii
-15
7
tl
-16
8
-17
9
-18
10
-
-
ii
-f-f
?
++
+
+
+
+
"
-f-f
-
-
-
-
-f-f
+
++
+
++
-f
-
tt
+
"
+
-
.
AmHLV
ir>
CD
C
U
0
O
X>
CO
H
CD
P-
>in
•P
rO
>
r-l
•H
u
CD
CD
U
W)
•H
2
i
in
-vi
o
CO
vo
X
Ch
CO
rH
CM
ON
r-~
(-1
O
CD
T3
Es
rH
CD
C
H
-H
1
i
I
I
I
'
+
+
+
+
+
+
+
+
+
'
ii
i
t
i
I
I
I
I
I
I
I
I
t
I
i
I
t
t
I
i
I
t
I
i
I
i
t
i
I
+
I
I
I
I
•
I
i
I
i
I
-f-
I
i
i
I
•
i
I
i
i
i
i
i
i
t
t
t
i
i
•
t
i
t
i
i
i
i
t
t
•
i
•
i
i
i
i
i
i
i
i
i
i
i
i
i
i
I
I
+
+
I
I
I
I
I
I
I
'
I
+
+
+
I
+
+
,
i.+
,
+
t
I
+
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i
I
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t
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i
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i
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HCNrtvtmiONCOCTiO
CM
i
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cm n
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r
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4J 33
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W)
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VO
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+
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=
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r
oooNOrHcMco<fmvor^
CMCMrorororOcOcocOro
in
r-.
i~^
r^
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vovor^-r-^r-^r-.
i
coONOrHcNro<)-invor^
inLnvovovovovovovovo
I
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III
I
I
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I
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|
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t
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t
I
i
I
i
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•
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l
i
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I
I
I
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l
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1
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l
l
,
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i
00
CO
CO
ON
On
O
<f
co
O
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On
CO
CM
I
co
CO ON O
iH CM
i-l rH CM CM CM
t
co
CO
ON
I
i
in vo r~»
I
co
CM
t
,,, + ,
I
i
+ + + , , , , + ,+
l
ON
HHHHHHrlH
oooNOrHcMco-cj-invor-,
co co co co
coonOiHcmco
i
iH
Is- N
r^ ro
CM
i
co
CO
CO
vt o
CM
rH
co
r^
CO
r~
•
r^ ro
00
<f o
CM
rH
<f o
OO
CM
rH CO
Table 12
conti nued
58
firus type 1/
Accession
Location
Name
or
Row:Hill
or Pedigree
21397
Sel.
No.
PNRV
CAMV
HMV
8303-
94
24 :33
-
95
25 :
"
-
96
26 :
"
+
-
97
27 :
"
+
-
98
28:
"
-
99
29
it
-100
30
ti
-101
31
it
-102
32
n
-103
33 :
"
-104
34
ii
-105
35
ii
-106
36
it
-107
37 ;
"
-108
38
-109
39
-110
40
x
+
+
+
lost
-
+
2
it
-113
3
it
-114
4
-115
5
II
21481
6
ti
21457
7
33
-
' ii
-
-
-
It
7
34
it
7
35
it
7
36
8308-118
8
33
-119
9
tl
-120
10
it
-121
11
it
-122
12
n
-123
13
ll
-124
14
-125
15
-126
16-
-127
17:
-
-
analysis
++
+
++
-f-f
+
-
-
no
+
-
-112
-f+
+
-
1 :33
-
-f
-
+
-
-f
-
+
-
-f
+
-
-
++
+
+
-f
+
tl
"
it
"
+
-f
+
-f
-128
18: 33
-129
19:
-130
20:
il
-131
21:
il
-132
22:
ll
-133
23:
ll
-134
24:
tl
+
-135
25:
II
+
-136
26:
It
+
-137
27:
it
-138
28:
+
-139
29:
+
-140
30:
+
-141
31
+
-142
32.
+
-143
33-
-f
tt
AmHLV
64035M
plants
-111
HLV
-f
+
+
+
-f
+
+
-f-f
59
Table 12 :
concluded
virus type 1/
Accession
Location
Name
or
Row:Hill
or Pedigree
8309-01
29
21397
-02
30
Sel.
No.
-03
31
-04
32
-05
33
-06
34
-07
35
-08
36
-09
37
-10
38
-11
39
-12
40
-13
41
-14
42
-15
43
-16
44
-17
45
-18
46
-19
47
-20
48
-21
49
-22
50
-23
21
-24
22
-25
23
-26
24
-27
25
-28
26
-29
27
-30
28
-31
29
-32
30
-33
31
-34
32
-35
33
-36
34
21490
35
8309-38
36
-39
37
1/ PNRV
CAMV
HMV
HLV
AmHLV
81
x
PNRV
CAMV
++
+
HMV
HLV
21362M
+
-f-f
85
-f+
= Prunus Necrotic Ringspot Virus (cherry type)
= Prunus Necrotic Ringspot Virus (apple type)
= Hop Mosaic Virus
= Hop Latent Virus
= American Hop Latent Virus
+ slight to moderate infection
++ heavy infection
++
AmHLV
60
Table 13 :
Virus data of various imported hop genotypes.
ELISA analysis by C.B. Skotland, Prosser, WA.
Country of
Accession
No.
21186
origin
Name
Spalter loc.22:1
W. Germany
Date
obtained
PNRV
June 1988.
Virus type 1/
ApMV HMV HLV
197?
22:2
22:3
+
+
22:4
-f
+
Yugoslavia
21519
Ap71/74-2a
21520
Ba ll/72-19a
1988
21525
Osvald Clone 72Y
1988
21526
Osvald Clone 126
1988
-f
-f
-f
21527
Blato
1988
-f
+
-f
21528
Luc an
1988
-f
-f
-f
21529
Osvald Clone 31
1988
21530
Osvald Clone 114
1988
21531
Universal
1988
21515
Hersbrucker-8
21516
Hersbrucker-9
1988
21497
Tettnanger-B
1987
-/pNRV
ApMV
HMV
W. Germany
1988
+
1988
Prunus Necrotic Ringspot Virus
= Apple Mosaic Virus
= Hop Mosaic Virus
HLV
= Hop Latent Virus
AmHLV = American Hop Latent Virus
Arabis Mosaic Virus was not found in any of the above samples.
-f
+
AmHLV
61
Summary of Information Presented at the
Hop Virus Conference
June 27-July 1, 1988
Giesen, West Germany
fo,'<rTp
C. B. Skotland
There were 38 participants in the meeting coming from Australia,
New Zealand, England, Belgium, Federal Republic of Germany, Yugoslavia,
Romania, Japan, Poland, Czechoslovakia, and the United States.
Twenty-eight papers were presented, primarily concerned with hop
viruses and viroids.
. ^^^-f^ttf!i/tfl
Acreages reported were 5,681 A, Czechoslovakia; 3,240 A, Belgium;
4,940 A, Romania; 494 A, New Zealand; and the following from the
Federal Republic of Germany (1986).
TettnangZf
Hersbrucker
Jura
Spalt
Hallertauer
Miscellaneous
Total
Ave: 1,500 lbs/A
Acreage
Farms
lb/a
3,038
457
1,336
36
101
1,291
667
1,736
1,971
527
1,470
38,776
3,620
1,647
44
3
1,514
44,488
5,375
8,994
393
'•
62
Virus-free programs are found in the United States, England, Federal
Republic of Germany and Belgium. The latter two are supported in part
by govermriHnt subsidies. The Hersbrucker is released as a single clone
whereas the Tettnanger release consists of several clor.es, primarily
for pathological reasons, in case one clone is more susceptible to a
disease than another.
Here»sbrucker is sensitive to hep mosaic and it
was reported that plants infected with mosaic are more susceptible to
phytophthora crown rot.
The following viruses are found in.most hop growing areas: hop
mosaic, hop latent viruses, and the two strains of the Prunus necrotic
ringspot virus. //>''V ' ^A//Vy 4ftr, i-*-^
Other viruses reported included Arabis mosaic from Belgium,
England, New Zealand, and Czechoslovakia.
Cucumber mosaic virus and
tobacco necrosis virus was reported from Romania, strawberry latent
ringspot virus from Czechoslovakia, a seed-borne virus was reported
from Humulus japonicus in England, an unidentified virus was reported
from Romania. The American hop latent virus, widespread in the United
States, was found in commercial hops in New Zealand and only in recent
introduction from the United States in'Japan and England.
No viruses
were found in native wild hop in Germany, France, and the United
States.
There was consistent yield reduction by Arabis mosaic virus and
Prunus necrotic ringspot virus. The cause was primarily reduction in
cone bracteole size and less gland production.
Two "viroids" are found in hops. The hop stunt viroid was found
in Japan and has been essentially eliminated there. It is also found
in Korea. Hop cones were collected from most of the hop growing areas
63
of the world and tested by Professor H. L. Sanger and his colleagues
from the Max-Planck Institute, Munchen and the hop stunt viroid was not
found.
The HSVd is very similar to the grape latent viroid and it is
suspected that it came from grapes to hops in Japan.
A second viroid
was found, hop latent viroid (HLVd), in hop cones collected from 18
countries.
It was found in samples from Europe, the United States, and
most other countries except Australia,and New Zealand.
a circular RNA, with 256 nucleotides.
This viroid is
The HSVd has 297 nucleotides.
Viroids are detected by polyacrylamide-gel electrophoresis or other
related methods.
Insofar as known, HSVixau^es_jio__disease in the hop
plant or aray other plant.
Viroids are seed-borne and can be
transmitted by grafting or contaminated tools, but no insect vector is
known.
Resistance to Ridomil by hop downy mildew was reported from
Germany and Yugoslavia".) Fennite-A containing 6.7% tri-phenyltin
acetate plus maneb has shown good control of downy mildew in
experimental trials.
It is a foliar fungicide and is not systemic.
Hoechst A. G. of Germany manufactures it.
There is no use in the U. S.
at present.
/•
Ft'<?h^y>fxtAr
64
MALE HOP GENOTYPES:
1
season
Total
Alpha-
+
Beta-Acid:
20
1 0
ft"
;^
tt
10
0
4 0
28
1988 Lupulin analyses as of August
10 0
YiM
%**$>
August
90
15, 1988
15, 1988
Parameter
iber
Average
Maxinum
Minimum
st.
dev.
%
cv
Alpha
4Z
35.15
55.41
11.74
9.06
Z5.78
Beta
4Z
Z9.30
48.47
12.68
8.30
Z8.33
Sun
4Z
54.44
77.68
Z4.43
9.95
15.44
AlphaRatio
4Z
54.45
7Z.9Z
3Z.1Z
10.68
19.6Z
HSI
42
.28
.20
.02
7.74
.24 "
HSIBno
0
0.00
0.00
0.00
0.00
0.00
Remain
0
0.00
0.00
0.00
0.00
0.00
4Z
Z5.84
43.95
16.06
6.99
Z7.04
CoH
65
'agricultural Chenibtry Departnent*»0regon State Oniyersity^figricuiturai Research Seruice**U 5 Dept Hgriculture**Cc>rusllis, Oregon**
1988 Lupulin Sunnery as of January 20, 1889
Harvest
".
I
Identification
Location
Oate
rilphc
Beta
LC x OP
801:53-51
07/26/83
12.3
Recession or
Hurserv No
180G5H
61.3
I 81 pra 81 pha
♦ Beta
Sat! o
73,6
17
CoK
KSI
21 0.20
P -rr.ea-
Sena!
Crush
Safe
(3 hr)
eriod biliiu
iSI6no (train
Ceku lated
0.12
,00
3.00
LOO
0
LOO
53
.00
,00
0
[ .00
52
.00
i.OO
0
J.G0
18
c .00
89
/C
lumber
19016,1
LC-S x Fu-S
011:53-51
07/26/88
6.5
19.3
55.8
12
10 0.21
1.16
[ .00
2108711
015:57-53
07/26/88
39.7
22.5
62.2
61
18 0.26
0.31
( .00
016:57-58
07/27/88
36.3
27.9
61.7
57
15 0.27
0.13
[ .00
[ .00
{ .00
0
21C3811
Yugo 3/3
Yugo 5/9
Yugo 5/10
017:57-58
07/26/88
31.1
20.5
51.6
60
15 0.25
0.35
[ .00
.GO
.00
0
( .GO
51
2111711
Nat Uisconsin
019:57-53
07/26/83
20,7
27.7
18.3
13
33 0.23
0.45
0,G0
C.00
t .00
0
c ,00
51
21088(1
21261,1
7302-18811
051:53-51
07/26/83
11.1
18.1
62.6
71
23 0.29
1,96
0.00
C.00
[ .00
0
c .GO
16
21273(1
7311-122(1
013:59-60
08/03/83
13,9
19.0
67.9
72
29 0.27
0.37
0.00
0 .00
0.00
0
0 .00
36
67
21271(1
7311-111(1
015:59-60
07/27/88
53,3
21.8
75.2
71
27 0.25
0.31
0.00
-0.00
0 .00
0
0
2130011
7008-881(1
115:13-14
07/20/38
33,1
36.1
71.2
51
18 0.23
1.23
0 .00
0 .00
0 .00
0
0.00
21302(1
7006-137(1
117:13-11
07/21/88
39.3
31.0
70.1
56
22 0,25
0,13
0.00
0.00
0.00
0
0,00
1
2130311
7007-021(1
118:13-11 07/21/83 29.7
36,7
66.1
15
20 0.21
2.11
0.00
0.00
0,G0
0
0 .00
3
2
2130111
7007-252,1
119:13-11
07/21/88
35.6
21,9
60.5
59
25 0.25
0.10
0.00
0.00
0.00
0
0,00
11
21305ft
7007-278(1
121:13-11
07/27/38
11.1
31,9
73.3
56
15 0.21
0,18
0.00
0.00
0.00
0
0 .00
68
07/25/68
2130711
7613-01211
119:15-16
52.3
17.5
70.3'
75
25 0.27
0.36
0.00
0.00
0.00
0
0 .CO
11
2131011
7613-128(1
113:17-18 07/21/88 11,2
20.6
61.3
68
32 0.27
0.10
0.00
0 ,00
0.00
0
0.00
16
2131111
7611-108(1
118:17-18
17.1
63.2
73
25 0.27
0.00
0
0 .00
15
"171nu
2133511
niiL luWl
7308-023(1
—"•
07/21/88
rvif-ri .rj... m
nr ,-rtn
UlaS-lrJ Jl""Ufi'i£(Jj'UU
039:57-58
07/26/83
15.1
n
n
trrv-•—'
35.2
32.0
0.17
0.00
" \
r-_ fin
fi "W—r—«U-fi/L_
n
19 0.26
0.33
0 00
• !>—
WBKIj
\r.v—
67.2
52
»—•»
nn
rWU
0 00
0.00
n
"'V
.n
a -fttW—-0—-fl
U'J"**-
0 00
0
0 00
49
0 00
58
21338(1
7309-015(1
005:59-60
07/27/88
29.9
11.8
11.7
72
20 0.32
0.11
0 00
0 00
0 00
0
2131111
7311-112(1
016:59-60
07/27/83
13,5
20.1
63,9
68
25 0.31
0.10
0 00
0 00
0 00
0
0 00
70
2131511
7312-017(1
017:59-60
07/27/83
11.7
13.3
60.0
69
20 0.33
0.33
0 00
0 00
0 00
0
0 00
59
21316(1
7312-028)1
018:59-60
07/27/88
19.6
22.1
72.0
69
27 0.27
0.33
0 00
0 00
0 00
0
0 00
66
21360M
7506-085(1
011:59-60
07/28/33
52.7
25.1
79.1
67
11 0.23 0.30
0 00
0 00
0 00
0
0 00
72
07/28/83
21363(1
7507-107.1
052:59-60
12,3
26.6
68.9
61
25 0.21
0.33
0 00
0 00
0 00
0
0 00
82
2137511
7501-010M
050:57-58 07/28/88 30,5
11.3
71.7
12
18 0.22 0.35
0 00
0 00
0 00
0
0 00
80
2138011
7506-10011
016:59-60 07/28/88 16.0
30.5
76.5
60
17 0,23
0.30
0 00
0 00
0 00
0
0 00
74
2141511
7003-06811
113:13-11 07/20/88 11,5
30.5
75.0
59
21 0.21
0.18
0 00
0 00
0 00
0
0 00
1
2111611
7007-275(1
120:13-11
28,2
36.1
61.7
11
21 0,22 0.13
0 00
0 00
0 00
0
0 00
5
21117(1
7610-112(1
113:15-16 07/21/83 11.6
19.7
61.3
69
31 0.27
0. GO
0. 00
0. 00
0
0. 00
7
07/21/88
0,37
2111911
7613-D01M
117:15-16 07/22/88 50.6
25.1
75.7
67
30 0.25
0.33
0. 00
0. 00
0. 00
0
0. 00
30
21120(1
7611-026(1
111:17-18 07/21/88 39.5
20.9
60.1
65
29 0.27
0,37
0, 00
0. 00
0. 00
0
0. 00
11
13
21122(1
7614-052(1
116:17-18 07/21/83 55.1
22.3
77.7
71
28 0.25 0.37
0. 00
0. 00
0. 00
0
0. 00
21124(1
7701-Q32M
113:19-20
27.7
37.5
65.2'"
13
35 0.23
0.11
0. 00
0. 00
0. 00
0
0. 00
9
21125(1
7702-009(1
111:19-20 07/25/88 43.1
20,1
63.2
68
29 0.28 0.12
0. 00
0. 00
0, 00
0
0. 00
38
20 0.22
0. 00
07/21/88
21126(1
7703-031(1
120:19-20 07/21/88 39.7
36.6
76.3
52
0. 00
0. 00
0
0. 00
12
21127(1
7704-012(1
122:19-29 07/22/88 11.7
12.7
21.1
18
21 o.26Qy£Ko. 00
0. 00
0. 00
0
0. 00
21 <%r
21428(1
7706-040(1
115:21-22
34.3
31.2
69.0
50
30 0.26
0.10
0, 00
0. 00
0. 00
0
0. 00
25
21129(1
7710-033)1
119:21-22 07/22/88 26.0
18.5
71.5
35
25 0.21
0.32
0. 00
0. 00
0. 00
0
0. 00
31
21432(1
7715-015(1
115:23-21 07/22/88 30.5
13,6
71.1
11
21 0.20
2.36
0. 00
0. 00
0. 00
0
0. 00
19
07/22/88
QJ3
2143311
7717-01911
117:23-24 07/22/88 40.3
32.3
72.6
55
22 0.23
0.33
0. 00
0. 00
0. 00
0
0. 00
21
21431(1
7717-022H
014:59-60 07/27/38 17.1
17.7
61.9
73
31 0.29
0.35
0. 00
0. 00
0. 00
0
0. 00
64
21431(1
7717-022(1
113:23-24 07/22/83 30.8
37.6
68.1
15
19 0.21
0.11
0. 00
0. 00
0. 00
0
0. 00
18
21435(1
7721-04911
123:23-24 07/22/88 51.1
25.1
76.5
67
44 0.24 0.34
0. 00
0. 00
0. 30
0
0, 00
29
21436(1
7722-019)1
113:25-26 07/21/88 36.0
18.3
51.3
66
42 0.27
0.13
0. 00
0. 00
0. 00
0
0. 00
17
0. 00
0. 30
0
0. 00
33
0. 00
0
0. DO
27
50
21137(1
7727-00111
115:25-26 07/22/33 45.0
22.2
67.2
67
27 0.26 1,83
0. 00
21438(1
7727-03611
117:25-26 07/22/88 36.8
18.6
55.1
66
21
0. 00
0. 00
21111(1
7302-01611
033:53-54 07/26/88 39.6
21.8
61.1
61
27 0.30
0.12
0. GO
0. 30
0. 30
0
0. 30
21147(1
7313-098(1
029:59-60 07/27/88 21.8
12.6
37.1
66
27 0.31 0.12
0. 00
0. DO
0. 30
0
0. 30
61
21148(1
7506-081(1
043:59-60 07/28/88 45,9
29.9
75.8
61
24 0.23
0. OO
0. 10
0. ]fl
0
0. 30
73
¥
0.24 0.51
0,30
insufficient sample
66
•figricultural Chenistry Oepartnerit*»0regon State Dniuersity**Rgrieultural Research Seruice**U SOept flgriculture*»Coryalli5, Oregon**
1988 Lupulin Sumary as of January 20, 1989
Accession
Nursery No
21419)1
Harvest
or
Identification
7506-096,1
location
045:59-60
Oate
07/28/68
X
Alpha
39.5
I
Beta
32.1
J. Alpha Alphc
♦ Beta
71.8
Ratio
55
Crush
CoH
Safe
Pernea-
HSI (3 hr) Period bilitv
26 0.23
0.31
0.00
0 .00
Serial
Calculated
HSI6no Pertain H/C
lunber
0.00
0
0.00
81
0.00
6
21161H
7613-089(1
122:15-16
07/21/88
36.8
21.0
57.8
61
42 0.28
0.10
0.00
0.00
0 .00
0
21162(1
7703-005)1
118:19-20
07/21/38
22.7
18.6
41.1
55
31 0.23
0.33
0.00
0.00
0.00
0
0.00
8
21163(1
7717-007(1
116:23-21
07/22/38
13.8
28.0
71.8
61
20 0.23
0.36
0.00
0.00
0.00
0
0.00
32
21161.1
7727-033(1
116:25-26 07/22/88
22.0
16.5
68.5
32
19 0.20
2.01
0.00
0.00
0.00
0
0.CO
28
21187(1
6903-112
121:21-22
07/22/88
29.1
31.5
60.6
18
28 0,23
0.38
0 .00
0,00
0.00
0
0.00
20
63015)1
BG(BG x 19062(1) 026:55-56 07/27/83
51.0
22.9
71,0
69
23 0.25
0.31
0.00
0.00
0.00
0
0.DO
56
61031(1
Zattler 2L1180P
001:57-58 07/26/83
12,0
19.3
61.3
69
27 0.30 0,1!
0.00
0.00
0.00
0
0.00
17
6103611
Zattler 7K4910P
7005-118(1
003:57-58 07/27/88
21.2
10.3
61.5
38
15 0.22
0.30
0.00
0.00
0.00
0
0.00
60
07/25/33
38.7
23.0
61.7
63
22 0,27
0.38
0 00
0.00
0.00
0
0.00
13
111:13-11
7301-008(1
031:53-51
07/26/88
11.0
22.6
66.6
66
34 0.26
0.33
0.00
0.00
0.00
0
0,00
55
7702-023)1
116:19-20
07/21/83
30.7
31.9
65.7
17
30 0.24
0.31
0 00
0 00
0 00
0
0 00
10
7713-019(1
113:23-21
07/22/88
37.0
26.1
63.5
58
27 0.21 0,38
0 00
0 00
0.00
0
0.00
26
26 0.21 0,37
0 00
0 00
0 00
0
0 00
23
7718-018,1
120:23-21
30.3
33.3
63.6
18
7722-014,1
121:23-31 07/22/33 26.7
31.6
58.3
16
36 0.26
0.52
0 00
0 00
0 00
0
0 00
22
0.50
0 00
0 00
0 00
0
0 CO
85
0 00
0 00
0 00
0
0 CO
65
0
0 00
12
0
0 00
57
07/22/83
8301-014(1
113:01-02 08/01/83
23.5
13.5
67.0
35
18 0.22
83Q1-031H
118:07-08 07/27/88
25.0
39.7
61.7
39
14 0.25 0.56
8302-007(1
119:07-08 07/25/38
26.8
36.3
63.2
12
16 0.23 0.50
0 00
0 00
0 00
8303-018(1
123:01-02 07/27/88
36.7
28.9
65.5
56
17 0.25
0 00
0 00
0 00
0.32
8303-080(1
113:03-01
07/27/88
33.7
20.6
59.3
65
0.37
0 00
0 00
0 00
0
0 00
71
8304-001H
115:03-04 07/27/88
25.5
37.1
62.6
41
'17 0.27 0.13
0 00
0 00
0 00
0
0 00
62
18 0.29
8304-0131
117:03-04 07/27/88 22.5
15.6
68.1
33
19 0.23 0.17
0 00
0 00
0 00
0
0 00
63
8304-033(1
120:03-01
08/01/88
31.2
36.8
63.0
46
15 0.23
0.38
0 00
0 00
0 00
0
0 00
84
8305-024(1
123:03-04
08/03/88
22.7
43.1
65.3
34
18 0.23
0.60
0 00
0 00
0 00
0
0 00
87
8306-005(1
126:07-08 07/28/88
26.4
25.2
51.6
51
17 0.27 0.50
0 00
0 00
0 00
0
0 00
79
8307-00211
114:05-06 07/28/83
12.9
31.3
74.2
53
17 0.23
O.00
0. 00
0. 00
0
0. 00
78
75
0.33
8307-004(1
115:05-06 07/28/88
40,8
26.5
67.3
61
15 0.26
0.35
0 00
0. 00
0 00
0
0 00
6308-027)1
120:05-06 07/25/88
32.8
30.5
63.3
52
20 0.26
0.52
0. 00
0. 00
0. 00
0
0. 00
40
8308-011(1
122:05-06 07/28/88
22.9
31.8
54.8
42
21
0.26
0.38
0. 00
0. 00
0. 00
0
0. 00
76
8308-01711
126:05-06 07/28/88
31.1
27.8
55
19 0.26
0.29
0. 00
0. 00
0. 00
0
0. 00
77
8308-054(1
128:07-08 07/25/88
30.9
23.0
53.9
5?
16 0.26
0.12
0. 00
0. 00
0. 00
0
0. 00
34
8303-057H
125:05-06 07/25/88
32.2
27,0
59.3
54
21 0.26
0.56
0. 00
0. 00
0, 00
0
0. 00
36
8308-06711
126:05-06
07/25/88
39.9
32.4
72.3
55
21
0.23 0.33
0. 00
0. 00
0. 00
0
0. 00
37
8308-068,1
127:05-06 07/25/88
39.5
31.6
71.1
56
18 0.23
0. 00
0. 00
0. 00
0
0. 00
35
8309-026(1
115:07-08 07/28/88
17.1
37.2
51.6
32
15 0.27^9^0. 00
0. 00
0. 00
0
0. CO
83
8309-028H
116:07-08 07/25/88
21,6
31.1
52.6
41
21 0.27 1.00
0. 00
0. 00
0. 00
0
0. 00
41
38.0
61.8
39
22 0.23 0.52
0. 00
0. 00
0. 00
0
0. 00
39
8309-032(1
117:07-08 07/25/88 23.8
•62.2
0.17
insufficient sample
67
1988 Certified Hop
MATURITY SAMPLES, 1988 Oregon Crop
Analysis
Agricultural Chemistry Department
Oregon State University
Corvallis, Oregon 97331
Samples Submitted by: USDA-ARS , Dr. Alfred Haunold
c/o Crop Science Dept., Oregon State University
Corvallis, Oregon 97331
As Is Basis
Sanple Description
USOfl 21157 Maturity, Colenan
USDA 21158 Maturity, Serres
USOfl 21156 Maturity, Ueathers
USDA 21190 Maturity, Ueathers
Perle Maturity, Heathers
USOA 21155 Maturity Sanple, Goschie
21159 Maturity, Stauffer
21155 Maturity, Goschie
21156 Maturity, Ueathers
21158 Maturity, Serres
21157 Maturity, Colenan
21190 Maturity, Ueathers
21157 Maturity, Colenan
21159 Maturity, Stauffer
21156 Maturity, Ueathers
21190 Maturity, Ueathers
21155 Maturity, Goschie
21158 Maturity, Serres
21457 Harvest, Loose Cones
21158 Harvest, Loose Cones
21156 Maturity, Ueathers
21155 Maturity, Goschie
21159 Maturity, Stauffer
21190 Maturity, Ueathers
21181 Maturity, flnnen
Harvest Tettnanger B, Goschie
Oregon 21458
Oregon 21459
Uasbington 21155
8G-214-R
Date
.ales
DM/nc
Ory Uei jht Basis
Alpha
Beta
Alpha
Beta
HSI
CoH 0ilC
LabHo
3.17
3,78
0,29
22
88080
1.89
1,81
0.27
23
0 ,00
88081
0.29
27
0.00
88082
0,26
26
0,00
88083
0 00
88081
0.00
88085
0 00
88091
8/18/88
0 15.73
2.91
3.18
8/18/38
0 11.15'
1.71
1.15
8/18/39
0 17.80
1.71
3.31
1.89
3.60
8/18/88
0 11.35
1.17
1.17
1,27
1.85
8/18/88
0 21.65
8.55
3.65
9.29
3,97
0.30
28
8/18/88
0 18.85
1.11
3.02
1.51
3.28
0.25
25
0.00
8/25/88
0
15.45
2.99
3.60
3.21
3.91
0.27
23
8/25/88
0
19.60
2.51
5.07
2.76
5,51
0.21
21
0.00
88095
8/25/88
0 14.75
2.82
1.70
3.07
5,11
0.26
26
0 00
88096
8/25/88
0 18.35
1.62
3.73
1.76
1.05
0.26
25
0 00
88097
8/25/88
0 17.30
1.67
3.91
5.03
1.25
0.29
28
0 00
88098
8/25/88
0 15,10
2.23
5.87
2.12
6.33
0,24
22
0 00
83099
9/01/88
0 18.90
1.51
3.68
1.91
1.00
0.29
23
0 00
88106
9/01/88
0 15.10
2.97
3,63
3.23
3.91
0.33
26
0 00
88107
9/01/88
0 16.95
2.71
1.68
2.98
5.09
0,28
27
0 00
88108
9/01/88
0 17.60
2.23
6.21
2.13
6.75
0.25
22
0 00
88109
9/01/88
0 16.80
5.15
8.01
5.60
8.70
0.21
29
0 00
88110
9/01/88
0 17.15
2.07
1.51
2.25
1.93
0,23
26
0 00
88111
3.72
1,88
1.11
0.29
21
1 02
88115
9/07/88
0 10.15
1.38
9/07/88
0
2.31
1.22
2.58
1.61
0.30
27
0 52
88116
3.02
1.86
0.26
28
0 00
88129
4.80
7.78
0.21 21
0 00
88130
9.10
9/08/88
0 18.90
2.78
1.17
9/08/88
0 19.30
1.41
7.15
9/08/88
0 16.10
3.27
3.61
3.56
3.93
0.30 21
0 00
88131
9/08/88
0 19.10
2.67
7.00-
2.90
7.61
0.23
21
0 00
88132
9/08/88
0 21.15
6.85
6.81
7.15
7.11
0.21
10
0 00
88133
9/20/88
0
8.10
3.93
4.10
1.29
4.80
0.29
25
0 32
88151
9/28/88
0 10.55
3.21
3.68
3.62
1.12
0.31
25
0. 92
88170
9/28/88
0
7.80
J. 92
4.33
2.08
4.69
0.31
27
1 00
88171
9/28/88
0
10.55
3.11
5.15
3.51
5.76
0.29
23
0. 80
88172
9/28/88
Oregon 21191
10/01/88
21 10.00
5.39
7.66
5.99
8.51
0.26
22
0 00
88175
0
8.80
3.83
3.19
4.19
3.50
0.33
32
0. 56
88188
88225
1987 Gertwn Hallertau Pellets
11/01/88
0
8.80
1.55
3.31
1.99
3.63
0.37
33
0. 70
1987 USOH 21155 Pellets
11/01/88
0
8.60
2.87
5.10
3.11
5.58
0.55
23
0. 70
88226
1987 Washington 21159 Pellets
11/01/89
0
8.10
1.98
2.92
2.16
3.18
0.55
28
0. 30
88227
Results for rep 1 on dry ueight basis for green naturity sanples
fluerage of 2 analyses on dry weight basis for green Maturity sanples
hL/100 g, results on dub for green hops, as is basis for dried sanples.
68
30% , AlphA
988 Samples with Farnesene and Coh <j0 , Myrcene
- I-
1988 Bale and 5-Ccne Ana yses at 8.* Moist jre Content (Bale) or fis Is 35i5
5-Ccn ••) as of October 31
Recession
Harvest
or Nursery
Hunber
21011
1983 ( n =
il)
0:1
Identification Type Location
Uillanette
Oate
Yield Alpha Alpha Beta
filph a
Lb/Ac Lb/fic *
Ratio
I
6 Mo
CcH
KS
?.v 3
Myr
nU
HSI Pena n lOOq
H/C
H/f
(I)
Hun
Senal
(I)
Hunber
BALE 021:05-03 08/31/83 610
29
4.5
3,0
60
30 0.23
0.10
S7
0.33
2.61
5.SI 35,15 23.13
769
6,1
3.5
61
27
0,29
0,11
79
0.81
2.67
6.65 15,15 26.67
803
1.2
1.3
50
22 0.26
0.00
0
0.29
3.52
1.61 13.31 15,53
290
0.39
3.23
1,2? 31.11 23.33
119
1,32
3,57
1.33 11,16 30.29
816
1.5S 39.51 21,16
105
2101!
Uillanette
BALE 227:01- 15 03/05/83
356
23
21186
Spalter
BALE 022:01- 31 08/19/83
171
7
21159
8308-066
BALE 022:81- 31 09/03/88
0
0
1.1
3.1
59
21 0.28
0.50
76
21159
8308-066
BALE 135:03-07 09/09/88
0
0
5.1
7.1
13
17 0.21
0.12
53
8601-017
BALE 171:17
09/08/83 1168
125
3,5
'3.9
69
21 0.26
0.37
G5
0.89
3.16
8601-058
BALE 172:05
08/22/88 1280
68
5.3
2.2
70
25 0.29
0.53
63
0.68
3.11
1.78 39.00 20.28
339
2.13 33.35 26.93
733
8602-021
BALE 185:19
03/30/88 136S
69
5.0
2.0
71
23 0.31
0.13
85
0.73
2,71
8602-035
BALE 172:12
09/08/88 1573
115
9.2
3.1
73
23
0.30
0.50
76
0.82
0,76
.89 10.33 10.57
102
8G02-091
BALE 173:13
09/08/33 1920
107
5,6
3.0
65
21 0.29
0.17
76
0.67
3.21
1.58 27.15 21.71
750
8602-095
BALE 173:19
09/03/88 1322
86
6.5
3.2
67
26 0.31
0.70
55
1.06
3.53
1.83 17.65 19.72
123
8602-165
BALE 175:13
09/08/88 2301
119
6.5
6.0
52
22 0.27
0.55
66
1.03
3.58
9.01 19.70 22.81
11!
8602-166
BALE 175:11
09/03/88 2090
115
7.0
5.1.
56
25 0.28
0.61
57
1.16
3.15
1.61 13.83 21,07
729
8602-169
BALE 175:17
08/23/83 1920
113
7,7
3.3
70
25 0.33
0.57
70
0.98
2.11
1,38 25.31 22.99
293
8602-265
BALE 177:07
08/23/88 1150
101
7.2
1.9
60
26 0.28
0.15
71
1,06
3.16
.96 11.35 16.38
581
9602-271
BALE 177:16
08/21/88 1661
205 12.3
3,2
79
23 0.28
0.35
90
1.13
3.61
1.11 22.11 22.11
57?
8602-278
BALE 177:20
08/21/88 1831
119
8,1
3.1
73
25 0.31
0.53
66
0.79
3.19
1,52 28.39 21.93
598
8602-292
BALE 177:31
08/21/88 1365
88
6.1
2.1
75
29 0.31
0.51
71
0.70
2,80
2.13 35.29 21,11
589
8602-320
BALE 178:09
08/25/83 1792
128
7.2
1.7
60
25 0.27
0.53
61
0.90
3.29
6.39 17.05 22.51
297
8.9
2.5
78
21 0.23
0,12
79
0,90
1.02
1.17 31.08 15.03
376
3.3
77
26 0.27
0.19
71
1.67 3.08
2.61 17.13 20,25
623
2.65 17.37 19.57
293
8602-326
BALE 178:15
08/25/88 1365
121
8602-333
BALE 178:22
03/25/88 1877
202 10.8
8602-318
BALE 178:37
08/25/83 1920
120
6.3
3.3
66
26
0.30
0,65
53
0.65
2.92
8602-357
BALE 178:16
08/25/88 1108
77
5.5
5.9
18
21
0.27
0.59
60
0.97
2.36
.75 18.61 11,26
316
281
8602-361
BALE 178:50
03/25/83 1706
109
6.1
1.3
60
26 0.27
0.18
72
0.88
2.96
2.63 37.20 25.77
8602-111
BALE 179:17
08/25/88 1150
116 10,1
3.6
71
25 0.26
0.10
81
0,8?
1.16
1.19 12.15 16.70
285
8602-130
BALE 180:13
08/26/88 1193
11?
7.3
5.3
60
17 0.25
0.11
79
0.51
3.31
1.6? 30.71 26.19
660
8602-581
BALE 183:08
09/09/88 1150
111
7.8
3.2
71
29
0.29
0.53
70
1.11
3.23
2.32 33.79 28.75
826
8602-631
BALE 181:02
08/29/88 1108
125
8.9
3.0
75
29' 0.29
0.19
72
0.97
2.99
1.79 16.60 16.28
7!6
8602-653
BALE 181:21
08/30/88 1365
100
7,1
2.5
75
21 0.32
0.11
81
0.89 2.66
2.53 32.98 29.10
712
8602-660
BALE 181:31
08/30/88 1536
99
6.1
3.0
68
27 0.31
0.57
66
0.85
5.59 17,70 19.12
671
8603-012
BALE 185:07
08/30/88 1365
101
7.6
3.0
72
28 0.31
0.12
70
0.79
2.71
2.01 36.57 22.76
712
8603-031
BALE 185:26
08/30/88 1962
191
9.9
3.2-
76
28 0,28
0.17 70
0.92
3.32
1.22 11.88 18.65
758
2.38
8603-039
BALE 185:31
08/30/88 1193
118
9.9
1.6
68
23
0.29
0,71
51
1.33
3.01
1,25 12.05 18,11
711
8603-062
BALE 186:01
08/30/88 1109
73
6.6
1.8
58
21 0.29
0,52
66
0.68
2,68
1.88 35.73 21.31
780
8603-077
BALE 186:19
08/30/88 1193
90
6.0
1.7
56
23 0.27
0.12
79
0.89
2.11
1.09 10.75 17,50
791
8603-097
BALE 186:39
09/02/88 1193
105
7.0
3.5
66
24 0.30
0.59
59
0.66
3.00
1.76 36.03 25.16
884
8603-136
BALE 187:25
08/31/88 1021
51
5.2
1.8
74
25 0.31
0.55
72
0.87
3.51
1.16 37.31 18,87
690
8603-188
BALE 188:21
08/31/88 1536
68
1.1
1.5
19
22 0.27
0.52
68
0.35
1.77
7,2? 37.33 25.60
789
8603-262
BALE 189:15
09/01/88 1536
103
6,7
3,3
67
26 0.30
0.57
61
0.6?
2.75
2.77 33.76 27,80
849
8603-312
BALE 190:12
09/02/88 1536
91
5.9
2.7
69
30 0.30
0.16
77
0.98
3.23
2,16 11.83 22.31
787
8603-311
BALE 190:11
09/02/88 1150
91
6.5
1.7
58
21 0.29
0.61
56
1.19
3.27
2.03 36.16 25.07
764
8603-326
BALE 191:03
09/02/98 1322
76
5.7
2.2
73
25 0.31
0.11
81
0.52
2.21
1.78 16.02 30.63
865
8603-337
BALE 191:11
09/02/88 1109
58
5.2
2.2
70
28 0.33 0.50 72
0.81 2.57
3.38 10.39 21,10
903
26
0.61 3,16
1.90 38.20 21.99
916
8603-112
BALE 192:36
09/06/88
8603-173
BALE 193:11
09/06/88 1661
981
81
8.6
3.5
71
29 0.19 0.66
89
5.3
1.9
71
29 0.33
0.18
77
0.72
2.15
2.26 23.22 29.36
918
17
1.19
3.47
1.83 18.54 16.03
508
8603-181
BALE 193:52
09/06/88 1877
151
8.2
1.9
62
22 0,28 0.75
8603-181
BALE 191:02
09/06/88 1856
115
7.8
1.1
65
22 0.28
0.61 59
8603-518
BALE 195:13
09/08/88 1237
74
5.9
2,0
75
29 0.30 0.54 70
8603-564
BALE 195:29
09/07/88 1258
78
6.2
2.9
68
24 0.31
0.51
61
0.80 3.12
1.73 41.99 20.13
499
1.26 1.96
1.27 36.10 19.97
412
0.85
1.50 13.8? 19.21
503
3.07
69
1988 Sam pies
with
fame sene , cot- < = 30 . myrcene <= 50 % , calp i a > = 4% , S bales/acre
. . —
5-Con ) as
1983 Bale and 5-Cone Analyses at 8Z Moist ure Content (Bale) or As Is Basis
—
of October 31, 1989 ( n = 11)
Oil
Accession
Harvest
or Nursery
Hunber Identification Ivpe Location Oate
8602-091
1-
BALE 173:13
V'ield Alpha Alpha Beta
Alpha
Lb/Ac Lb/Ac I
Ratio
09/08/83 1920
107
5.6
I
bflo
CoH
HSI
!M
ni/
HSI Renain lOOq
Myr
H/C
M
U>
Hun
Seria
f
U)
Hunber
°/>
.3.0 .65
21 0.29
0.17
76
0.67 3.21
I.-58 27,15 24*7*
750
)5rj
8602-165
BALE 175:13
09/08/88 2301
119
6.5
6.0
52
22 0.27
0.55
66
1.03 3.58
9.01 19.70 22.81
111
Z*
3602-166
BALE 175:11
09/08/88 2090
115
7.0
5.1
56
25 0 28 0.61
57
1.16 3.15
1761 13.83 2h07
729
8602-169
BALE 175:17
08/23/88 1920
118
7.7
3.3
70
25 0 33 0.5?
70
0.98 2.11
1.38 25.31 22.98
298
*/l
)lpij
8602-271
BALE 177:16
08/21/88 1661
205 I2.3
3.2
79
23 0 28 0.35
90
1.13 3.61
1711 22.11F22f11
577
W
8602-278
BALE 177:20
08/21/88 1831
119
8.1
3.1
73
25 0 31 0.53 65
0.79 3.19
K52 28.397JT93
598
JW
8602-320
BALE 178:09
08/25/88 1792
128
7.2
1.7
60
25 0 27 0.53
61
0.90 3.29
6.39 17.05 22.51
297
3.3
77
26 0 2? 0.19
71
1.57 3.03
2.61 17.13 20.25
623
3.3 • 66-25
?/**
7/£
7.9-
8602-333
BALE 178:22
08/25/88 1877
202 10.8
8602-318
BALE 178:37
08/25/88 1920
120
6.3
0 30 0.65
53
0.65 2.92
2.65 17.37 19.57
293
72
0.88 2.96
2.68 37.20 25.77
281
70
1.22 11.88 18,65
2c26 23.22 29.35'
919
8602-361
BALE 178:50
03/25/88 1706
109
6.1
1.3
60
26 0 27 0.18
8603-031
BALE 185:26
08/30/88 1962
194
9.9
3.2
76
28 0 28 0.17
759
nj
\1>0
8603-173
BALE 193:11
09/06/88 1661
89
5.3
1.9
71
29 0 33 0.18
77
0.92 3.32
0.72 2.15
8603-48!
BALE 193:52
09/06/88 1877
151
8.2
1.9
62
22 0 28 0.75
17
1.19 3.17
1.83 18.51 16.03
508
w
59
0.80 3.12
1&73 11.99 20.13
199
H
8603-181
BALE 191:02
09/06/88 1856
115
7.8
1.1
65
22 0. 28 0.61
m uiix^n
toy 1*7 /r7 flg-IMf
. 4,7 4J ft rtt
GtoH
Mft
8«Jc ifr.-vr
2M1
Uc W;H
?.y
*t'0
ii n ir
ty rf if
''77 ?,% hnst.tf nn
-
H
l%0
10,0
70
ALE
1!
•♦Agricultural
SAMPLES
Chemstry Oepartnent**0regon Stale Omversity**Agricultura 1 Research Service**!! S Oept Agriculture**Corvallis, Oregon**
genotypes ranked by Accessi on/Sel ection
number.
1983 Bale and 5-Cone Analyses at 82 Moisture Content(Bale) or As Is 8asis(5-Cone) as of Hovenber ), 1989
Oil
Accession
Harvest
or Hurser V
Hunber
Identification Type Location
21016
LGp-S(ru Fu-S) BALE 001
fu N, UF
BALE 009
21011
Uillanette
19105
Date
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
I
I
Ratio
6 1o !M
Coh
HSI HSI
nU
Renain lOOq H/C
h/f
Ml r
Hun
Serial
<;)
0 )
Nunber
22,33 69.67 10.52
751
0.00
329
49-50 09/09/38
0
0
1.3
6.0
17
35 0.25
I.25
23
0.95
2 21
01-01 06/19/88
501
19
3.8
2.3
63
28 0.31
0 45 83
0.62
0 00
0.00
610
29
1.5
3.0
60
30 0.28
0 10 8?
0.33
2 61
5 81 35.15 29.13
769
27
0.29
0 11 79
0.84
2 6?
6 65 15.15 26.8?
803
29 0.3!
0 11 82
0.16
0 00
0 00
0,00
331
7 66 61,58 16.55
BALE 021 05-08 08/31/88
0.00
2101!
Uillanette
BALE 227 01-05 09/06/88
356
23
6.1
3.5
64
21019
Styrian, Yugo
Styrian, Yugo
Bullion, lOB.UF
Blue H.B., Belg
Backa, Yugo
BALE
BALE
BALE
BALE
BALE
05-08 08/19/88
796
33
1.2
2.2
. 66
01-05 08/23/88
870
36
1,2
2.2
65
30 0.36
0 51 78
0.99
3 11
133 11.1
5,8
66
35 0.26
0 71 18
1.16
1 80 501 17 68.15
9.18
0 00 0.00
0.00
327
22.51 39.97
767
21019
21056
21079
21080
020
211
206
009
008
01-05 08/31/88 1203
09-12 08/22/88
277
11
5.1
2.1
71
22 0.38
0 00
0
0.72
0 00
09-12 08/31/88
299
11
1.7
5.8
45
21
0 00
0
0.22
3 16
0.21
0.00
618
768
21092
Cascade UF
BALE 011 09-12 08/31/88
90?
53
5.8
4.2
58
31 0.26
0 19 67
0,52
0 00
0 00 0.00
0.00
783
21112
BALE 016 09-12 09/08/88 1193
BALE 018 09-12 08/22/88 381
176
11.8
5.3
69
35 0,27
0 52 68
1,51 0 00
0 00 0.00
0.00
117
21113
Uye Target
Lube!ska, Pol
21111
Nadwislanska
Bale 019 09-12 08/22/88
128
15
3.8
2.9
56
23 0.32
0 00
0
0.25
3 16
1 56 52.01 13.22
326
1
3.0
3.1
49
21
0.29
0 00
0
0,00
0 00
0 00 0,00
0.00
923
21120
7001-013
BALE 001 17-18 09/08/88
0
0
1.1
6.9
17
11
0,21
1 01
29
0.6?
0 3?
7 81 56.26
1.01
721
21121
7001-039
BALE 002 17-18 09/08/38
0
0
0.8
5.1
14
17 0.31
1 13
17
0.78
1 63 73 71 69.57
5.90
725
21122
7001-017
BALE 003 17-18 09/08/88
0
0
1.5
3.6
29
50 0.30
0 56 71
0.15
0 00
0 00
0.00
0.00
132
21123
7001-051
BALE 001 17-18 09/08/88
0
0
0.7
1.5
13
16 0.28
0 99 39
0.50
0 00
0 00 0 .00
0.00
136
21125
7001-067
BALE 006 17-18 09/09/88
0
0
0.8
2.0
29
10 0.35
0 1?
78
0.15
0 00
0 00 0.00
0.00
135
0.32
0 00
0
0.12
0 97
0 00 69.11
2,88
121
0 00 0.00
21127
7001-081
0
0
0.8
3.7
19
11
21173
15
1.8
3,5
57
25 0.28
0 39 85
0.71
0 00
0.00
872
21179
Strisselspalter BALE 031 01-04 09/08/88 320
Hersbrucker Eng BALE 006 01-01 09/08/88 119
6
1.1
5.3
43
21 0.25
0 00
0
0.38
3 11 122 63 35.89 32.03
119
21180
7003-113
BALE 031 51-52 09/09/88
0
8,7
6.7
57
2? 0.27
0 12 78
1.77 0 00
21180
7003-113
BALE 212 12-16 09/12/88 1561
153
9.8
8.3
54
28 0.25
0 5!
66
2.18
BALE 035 51-52 09/09/88
0
BALE 008 17-48 09/09/88
0
0.00
130
1 68 77 11 58.26 15.72
556
0 00 0.00
5 18 67.85
8.55
137
2 10 71 71 58.89
9 79
679
1.68 1 71
211-81
7003-213
0
0 10,1
5.5
65
11 0.27
0 00
21182
Galena (13-16) BALE 239 01-05 08/23/88 2133
301 11.3
9,0
61
12 0.21
0 18 70
21186
Spalter
Nugget
BALE 022 01-0108/19/88 171
BALE 237 01-05 09/12/88 1578
1,2
1.3
50
22 0.26
0 00
0
0,29
3 52
I 61 13.81 15,58
290
211 13,5
1.8
74
26 0.2?
0 38 83
1,50
0 00
0 00 0.00
0 00
557
21193
7
1.76
21191
7006-311
BALE 238 01-05 09/12/88
793
105 13.3
8.0
62
21 0.24
1 21 19
2.78
0 00
0 00 0.00
0.00
526
21195
7006-108
BALE 210 28-32 09/11/88
614
97 15.8
1.8
77
27 0,29
0 38 88
1.69
0 00
0 00 0.00
0 00
527
21197
Tettnang? OF
lettnang? OF
lettnang? OF
BALE 032 05-08 03/19/88 540
BALE 232 28-32 08/23/88 785
BALE 235 28-32 08/23/88 563
25
1.7
2.3
67
26 0.32
0 16 79
0.70
0 00
0 00 0.00
0 00
325
36
1.6
2.1
66
31
0.34
0 13 87
0.66
3 10
1 68 59 56 11 57
676
26
1.7
2.3
6?
27 0.31
0 11 81
0,75 0 00
21199
7001-003
BALE 212 17-21 09/08/88 887
71
8.0
5.1
61
38 0.28
0 18
1,21
21202
21215
BALE 208 28-32 09/14/88 1109
Norgard 1178, YBALE 027 05-08 08/19/88 427
21217
Star, Belg
BALE 029 05-08 08/19/88 555
21220
Eroica UF
BALE 229 12-16 09/13/88 1237
21222
Aquila
BALE 231 28-32 09/14/88 356
21226
Chinook
BALE 226 28-32 09/14/88 1301
2122?
Perle
BALE 220 01-05 08/31/88 448
21197
21197
6903-107
71
G 00 0.00
0 00
617
0 00
0 00
616
0 00
82
7,1
6,2
51
27 0.25
0 33 86
1.00 0 00
0 00 0.00
0 00
525
31
7,9
3.3
70
30 0.28
0 12 83
1.02
0 00
0 00 0 00 0 00
328
16
2.9
1.6
65
26 0.34
0 17
83
0.15
0 00
0 00 0 00 0 00
332
144 11.7
1.1
72
39 0.29
0 11 82
0.90
0 05 13 18 63 73
73
533
0 00 73.21
33
521
2 06 30 19 53 80 11 75
517
8.1
5.1
61
15 0.26
0 56 63
1.4? 0 12
189 14.5
1.1
78
32 0.26
0 10 81
2.24
9.2
1.1
69
26 0.26
0 33 86
0.30
3 16 151 82 15.97 30 52
791
1.28
0 00
0 00 0 00 0 00
827
2.19
0 00
0 00 0 00 0 00
133
1.3? 0 00
0 00 0 00 0 00
781
29
41
21228
HaMF'UF
BALE 218 12-16 09/01/88 563
30
5.3
2.5
68
27 0,33
0 56 67
21238
BALE 231 01-05 09/07/88 1874
BALE 208 23-27 09/02/88 213
BALE 212 23-27 09/02/88 321
173
9.2
1.0
70
31 0.2?
0 91 36
21210
Glisk, Yugo
Bobek, Yugo
Buket, Yugo
21216
7311-032
BALE 211 28-32 09/13/88 657
21239
0 00
8.8
5.2
63
28 0.28
0 16 75
34 10.5
5.7
65
23 0.26
0 76 14
1.63 2 87
1 60 70 76 9 48
811
72 11.0
3,5
76
37 0.31
0 14 84
1.41 0 00
0 00 0 00 0 GO
517
19
21217
7311-068
BALE 215 17-21 09/08/88 930
149 16.0
1.6
78
39 0.27
0 36 79
1.00 0 00
0 00 0.00
0 00
139
21248
7311-095
109 17,3
7,1
71
35 0.27 0 40 80
1.93 0 00
0 00 0 00 0 00
110
21250
7311-152
BALE 218 17-21 09/08/88 631
BALE 226 17-21 08/23/88 1185
214 14.4
3.9
78
30 0.29
0 38 85
1.70
0 00
0 00 0.00
21251
7312-009
BALE 225 12-16 09/08/88
796
116 14.6
5,7
72
3? 0.29
0 40 84
2,22
0 00
0 00
0 00 0 00
131
21253
7312-041
BALE 213 23-27 09/13/88 973
123 12.7
4.1
75
37 0.31
0 48 75
1.80 0 00
0 00
0 00 0 00
518
0.00
678
71
*»Agncul tural fhenistry Bepartnent**0regon 5tsU Umver sity** Agricu 1tural Research Service ?**U
1988 Bale
and 5-Cone Analyses at 8* Hoisture
S
Oept Agricu;Iture** Corvallis, Oregon"*
Content(Bale) or As Is Basi5(5--Cone) as ot ' Octobi:r
30, 1989
Recession
Oil
or Nurser y
Harvest
Hlpha Alpha Beta
;/
Lb/Ac Lb/ac
Alpha
6 Mo
7M
nU
Myr
Hun
Serial
U.)
il)
Nunber
Identification
Type Location
21254
7312-083
BALE 211:23-2? 09/09/88
610
35 13.3
3,9
77
27 0.32
0.12
85
1.83
0,00
0,00
0,00
0,00
801
21256
7312-032
BALE 219:23-2? 09/02/38 2679
359 13,1
5,9
70
13 0.28
0,55
65
2,29
0,00
0,00
0,00
0.00
829
2125?
7313-083
BALE 221:23-27 08/23/38 1689
268
6.1
72
680
21261
7003-075
BALE 230:12-16 09/13/88 1271
93
1
< . J
6,1
. 51
21276
Early Prolific BALE 023:09-12 08/22/88 576
21
1.1
1.8
Nunber
Date
Yield
15.9
7
X
Ratio
CoH
HSI
HSI
Renai n 100i] H/C
M
37 0.29
0.16
75
2.51
0.00
0.00
0.00
0,00
21
0.26
0.10
79
1.10
0.00
0,00
0.00
0,00
70
23 0.32
0.16
85
0.50
0,00
0.00
fl.OO
0.00
T2C
331
jjj
JJJ
21280
Pride of Kent
BALE 027:09-12 08/22/88 1312
120
9,1
5.5
62
3? 0.2?
0.62 56
2,13 0.00
0.00
0,00
fl.OO
21282
Uye Saxon
Bale 029:09-12 09/08/88
85
6
6.8
3.8
61
20 0.27
0,00
0
0.52
0.00
0.00
0.00
0.00
930
21285
Id sel BOR 701 BALE 231:12-16 09/13/88
381
11
2.9
1.0
12
15 0.33
0.70
55
0.78
0.00
0.00
0,00
0.00
531
111
18
10.3
6.1
63
31 0.26
0.61
57
2.15
0.00
D.00 0,00
O.GO
880
268 11,3
6.6
63
36 0.26
0.76
41
1.71
0.00
0,00 fl.OO
0.00
860
21287
Banner
BALE 213:01-05 09/06/88
2128?
Banner
BALE 211:06-09 09/01/88 2378
21368
BALE 201:01-05 08/30/88
930
85
9.2
1.0
70
37 0.27
0.87
39
1.56
0.00
0.00
0.00
0.00
766
BALE 202:01-05 09/06/88
530
10
7,5
1.6
62' 31 0.27
0,59
60
0.1?
0.00
0,00
0,00 0,00
906
21370
Yugo 88/150
Yugo 88/18?
Yugo 88/201
BALE 201:01-05 08/31/88
65?
5?
8.7
3.8
69
33 0.29
0.66
56
1.51
0.00
0,00
0.00
0.00
793
21373
7006-398
Bale 026:17-18 08/09/88
0
0
11.5
5.1
69
20 0,28
0.00
0
0.61
0.00
0.00
0,00
0.00
921
21369
21382
7501-113
BALE 221:12-16 09/13/88 1692
199
11.8
7.8
60
19 0.26
0,19
69
1,00
0.00
0.00
0.00
fl.OO
515
21381
7007-175
BALE 223:28-32 09/02/88
195
38
7,?
5,1
60
32 0,29
0,15
76
0,90
0,00
0,00
0.00
0,00
833
21103
Sticklebract
BALE 229:01-05 09/06/88 1351
161
8.2
1.1
65
11 0.28
0.35
8?
0.76
2.11
2,06 51,51 11.88
802
21101
Green Bullet
BALE 231:01-05 09/12/88 2378
260 10.9
1.1
72
39 0.25
0.32
89
0.79
0.00
0.00
0.00
0,00
523
21105
BALE 236:28-32 09/11/88
9.7
3.6
73
25 0.26
0.31
98
1.25
0.00
0,00
fl.OO
0.00
558
119 10.1
5.0
67
33 0.26
0.35
81
0,91
0.00
0.00
0.00
0.00
513
21106
Superalpha
Superalpha
AlphaArona
BALE 211:01-05 09/12/88 2133
221
10.1
1.8
68
35 0.25
0.36
71
1.20
0.00
0.00
0.00
0.00
559
21107
Id 51-88
BALE 215:06-10 09/12/88 1226
110
8.9
1.0
69
10 0.26
0.65
55
1.2?
O.OG
0.00
0,00
0.00
528
21108
11102-49
BALE 217:06-09 09/07/88 1290
121
9.1
5.5
63
19 0.27
1.11
30
2.21
G.OO
0.00
0,00
0.80
515
21109
7003-081
BALE 233:12-16 09/13/88 853
76
8.9
6.9
56
25 0.26
0.51
68
1.65
0.00
0,00 0.00 0.00
529
0.00
21105
839
BALE 210:01-05 09/12/88 1175
81
21151
7306-193
BALE 025:51-52 09/09/88
0
0
6.7
2.8
7G
29 0.30
0.11
85
0.60
0.00
0.00
111
21155
Mt Hood
BALE 010:13-16 09/09/88
0
0
7.6
8.1
18
20 0.22
0.72
15
1.16
2.43 105.03 40.0? 30.46
563
7.8.J.1
51
20 0.21
0.71
13
1.32
2.38
73
21
O.GO
0
61
21155
Mt Hood
BALE 017:65-59 09/09/88
0
0
21155
Mt Hood
Bale 215:23-27 09/09/88
111
11
21156
8303-046
BALE 016:25-28 09/09/88
0
0
1.5
5.6
15
23 0.25
0.57
21156
8303-016
BALE 018:62-81 09/09/88
0
0
5.2
1.9
51
22 0.26
0.16 72
C12.T>
'1.6
0.21
0.00
75.05 12.33 29,27
815
0.91 2.41 51.01 16.21 25.61
928
0.88
3.35 144.33 32.73 38.97
0.83 0.00
O.OG
0.00 0.00
562
875
21157
8303-117
BALE 007:33-36 09/09/88
0
0
6.1
1.6
58
21
0,21 0.50
61
0.96
3.25 119.80 35.28 35.91
116
21157
8303-117
BALE 019:61-81 09/09/88
0
0
6.0
1.1
58
21
0.27
0.52
65
0,99 3.27 99.18 13.18 30.81
799
2115?
3303-117
BALE 220:23-27 09/09/88
111
26
5.9
1.1
59
21
0.28
0.58
63
0.97
3.18 110.68 17.81 27.67
811
21458
8301-119
BALE 020:62-65 09/09/88
0
0
1.1
1.6
19
20 0.25
0.18
73
0.53
3.21 171.88 32.18 39.00
117
21159
8308-066
BALE 022:81-81 09/09/88
0
0
1.1
3.1
59
21 0.28
0.50
76
0.39
3.28
1,27 31.11 28.33
119
21159
8308-066
BALE 135:03-07 09/09/88
0
0
5.1
7.1
13
1?
0,12
53
1.32 3.57
1.33 11.16 30,29
816
0.21
21184
8305-017
BALE G16:62-65 09/09/88
0
0
5.1
1.8
52
19 0.25
0.51
67
0.80
3.36 110.29 10.16 31.19
118
21481
8305-G17
BALE 016:62-81 09/09/88
0
0
5.5
1.6
51
21 0.25
0.19
71
0,71
3.31135.03 33,69 39.16
81!
21185
1.10
1.82 138.67 50.68 11.78
516
1.25
1.78 118.22 51.21 11.76
112
S.Af. RF5/51
BALE 195:17
09/07/88 2176
197
9.1
1.5
67
18 0,27
0.16
76
21185
S.flf. RF5/51
BALE 195:18
09/07/88 2261
210
9,3
1.5
67
18 0.27 0.56
63
21185
S.fif. RF5/51
BALE 216:06-10 09/01/88 1160
117 10.1
5.3
56
17 G.27 0.50 65
0.21 0.00
0.00 0.00 0.00
828
21186
7507-109
BALE 239:23-27 09/09/88 158?
135
6.3
57
28 0.26 0,59 58
0.48 0.00
0.00 0.00 0.00
835
8,5
21190
83G9-037
BALE 035:85-88 09/09/88
0
Q
5.7
7,1
15
17 0.23
21190
8309-037
BALE 035:85-88 09/09/88
0
0
5.2
3,3
61
21
0.70 17
G.28 0.57
81
O.GO
G.OO
0.00
0.00
611
0.85 0,00
0.00
0.00
0,00
825
0.82
21490
8309-037
BALE 210:23-27 09/13/88
180
29
6.0
6.5
18
18 0.25
0.77
16
1.00
3.28 165.5155.61 21,52
560
21490
8309-037
BALE 229:28-32 09/11/88
661
43
6.5
8.2
11
16 0.23
1.03 29
1.67
3.15 135,18 66.26 11.8?
561
1.20
0.00
21195
7506-131
BALE 236:17-21 09/12/88
864
75
8.7
6.3
58
36 0,21
0.19
72
211%
Bale 195:15
08/26/88 126
15
3.1
3.7
18
25 0.37
0.00
0
21197
Tettnanger fl
tettnanger B
BALE 195:16
08/26/88 169
19
1.0
3.1
54
24 0.30
0.58
73
21500
7501-026
BALE 205:12-16 09/07/88 1839
200 10.9
6.8
62
23 0,25 0.48 67
0.00
512
0.77 3.27
1.57 13.15 18.83
G.OO
0,00
922
0.77
3.41
1.37 58.01 13.76
677
0.49 G.OO
0.00 0.00 0,00
511
72
gncultural Chenistry Oepartnent**0regon State University**ftgricultural Research Service**!.! S Oept figriculture**Corvallis, Oregon*
le and 5-Cone Analyses at Si Moisture Content(Bale) or As Is Basis'5-Cone) as of October 30,
Harvest
or Nursen
Identification
lype Location
21501
7501-031
BALE 206:12-16 09/13/88
21502
7501-111
21503
Nunber
1939
Oil
Accession
Oate
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
Ratio
X
6 Mo
CoH
HSI
HSI
Xfi+B
0 AC
531
76
1 20 0 00
0 .00
0.00 o 00
138
33 0.21
0 88 37
0 53 0 00
0.00
0.00
0 00
511
30 0.29
0 17 81
1
05 0 00
0 00
0.00 0 00
118
36 0.26
0 63 52
1 38 0 00
0 00
fl.oo a 00
71
31 0.28
1 25 21
L
68
29 0.29
0 11
0 96 2 50 55 50 55.6? 11 80
805
0 53 62
BALE 223:12-16 09/08/88 1116
115 10.5
8.7
55
29 0.23
0
7501-137
BALE 231:12-16 09/12/88 2082
155
7.5
7.5
50
21505
8036-099
BALE 231:23-2? 09/08/88
961
68
7.0
2.7
. 72
21506
7507-062
BALE 235:23-2? 09/13/88
896
102 11.4
7.2
61
2150?
11115-90
BALE 216:28_32 09/09/88 1821
1.1
21508
3037-036
BALE 218:28-32 09/09/88
3,1
52
7,2
Nunber
0.00
20 0,26
211 11.8
Serial
a )
0.00
58
725
Hun
0.00
6.6
52
OOq H/C
<enai n
9.2
572
Myr
H/F ii)
iL/
70
1 J
1 .15
95 2 11
56 53 76.32
5 11
530
800
21509
8037-090
BALE 220:28-32 09/11/88
779
15
5.8
1.3
5?
33 0.2?
0 38 81
0 85 0 00
0 00
0,00 0 00
555
21511
7610-101
BALE 239:28-32 09/13/88
555
79 14.2
5.1
71
31 0,32
0 10 88
1 68 0 00
0 .00
0.00
0 00
532
21512
7611-025
BALE 239:28-32 09/13/88 395
33
8.1
2.1
80
28 0.33
0 10 93
1 07 0 00
0 00 0.00
0 00
51b
21513
7501-001
BALE 202:12-16 09/07/88 1860
2G1
11.0
6.1
61
28 0,26
0 13
1 01 0 00
0 00
0.00
0 00
131
21525
Saaz 0s?2Y
Bale GreenHous 11/18/88
0
0
3.5
1.6
13' 29 0,31
48209
Fuggle H
BALE 010 01-04 08/19/88
523
23
1.3
2.3
65
2? 0.31
56002
Backa
BALE 012 01-04 09/08/88 171
6
3.2
6.7
32
21
61019
Yugo Golding
BALE 017 01-D1 08/19/88
191
20
4.2
2.3
65
27 0.32
0 15 81
0 61
0 00
0 00
0.00
0 00
330
62051
Janus
Bale 021 01-01 08/19/88
171
n
3.8
2.1
61
25 0.31
0 00
0 00 0 00
0 00
0.00
0 00
525
61007
19105 x 19058M 8ALE 017 19-50 09/09/88
0
0
2.1
6.7
26
28 0.21
0 67 52
0 81 1 92
61G07
19105 x 19058M BALE 232 01-05 09/06/88 1578
35
2.2
6.5
25
32 0.26
0 62 55
0 28 0 00
65009
BG x 19058M
BALE 228 23-27 09/09/88 1176
171
11.6
8.1
58
31
65101
Cluster (L8)
BALE 033 09-12 09/08/88
235
10
1.2
2.7
61
12
66050
Alliance
BALE 012 05-08 08/19/88
701
38
5.1
2.1
72
31 0.32
Pride Ringuood BALE 010 05-08 09/08/88 569
i
0.25
il
0
0 23 0 00
0 00 0.00
0 00
933
0 12 86
0 17 0 00
0 00 0.00
0 00
333
0 00
0 11 3 39 92 23 26.31 11 31
0 00
0
0
0.26
1 21 21
0.30
8
0 00
0 10 81
723
99 37 61.10 12 92
719
0.00 0 00
891
0 00
5 58
615
0 26 2 61 30 71 61.15 11 16
120
1 38 1 15 102 87 72.97
0 66 0 00
0 00 0.00
0 00
336
0 00
871
9.8
5.6
61
31 0,21
0 31
92
0 11 0 00
0 00 0.00
7003-151
BALE 231 28-32 09/11/88
736
83 11.3
8.5
57
38 0.21
a 00
0
0 00 0 00
0 00
0.00
0 00
552
7611-113
BALE 022 17-18 09/09/88
0
0 10,1
3.5
71
23 0.31
0 00
0
0 00 0 00
0 00 0.00
0 00
111
8G19-003
BALE 215 01-05 08/26/88 1371
97
7.1
1,2
63
38 0.33
0 00
0
0 00 0 00
0 00
0.00
0 00
662
8020-032
BALE 221 01-05 08/31/88 1819
12?
7.0
3.1
69
12 0.29
0 00
0
0 00 0 00
0 00 0.00
0 00
681
8021-011
BALE. 225 01-05 08/31/88 195
29
5.8
2.1
70
28 0.31
0 GO
0
0 00 0 GO
0 00 0.00
0 00
692
822
66052
55
8021-010
BALE 230 06-10 09/01/88 1561
115
7,1
3.9
65
11 0.33
0 00
0
0 00 0 00
0 00 0.00
0 00
8025-057
BALE 219 12-16 09/01/88 1297
85
6.6
1,9
77
27 0.35
0 00
0
0 00 0 00
0 00 0,00
0 00
869
8026-152
BALE 222 12-16 09/01/88 1101
70
6.1
3.8
63
25 0.29
0 00
0
0 00 0 00
0 00 0,00
0 00
873
8031-002
BALE 222 17-21 09/13/88 981
79
8.1
1.1
65
31
0.28
0 00
0
0 00 0 00
0 00 0.00
0 00
537
8031-171
BALE 231 17-21 09/13/88 930
71
7.6
3.0
72
32 0.32 0 00
0
0 00 0 00
0 00 0.00
0 00
536
8033-031
BALE 216 23-27 09/13/88 597
63 10.6
3.9
73
21 0.29 0 00
0
0 00 G GO
0 00 0.00
0 00
550
8036-026
BALE 222 23-27 09/13/88
828
10
1.8
1.1
52
3? 0.28
0 88 39
0 00 0 00
0 00 0.00
0 GO
519
8036-083
BALE 231 23-27 09/09/88
956
65
6.8
1.2
62
37 0.29
0 00
0
0 00
0.00
0 00
812
8036-081
BALE 232 23-2? 09/02/88
815
11
5.2
2.7
65
25 0.29
0 00
0
0 00 0 00
0 00 0,00
0 00
832
8301-001
BALE 205 06-10 09/12/88 1371
70
5.1
6.0
'16
28 0,25
0 00
0
0 00 0 00
0 00 0.00
0 00
519
8301-01?
BALE 208 01-05 09/06/88
911
52
5.7
1.3
57
21 0,28
0 00
0
0 00 0 00
0 00 0.00
0 00
87?
8301-063
BALE 210 01-05 08/31/88 1305
90
6.9
5.1
56
25 0.28 0 00
0
0 00 0 00
0 00 0.00
0 00
781
8303-017
BALE 217 01-05 09/06/88 683
27
3.9
3.8
51
23 0.31
0 00
0
0 00 0 00
0 00 0.00
0 00
801
8303-020
BALE 218 01-05 03/06/88
512
30
5.8
1.9
51
20 0,2?
0 00
0
0 00 0 00
0 00 0.00
0 00
798
8303-058
BALE 235 01-05 09/07/88 511
15
2.7
3.2
15
21
0.32 0 00
0
0 00 0 00
0 00 0.00 0 00
127
8303-066
BALE 236 01-05 09/07/88 789
22
2.8
1,1
10
23 0.30 0 00
0
0 00 0 00
0 00 0.00
8303-07?
BALE 244 01-05 08/31/88 1130
14
3.9
3.2
55
26 0.31 0 00
0
1 01 3 60 19 68 52.51 23 98
8303-112
BALE 235 06-09 09/01/88 1081
56
5.2
3.8
58
23 0,28
0 00
0
0 00 0 00
0 00 0.00
0 00
8301-020
BALE 203 12-16 09/01/88 583
16
2.7
6.1
31
23 0.31
0 00
0
0 00 0 00
0 00 0.00
0 00
821
8301-06?
BALE 241 06-10 09/07/88
27
1.8
6.7
12
22 0.25 0 00
0
0 00 0 00
0 00 0.00
0 00
195
8301-073
BALE 242 06-10 09/07/88 1135
31
2.8
6.2
31
27 0.28
0. 00
0
0 00 0 00
0 00
0.00
Q 00
125
8301-120
BALE 237 12-16 09/08/88 1109
37
3.1
5.5
38
21 0.27
0 00
0
0 00 0 00
0 00
0.00
0 00
720
8306-002
BALE 243 12-16 09/08/88
24
1.3
3.1
56
30 0.30
0. 00
0
0. 00 0 00
0 00 0.00
0 00
115
560
555
0 00
0 00
0 00
197
761
830
73
- 1-
'•figncul1 ural Chenistry 0epartnent**0re gon State Graver sity** Agricultural Research Serac e**U S Oept Hgriculture**CorvaIli: , Orec on**
1988 Bale and 5-Cone Anal yses at 82 Hoist jre Content(Bale) or As Is Basis(S-Cone) as o f
October 30, 1389
Accession
Oil
or Nursery
Hunber
Harvest
Identification
lype Locatior
Oate
Yield
Alpha Alpha
Lb/Ac Lb/ac
I
Beta
Alpha
I
Ratio
6 Mo
CoH
HSI
HSI
Xfi+8
nil
Rena n 100a H/C
H/F
Myr
Hun
Serial
(I)
0 )
Nunber
8308-070
8ALE 223:1l-l 1 09/08/88
626
36
5.?
3.7
61
21 0,28
0.00
0
0,00
0.00
0 .00
0.00
D.00
513
3309-001
BALE 227:17-2 1 09/12/68
381
65
6.6
5.1
55
20 0,25
0.00
0
.00
0.00
0 ,00
0,00
0.00
510
8309-005
BALE 227:28-32 09/11/88
725
12
5.8
6.5
17
28 0.25
0.00
0
.00
0.00
0.00
0 .00
0,00
520
8309-005
BALE 232:17-21 09/12/88 1172
79
5.3
6.8 . 11
21
0.00
0
.00
0.00
0.00
0.00
0,00
539
0.21
8309-008
BALE 237:17-21 09/12/88 1109
68
6,1
6.1
19
22 0.25
0.00
0
.00
0.00
0 .00
0.00
0.00
511
8309-010
BALE 233:17-21 05/12/88
796
10
5,0
1.8
51
21 0.26
fl.OO
0
.00
0.00
0.00
0 .00
c ,00
cr.1
8309-021
BALE 211:17-21 09/12/33
608
3?
6.1
6.3
19
21 0.21
0.00
0
.00 0,00
0,00
0.00
0.00
551
0 .Ofl
83l
jjj
8108-071
BALE 228:28-32 09/09/88
553
23
1.1
3.7
53
26 0.31
O.GO
0
.00
0.00
0 .00
0,00
8601-003
BALE 171:03
08/19/88
299
11
3.8
2.2
61
26 0.31 0.00
0
0.00
0.00
0 .00
0,00
0.00
351
8601-00?
BALE 171:07
08/19/88
683
29
1.3
1.1
76
26 0.39
0
0.00
0.00
0.00
0.00
0,00
292
0.00
8601-011
BALE 171:11
08/19/88
597
12
2.1
2.1
19
39 0.35
o.oo
a
0 .00
0.00
0.00
0,00
0.00
353
8601-015
BALE 171:15
08/19/88
981
88
8,9
3.3
73
39 0.26
0.00
0
0 ,00
0.00
0.00
0 .00
0.00
288
0.00
0.00
8601-033
BALE 171:33
08/19/88
169
25
5,3
1.8
75
33 0.30
a.oo
o
0 .00
8601-037
BALE 171:37
08/19/88
768
32
1,2
3.3
56
23 G.31
0.00
0
0 00 0 00
8601-011
BALE 171:11
08/19/88
169
10
2.2
3.1
12
32 0.32
0.00
0
0.00
3601-015
BALE 171:15
08/19/88
127
10
9.3
3.3
71
31
0.00
0
0 00 0 OD
0.2?
0 00
0.00
0 00
311
0 00 0,00
0 00
295
0 00
fl 00
310
0 00 0 00 0 Ofl
291
0.00
8601-016
BALE 171:16
09/08/88 1152
59
5.1
2.9
63
29 0.30
0.16
81
0 98 3 93 32 72 36 31 33 78
108
8601-01?
BALE 171:17
09/08/88 1168
125
8,5
3.9
69
21 0,26
0.3?
85
0 89 3 16
105
67
6.3
3.9
61
31 0.30
0.00
0
0 00 0 00
0 00 0 00 0 00
312
1
2.6
1.2
69
28 0.31
0.00
0
0 00 0 00
0 00 0 00 0 00
929
8601-018
BALE 171:18
08/19/88 1066
8601-056
Bale 172:03
08/22/88
171
1 55 39 51 21 16
8601-058
BALE 172:05
08/22/88 1280
68
5.3
2.2
70
25 0.29
0.53
68
0 68 3 11
1 78 39 00 20 28
339
8601-059
BALE 172:06
08/22/88 127
30
7.1
2.1
71
21 0.30
0,00
0
0 00 0 00
0 00 0 00 0 00
357
8601-060
BALE 172:07
08/22/88
299
9
3.1
1.6
65
25 0.39
0,00
0
0 00 0 00
0 00 0 00 0 00
356
8602-002
BALE 172:09
08/22/88
59?
38
6.1
2.2
71
26 0.29
0.00
0
0 00 0 00
0 00 0 00 0 00
312
8602-001
BALE 172:11
08/22/88
896
11
4,6
1.8
72
20 0.31
0.00
0
0 GO
0 00
0 00 0 00 0 00
363
8602-010
BALE 172:17
08/22/88 2301
175
7,6
2.9
72
33 0.31
0.00
0
0 00 0 00
0 00 0 00 0 00
361
8602-013
BALE 172:20
09/08/88 1152
133 11.6
1.6
72
38 0,26
0.00
0
0 00 0 GO
0 00 0 00 0 00
107
8602-011
BALE 172:21
09/08/88 1831
116
3.6
69
15 0.27
0.00
0
0 00 0 00
0 00 0 00 0 00
116
0 00 0 00
0 00 0 00 0 00
358
0 99 2 13 397 15 17 81 19 53
361
7.9
8602-017
BALE 172:21
08/22/88 1191
69
5.7
1.8
76
19 0.32
0.00
0
8602-019
BALE 172:26
08/22/88 1706
150
8.8
3.9
69
26 0.29
0.51
66
0
8602-023
BALE 172:30
09/08/88 1024
71
7.2
2.3
7E
36 0.29
0.00
8602-021
BALE 185:19
08/30/88 1365
69
5.0
2.0
71
28 0.31
0.13 85
8602-02?
BALE 172:31
08/22/88 1194
51
4.3
1.2
78
26 0.36
0.66
61
8602-029
BALE 172:36
08/22/89
469
25
5.4
1.6
78
22 0.36
0,00
0
0 00 0 00
0 00 0 00 0. 00
101
0 73 2. 71
2. 18 33. 35 26. 93
733
0 87 0 00
0. 00 0. 00 0. 00
360
1 11 1. 99 11. 79 17. 33 21. 52
310
8602-033
BALE 172:10
08/22/88
896
80
9.0
3.1
73
39 0.28
0,00
0
0 00 0. 00
8602-035
BALE 172:12
09/08/88 1578
115
9.2
3,1
73
23 0.30
0,50
76
0, 82 0. 76
0. 00
0. 00
291
. 89 10, 83 10. 3?
0. 00
102
8602-013
BALE 172:50
08/22/88
384
15
4,0
1.3
75
23 0.33
O.OG
0
0. 00 0. 00
0. 00 0. 00 0. 00
311
8602-011
Bale 172:51
08/22/88
128
6
4.5
1.1
76
25 0,33
0.00
0
0, 00 0. 00
0. 00 0. 00 0. 00
927
366
8602-019
BALE 173:03
08/22/88 1194
96
8.0
3.0
73
27 0.28 0.00
0
0, 00 0. 00
0. 00 0. 00 0. 00
8602-050
BALE 173:01
08/22/88 42?
17
4.0
2.3
63
25 0.32
0.00
0
0. 53 3, 59
1. 52 39. 63 19, 25
313
8602-052
BALE 173:06
09/08/88 1877
186
9.9
3.1
76
31
0.29 0.61
57
0. 61 0. 00
0. 00 0. 00 0. 00
109
111
8.1
1.2
67
23 0.27 0.17 71
0. 12 2. 90
1. 57 71, 23 6. 71
365
11
6.6
2.1
76
21 0.32 0.00
0
0. 00 0. 00
0. 00 0. 00 0. 00
337
368
8602-055
BALE 173:09
08/22/88 1706
8602-056
BALE 173:10
08/22/88
171
8602-065
BALE 173:19
08/22/88 896
77
8.6
2.5
77
26 0.30
0.00
0
0. 00 0. 00
0, 00 0. 00 0, 00
8602-067
BALE 173:21
08/22/88
299
19
6.5
2.3
73
21 0,31
0.00
0
0. 00 0. 00
0, 00 0. 00 0. 00
367
8602-068
BALE 173:22
08/22/88 768
13
5.6
1.9
75
30 0.35 0.00
0
0. 00 0. 00
0. 00 0. 00 0. 00
359
8602-075
BALE 173:29
08/22/88 1621
82
5.1
1.9
72
13 0.30
0.11
79
0. 11 0. 00
0. 00 0. 00 0. 00
315
8602-07?
BALE 173:31
08/22/88 127
16
3.7
2.0
65
26 0.33 0.00
0
0. 00 0. 00
0. 00 0. 00 0. 00
355
8602-081
BALE 173:35
09/08/88 1152
93
8.0
2.6
76
27 0.29
0.00
0
0. 00 0. 00
0. 00 0. 00 G.00
115
8602-083
BALE 173:37
08/23/88 117?
97
6.6
2,0
77
32 0.29
0.15 76
0. 91 0. 00
0. 00 0. 00 0. 00
351
74
- 5-
«»flgricultural Chenistry Oepartnent**0regon State yniversity**flgricultural Research Service**)] SOept figriculture»*Corval1is, Oregon**
1988 Bale and 5-Cone final yses
at SZ Moisture Cor tenH lale)
<r As s Basis(S-Cone) as of October
30, 98 1
Oil
Accession
Harvest
or Nursery
Nunber
6602-081
Identification
Type Location
BALE 173 38
Oate
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
08/23/88 169
18
I
3,9
V
Ratio
h
0
0
L, L
61
6 Mo
CoH
HSI
29 0.31
HSI
0 00
im
Myr
Hun
Serial
H/F il)
a)
Nunber
nil
Itnai n lOOq
4/C
0
0.00
0 00
0.00
fl.OO
0,00
626
0
0 00 0 00
0 Ofl
0 00 0.00
300
8602-08?
BALE 173 11
08/23/88 1021
18
1.7
2.5
65
25
0,31
0 00
8602-092
BALE 173 16
09/08/88 725
51
7.1
2.1
71
32 0.29
0 00
0
0 00 0 00
0 00 0 Ofl
9.00
113
8602-091
BALE 173 18
09/08/88 1320
107
5.6
3.0
. 65
21 0.29
0 1?
76
0 67 3 21
1 58 27 15 21,71
750
8602-095
BALE 173 19
08/08/88 1322
86
6.5
3.2
67
26 0.31
D 70 55
1 06 3 53
1 93 1? 65 19.72
123
8602-09?
BALE 173 51
08/23/88 1621
108
6.7
2.6
72
25 0.30
0 17 77
0 92 3 51
5 30 52 23 18.9?
352
131
8.3
3.8
69
21 0.28
17
1.5
2.2
68
21
8602-102
BALE 171 03
09/08/88 1573
8602-101
BALE 171 05
08/23/88
381
0.31
0 39 81
1 08
3 20 81 10 61 75 15.76
610
0 00
0
0 Ofl
0 00
0 00 0.00
602
0
0 Ofl
0 00 0 00 0.00
362
1 16 2 12 336 96 13 70 21.75
113
fl 00 0 00
8602-111
BALE 171 15
08/23/33
213
5
1.3
1.1
75
23 0,31
0 00
8602-115
BALE 171 20
05/08/88 2686
205
7.6
2.7
71
23 0.30
0 52 Tl
8602-121
BALE 171 22
08/23/88
886
57
6.1
2.2
71
33 0,35
0 00
0
0 00 0 00
0 00
0 00 0.00
590
8602-122
BALE 171 23
08/23/88
610
13
3.0
1,7
61' 35 0.31
0 00
0
0 00 0 00
0 00 0 00 0.00
603
8602-121
BALE 171 25
08/23/88 1152
38
3.3
2,5
58
30 0.33
0 00
0
0 00 0 00
0 00 0 00 0.00
316
8602-130
BALE 171 31
08/23/88 381
18
1.6
2.2
67
11
0,38
0 00
0
0 00 0 00
fl 00 0 00 0.00
627
8602-131
BALE 171 32
08/23/88 1661
51
3.2
3.7
17
22 0,37
0 61
66
0 37 0 00
0 00 0 00 0.00
308
31 0.28
0 51 69
0 69
0 00
0 00 0.00
110
30 0.3?
0 18
0 73 0 00
0 00 0 00 0.00
309
0 00
0 00 0 00 0.00
319
0 00 0.00
698
8602-137
BALE 171 38
09/08/88 2090
159
7.6
2.6
75
8602-138
8ALE 171 39
08/23/88 1280
72
5.7
2.1
70
8602-133
BALE 171 10
08/23/86
127
29
6.9
2.3
75
2? 0.31
0 00
83
0
0 00
0 00
8602-110
BALE 171 11
09/08/88 2301
282 12.2
1.3
71
32 0.27
0 65 51
0 95 0 00
8602-111
BALE 171 12
09/08/88 1792
150
8.1
2.8
75
31
0,30
0 78 16
1 16
0.31
8602-115
BALE 171 16
08/23/88 1365
76
5.6
3.1
61
31
8602-116
BALE 171 17
08/23/88
37
5.2
1.9
71
26 0.31
725
0 00
0 00
0 00 0 00
0.00
728
0 60 59
0 81 0 00
0 00 0 00 0.00
586
0 00
0
0 00 0 00
0 00 0 00 0.00
306
8602-118
BALE 171 19
08/23/88 768
53
6.9
2.0
78
21 0.31
0 00
0
0 00 0 00
0 00 0 00 0.00
611
8602-152
BALE 171 53
08/23/88 512
30
5.8
2.2
73
2? 0.30
0 00
0
0 00 0 00
0 00 0 00 0.00
350
8602-162
BALE 175 10
08/23/88 1536
125
8.1
3.5
70
21 0.30
0 18 75
0 51 2 85
1 10 55 27 13,81
302
09/08/88 2301
119
6.5
6.0
52
22 0.27
0 55 66
1 03
3 58
9 01 19 70 22.81
111
8602-165
BALE 175 13
8602-166
BALE 175 11
09/08/88 2090
115
7.0
5,1
56
25 0.28
0 61 57
1 16 3 15
1 61 13 83 21.07
729
8602-167
BALE 175 15
08/21/88 127
16
3.7
2,0
61
25 0.31
0 00
0
0 00 0 00
0 00 0 00 0.00
600
8602-163
BALE 175 17
08/23/88 1920
118
7.7
3.3
70
25 0.33
0 57 70
0 98 2 11
1 38 25 31 22.98
298
1.6
63
21 0.2?
0 19 70
0 98 3 52
1 21 51 18 15.86
101
0.28 0 00 0
0 18 76
0 00 0 00
0 00 0 00 0,00
121
0 78 0 00
0 00
311
8602-170
BALE 175 18
09/08/88 1719
137
7.8
8602-172
8602-176
BALE 175 20
BALE 175 21
09/08/88 1109
08/23/88 1108
68
112
6.2
2.1
72
31
8.0
1.9
81
31 0.31
8602-186
BALE 175 34
68
55
2.1
71
35 0.37
0 00
0
0 00 0 00
0 00 0 00 0.00
608
8602-187
08/23/88 1152
08/23/88 106?
5.9
BALE 175 35
5.1
2.0
72
26 0.38
0 00
0
0 00 0 00
0 00 0 00 0.00
301
8602-188
BALE 175 36
08/23/88
725
33
1.6
2,2
68
29 0.32
0 00
0
0 00 0 00
0 00 0 00 0.00
592
BALE 175 38
03/23/88
381
18
1,6
1.9
71
23 0.35
0 00
0
0 00 0 00
0 00 0 00 0.00
318
1.7
69
33 0.39
0 00
0
0 00 0 00
0 00 0 00 0.00
305
71
28 0.31
0 00
0
0 00 0 00
0 00 0 00 0.00
591
8602-190
0 00 0,00
BALE 175 34
08/23/88 555
22
3,9
8602-195
BALE 175 43
08/23/88 310
35
1,3
1.5
8602-205
BALE 175 53
08/23/88 2005
7.1
3.1
67
15 0.35
0 11 88
0 51 0 00
0 00 0 00 0.00
580
5.8
53
22 0.30
0 39 85
0 63 2 87 351 11 35 65 31.38
307
8602-191
8602-207
8602-211
BALE 176 02
BALE 176 06
08/23/88 1962
08/23/88 1877
111
128
139
6.5
7.1
2.5
75
25 0.29
0 00
0
0 GO 0 00
0 00 0 00 0.00
299
0 00 0 00
0 00 0 00 0.00
722
8602-215
BALE 176 10
09/08/88 1152
105
9.1
3,0
75
35 0.30
0 00
8602-216
BALE 176 11
08/23/88 1365
62
1.5
2.1
66
12 0.33
0 56 70
0 73 0 00
0 00 0 00 0.00
605
8602-221
BALE 176 16
08/23/88 1831
122
6.6
3.2
68
33 0.32 0 50 73
0 59 0 00
0 00 0 00 0.00
317
8602-222
BALE 176 17
08/23/88 1706
129
7.6
3.5
68
37 0.31
0 71 52
1 29 0 00
0 00 0 00 fl.OO
601
8602-221
BALE 176 19
08/23/88 512
28
5,6
2,9
66
32 0.33
0 00
0
0 00 0 00
0 00 0 00 0.00
303
8602-225
BALE 176 20
08/23/88 981
0
0 00 0 00
0 Ofl 0 00 0.00
301
8602-236
BALE 176 31
08/23/88 1578
0 68 3 10 317 95 27 23 38.17
593
8602-239
BALE 176 34
08/21/88 123?
8602-211
BALE 176 36
08/21/88 725
0
6.6
2.1
73
22 0.30
0 00
7.0
2.8
71
25 0.31
0 53 62
81
6.8
2.6
72
28 0.29
0 00
0
0 00 0 00
0 00 0 00 0.00
588
51
7.1
2.6
71
25 0.30
0 00
0
0 00 0 00
0 00 0 00 0.00
599
65
111
75
"Agricultural Chenistry Oepartnent»*0regon State University**Agricultural Research Service**!) S Oept Hgriculture**Corvalli5i Oregon*
1988 Bale and 5-Cone Anal yses at 82 Moist ire Content(Bale) or As Is Basis(S-Cone) as of Qctober 30, 1989
Oil
Accession
or Nursery
Nunber
Harvest
Identification lype Locatior
Oate
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
V
I
Ratio
6 Mo IM
CoH
HSI
HSI
Renain
nil
lOOq H/C
H/F
Myr
Hun
Serial
il)
il)
Nunber
8602-214
BALE 176:39
09/08/88 1193
181
12.1
1,7
72
38 0.26
0.67
55
1.65
0.00
0.00
0,00
0.00
106
8602-216
BALE 176:11
08/21/88 1536
136
8.9
3.0
75
30 0,29
0,15
77
1 .01
2,28
1.29 57.55 11.30
612
8602-217
BALE 176:12
08/21/88 1150
161
11.3
1,1
73
26 0.28
0.51
23
0.95
2.10
1 .88 61.33 11,82
59?
27 0.29
0.00
0
0 ,00
a.00
609
8602-218
BALE 176:13
08/21/88
853
76
8,9
3,8
. 70
0,00
0.00
0.00
8602-219
BALE 176:11
08/21/88
610
26
1.0
3.2
56
20 0.32
0.00
0
0.00
0.00
0.00
0.00
0.00
323
8602-25!
BALE 176:16
08/21/88
768
38
5.0
2.8
61
25 0.3?
O.Ofl
0
0 ,00
0,00
0,00
0.00 0.00
578
fl.00
0.00
0 .00
0.00
0,00
625
fl 15 3 10 116 19 33.79 25.7?
613
8602-251
DALE 176:53
08/21/88
555
30
5.1
2,2
71
28 0.33
0.00
fl
8602-252
BALE 176:17
08/21/88 1706
130
7.6
2.9
72
30 0.32
0,11
75
8602-253
BALE 176:18
08/21/88
725
59
8.2
3.0
73
29 0.33
O.Ofl
fl
fl.00
0.00
0 00 O.Ofl
0,00
587
8602-257
BALE 176:52
08/21/88
768
72
9.3
3.1
73
29 0.30
O.flfl
0
0 00 0 00
0 00 0,00
O.Ofl
607
8602-260
BALE 177:02
08/21/88
853
31
1.0
2.1
65
25 0.31
O.flfl
fl
0.Ofl 0 00
0 00 0.00
0.00
606
8602-263
BALE 177:05
08/21/88
381
19
1.8
2.2
68' 13 0,35
0.00
0
0 00 0 00
0 00 0,00
0.00
601
101
7.2
1.9
60
2b 0.28
0.15
71
1 06 3 16
85
8.7
3.1
72
36 0.30
0.00
0
0 00 0 00
8602-265
BALE 177:07
08/23/88 1150
8602-270
BALE 177:12
08/21/88
8602-272
BALE 177:11
08/21/88 1578
108
6.8
2.5
70
21 0.29
fl.11
81
0 86 3 12 175 85 50.59 29.13
619
8602-271
BALE 177:16
08/21/88 1661
205 12.3
3.2
79
23 0,28
0,35
90
1 13 3 61
1 11 22.11 22.11
577
8602-275
BALE 177:17
08/21/88 512
10
7.8
2.2
78
10 0,32 0.00
0
0 00 0 00
0 00 0.00
0.00
585
08/21/88 1365
98
7.2
2.5
71
35 0,30
0.19
71
1 09 0 00
0 00 0.00
0.00
628
119
8.1
3.1
73
25 0.31
0.53
66
0 79 3 19
1 52 28.39 21.93
598
38
6.3
2,7
70
25 0.31
0.00
0
0 00 0 00
0 00 0.00
0,00
591
158 10,9
1.1
71
31
0.28
0.00
fl
0 00 0 00
fl 00 0.00
O.Ofl
753
6.2
2.0
75
38 0.32
0.71
50
0 00 3 10
1 31 53.61 11.50
583
8602-276
BALE 177:18
98!
8602-278
BALE 177:20
08/21/88 1831
8602-285
BALE 177:27
08/21/88
8602-286
BALE 177:28
09/08/88 1150
8602-288
BALE 177:30
08/21/88 1365
597
81
96 11.35 16.38
0 00 0.00
0.00
581
620
8602-289
BALE 177:31
08/21/88
256
11
1.1
1.6
73
31 0.35
0.00
0
0 00 0 00
0 00 0.00
0.00
324
8602-291
BALE 177:33
08/21/88
610
38
5.9
2.2
73
28 0.32
0.00
0
0 00 0 00
0 00 0.00
0.00
596
589
8602-292
BALE 177:31
08/21/88 1365
88
6.1
2.1
75
29 0.31
0.51
71
0 70 2 80
2 13 35.29 21.11
8602-293
BALE 177:35
08/21/88 610
19
7.7
2.6
71
31 0.33
0.00
0
0 00 0 00
0 00 0.00
0.00
621
8602-291
BALE 177:36
08/21/88
63
6.7
1.0
63
37 0.29
0.00
0
0 00 0 GO
0 00 0.00
0.00
629
8602-236
BALE 177:38
08/21/88 127
9
2,2
1,8
55
29 0.32
0.00
0
0 00 0 00
0 00 0.00
0.00
573
8602-299
8ALE 177:11
08/21/88
811
37
1.6
2,3
67
11
0.31
0.00
0
0 62 0 00
0 00 0,00
0.00
581
8602-300
BALE 177:12
08/21/88 1280
112
8.7
1.0
69
25 0.29
0.15
76
0 86 0 00
0 OG
0.00
595
0
0 00 0 00
0 00 0.00 0.00
582
0 87 2 61 108. 82 19,68 20.17
579
910
0.00
8602-303
BALE 177:15
08/21/88 725
28
3.9
1.3
75
29 0.13 0.00
8602-305
BALE 177:17
08/21/88 1237
83
6.7
2.5
73
21
8602-313
BALE 178:02
17/8:202 597
18
8.0
2.1
79
23 0.29 0.00
0
0 00 0 00
0 00 0.00
0.00
373
8602-317
BALE 178:06
08/25/88 1021
79
7.7
3.5
69
23 0.27 0.00
0
0 00 0 00
0. 00 0.00
0.00
296
0.33
0.18 76
8602-319
BALE 178:08
08/25/88 1578
163 10.3
5.8
61
31 0.27
0.18
69
0 38 0 00
0. 00 0.00
0.00
369
8602-320
BALE 178:09
08/25/88 1792
128
1.7
60
25 0.27
0.53
61
0. 90 3. 28
6. 39 17.05 22.51
297
7.2
8602-321
BALE 178:10
08/25/88 1066
87
8.1
2.6
76
22 0.27
0.00
0
0 00 0 00
0. 00 O.flO
0.00
379
8602-326
BALE 178:15
08/25/88 1365
121
8.9
2.5
78
21 0.28
0.12
?9
0. 90 1. 02
1, 17 31.08 16.08
376
8602-329
BALE 178:18
08/25/88 1237
100
8.1
3.6
69
10 0.28
0.10
78
0 83 0. 00
0. 00 0.00
0.00
318
8602-330
BALE 178:19
08/25/88 1280
123
9.6
3.1
75
29 0.28
0.11 79
1. 18 0. 00
0. 00 0,00 0.00
371
8602-331
BALE 178:20
08/25/88 1066
101
9.7
3.7
72
30 0.28 0.00
0
0. 00 0. 00
0. 00 0.00
0.00
321
202 10.8
623
8602-333
BALE 178:22
08/25/88 1877
3.3
77
26 0.27
0.19
71
1, 67 3, 08
2. 61 47.13 20.25
8602-335
BALE 178:21
08/25/88 725
52
7.1
2.6
73
21 0.29
0.00
0
0. 00 0, 00
0. 00 0.00
8602-336
BALE 178:25
09/08/88 1621
110
6.8
3.9
61
36 0.28 0.52 67
1. 02 0, 00
0. 00 O.flO 0.00
0.00
319
731
8602-313
BALE 178:32
08/25/88 853
102 12.0
3.8
76
31
0
0. 00 0. 00
0. 00 0.00
0.00
338
8602-318
BALE 178:37
08/25/88 1920
120
3.3
66
26 0,30 0,65 53
0. 65 2. 92
2. 65 47.37 19.5?
293
6.3
0.26 0.00
8602-349
BALE 178:38
08/25/88 1237
1G6
8.5
2.5
77
30 0.28
90
0. 69 0. 00
0. 00 0.00
0.00
322
8602-351
BALE 178:10
08/25/88 1322
92
6.9
2.1
75
30 0,29 0.12 58
1, 26 0, 00
0. 00 0.00
0.00
380
8602-352
BALE 178:11
08/25/88 1109
69
6.3
2,2
71
36 0.31
0. 00 0. 00
0. 00 0.00
0.00
311
8602-353
BALE 178:12
08/25/88 1661
110
6.6
3,3
67
21 0.28 0,35 88
0. 58 3,18103. 23 52.92 22.97
283
0.36
0.00
0
76
♦Agricultural
Chenistry Departnent*»Oregon Stale !Jniversity*»Agricultural Research Service**!] S Oept fignculture**Corvallis, Oregon*
1988 Bale and 5-Cone Analyses
Mcisture Content(Bale) or As Is Basis(S-Cone) as of October 30,
or Nursery
Hunber
8602-356
1989
0:1
Accession
Identi ication
lype Location
BALE 178:15
Harvest
Yield Alpha
Alpha
Beta
Bate
Lb/Ac Lb/ac
I
I
08/25/88 2517
221
8.9
2,9
Alpha
Ratio
76
6 Mo
Cot HSI
31 0.27
HSI
fl .13
ZA'B
Renai n lOOq
76
0.62
H/C
0.Ofl
8602-357
BALE 178 16
08/25/83 1108
7?
5.5
5.9
18
21
0 59 60
0 97 2 36
8602-360
BALE 178 19
08/25/38 1152
97
8,5
2.8
75
32 0.28
G.00
0,00
8602-361
BALE 178 50
06/25/88 1706
109
6,1
1.3
. 60
26 0,2?
0 18 72
209 11,1
0.27
0
5.1
69
23 0.28
0 53 71
2,7
72
37 0.30
0 00
fl
7.3
2.6
73
35 0.29
0 00
0
310 11.5
5.2
71
28 0.29
0 10 82
My r
Hun
Serial
H/F a)
a )
Hunber
nil
0 .00
0 88 2 96
0.82 3 18
fl .00
372
,76 18 .61 11 .26
31b
0,00
O.flO
0,00
fl,00
621
2.68 3? 20 25> 11
1 t
fl.00
281
5.95
569
0.00
0 00 0.00
637
O.Ofl
.96 61 31
8602-365
BALE 179 01
08/26/88 1831
8602-366
BALE 179 02
08/26/88 1152
8602-36?
BALE 175 03
08/26/88 1152
8602-368
BALE 175 01
08/26/88 2133
8602-369
BALE 175 05
08/26/88 1621
86
5,3
6.5
15
36 0.32
8602-370
BALE 175 06
08/26/88 1661
127
7.6
2.1
76
29 0.31
8602-381
BALE 179 20
08/25/88
61
6.5
2.9
69
35 0.31
0 00
0
0 00 fl 00
O.flfl
0 00 0.00
320
8602-388
BALE 179 21
08/25/88 1150
83
5.7
2.5
70
29 0.28
0 38 8?
0 26 0 00
0.00
0 00 0.00
370
0.25
0 13 75
0 97 fl 00
0.00
0 00 0.00
286
82
0 68 3 07
1.67 60 88 12 21
622
938
80
6,9
81
0 00 fl 00
0 00 0.00
633
0 70 3 11
1,50 51 60 13.08
619
0 61 63
0 73 fl 00
0,00
0 00 0 ,00
561
0 38 91
0 13 3 55 37,11 15 75 25.60
650
0 .00
0 00
8602-396
BALE 179 32
08/25/88 1661
201 12.2
3.7
77
31
8602-399
SALE 179 35
08/25/88 1621
123
7.6
2.7
73
26 0.28
0 11
8602-100
BALE 179 •36
08/25/88
169
37
7.9
3.0
73
25 0.29
0 00
0
0 00 0 00
fl.OO
0 flfl
0 .00
31?
8602-109
8HLE 179 15
08/25/88
59?
19
3.2
1.9
62
31 0.31
fl 00
0
0 00 0 00
O.flO
0 00 fl 00
289
8602-111
BALE 179 17
08/25/88 1150
116 10.1
3.6
71
25 0.26
fl 10 81
0 87 1 16
1.19 12 15 16 .70
235
313
8602-112
BALE 179 18
08/25/88
381
23
6,1
2.6
70
3? 0.30
0 Ofl
0
0 00 0 00
0.00
0 00 0.00
8602-113
BALE 179 19
08/25/88 1661
118
8.9
3.9
70
38 0.25
0 12 77
0 81 0 00
0.00
0 00 0 00
315
8602-115
BALE 178 51
08/25/88 1150
119
10,3
3.5
75
23 0.26
0 39 81
0 30 2 91
2,66 52 03 16 91
28?
8602-118
BALE 180 01
09/09/88 981
32
9,1
1.1
70
35 0.28
0 00
0
0 00 fl 00
O.Ofl
0 00 0 00
871
8602-121
BALE 180 01
08/26/88 1021
66
6.5
2.5
72
37 0.32
0 00
0
0 00 fl 00
0.00
0 00 0 00
611
8602-125
8ALE 180 08
08/26/88
91 10.7
3.5
76
29 0.2?
0 00
0
0 00 fl 00
0.00
0 00 0 00
612
8602-126
BALE 180 09
08/26/88 555
12
7.5
2.5
75
35 0.31
0 00
0
0 00 0 Ofl
0.00
0 00 0 00
639
8602-130
BALE 180 13
08/26/88 1193
8602-131
BALE 180 17
08/26/88
853
117
7.8
5.3
60
17 0,25
0 11 79
0 51 3 31
1.67 30 7126 19
660
610
52
8.1
2,6
75
30 0.30
0 00
B
0 00 0 00
0.00
0 00 0 00
638
8602-135
8ALE 180 18
08/26/88 1152
111
9,7
3.6
73
33 0.33
0 53 71
0 95 0 00
fl.OO
0 00 0 00
631
8602-13?
BALE 180 20
08/26/88 981
87
8.8
2.8
76
32 0.29
0 00
0
0 00 0 00
O.Ofl
0 00 0 00
651
8602-138
8ALE 180 21
08/26/88
910
55
5.8
2.1
71
30 0.31
0 00
G
0 00 0 00
0.00
0 00 0 00
659
8602-139
8ALE 180 22
08/26/88 1109
80
7,2
2.3
76
21 0.28
0 00
0
0 00 fl 00
0.00 0 00 0 00
656
8602-110
BALE 180 23
08/26/88
910
81
8.9
2.7
76
21 0.28
0 00
0
0 00 0 Ofl
0.00 fl Ofl 0 00
655
8602-111
Bale 180 27
08/19/88
165
31
6,6
2.9
69
13 0,31
0 00
0
0 90 1 79
9.20 15 18 15 50
921
8602-117
BALE 180 30
08/26/88 169
29
6,3
1.8
57
39 0.29
0 00
0
0 00 0 00
0.00 0 00 0 00
565
fl 00
0
0 00 0 00
0,00 0 00 0 00
632
0 00
0
0 00 0 00
0.00
0 00 0 00
635
0.00
0. 00 0 00
611
8602-151
BALE 180 31
08/26/88 981
71
7.5
2.8
73
39 0.35
8602-152
BALE 180 35
08/26/88
82
9.1
1.0
70
25 0.27
896
8602-162
BALE 180 15
08/26/88 1066
4?
1.1
2.6
63
31 0.35
0 00
0
0 00 0 00
8602-163
BALE 180 16
08/26/88
28
8.1
3.1
72
33 0.32
0 00
0
0 00 0 00
0.00
0 00 0 00
657
0 00 0. 00
0.00
0. 00 0 00
631
311
0 00
1.9
77
23 0.35
0
5.9
1.6
56
26 0.32 0. 15 83
5,8
2.2
73
32 0.31
BALE 180 17
08/26/88 1066
65
8602-165
BALE 180 18
08/26/88 1706
100
8602-170
BALE 180 53
08/26/88
4?
8602-172
BALE 181 02
09/09/88 1719
74
1.2
1.7
17
35 0,32
0. 61 59
0 67 0. 00
0.00 0. 00 0 00
796
8602-473
BALE 181 03
08/27/88 1021
49
1.7
2.5
65
29 0,33
0, 00
0, 00 D. 00
O.Ofl
0. 00 0 00
618
8602-161
810
6.1
0 00
0
0
0 51 3 18 56.05 60. 21 18 81
630
0.00
572
0 00 0. 00
0 00 0 00
8602-171
BALE 181 01
08/27/88 1109
99
9.0
2.5
78
30 0.29 0. 10 80
0 89 0 00
0.00
0 00 0 flfl
375
8602-181
8ALE 181 14
08/27/38 1195
55
1.6
1.6
75
30 0.33 0, 55 76
0. 80 0. 00
0.00
0. 00 0 00
616
8602-196
BALE 181 26
08/27/88 768
19
6.1
2.1
75
36 0.31
0. 00
0
0. 00 0, 00
0.00
0. 00 0 00
377
8602-198
BALE 181 28
08/27/88 811
72
8.9
3.8
70
30 0.33 0. 00
0
0 00 0. 00
0.00
0. 00 0 00
613
0. 00
8602-199
BALE 181 29
08/27/88
555
12
7.6
2.2
78
31
0
0 00 0, 00
0.00
0. 00 0 00
617
8602-502
BALE 181: 32
08/27/88 1280
83
6.5
3.3
66
29 0,32
0. 50 75
1. 38 0. 00
0.00 0. 00 0 00
615
8602-503
BALE 181 33
08/27/88 1237
77
6.2
1.0
61
31 0.32
0. 50 78
0 93 0. 00
O.OG
8602-501
BALE 181 31
08/26/88 1706
105
6,1
1.2
60
21 0.36 0, 63 62
0.33
0. 00 0 00
378
0. 82 2. 89 131.18 39, 61 21 90
566
77
•Agricultural Chenistry Oepartnent**0regon State Univer;;ty**Anricultural Research Service**!] S Oept Hgriculture**Coryallis, Oregon*
1988 Bale and 5-Cone Analyses at 8X Moisture Content(Bale) or As Is Basis(S-Cone) as of October 30, 1989
Oil
Accession
Harvest
or Nursery
Nunber
Identification
lype Location
Oate
Yield Alpha Alpha Beta
Lb/Ac Lb/ac
I
I
Alpha
Ratio
b Mo
Cot
HSI
HSI
M
My r
nil
Renain 100c H/C
H/F il )
Hun
Serial
u )
Hunber
BALE 181:36
08/26/88 169
20
1.3
3,3
56
38 0.3?
fl .00
fl
O.Ofl
0.00
0.00
fl.00
fl .00
653
8602-518
BALE 181:18
08/26/88 896
61
7.2
2.3
75
31 0.30
0.00
0
0,00
0.00
0.00
0 .00
0.00
651
8602-519
BALE 181:49
08/26/88 836
50
5,6
2,2
72
28 0.33
fl .00
0
0 .00
0.00
0.00
0 .00
fl,00
661
0,00
636
8602-506
8602-521
BALE 181•51
08/26/88
725
37
5,1
2.7
. 65
30 0,31
0 00
0
0.00
0.00
0.00
0 .00
8602-526
BALE 182:03
08/27/88
512
25
5.0
2,6
66
35 0,32
0 00
0
0.00
0.00
0 .00
fl.flfl 0 .00
8602-513
BALE 182 20
08/27/88 2261
151
6.8
5,3
56
10
0 63 62
1 01
0.00
0 00 0 .00
0.00
8602-517
8ALE 182 24
08/27/88 555
29
5.3
2.1
69
20 0.33
fl 00
0
a 00 0.00
0 00
0 .00
fl.00
652
8602-518
BALE 182 25
08/27/88 811
61
7,5
2.6
71
37 G.32 fl 00
0
a 00 0,00
0 00 0 .00
0•Ofl
576
0 00 0.00
0 .00
0,32
69
0.00
8602-519
BALE 182 26
08/27/88 1322
59
1.5
2.6
63
38 0.31
0 51
8602-550
BALE 182 27
08/27/88 1621
127
7.8
2.9
73
32 0,30
0 11 75
8602-552
BALE 182 29
09/09/88 1877
210 12.8
6.1
68
33 0.26
8602-560
BALE 182 37
09/09/88 597
56
9,1
1.2
69' 33 0.28
0
8602-561
BALE 182 11
08/29/88 896
59
6.6
2.8
70
35 0.31
0 00
0
8602-565
BALE 182 12
08/29/88 1792
203 11.3
3.9
71
29 0.29
0 10 80
8602-568
BALE 182:15
08/29/88 1066
6?
6.3
3.3
66
29 0.29
0 00
8602-569
BALE 182 46
08/29/88 1661
79
1.7
2.6
65
33 0,31
0 63 63
0 69 0.00
8602-572
BALE 182 49
08/29/88 1792
181
10.1
3.6
71
12 fl.29 0 66 51
0.80
653
610
567
i 0? fl.OO
0 00 0 00 0.00
0 69 52
i 35 0,00
0 00
0.00
806
0 00
o 00 0.00
0 00 0 00 fl 00
807
0 00 0.00
0 00 0 .00
0
0.00
571
0.00
705
1 33 3.20 126 19 10 51 22.71
568
0.00
706
0 00 0 00 0 00
575
0 73 0,00
0 00 0 00 0 00
715
0 00 0 flfl
0 00
0.00
0 Ofl
0 .00
0 00
711
8602-576
BALE 182 53
08/29/88 896
71
8.3
3.2
72
33 0.29
0 00
0
a 00 0,00
8602-578
BALE 183•02
08/29/88 1920
139
7.2
1.1
61
25 0.30
0 60 60
o 70 3.00
80 52.31 11 .08
73b
739
8602-S80
BALE 183 04
08/29/88
28
3.0
3.8
11
32 0.31
0 00
0
0 00 0,00
0 00 0 00 0 00
8602-582
BALE 183 06
08/29/88 981
57
5.8
2.3
71
27 0.31
0 00
0
0 OO
0.00
0 00 0 00 0 00
701
8602-581
BALE 183 08
09/09/88 1150
111
7.8
3.2
71
29 0.29
0 53 70
i 11
3.23
2 32 33 79 28 75
826
938
8602-586
BALE 183 10
08/29/88 1152
56
1.9
2.2
69
33 0.33
0 16 81
0 91 0.00
0 00 0 00 0 00
697
8602-592
Bale 183 16
08/29/88 256
9
3.7
1.9
66
23 0.33
0 00
0
0 51
2.11
3 81 55 02 11 56
932
8602-591
BALE 183 18
08/29/88 1109
83
7.5
2.7
71
29 0.31
0 00
0
0 00 0.00
0 00 0 00 0 00
715
8602-539
BALE 183 23
08/29/88 1706
161
9.6
2.6
79
28 0.31
0 00
0
0 00 0.00
0 00 0 00 0 00
699
8602-600
BALE 183 24
08/29/88
896
53
5.9
1.9
76
28 0.30
0 00
0
0 00 0.00
0 00 0 00 0 00
700
8602-607
BALE 183 31
08/29/88 381
22
5.8
2.3
72
32 0.33
0 00
fl
0 00 0.00
0 00 0 00 0 00
702
8602-610
BALE 183 34
08/29/88 59?
28
1.7
1.7
73
36 0.35
0 00
0
0 00 0.00
0 00 0 00 0 00
711
8602-611
BALE 183 38
08/29/88 896
18
5.3
1.8
71
38 0.37
0 00
0
0 00 0.00
0 00 0 00 0 00
719
0
0 00 0.00
0 00 0 00 0 00
571
fl.30 0 11 81
fl 88 O.OG
0 00 0 00 0 00
731
8602-619
BALE 183 43
08/29/88 1024
88
8.6
2.8
76
37 0.30 0 00
8602-620
BALE 183 44
08/29/88 1621
118
9.2
2.6
78
31
8602-623
BALE 183 47
08/29/88 853
61
7.1
3.1
69
28 0.30
0 00
0
0 00 0.00
0 00 0 00 0 00
737
8602-627
BALE 183 51
08/29/88 1109
102
9.2
3.1
75
39 0.31
0 60 62
0 96 0.00
0 00 0 00 0 00
710
8602-631
BALE 184 02
08/29/88 1408
125
8.9
3.0
75
29
0 19
0 97 2.99
1 79 16 60 16 28
716
8602-632
BALE 184 03
08/29/88 1237
98
8.0
2.6
75
26 0.31
0 39 93
0 91 2.88 170 12 39 18 29 2?
711
8602-636
BALE 181 07
08/29/88
79 10.3
2.7
79
33 0.31
0 00
0
0 00 0.00
0 00 0 00 0 00
713
8602-637
BALE 181 08
08/29/88 896
81
9,3
3.5
73
18 0.29
0 00
0
0 00 0.00
0 00
0 00 0 00
738
8602-611
BALE 181 12
08/29/88 1237
86
7,0
2.7
72
39 0.30
fl 17 75
0 51 0.00
0 00 0 00 0 00
707
78
33 0.32
0 00
0
0 00 0,00
0 00 0 Ofl
0 00
718
68
26 0,31 fl 00
0
0 00 0.00
0 00 0 00 0 00
709
703
768
8602-612
BALE 184 13
08/29/88 811
7?
9.1
2.7
8602-611
BALE 184 15
08/29/88 1067
61
5.8
2,7
0.29
72
8602-615
BALE 184 16
08/29/88 1195
89
7,5
2,6
75
28 0.31
0 60 60
0 83 3.01
1 16 54 70 11 83
8602-647
BALE 184 18
08/29/88 1024
79
7.7
2.3
77
21 0.30
0 00
0
0 00 0.00
0 00 0 00 0 00
663
8602-648
BALE 184 19
08/29/88 853
17
5.5
1.9
71
27 0.31 0 00
0
0 00 0.00
0. 00 0 00 0 00
696
8602-653
BALE 184 24
08/30/88 1365
100
7.1
2.5
75
21 0.32
0 11 81
0 89 2.66
2 53 32 98 29 10
712
8602-655
BALE 181: 26
08/30/88 2018
160
7.8
1.1
66
29 0,28
0 12 7?
0. 85 3.16
1. 29 57 62 12 51
708
8602-656
BALE 181 27
08/30/88 1280
99
7.7
2.7
71
30 0.28 0 35 98
0 81 0.00
0 00 0 00 0 00
732
8602-659
BALE 181-30
08/30/88 2090
172
8.2
2.5
76
21 0,30
0 10 85
0. 60 2.80
1 02 52 19 12 87
681
8602-660
BALE 181 31
08/30/88 1536
99
6.1
3.0
68
27 0.31
0. 57 66
0 85 2.38
5 58 47 70 19 12
8602-672
BALE 181: 43
08/30/88 1150
93
6,1
1.8
78
28 0.31 0. 39 83
0, 71 2.15 95. 91 13 96 20 29
671
687
"Auricul'urai Chenistry Oepartnent**0regon State University»*Agricuitural Research Service**!] S Cept Agriculture**CorvalIis, Oregon*
1988 Bale and 5-Cone Analyses at U Moist ire Content(Bale) jr fts 's Basislj-Cone)
as a'
October 30,
or Nursery
Nunber
1989
Oil
Accession
Harvest
Identification
lype Location
Gate
Yield
Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
I
V
Ratio
6 Mo
CoH
HS!
H31
Myr
nil
Renain lOOq
H/C
3602-b?1
BALE 181 15
08/30/68
811
17
5.8
2.0
75
30 0.33
fl flfl
fl
0,00
O.Ofl
8603-002
Bale 181 50
08/30/88
256
11
1.3
1.9
70
31 0.31
O 00
0
0,56
3,55
8603-00?
BALE 185 02
08/30/98 1152
76
6,6
3.5
66
33 0.30
0 50 72
C?
0 00
H/F it)
0 ,00
O.Ofl
0 flfl
71?
0 00
668
08/30/88 1021
11
1,0
3.1
0.00
08/30/88 1365
101
7.6
3.0
28 0.31
0 12 70
0.79
2.71
•7
I L
8603-020
BALE 185 15
08/30/83
12?
29
6.8
2.9
70
38 0.32
0 00
0
0.00
0.00
8603-023
BALE 185 18
08/30/88 1280
87
6,8
2.6
72
11
0.30
0 1?
76
0.9?
8603-030
BALE 185 25
08/30/88 1066
109 10.2
1.5
69
23 0.28
0 00
fl
fl.OO
BALE 185 26
OB
665
92b
0 00 9.00
BALE 185 0?
BALE 185
0 uu
7 90
O.Ofl
BALE 185 01
8603-033
0.00
1,13
8603-009
8603-03!
Hunber
fl
8603-012
0,28
Serial
a
.93 63.76
0.00
fl.OO
. 51
Hu 1
01 36.5? 22 76
712
0 00 0.00
fl CO
667
O.flfl
fl 00 O.flO
0 00
•lie
O.flO
0 00 0.00
C flfl
782
L
1 JJ
08/30/88 1962
191
9.9
3.2
76
28 0.28
0 17 70
0.92
3.32
1 22 11.88 18 S5
758
08/30/88 1193
70
1.7
1.3
52
20 0.29
0 50 67
0.80
3.15 16 36 27.78 38 11
682
8603-039
BALE 185 31
08/30/38 1193
118
9.9
1.6
68
23 0.25
0 71
51
1,33
3.01
1 25 12.05 18 11
711
8603-016
BALE 165 11
08/30/88
853
68
3,0
3.5
70' 21 0.23
0 Ofl
Q
0.00
O.Ofl
0 00 0.00
fl Ofl
701
8603-051
BALE 185 16
08/30/88 1365
85
6.2
3.1
67
1C
0.91
0,00
B 00
0.00
0 00
673
8603-056
BALE 185 51
08/30/88
100
21
5.2
1.7
76
32 0.31
0 11 85
0.66
O.Ofl
0 00 0.00
0 Ofl
710
8603-058
BALE 185 53
08/30/88
811
21
2.6
2.7
19
29 0.36
0 00
fl
0.00
0.00
0 00 0.00
0 flfl
675
8603-058
BALE 186 01
08/30/88
896
12
1.6
2.0
70
25 0.30
0 00
fl
O.Ofl
fl.OO
0 00 0.00
0 00
757
8603-060
BALE 186 02
08/30/88 1322
61
1.6
1.9
71
21
0.33
0 12 83
0,73
0.00
0 00 0.00
0 00
683
8603-061
BALE 186 03
08/30/88 1322
71
5.6
3.3
63
31 0.30
0 11 78
0.86
fl.OO
0 00 O.Ofl
0 00
670
8603-062
BALE 186 01
08/30/88 1103
73
6.6
1.8
58
21 0.25
0 52 66
0.68
2.68
1 88 35.73 21 31
?8fl
63
21 0.25
0 00
0
0.00
0,00
0 00 0.00
0 DO
672
55
29 0.31
0 15 76
0.95
3,23
8683-061
BALE 186 06
08/30/88
537
10
6.7
3.9
8603-065
BALE 186 07
08/30/88 1152
58
5.0
1.1
0.28
0 19
\ \
67 58 33.18 36 07
0 00 0.00
0 00
790
669
8603-069
BALE 186 11
08/30/88 1066
51
1.8
2.0
71
36 0.31
0
0.00
0.00
8603-073
BALE 186 15
08/30/88 3327
221
6.6
5.0
57
26 fl.3fl 0 16 79
0.91
3.32 131 91 37.81 33 86
755
2.08 162 56 31.16 29 15
666
0 00
8603-075
BALE 186 17
08/30/88 1322
79
5.9
2.2
73
26 0,25
0 11 86
0.19
8603-07?
BALE 186 19
08/38/88 1193
90
6.0
1.7
56
23 0.2?
fl 12 79
0.89
2.11
1 09 10.75 17 50
791
8603-083
BALE 186 25
08/30/88 1719
112
8.1
5.9
58
21 0.26
0 15 72
0.89
2,33
95 93 12.50 25 03
661
0 51 67
1.09
0.00
0 00 0.00
0 flfl
671
0.00 0.00
0 00 fl.OO
0 00
792
8603-087
BALE 186 29
08/30/88 1280
81
6,6
1.1
60
33 0.31
8603-088
BALE 186 30
09/02/88
59?
11
6.8
3.8
61
29 0.28 0 00
0 16 73
0.87
2.52
1 29 51.17 13 18
818
0 00
0
0.00
0.00
0 00 0.00
0 Ofl
810
75
23 0.31 0 00
0
0.00 0.00
0 00 0.00
0 00
823
51
12 0.31 0 53 70
0.53 0,00
0 00 0.00
0 00
751
0.27
8603-090
BALE 186 32
09/02/88 1280
102
8.0
1.1
61
21
8603-091
BALE 186 36
05/02/88 1066
55
5.2
2.5
67
30 0.30
8603-095
BALE 186 37
BALE 186 38
09/02/88 1109
09/02/88 1661
69
6.3
2.1
70
1.2
3.6
8603-086
0
8603-097
BALE 186 39
09/02/88 1493
105
7.0
3.5
66
21 0.30
0 59 55
0.66
3.00
1 76 36.03 25 16
881
8603-098
BALE 186 10
09/02/88 1280
80
6.3
1.3
59
25 0.30 0 52 67
0.00
2.76 22 58 38.19 29 07
890
8603-099
BALE 186 11
09/02/88 1719
91
5.1
2.6
6?
25
0.32
0. 16 75
0.71
0.00
8603-101
BALE 186 16
09/02/88 1237
95
7.7
1.1
65
25 0.28
0 51 71
0.96
2.11
0 00
730
81 95 50,16 22 09
?65
0 00
0.00
8603-105
BALE 186 17
09/02/88 1237
89
7.2
1,7
60
23 0.2?
0 61 51
0.98
3.06
0 00 15.02 29 19
850
8603-121
BALE 187 10
09/02/88 169
13
2.8
2,9
19
27 0.31
0 00
0
0.00
O.Ofl
0 00 0.00
0 00
752
0
O.Ofl 0,00
0 00 0,00
0 00
895
1.27
0,00
0 00 0.00
0 00
695
0
0.00
0.00
0 00 0.00
0 00
685
0 56 72
0.87
3.51
1 16 37.31 18 87
690
O.OG
0.00
0 00 0,00
1.01
3,21 59 56 53.20 22 29
8603-128
BALE 187 17
09/02/88 939
50
5.3
2.2
71
29 0.33 0 00
8603-129
BALE 18? 18
08/31/88 1150
106
7.3
2.8
73
39 0.30
15
5,3
2.3
69
32 0.31 0. 00
25 0.31
2? 0.31 0 00
8603-130
BALE 187 19
08/31/88
853
8603-136
BALE 187 25
08/31/88 1021
51
5,2
1.8
71
8603-110
BALE 187 29
08/31/88 896
33
3.7
2.2
63
0. 55 61
0
0 00
771
760
8603-152
BALE 187 11
08/31/88 1150
95
6.6
3.6
65
28 0.30 0, 11 79
8603-158
BALE 187 4?
08/30/88 811
18
2,2
3,1
10
31
0.30
0. 00
0
0.00
0.00
0 00 0.00
0 00
691
8603-159
BALE 18? 48
08/31/88 311
17
5,1
2.8
65
31
0.33 0. 00
0
0.00
0.00
0 00 0.00
0. 00
779
8603-160
BALE 187 19
08/31/88 1322
67
5.1
2.5
67
30 0.32
fl. 00
0
0.00
0.00
0 00
0.00
0 00
797
8603-162
BALE 187 51
08/31/88
836
13
1.8
2.0
71
13 0,31 0. 00
0
0,00
0,00
0 00 0,00
0 00
785
8603-153
BALE 187 52
08/31/88 981
52
5.3
1.8
52
23 0.28 0. 00
0
0.00 0,00
0 00 0.00
0 GO
788
8603-178
BALE 188 11
08/31/88 1536
103
6.7
3.1
66
35 0.29
0.00
0 00 0.00
0. 00
762
0. 56 65
0,6?
79
••Hgricultural Chenistry Oepartnent"0regon State Oniversity**Rgricultural Research Service**!1 S Gept Agriculture**Corvalli5! Oregon*
1988 Bale and 5-Cone Analyse; at U Moisture Content(Bale) or As Is BasisiS-Cone) as of October 30, 1939
Accession
Oil
or Nursery
Hunber
Harvest
Identification lype Location
Oate
Yield Alpha Alpha
Lb/Ac Lb/ac
V
Beta
Alphe
I
Ratio
6 Mo
CoH
HSI
HSI
ZA*B
nil
Renain
Iflflq
H/C
H/F
Myr
Hun
Serial
il)
il)
Nunber
8603-180
BALE 188:16
08/31/88
597
20
3,1
2.6
57
28 0.33 O.Ofl
0
! .00
O.flO
O.flfl
0.00
0.00
786
8603-181
BALE 188:1?
08/31/88
597
11
2.1
1,3
36
30 0,30
fl
C.00
0,00
0,00
0.00
0,00
778
O.flO
C.00
8603-182
8ALE 183:18
08/31/88
512
29
5.6
5.0
53
29 0.28
fl .00
0
C.00
O.flfl
0.00
0.00
718
8603-188
BALE 183:21
08/31/83 1536
63
1,1
1,5
• 19
22 0.27
0.52
68
C.35
1,77
7,2? 37.33 25.60
789
0.00
688
686
8603-189
BALE 188:25
88/31/83
768
10
5,2
2,1
71
25 0.33
0.00
0
fl.00
0.00
O.flO
0.00
8603-195
BALE 188:31
09/31/88
512
31
6.1
r;
L> J
72
23 0.31
0.00
0
0.00
0.00
0.00
0.00
0.00
8603-196
BALE 188:32
08/31/88
853
15
J. L
2.7
66
23 0.35
0 .Ofl
0
0.00
0.00
0.00
0.00
fl.OO
713
8603-202
BALE 188:38
08/31/88
169
22
1.6
3.1
57
35 0.31
fl.00
0
0.go
o.oo
0.00
0.00
0.00
691
0.93
0.00
0.00
0.00
0.00
771
0M
O.Ofl
0.00
0,00
0,00
689
1
8603-201
BALE 188:10
08/31/88
535
56
5.9
3.0
66
16 0.31
0.53
71
8603-206
BALE 188:12
08/31/88
587
10
6.6
3.1
68
23 0.29
0.00
0
555
8603-220
BALE 139:03
09/01/88
8603-226
BALE 189:09
09/01/88 1066
69 12.5
5.5
70
31 0.28
0.00
0
0.00
O.flO
0.00
O.Ofl
O.flO
855
1C
2.3
76
32 D.30 fl.53
65
0.53
0,00
0,00
0.00
0.00
812
1 J
7.0
8603-229
BALE 189:12
09/01/88
381
15
3.9
1.9
67
28 0.37
0.00
fl
fl.Ofl
fl.OO
O.flO
0.00 O.Ofl
913
8603-230
BALE 185:13
09/01/88
555
16
8.3
2.9
71
29 0.29
0 .00
0
0.00
0.00
O.Ofl
0,00
0,00
81b
8603-231
BALE 189:11
09/01/88 1021
95
9.3
1.0
70
21
0 .66
51
0 ,1?
O.flO
0.00
O.flO
0.00
817
8603-232
BALE 189:15
09/01/88 1109
77
6.9
5.3
57
22 0.32
0 7? 19
21.16 15,99 22,32
863
0.30
8603-23?
BALE 189:20
09/01/83 1280
65
5.1
3.5
59
59 0.37
0 81
8603-238
BALE 189:21
09/01/88 1191
77
6.1
1.0
62
30 0.31
0 52 73
fl Ofl
18
8603-212
BALE 189:25
09/01/88
512
31
6.0
1.7
56
29 0.38
8603-213
BALE 189:26
05/01/88
856
16
5.2
3.5
60
21 0,32 0 69 61
39
0
1 07 3,03
0.89
0.00
0.00
O.flO
0.00
86?
0 73 0,00
0.00
0.00
0.00
817
0 00 O.flfl
0.00
fl.OO
0.00
820
0 86 fl.OO
0.00
0.00
O.flO
819
0.00
0.00
0.00
851
.70 56.77
7.87
831
8603-217
BALE 189:30
05/01/88 1150
2.7
3.7
12
33 0.36
0 80 51
0 78 fl.OO
8603-251
BALE 189:31
09/01/88 1195
132 11.0
1.1
73
29 0.30
0 92 39
! 75 2.21
8603-255
BALE 189:38
09/01/88 2005
111
5.7
3,1
65
35 0.32 0 61 59
0 56 0.00
0.00
0.00
O.flO
818
8603-25?
BALE 189:10
09/01/88 1150
58
1.0
2.2
65
31 0.38
0 69 60
0 52 0.00
0,00
0.00
0,00
852
8603-258
BALE 189:11
09/01/88
768
38
1.9
2.1
68
29 0,33
fl 00
0
0 00 0.00
0.00
0.00 O.flO
861
8603-259
BALE 189:12
09/01/88
939
12
1.5
3.1
57
27 0.31
0 00
0
0 00 0.00
0.00
fl.OO
0,00
861
0.00
8603-260
BALE 189:13
09/01/88
169
29
6.2
2.0
76
26 0.35 0 00
0
0 00 O.flO
0.00
0.00
809
8603-262
BALE 189:15
09/01/88 1536
103
6.7
3.3
67
26 0,30 0 57 61
0 67 2.75
2.77 33.76 27.80
819
8603-263
BALE 189:16
09/01/88 1152
67
5.8
6.3
18
39 0.25
0 63 55
0 98 0.00
8603-265
BALE 189:18
09/01/88 1365
69
5.0
1.7
71
25 0.32 0 57 69
0 65 2.31
8603-272
8603-273
8ALE 190:02
09/01/88 610
19
3.0
2.8
52
21 0.38 0 00
0
0 00 0.00
0.00
0.00
0.00
858
BALE 150:03
09/01/88 1365
63
1.6
1.8
72
37 0.35 0. 69 58
0. 68 0.00
0,00
0.00
0.00
813
8603-277
BALE 190:07
09/01/88 1237
68
5.5
2.3
70
26 0.32
0. 54 66
0 67 2.01
8603-280
BALE 190:10
09/01/88
55
6.8
1.6
60
46 0.36
0. 00
1. 55 0,00
811
0
O.flO
838
18.85 16.17 10.32
868
0.00
fl.OO
73.71 32.67 29.58
862
O.Ofl
0.00
815
0.00
8603-285
BALE 190:15
09/02/88
127
18
1.2
1.0
51
23 0.31
0. 00
0
fl. 00 0.00
0.00
0.00
0.00
856
8603-286
BALE 190:16
09/02/88
725
35
1.8
3.6
5?
32 0.30
0, 00
0
0. 00 0,00
0.00
0.00
0.00
870
8603-288
BALE 190:18
09/02/88 1193
60
1.0
3.9
51
21
8603-293
BALE 190:23
09/02/88
31
1.3
3.1
56
31 0.31
725
0.31
0. 68 55
0. 85 0.00
0.00
O.Ofl
0.00
763
0. 00
0, 00 0.00
0.00
0.00
O.Ofl
770
0
8603-291
BALE 190:21
09/20/88
381
15
3.8
2.0
65
22 0.34 0. 00
0
0. 00 O.flO
0.00
O.flO
0.00
776
8603-295
BALE 190:25
09/02/88
512
21
1.6
3.9
51
22 0.28 0. 00
0
0. 00 O.flO
0.00
0.00
0.00
717
8603-296
BALE 190:26
09/02/88 768
16
2.0
3.9
31
33 0.33 0. 00
0
0. 00 O.flO
0.00
0.00
0.00
866
8603-298
BALE 190:28
09/02/88 1322
71
5.6
2.8
67
33 0.31 0. 58 68
0. 91 0.00
0.00
0.00
0.00
772
105
6.3
2.6
71
29 0.31 0. 61
59
0. 95 2.78
1.11 33.93 12.36
853
56
8.8
1.7
65
25 0.28 Q. 00
0
0, 00 0.00
0.00
0,00 0.00
857
8603-299
BALE 190:29
09/02/88 1661
8603-300
BALE 190:30
09/02/88
610
8603-301
BALE 190:31
09/02/88 1021
58
5.7
3.1
65
25 0.27 0, 50 62
0. 99 2.83
83.00 !7.71 39.50
837
8603-301
BALE 190:31
09/02/88 683
36
5.3
1.8
75
26 0.31 0. 00
0
0. 00 0.00
0.00 0.00 0.00
821
8603-305
BALE 190:35
09/02/88 1152
72
6.2
2.7
69
30 0.28
0. 45 78
1. 05 0.00
0.00
0.00
0.00
836
8603-310
BALE 190:10
09/02/88
31
5.3
1,5
51
23 0.30
0. 00
0. 00 0.00
0.00
0.00
0.00
851
8603-312
BALE 190:12
09/02/88 1536
91
5.9
2.7
69
30 0.3G 0. 46 77
0. 98 3,23
2.16 ' 4.83 22.34
787
8603-311
BALE 190:11
09/02/88 1150
91
6.5
1.7
58
24 0.29 0. 61 56
1. 19 3.27
2,03; 6.16 25.07
761
610
0
80
icultural Chenistry Departnent**Oregon State yniversity»*Hgricultural Research Service**!! S Oept figriculture**Corvallis; Oregon*
1983 Sale and 5-Cone Analyses at 3)1 Moisture Content(Bdle) or As Is Basis(S-Cone) as of October 30, 1989
fll 1
Accession
Harvest
cr Nursery
Hunber
8603-322
Identification
lype Locatior
BALE 19G 52
Date
09/02/88
Yield Alpha Alpha Beta
Alpha
Lb/flc Lb/ac
Ratio
811
12
t
5.2
1
3,6
59
8603-322
BALE 190 52
09/12/88
0
fl
1.0
1,7
16
8603-326
BALE 191 03
09/02/88 1322
76
5.7
2.2
73
6 Mo
CoH
HSI
H51
;.8*B
Myr
Hun
Serial
H/F 0. )
it)
Nunber
iL/
tenai n lOOg
H/C
fl.Ofl
O.Ofl
773
0 83 2 17
1 18 71.25
6.63
538
0 .52
2.21
1 .78 16 .02 30.63
865
0 00 0 00
0 00 0.00 0,00
775
11 0.29
0 flfl
0
fl.OO
30 0.2?
0 00
0
25 0.31
0 11 8!
0.00
fl.OO
8603-330
BALE 191 0?
09/02/88
610
20
3.2
2,6
. 55
11 0.33
0 59 65
8603-332
BALE 191 09
09/02/88 1021
70
6.8
2,6
72
25 0.30
0 00
fl
0 00 0 00
fl 00
0 .00
O.flfl
716
8603-333
BALE 191 10
05/02/88
23
1.8
2.0
70
3b 0.33
0 00
0
0 00 fl 00
0 Ofl
0 .Ofl
0,00
759
8603-336
BALE 191 13
09/02/88 1109
61
5.8
2,0
75
10 0.31
0 69 52
0 53 0 00
0 00
0,00
0.00
859
8603-337
BALE 191 11
09/02/68 1109
58
5.2
2.2
70
28 0.33
0 50 72
0 81
7
38 10.39 21.10
903
8603-339
BALE 191 16
09/02/88
811
29
3.6
3,5
51
3b 0.30
0 00
0
0 00 0 00
0 00 i .00 0.00
756
8603-310
BALE 131 17
09/02/88
981
67
6.8
3,6
66
29 0.31
0 00
0
0 00 0 Ofl
0 00 0.00
0.00
910
8603-316
BALE 191 23
09/02/88 1280
126
9,9
3.6
73
20 0.29
0 62 57
1 32 2 09
91 51 .91
9,09
887
8603-350
BALE 191
'7?
03/02/88 1193
83
5.6
2.1
73' 2? 0.31
0 13 71
0 62 1 89 37 19 28,55 32,65
89?
169
2 57
fl 90
8603-351
BALE 191 28
09/02/88 1066
51
5.0
1.8
71
23 0.33 0 00
a
0 flfl
8603-352
BALE 191 29
03/02/88 512
19
3.7
1.1
72
29 0.35
0
0 00 0 00
0 00
J
O.Ofl
879
0 00 0,00 0.00
912
fl flfl
0 .00
8603-355
BALE 191 32
05/02/83
836
37
1.2
2.8
60
13 0.36
0 00
fl
0 00 0 00
0 00
0.00
0.00
726
8603-356
BALE 191 33
09/02/88
896
11
1.9
1.1
53
27
0.30
0 00
0
0 00 0 Ofl
0 00
0.00
0,00
917
8603-358
BALE 191 35
09/02/88 1193
171
11.1
5.6
67
37
0.29
fl 51
67
1 06 fl 00
0 Ofl
0.00
fl.OO
898
28 0.38
0 50 73
0 60 0 00
0 00
0.00
0.00
909
0 00
0 .00
8603-363
BALE 191 10
09/02/88 1108
16
3.3
1.5
69
8603-366
BALE 191 13
09/02/88 1109
61
5.8
3.5
62
13 0.32
0 00
0
0 00 0 00
0.00
727
0 00
0
0 66 3 5? 110 03 12.67 27,11
889
0 00
0
0 58 3 51 259 61 18 .61 10.13
0 00
0 .00
fl.OO
693
0.00
721
8603-36?
BALE 191 11
09/02/88 1536
76
1.9
2.1
70
31 0.33
8603-368
BALE 191 15
09/02/88
25
2.7
2.5
52
32 0.35
939
8603-382
BALE 192 06
09/02/88
853
13
5.0
2.1
68
29
0.32
0 00
0
0 00 0 00
8603-383
BALE 192 07
09/02/88 640
19
3.0
2.0
60
33 0.32
0 00
0
0 00 0 00
0 00 0.00
915
8603-381
BALE 192 08
09/03/88 1280
53
1.1
1.7
70
27 0.33
0 52 71
0 62 0 00
0 00 0.00
O.Ofl
899
8603-385
BALE 192 09
03/03/88 163
16
3.1
1.7
67
32 0.35
fl Ofl
0
0 00 0 00
0 00 0.00
0.00
893
8603-386
BALE 152 10
05/03/88 1280
14
3.1
2.0
63
37 0.35
0 73 51
fl 50 0 00
0 00 0.00
O.Ofl
755
8603-38?
BALE 152 11
09/03/88 381
11
2.8
2.2
56
27 0.35
0 Ofl
0
1 05 0 00
0 00
fl,00
0.00
888
8603-389
BALE 152 13
09/03/88 1322
59
1.5
2.1
66
32 0.30
0 5? 67
0 77 0 Ofl
0 00 0.00
fl.OO
839
8603-391
BALE 152 18
09/03/68 768
29
3.8
3.3
53
28 0.30
0 Ofl
0
0 00 0 00
0 00 0.00
0.00
811
8603-397
BALE 192 21
09/03/88 1109
10
3.6
1.5
71
3? 0.11
0 70 61
0 12 0 00
0 00 0.00
0,00
907
8603-100
BALE 192 21
09/03/88 811
61
7,8
3.2
71
8603-103
BALE 192 27
09/03/88 1109
80
7.2
3,3
65
23 0.30 0 00 0
21 0.29 0 51 66
1 37 3 11 15 55 52.28 21.18
0 98 2 72 87 63 35.77 31.09
892
901
8603-105
BALE 192 29
09/06/88 555
13
2.3
1.3
63
28 0.10 0 00
0
0 00 0 00
0 00 0.00
0.00
777
8603-107
BALE 152 31
09/06/88 811
37
1.6
3.9
51
25 0.33
0 00
0
0 00 0 00
0 00 0 00 0.00
896
0
0 00 0.00
0.00
908
3 16
1 90 38 20 21.99
916
0 00 0 00
0 00 0.00 0.0(1
911
0 10 1 96 9? 03 30 01 30.87
876
0 00 0 00
8603-109
BALE 192 33
09/06/88
853
16
5.1
2.7
67
29 0.31
0 00
8603-112
BALE 192 36
09/06/88
981
81
8.6
3,5
71
29 0.19
0 66 26
8603-113
BALE 192 37
09/06/88 1365
63
1.6
1,8
?2
45 0,35
0 00
8603-118
BALE 192 12
09/06/88 1150
75
5.1
1.9
73
28 0,30
0 17 77
8603-121
8ALE 192 15
09/06/88 1108
56
4,0
1.2
19
23 0,30 0 57 63
0 80 0 00
0 00 0 00 0.00
900
8603-131
BALE 193 02
09/06/88 1450
69
4,8
2.6
65
29 0,12
0 19 75
0 17 0 00
0 00 0 00 O.flO
810
8603-135
BALE 193 06
09/06/88
21
3,5
1.2
71
27 0.31
0 00
0
0 00 0 00
0 00 0.00
0.00
808
22 0.31 0 00
0
0 00 0 00
0 00 0 00 0.00
919
683
0
0 61
8603-137
BALE 193 08
09/06/88
725
22
3.1
2.5
55
8603-110
BALE 193 11
09/06/88 1365
25
1.9
2.8
10
34 0.42
0 81
50
0 50 0 00
0 00 0.00 0.00
901
8603-111
BALE 193 12
09/06/88 381
10
2.6
1.1
66
52 0.11
0 00
0
0 00 0 00
0 00 0 00 0.00
878
8603-112
BALE 193 13
09/06/88
597
28
4.6
2.1
69
37 0.31
0 00
0
0 GO
8603-111
BALE 193 15
09/06/88 1193
107
7.2
6.9
51
23 0,29 1. 00 32
0 00
0 00 0 00 0.00
911
1 18 2 68
1 75 50 52 12.25
886
8603-117
BALE 193 18
09/06/88 1706
101
6.1
2.1
75
48 0.35
0 66 57
0 83 0 00
0 00 0 00 0.00
905
8603-152
BALE 193 23
09/06/88 1920
17
2,1
5.1
31
29 0.32
0. 00
0. 00 0. 00
0. 00 0 00 0.00
881
8603-155
BALE 193 26
09/06/88 597
30
5,0
2.7
65
27 0.31
0 00
0
0 00 0 00
0 00 0 00 0.00
882
8603-160
BALE 193 31
09/06/88 512
21
4.6
2.1
66
37 0.31 0 00
0
0. 00 0. 00
0 GO
0 00 0.00
920
0
♦Agricultural
Chenistry Departnent»*Oregon State Dniversity**Agricultural Research Service**0 SDept Agriculture**Corvallis, Oregon**
1388 Bale and 5-Ccr,e final yses at 8'2 Moisture Co itent(Bale) or As s Sasis(5-Cone) as of October 30, 98 9
Oi1
Accession
Harvest
or Nursery
Nunber
Identification
lype Locatior
GALE 193:32
8603-161
Oate
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
09/06/88 1021
39
I
3.8
6 Mo
CoH
Ratio
I
2,1
HSI
31 0.33
62
HSI
;,a*b
Renain 100q H/C
0 62 61
Myr
Hu 1
Serial
H/F it)
it)
Nunber
nil
0.79
0.00
0.00
0,00 0.Ofl
891
8603-161
GALE 193:35
09/06/88
853
76
8,3
3,8
70
20 0.27
0 Ofl
0
0 00 0 00
0 00 0 00 0 flfl
883
8603-169
BALE 193:10
09/06/88 1536
101
6.6
2.6
72
12 0.32
0 65 17
1 00 0 00
0 00
fl 00 0 00
885
0 09 fl 00
813
8603-171
SALE 133:12
09/06/88 1536
87
5.7
2.8
. 67
36 0.35
0 89 39
1 05 0 00
0 Ofl
8603-173
BALE 193:11
09/06/88 1661
89
5.3
1.9
71
29 0.33
0 18 11
0 72 2 15
2 26 23 22 25 36
918
8603-175
BULL 193:16
09/06/88 853
50
5.9
3,8
61
27 0.33
0 Ofl
0
0 00 0 00
0 00 0 DO
902
fl 00
38 11.1
1.1
72
38 0.28
0 Ofl
0
0 91
2 29
63 73 52 5 29
122
8.2
1.9
62
22 0.28
0 75 17
1 19
3 17
1 83 18 51 16 03
508
8603-179
BALE 193:50
09/06/88 311
8603-181
BALE 193:52
09/06/88 1877
151
8603-181
BALE 191:02
09/06/88 1856
115
7.8
1.1
65
22 0.28
0 61 59
0 80 3 12
1 73 11 55 20 13
199
8603-189
BALE 191:07
09/06/88 1130
11
3.9
6.9
36
33 0.25
0 67 53
1 07 0 00
0 00 0 00 0 00
501
8603-191
BALE 191:12
09/06/88 768
11
5.3
2.1
69
36 0.32
0 00
0
fl 00 0 00
0 00 0 00 fl 00
502
0 00
0
0 00 0 00
0 00 0 flfl
0 00
507
8603-196
BALE 191:11
09/06/88
8603-198
BALE 191:16
09/06/88 1109
981
51
5.2
2.1
69' 27 0.31
57
5.2
2.1
68
28 0.31
0.30
fl 71 55
0 81
2 69 199 31 11 15 28 27
510
512
fl 56 67
0 55 0 Ofl
0 00 0 00 0 flfl
0
0 00 0 Ofl
0 00 0 00 0 00
12b
fl 81
501
8603-501
BALE 191:22
09/06/88 1365
52
3.8
3.9
50
21
8603-506
BALE 191:21
09/07/88
896
11
1.9
3.9
56
31 0.31
0 00
fl 51 72
8603-512
BALE 191:30
09/07/88 1322
100
7.5
3.6
68
31
0 00
0 00 0 00 0 00
8603-521
BALE 191:39
09/07/88
768
37
1.8
3.5
58
13 0.31 0 00
0
0 00 0 Ofl
0 00 0 00 0 00
129
8603-521
BALE 191:12
09/07/89
0
0
5.2
3.3
61
22 0.32 0 00
0
0 00 0 00
0 00 0 00 0 00
196
0.31
8603-528
BALE 191:16
09/07/88 311
21
6.0
3.5
63
29 0.32
0 Ofl
0
0 00 0 00
0 00 0 00 0 00
522
8603-529
BALE 191:17
09/03/88 725
22
3.0
1.1
13
27 0.31
0 00
0
0 00 0 00
0 00 0 DO
509
0 00
8603-530
BALE 191:18
09/07/83 555
21
1.1
1.2
51
23 0.31
0 00
0
0 00 0 00
0 00 0 00 0 00
506
8603-539
BALE 195:01
09/08/88
939
19
5,2
5.6
18
21 0.26
0 51 61
0 61 3 34
1 05 51 29 10 92
103
8603-513
BALE 195:08
09/08/88 597
15
7.5
5.1
59
21 0.25
fl Ofl
0
0 00 0 00
0 00 0 00 0 00
111
8603-511
Bale 195:09
09/08/88 213
7
3.2
1.7
65
28 0.31 0 Ofl
0
0 18 2 36
2 33 21 11 2? 89
931
8603-515
BALE 195:10
09/08/88 939
50
5.3
2.0
73
13 0.31
0 68 56
0 81 0 00
0 00 0 00 0 00
100
31
3.5
2.1
62
39 0.33
0 00
0 00 0 00
0 00 0 00 0 00
399
71
5.9
2.0
75
29 0.30
0 51 70
1 26 1 96
1 27 36 10 19 97
112
0 00 0 00 0 00
521
0 00 0 00 0 00
128
505
8603-516
BALE 195:11
09/08/88
8603-548
BALE 195:13
09/08/88 1237
896
0
8603-519
BALE 195:11
09/07/88 169
22
1.7
2.3
67
29 0.38
0 00
0
0 00 0 00
8603-553
BALE 195:18
G9/07/88 853
10
1.7
2.6
65
52 0.33
0 00
0
0 00 0 00
8603-553
BALE 195:19
09/07/88 311
12
3.5
1.6
69
28 0.35 0 00
0
0 00 0 00
0 00 0 00 0 00
8603-555
BALE 195:20
09/07/88 213
9
1.2
2.9
59
23 0.31
0 00
0
0 00 0 00
0 GO
0 00 0 00
518
8603-558
BALE 195:23
09/07/88
853
11
5.1
3.3
61
26 0,30
0 00
0
0 00 0 00
0 00 0 00 0 00
511
8603-562
BALE 195:27
09/07/88 1088
73
6.7
2.3
75
16 0.31
0 15 75
0 65 0 00
0 00 0 00 0 00
500
0 85 3 07
1 50 13 87 19 21
503
0 51 61
8603-564
BALE 195:29
09/07/88 1258
78
6.2
2.9
68
21 0.31
8603-566
BALE 195:31
09/07/88
11
2.7
2.1
S3
21 0.31 0 00
381
0
0 GO
0 00
0 00 0 00 0 00
551
0 00 0 00 0 00
198
8603-571
BALE 195:36
09/07/88 1301
41
3.2
3.0
51
31 0.33
0 52 69
0 66 0 00
8603-631
BALE 181:05
08/29/88 384
18
1.7
1.5
76
31 0.32
0 00
0
0 00 0 GO
0 00 0 00 0 00
570
8601-373
BALE 179:09
08/25/88 1280
59
1,6
3.7
55
31 0.30
0 00
0
0 00 0 00
0 00 0 00 0 00
371
0
3.5
0
933
21525
0sv.C1.72Y>Bale
greenhs.
6m
^fr/ck^
11/18
0
4. 6 4:5
29 0.31 0 0 0.23 0
0
0
82
5-CONE
SAMPLES
"Hgrico!1ural Chenistry Departnent ••Oregon State iJi>iversity»*Agricu .tural Research Service** J
1983 Bale
S Oept
and 5-Cone Analyses at Ha Moisture Content(Bale) jr 8s Is Basis(5-Cone)
dS Oi
Agnculture»» .'.orvalhs, Oregon**
October 30,
Harvest
or Nursery
Nunber
21156 "
1989
Oil
Accession
Identificatior
lype Location
Date
8303-016
CONE 218 ll-ll 09/13/88
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
100
1
I
1.3
•k
3.7
Ratio
51
6 Mo im
CoH
HSI
22 0.2?
r, SI
0.00
nil
Renain lOOq H/C
0
fl.OO
H/F
Myr
Hun
Serial
il)
'.!'•
Nunber
O.flfl
0.00
fl.OO
O.OG
162
0,00
0.00
O.Ofl
15b
O.flO
O.Ofl
21158
8301-119
CONE 2A3 23-27 09/13/88
100
19
1.8
5.1
17
20 0.25
fl.00
0
0 00 0 00
21159
3308-066
CflHE 207 23-32 09/13/88
200
5
2.3
1.5
60
22 0.33
0.00
fl
0,00
O.flfl
163
21183
8301-075
CONE 219 06-10 09/13/88
100
8
2.1
3.2 . 10
15 0.29
0.00
0
0 00 0 00
0,00 0,00 0.00
191
21181
8305-017
CONE 201 23-27 09/13/38
100
9
2,2
3.1
39
19 0.32
0.00
0
0 .00
0 00
0.00
0.00
0.00
172
21192
3108-022
COHE 215 28-32 09/13/88
100
18
1.6
1.2
52
19 0.28
0.90
0
0 00 0 00
O.flO
fl.OO
0,00
169
0.Ofl
21193
8108-096
CONE 233 28-32 09/13/38
300
15
5.1
3.7
58
20 0.26
0 00
0
0.00
0 00
0.00
fl.OO
O.Ofl
159
21191
7506-123
COHE 231 17-21 09/13/88
800
73
9.8
5,7
63
20 0.25
fl 00
0
0 00 0 00
O.Ofl
0.00
O.GO
180
2119b
lettnanger A
lettnanger B
CONE 236 23-2? 09/13/88 100
3
2,9
3.1
18
22 0,30
0 00
0
0 00 0 00
fl.OO
fl.OO
0.00
193
CONE 237 23-27 09/13/88
100
3
2.7
5.0
35
21
0.27
0 flfl
0
0 00 0 00
o.oo
o.fly o.flu
15?
8033-031
COHE 216 23-27 09/13/88
59?
38
6.1
2.1
73
21 0.29
0 00
0
0 00 0 00
O.Ofl
0.00
O.flO
175
8301-05?
CONE 211 06-10 09/13/88 1000
30
3.0
2.6
51' 27 0.29
0 00
0
0 00 0 00
0.00
0,00
O.flO
165
8303-028
CONE 219 01-01 09/13/88
100
3
2.3
3.3
11
15 0.32 fl Ofl
0
0 Ofl
0 00
fl.OO
O.flfl fl.OO
182
8303-03?
CflHE 221 01-05 09/13/88
500
16
3.1
1.8
61
18 0.31 0 00
0
0 00 0 00
fl.OO
0,00
163
8303-012
CONE 223 01-05 09/13/86
100
12
2.9
1.1
10
20 0.26
0 00
0
0 00 0 00
fl.OO
O.flfl
fl.OO
191
o.oo
O.flO
coy
17?
21197
0,00
8303-088
CONE 216 01-05 09/13/88
600
10
6.?
5.2
57
19 0.26
0 00
0
0 Ofl
fl 00
8303-091
CONE 218 01-05 09/13/88
100
11
2.7
2.5
52
16 0.30
fl 00
fl
0 flfl
fl flfl
fl.flfl
O.Ofl
0.00
186
8303-101
CONE 201 06-10 09/13/88 600
37
6.1
3.1
61
23 0.26 0 00
0
0 00 0 flfl
O.flfl
O.flO
0.00
18?
8303-119
CONE 203 06-10 09/13/83 600
16
2.7
3.2
16
19 0.38 0 00
a
0 00 0 00
0.00
O.Ofl
fl.OO
166
8303-121
CONE 204 06-10 09/13/88
18
2.9
1.5
10
17 0,28
0
0 00 0 00
0,00
0.00 0.00
171
600
0 00
8303-122
CONE 215 06-10 09/13/88 600
29
1.9
3.4
59
20 0.30 0 00
0
0 00 0 00
0,00
fl.OO
0.00
179
8303-121
CONE 233 06-10 09/13/88 700
21
3,5
2.4
59
21
0
0 00 0 00
0.00
0.00 0.00
155
8301-012
CONE 218 06-10 09/13/88 800
18
2.3
5.1
30
1? 0.27 0 00
0
0 00 0 00
0,00
0.00
0.00
168
67
6.7
5.2
56
20 0.21
0 00
fl
0 flfl
0 00
0.00
0.00 fl.OO
190
0.32
0 00
8301-015
COHE 201 12-16 09/13/88 1000
8301-023
CONE 208 12-16 09/13/88 800
23
2,8
3.1
15
17 0.29
0 Ofl
fl
0 Ofl
0 00
O.flfl
O.flfl
0.00
181
8301-089
CONE 232 12-16 09/13/88 500
31
6.1
5,7
52
16 0.21 0 00
0
0 00 0 00
0.00
0.00 0.00
192
8301-090
CONE 236 12-16 09/13/88 1000
32
3.2
3.8
18
17 0.25 0 00
0
0 00 0 00
0.00
0.00 O.Ofl
189
8301-092
CONE 209 12-16 09/13/88 1000
12
1.2
3.8
52
1? 0,27
0 00
0
fl 00 0 00
0.00 0.00 0,00
170
8308-014
CONE 207 23-2? 09/13/88 1000
57
5.7
2.9
66
21
0.26
0 00
0
0 00 0 00
0.00
0.00
0.00
185
1.0
68
21
0.25 0 00
0
0 00 0 00
0.00
0.00 0.00
153
8388-011
CONE 217 17-21 09/13/88 1000
86
8.6
8308-016
CONE 219 17-21 09/13/88 1000
58
5.8
3.8
60
21 0.29 0 00
0
0 00 0 00
0.00 O.flO O.flfl
181
2.1
55
26 0.26
0
0 00 0 Ofl
0.00
173
0 00
0.00 0.00
8309-006
CONE 233 17-21 09/13/88
0
0
2.9
8309-007
CONE 235 17-21 09/13/88 800
60
7.5
5.1
59
21
0
0 GO
O.Ofl O.flO fl.OO
188
8309-008
CONE 223 23-27 09/13/88 100
23
5.7
5.0
53
23 0.2?
0 00
0
fl 00 0 00
0.00
O.flfl
O.flO
171
8309-029
COHE 212 17-21 09/13/88
800
11
5.1
1.3
51
22 0.26
0 00
0
0 00 0 00
0,00
0,00 O.Ofl
161
152
0.21 0 00
0 00
8309-033
COHE 213 17-21 09/13/88
500
35
7.0
1.5
61
20 0.25
0 00
0
0 00 0 00
0.00 0,00 0.00
8101-078
CONE 233 01-05 09/13/88 100
5
5.1
6.5
15
24 0.24
0 00
0
fl 00 0 Ofl
fl.OO
0.00 fl.OO
178
8101-163
CONE 213 06-10 09/13/88 100
7
7.1
1.6
60
25 0.26 0 00
0
0 00 0 Ofl
0.00
0.00
O.flO
176
8106-004
CONE 209 28-32 09/13/88 100
20
1.9
3.1
62
20 0,27 0 00
0
0 00 0 flfl
0.00
fl.OO
0.00
158
8106-038
COHE 212 28-32 09/13/88 100
21
5.3
2.9
64
23 0,26 0 00
0
0 00 0 00
0.00 0.00 0.00
161
8106-061
CONE 207 12-16 09/13/88 100
5
5,2
2.8
65
21
0.26 0 00
fl
0 00 0 00
0.00 0.00 0.00
151
8107-035
CONE 213 28-32 09/13/88 100
25
6.3
1.1
59
24 0.27 fl 00
0
0, 00 fl.00
0.00
150
0.00
0.00
8107-013
CONE 211 28-32 09/13/88 100
23
5.8
6.3
48
19 0.24
0 flfl
0
0 00 0 00
0.00
0.00 0.00
160
8108-016
CONE 225 28-32 09/13/88 100
22
5.5
1.2
57
23 0.26 0 00
0
0 00 0. 00
fl.OO
0.00 0.00
151
8601-001
CONE 171 01
08/29/88 600
21
1.0
2.2
65
21
0.33 0 00
0
0 00 0. 00
0,00 0.00 0.00
10
8601-002
CONE 171 02
08/29/88 1000
57
5.7
2.1
74
38 0.28 0 00
0
0 00 0. 00
0.00 0.00 0,00
8
8601-005
08/29/88 1000
60
6.0
3.9
60
30 0.25 0 00
0
0 00 0 00
0,00 0.00 0.00
11
8601-012
CONE 171 05
CONE 171 12
08/29/88 1200
68
5.6
3.0
65
19 0.29 0 00
0
0 00 0. 00
0.00 0.00 0.00
20
8601-013
CONE 171 13
08/29/88 1200
50
1,2
2.2
65
30 0.28 0 00
0
0 00 0 00
0.00
0.00 0.00
7
8601-017
CONE 171 1?
08/29/88 600
16
7.6
2.6
71
2? 0.27 0 00
0
0. 00 0. 00
0.00 0.00 0.00
13
83
"Hgncultural Chenistry Oeparinent**0regon State Omver5ity*»Agricultural Research Service**)] S Dept flgriculture**Corvalhs, Oregon*
1988 Bale and 5-Cone finalyses at 8!S Moist re Content(Bale) jr As .i Ba5is(5-Cone) as of flctober 30, 339
Oil
Accession
Harvest
or hursery
Nunber
Identification
lype Location
Oate
Yield
Alpha Alpha Beta Alpha
Lb/Hc Lb/ac
I
I
Ratio
6 Mo
CoH
HSI HSI
IM
nil
0.00
b
0 DO
0.00
12
16
08/23/88
100
23
5,?
7.8
12
35 0.25
0.00
0
0 00
0 00
08/25/88
600
26
1.1
1.3
78
11 0.28
fl.00
0
0 Ofl
0 00
0 Ofl
7
7.1
3.1
71
26 0.27
Nunber
0 DO
COHE 171 23
CflNE 171 21
88
(X
o oa 0.00
8601-G23
08/29/88
Serial
il)
H/F
8601-021
COHE 171 18
Hun
Renain lOOq H/C
0,00
o 00
8601-018
My r
0 Ofl
0
fl.OO
fl 00
1
J
8601-025
CONE 171 25
08/25/88 2000
181
9.2
3.3 . 71
23 0.28
fl 00
0
0 00 fl 00
0 00 0 00 0,00
8601-027
CflNE 171 27
08/28/88
100
11
3.6
1.1
11
1 L
23 0.33
0 00
fl
0 flfl
fl 00
08/28/88
100
31
7.7
3.1
71
31 0.25
fl 00
0
0 00 0 00
7.5
2.5
75
25 0.2?
0 00
fl
fl flfl
0 CO
1.7
1.6
51
11
0 00
0
0 00 0 flfl
0 00 0 GO
0 00 fl 00 0.00
5
8601-028
CflHE 171 28
8601-032
CONE 171 32
03/28/88 2300
173
8601-035
CONE 171 35
08/23/86 2300
108
LL
0.26
0 00
0 00 O.flfl
18
fl 00 0 00 0.00
1?
0 00
0 00 0.00
15
0 DO
0 00 0.00
L
8601-038
CflNE 171 38
08/29/88 600
37
6.1
2.1
72
31 0,30
0 00
0
8601-039
CONE 171 39
08/29/88 2500
186
7.1
2.7
71
23 0,28
0 00
0
0 00 0 00
0 00 0 00 0.00
1
8601-040
CflNE 171 10
08/29/88 300
16
5.1
2.6
67
20 0.30
0 00
0
0 flfl
0 Ofl
0 00 0.00
1
O.flfl
19
fl GO
8601-013
CflNE 171 13
08/29/88 1200
56
1.7
3.7
55"
19 0.29
0 00
fl
0 flfl
0 00
0 00
0 Ofl
8601-046
CflNE 171 16
08/29/88 1279
65
5.1
2.6
66
32 0.26
0 00
0
0 Ofl
0 flfl
0 00
0 00 O.flfl
9
8601-01?
CONE 171 1?
08/25/83 1279
121
9.7
1.3
69
21
0.21
0 00
0
0 00 0 00
0 00 0 00 O.flO
11
8601-019
CONE 171 19
08/30/88
100
35
8.8
2.9
75
33 0.26
0 00
0
0 oo
a 00
0 00
0 00 O.Ofl
65
8601-051
CONE 171 51
08/38/88
800
12
5.2
3.0
63
31 0.25
fl 00
a
0 flfl
0 00
0 00 0 00 0.00
68
8601-052
CONE 171 52
08/30/88
600
23
3.8
1.7
69
26 0.29
0 00
0
0 00 0 00
0 00
O.flfl
70
8601-051
CONE 172 01
08/30/88 1280
67
5.2
5.3
50
16
0.21
0 00
0
0 00 fl on
0 00 0 00 0.00
58
fl Ofl
8601-055
CONE 172 02
08/30/88 200
8
3.8
7.1
31
1? 0,26
0 Ofl
0
0 Ofl
fl 00
fl 00 0 00 0.00
73
8601-057
CONE 172 01
08/30/88 600
19
8.1
2.2
79
31 0.25
0 00
a
0 00 fl 00
fl 00 0 00 O.flO
61
8601-110
8602-006
CONE 171 11
08/30/88 1195
118 12.1
1.5
73
30 0.21
0 00
0
0 00 0 00
fl 00
0 00 O.Ofl
69
COHE 172 13
08/30/88 18D0
88
1.9
1.9
72
21 0.26
0 00
0
0 00 0 00
fl 00
0 00 O.flO
19
8602-007
CONE 172 11
08/30/88
25
6.1
2.1
75
21 0.28
0 00
0
0 Ofl
0 00
0 Ofl
0 00 0.00
52
fl 00
0
0 Ofl
0 90
0 00
0 00 0.00
51
0 00
0
0 00 0 00
fl 00 0 00 0.00
59
100
8602-008
CONE 172 15
08/30/88 200
6
3.1
1.5
68
28 0.33
8682-009
CONE 172 16
08/30/88 1600
120
7.5
3.0
71
26 0.26
6
8602-011
CONE 172 18
08/30/88 100
8602-013
CONE 172 20
08/30/88 1023
5.9
1.3
58
31
0.23
0 00
0
0 00 0 00
0 00 0 00 0.00
62
129 12.7
1.2
75
39 0.23
0 00
0
0 00 0 oa
0 00
0 00 O.OG
55
8602-011
CONE 172 21
08/30/88 1109
79
7.1
3.8
65
16 0.23
0 00
0
fl 00 0 00
0 00 0 00 O.flO
57
8602-016
CONE 172 23
08/30/88
100
36
9.1
3.1
75
20 0.21
fl Ofl
0
0 flfl
0 00 0 Ofl
0.00
53
8602-023
CONE 172 30
08/30/88 938
80
8.6
2.7
76
35 0.26
0 00
0
0 00 0 00
0 00 0 00 0.00
76
8602-021
8602-031
CONE 172 31
08/30/88 1800
122
6.8
2.1
71
39 0.26
0 00
0
0 00 0 00
0 00
0 00 O.Ofl
71
COHE 172 11
08/30/88
7
2.5
1.1
65
28 0.35
0 00
0
0 00
fl 00
0 00
0 00 0.00
71
300
0 00
8602-035
CONE 172 12
08/30/88 1066
89
8.1
3.0
71
21 0.27
0 00
0
0 flO
fl Ofl
0 00 0 00 O.flO
67
8602-039
CONE 172 16
08/30/88 300
16
5.5
3.5
61
10 0,26 0 flfl
0
0 00 0 00
0 00 0 00 0.00
60
8602-010
CONE 172 17
08/30/88
21
1.7
2.8
63
29 0,25
0 flfl
0
0 00 0 00
0 00 0 00 0.00
66
8602-01?
CONE 173 01
08/30/88 2200
223 10.2
3.1
75
33 0.32
0 00
0
0 00
0 00
0 00 0.00
11
500
0 00
8602-018
CflNE 173 02
08/30/88 1200
81
7.0
2.5
73
27 0.26
0 00
fl
0 00 0 00
0 flfl
0 00 0.00
63
8602-052
CONE 173 06
08/30/88 1193
125
8.1
2.7
76
31 0.28
fl 00
0
0 00 0 00
0 00 0 00 O.flO
12
8602-053
CONE 173 0?
08/30/88 200
17
8.1
1.3
87
33 0.28
0 00
0
0 00 0 00
0 00 0 00 0.00
13
8602-051
CflNE 173 08
08/30/88 1800
73
1.0
1.9
15
27 0.21
fl 00
fl
0 00 0 00
0 00 0 00 0.00
39
0 00 0 00 0.00
10
0 00 0.00
61
8602-057
CONE 173 11
08/30/88
100
1
3.6
2.5
60
25 0.25
0 flfl
0
0 QO
8602-061
CONE 173 15
08/30/88 2300
98
1.3
1.5
71
15 0.27
fl DO
0
0 00 0 00
8602-063
CONE 173 17
08/30/88 1800
136
7,6
3.7
67
20 0.21
0 flfl
0
0 00 0 00
0 00 0 00 O.flO
18
1.9
71
55 0.25
0 00
0
0 00 0 Ofl
0 00 0 00 0.00
38
1.0
50
27 0.25
0 00
0
0 00 0 00
0 00 0 Ofl
8602-069
CONE 173 23
08/30/88 200
9
1.5
8602-071
CONE 173 25
08/30/88 800
31
3.9
fl 00
0 00
0.00
21
0 00 0.00
15
8602-072
CONE 173 26
08/30/88 1500
18
3.2
1.1
71
32 0.29 0 00
0
0 00 0 00
0 GO
8602-071
CONE 173 28
08/30/88 200
15
7.6
2.5
75
16 0.28
0 00
0
0 00 0 00
0 00 0 00 0.00
11
8602-076
CONE 173 30
08/30/88 1800
105
5.8
1.8
7?
33 0.26
0 00
0
0 00 0 00
0 GO
0 00 0.00
33
8602-081
CONE 173 35
08/30/88 1066
86
8.1
2.6
76
26 0.27
0 00
0
0 00 0 00
0 00 0 00 0.00
31
8602-082
CONE 173 36
08/30/88 800
63
7.8
2.7
71
1? 0.21
0 00
0
0 00 0 00
0 00 0 00 0.00
37
•Agricultural Chenistry Oepartnent**flregon State i!niversity**flgricultural Research Service**!1 S Dept. figriculture**Coryallis; Oregon*
1988 Bale and 5-Cone Analyses at 8): Moisture Content(Bale) or As Is BasistS-C
as of October 30, 1989
Oil
Accession
Harvest
or Nursery
Hunber
Identification lype Location
Date
Yield Alpha Alpha Beta Alpha
lb/He Lb/ac
I
I
Mo
Ratio CoH HSI
;:a*8
nil
Renain
lilflq H.'C
CflNE 173:10
08/30/88 2'Oflfl
119
5.9
1.9
76
32 0.2?
flfl
G
flfl
CONE 173:12
08/30/88 1000
68
6.8
2.1
71
0.25
flfl
0
00
8602-092
CONE 173:16
08/30/88 1280
105
U
2.1
7?
0.2S
09
0
8602-091
CONE 173:18
08/30/88 1153
89
6.0
2.9
67
20 0.23
H/F
Myr
Hun
Serial
(
il)
Hunber
00
00
00
5b
00
1?
00
31
Ofl
50
00
29
8602-095
COHE 173:19
08/30/88 1183
92
6.2
3.1
66
23 0.26
8602-099
CONE 173:53
08/30/88
800
59
7.3
2.9
72
25 0.27
8602-102
CONE 171:03
08/30/88 1365
111
8.2
1.0
67
11
8602-107
CONE 171:08
08/30/88
800
58
7.3
3.5
68
39 0.25
8602-109
CONE 174:10
08/30/88
100
27
6.8
3.3
68
26 0.26
8602-110
COHE 174:11
08/30/88
200
9
1.7
2.1
67
31 0,2b
8602-113
CONE 171:11
08/30/88
100
6
6.1
3.1
66
23 0.25
00
26
8602-119
CONE 171:20
08/30/88
853
63
7.1
2.8
73'
0,25
00
30
8602-123
CONE 171:21
08/30/88 2000
110
7.0
2.9
71
32 fl 25
Ofl
25
8602-125
CONE 171:26
08/30/88 2800
222
7.9
3.1
72
20 0.21
00
36
8602-133
CONE 174:31
08/30/88
11
7.1
2.1
75
22 0.27
97
600
LJ
8602-137
CONE 171:38
08/30/88 1155
8.1
2.3
78
32 0.21
CONE 171:12
08/30/88 1280
129 10,1
2.9
78
29 0.25
8602-113
CflNE 171:11
08/30/88 1800
191
1.0
73
36 0.23
172
CONE 171:15
08/30/88 1800
8602-119
CONE 171:50
08/30/88 200
8602-156
CONE 175:01
08/31/38
100
8602-158
CONE 175:06
08/31/88
600
100
5,0
26
0
fl
00
fl
00
0.25
8602-111
8602-111
00
CO
fl
0
flfl
oa
flfl
00
00
23
00
32
00
27
00
21
51
75
28
0
3.3
71
31 0.23
0
2.6
66
32 0.28
0
1,3
1.9
10
31
0.35
0
1,1
1.9
70
31 0.28
0
00
35
22
137
00
131
51 13,1
9.5
59
32 0.28
0
135
6.9
6.3
52
19 0,23
0
126
8602-163
CONE 175:11
08/31/88
8602-165
CONE 175:13
08/31/88 1706
118
8602-166
CONE 175:11
08/31/88 1193
118
7.9
5.2
60
21 0,23
0
8602-168
CONE 175:16
08/31/88 600
11
6.8
2.1
73
22 0,27
0.
8602-170
CONE 175:18
08/31/88 1193
131
8.8
1.1
67
28 0,25
0 00
8602-172
CONE 175:20
08/31/88 1195
73
6.1
2.5
71
31 0.27
0
8602-175
CONE 175:23
08/31/88 1706
120
7.1
2.9
71
28 0.26
0,
08/31/88 100
18
1.5
2,1
69
15 0.27
0,
8602-179
CONE 175:27
8602-182
CONE 175:30
08/31/88 1500
8602-185
CONE 175:33
08/31/88 800
33
00
00
130
136
118
0
00
0
120
0
119
110
00
166 11.0
3.8
75
32 0.21
0,
121
1.1
1.3
76
23 0.31
0
129
8602-189
CONE 175:37
08/31/83 1193
102
6.8
2.0
78
17 0.28
0
116
8602-192
CONE 175:10
08/31/88 1066
82
7.7
1.1
65
38 0.25
0 00
132
8602-193
CONE 175:11
08/31/88 1000
69
6.9
3.7
65
33 0.22
0
0
0
115
8602-191
CONE 175:12
08/31/88 1500
70
35 0.30
0
0
0,
121
8602-196
CONE 175:11
08/31/88
0
0 00
200
8602-208
CONE 176:03
08/31/88 1066
8602-210
CflNE 176:05
08/31/88 200
1.8
2.1
6
3.1
1.5
67
23 0.29
0
60
5.7
2.5
69
2? 0.28
0
5.0
2.0
71
37 0.35
0
125
0
102
72
111
00
139
00
8602-212
176:0?
08/31/88 100
1.0
1.7
7(1
30 0.33
8602-213
176:08
08/31/88 1280
52
1.1
3.1
55
33 0,27 0 GO
8602-215
176:10
08/31/88 1193
110
7.1
2.1
78
33 0.2?
0
96
8602-219
CONE 176:11
08/31/88 200
10
5.1
1.7
75
25 0.30 0
108
127
123
8602-227
CONE 176:22
08/31/88 1280
57
1.1
2.3
66
35 0.35
0
00
8602-228
CONE 176:23
08/31/88 12?
19
1.5
1.3
78
26 0.33
0
00
89
8602-229
176:21
08/31/88
31
5.1
2.1
68
25 0,31 0
00
128
00
112
600
8602-233
176:28
08/31/88 300
22
7.1
2.6
71
28 0,30 0
8602-23?
CONE 176:32
08/31/88 600
29
4.9
2,9
63
27 0.25
8602-210
CONE 176:35
08/31/88 1000
85
8.5
3.9
69
8602-213
CONE 176:38
08/31/88 800
59
7.3
2.5
75
0,
0
0.00
21 0.26
0
0.00
26 0.28
0
0,00
113
00
00
111
133
»*flgn:ui*>:ral Chenistry Bepartner.t "Oregon State 'jniverntv^ngncultural Research Service**!] SDept figriculture»*Corva!li5I Oregon*
1989
1588 Bale and 5-Cone Analyses at 'il Monti re Co ntentt Bale) jt As !s 8a5is',5- Cone) 1; Of
Oil
Accession
Dr Nursery
Nunber
Harvest
Identification lype Location
Oate
Yield
Alpha Alpha Beta Alpha
Lb/Hc Lb/ac
V
V
Ratio
6 Mo
CoH
HSI
HSI
:A'G
ienain
lOOq H/C
98
fl 00 0 Ofl
0 00
0.00
110
fl
0.00
853
39
1.6
2,7
63
29 0.30
S.OB
0
/yy
13
6.6
3.6
65
35 0.23
fl.OO
8602-250
CflHE 176:15
03/31 /b'8
106
0
O.flfl
08/31/88
Nunber
0.00
37 0.25
CONE 176:10
it)
0 00 0.00
73
8602-215
H/F iX)
0 00 0 00
1.8
06/31/38 1365
Serial
O.Ofl
12.8
CONE 176:35
Hun
0.00
175
8602-211
Myr
nil
0.00
0.00
0.00
8602-251
CONE 176:19
08/31/88 1706
171
10.0
1.1
. 71
36 0.25
0.00
fl
0 00 0 00
0 00 0 .00
fl.OO
10?
8602-256
CONE 176:51
08/31/88
311
18
5.3
2.2
70
21
0.21
0.00
0
0 00 0 00
0 00
fl.00
fl.flfl
109
8602-259
CONE 177:01
88/31/88
100
6
5.8
1.9
51
33 0.26
fl.OO
0
0 00 0 Ofl
0 00 0 .00
0.00
86
8692-262
CONE 177:01
08/31/88
512
58 11.2
2.1
81
10 0.25
0.00
fl
0 00 fl 00
0 00
0.00
il
8602-268
CONE 177:10
08/31/88
300
20
6.8
3.1
67
20 0.28
0.00
fl
0 00 0 00
fl 00 0 00 0.00
103
8602-269
CONE 177:11
08/31/88
100
6
6.2
1.6
79
26 0.30 0.00
9
0 00 0 flfl
0 flfl
0.00
122
8.5
3.6
70
25 0.28
O.Ofl
D
0 00 0 00
0 00 0 00 0.00
138
5.1
3.2
63
21
fl.OO
fl
0 00 0 00
0 00 fl 00 O.Ofl
131
0
0 00 0 00
0 00 0 00 0,00
92
8602-273
COHE 177:15
08/31/81
100
8
8602-280
CONE 177:22
08/31/88
100
5
8602-232
COHE 177:21
08/31/88
100
33
8.3
0.28
3.9
68
38 0.25
0.00
0.00
0.00
8602-281
CONE 177:26
88/31/88
700
11
5.9
3.8
61
21 0.29 fl.flfl
fl
0 flfl
0 DO
0 Ofl
0 .00
0.00
88
8602-286
CONE 177:28
08/31/88 1280
116
11.1
5,0
70
29 0.25
fl
0 00 0 00
fl Ofl
0 00 0,00
93
0 DO
0.00
0.00
8602-289
COHE 177:29
08/31/88
127
31
8.0
2.1
7?
37 0.28
0.00
0
0 00 0 00
8602-250
CONE 177:32
98/31/88
500
11
2.2
2.1
50
25 0.31
0.00
fl
0 Ofl
0 00
8602-7.87
COHE 177:38
08/31/88 1230
83
6,5
3.0
69
28 0.30
O.flO
0
0 flo
a 00
8602-301
CONE 177:13
08/31/88
1
3.6
1.3
71
23 0.33
0.00
fl
0 00 0 00
3
3.1
1.7
65
33 0.31 0.00
32 11.5
5.7
6?
100
8602-302
COHE 177:11
08/31/88
300
8602-307
CflHE 177:15
08/31/88
800
?
0.28
0.00
0.00
100
0 00 0 00 0.00
117
O.flfl
99
fl 00 0 00 0.00
91
0 00
0 00
0
0 00 0 00
0 00 fl 00 fl.OO
82
0
0 00 0 00
0 00 0 00 O.Ofl
101
0 00 0.00
97
fl 00 0 00 0.00
91
8602-3A9
CflHE 177:51
08/31/88
938
71
7.9
2.1
77
28 0.29
O.flO
0
0 00 0 Ofl
8602-31G
CONE 177:52
08/31/88
300
12
1.0
2.1
66
31 0.30
0.00
0
0 Ofl
8602-315
CflNE 178:01
09/01/88
800
33
1.1
1.3
75
23 0.31 0.00
fl
0 00 fl 00
0 Ofl
0 00 O.flO
111
8602-322
COHE 178:11
09/01/88
300
11
1.6
2.5
65
25 0.30
0
0 00 0 00
0 00 0 Ofl
0.00
151
0.00
0 00
0 00
8602-323
CONE 178:12
09/01/88
600
11
6.8
3.6
65
25 G.25 0.00
0
0 00 0 Ofl
0 00 0 Ofl
0.00
112
8602-321
COHE 178:13
09/01/88
800
58
7.2
3.6
67
21 0.28
0
0 00 fl 00
0 00 fl 00 O.flO
111
8602-332
CONE 178:21
09/01/88 1000
11
1.1
2.5
61
35 0.31 0.00
0
0 00 0 00
0 DO
0 00 O.flfl
156
8602-331
CONE 178:23
09/01/38
100
11
2.8
1.3
69
36 0,39 0.00
0
0 00 fl 00
0 00 0 00 0.00
150
8602-336
CONE 178:25
09/01/88 1700
131
7.?
1.5
63
31 0.25 0.00
0
0 00 0 Ofl
0 00 0 00 0.00
166
51
12 0.33
0
0 Ofl
0 00
0 00 0 00 O.flfl
85
2.6
73
37 0.33 0.00
fl
0 00 0 00
0 00 0 00 0.00
7?
1.0
60
35 0.31
0.00
0
0 00 0 00
0 00 0 00 O.Ofl
84
8602-310
8602-311
CONE 178:23
CflHE 178:30
08/31/88
600
08/31/98 1500
8602-312
CONE 178:31
08/31/88
8602-311
COHE 178:33
08/31/88 1280
8602-315
CONE 178:31
08/31/88
300
8602-316
COHE 178;35
08/31/88
800
8602-350
CONE 178:39
08/31/88
8602-355
COHE 178:11
08/31/88
800
18
103
18
6.9
6.0
2.8
0.00
6.7
61
31 0.29
0.00
0
0 00 0 00
0 00 fl 00 0.00
80
6.2
2.8
69
32 0.29
0.00
0
0 00 0 0(1
0 Ofl
0 00 0.00
79
106 13.3
1.7
71
27 0.26
0.00
0
0 00 0 00
fl 00
0 00
O.flO
78
22 0,28
0.00
0
0 flfl
0 00 0 00 0.00
95
30 0.33
0.00
fl
0 00 0 00
0 00 0,00
81
136 10.6
19
200
6
2.8
2.6
51
100
5
1.8
2.6
65
102
0 00
0 00
0 00 0 00 0.00
90
0 00 O.Ofl
101
0 00
0 00 0 00 0.00
105
0 00 0 00
0 00 0 00 0.00
83
0, 00 0 CO
0.00
115
0 00 0 flfl
0 00 0 Ofl
O.flO
175
0 00 0. 00
0. 00 0 00 0,00
153
0
0 00 0 00
fl Ofl
0 00 O.flfl
118
0
0 00 0 00
0 00 0 00 0.00
165
7.1
6,2
55
31 0.2?
0.00
0
0 flfl
81 10.1
1.9
81
37 0.29 0.00
0
fl 00 fl 00
0 Ofl
11
3.5
1.5
69
22 0.31 0.00
0
0 Ofl
11
7.3
2.6
74
22 0.29 0,00
0
09/01/88 100
7
6.9
3.1
69
20 0.25 0.00
0
0. 00 0. 00
CONE 179:10
09/01/88 200
11
5.3
1.5
77
23 0.26
0.00
fl
CONE 179:15
09/01/88
300
17
5.7
2.2
72
20 0.28 O.OG
0
18
1.8
2.1
67
26 0.26 0.00
116
7,7
2.8
73
30 0.26 0.00
7.6
2.2
78
31 0.26
0.00
0
0 00 0 00
0 00 0 00 0.00
170
35 0,28
O.GO
0
0, 00 0. 00
0. Ofl
0,00
168
0.00
0
0 00 0 00
0 00 0 00 0.00
160
0.00
0
0. 00 0. 00
0. 00 0 00 0.00
181
8602-358
COHE 178:17
08/31/88 1365
8602-362
COHE 178:51
08/31/88
8602-363
CflHE 178:52
08/31/88 100
8602-361
CONE 173:53
08/31/88
600
8602-371
CONE 179:07
8602-371
8602-379
8602-382
CONE 179:18
09/01/88 1000
8602-383
CONE 179:19
09/01/88 1500
8602-386
COHE 179:22
09/01/88 2000
151
800
8602-333
COHE 179:29
09/01/88 1000
8602-395
COHE 179:31
09/01/88
8602-101
2.9
0.00
CONE 179:37
200
09/01/88 1200
51
5.1
2.6
68
3
1.1
1.2
53
31 0.35
74
28 0.26
91
7.8
2.7
0 00
0 Ofl
-17-
"Agricultural Chenistry Oepartnent»*Oregun State yniversity^figriculturai Research Service**!] S Oept flgriculture»*Corvallis, Oregon*
1988 Bale and 5-Cone final yses at 85! Moist ire iontent(Bale) Dr As Is Basis(j-Cone)
as 0'
October
im
nil
2f.
Harvest
or Nursery
Nunber
8602-103
1989
Oil
Accession
Identification lype Location
CONE 178:35
Date
Yield Alpha Alpha
Lb/Ac Lb/ac
09/01/88 1200
I
Beta
filpha
I
Ratio
6 1o
CoH
HSI
HSI Renain
2.1
75
23 0.26
0 00
0
335 16.7
85
7.1
lOOq H/C
H'F
Myr
Hun
Serial
il)
it)
Nunber
0,00
fl ,00
fl 00 0.00
O.flfl
117
0 00 O.Ofl
O.flO
176
8602-105
CONE 179:11
09/01/88 2000
3.3
81
38 0.16 0.00
0
0.00
0.00
8602-116
CONE 179:52
09/01/88
100
7
7.3
2.5
75
12 0.28
0 00
0
0.00
0.00
0 00 0.00
O.flO
171
8602-118
CflNE 180:01
09/01/88
853
69
8.0
3.8
. 68
32 0.26
0 so
0
0 00 0 00
0 00 0.00
0,90
17?
8602-127
COHE 180:10
09/01/88 1066
88
8.3
3.2
72
31 0.26 0 00
fl
0•flfl
fl.00
0 00 O.flO
0.00
192
8602-128
CflHE 180:11
09/01/88
500
21
1.7
1.8
73
21
0.32
0 00
0
0 00 0 00
0 00 O.flfl
O.flO
171
8602-133
CflHE 180:16
09/01/88
100
32
7.9
2.1
79
29 0.27
0 00
0
0 flfl
fl 00
0 00
O.Ofl
fl.flO
173
8602-113
COHE 180:2b
09/01/88 1200
65
5.1
2.1
72
11
0,2?
0 00
0
0 00
0 Ofl
0 00 0.00
fl.flfl
178
8602-115
CONE 180:28
09/01/88 1066
98
9.2
2.6
78
31 0.2?
0 00
0
0 Ofl
0 Ofl
0 00 0,00
0.00
168
8602-118
CONE 180:31
09/01/88
31
6,3
3.0
6?
22 0.27
0 00
0
0 00 0 00
0 00 0,00
0,00
186
28 0,31
0 Ofl
0
0 flfl
0 Ofl
fl 00
fl.flO
O.Ofl
193
0.21 0 00
0
0 00 0 00
0 00
0.00 0.00
i9i
500
8602-119
CflNE 180:32
09/01/88
500
37
7.1
3.7
67
8602-150
COHE 180:33
09/01/88
853
80
9.3
2.9
76 ' 31
8602-153
CflHE 180:36
03/01/88
200
8
3.8
1.0
79
23 0.29
fl flfl
0
fl 00 0 00
0 00
O.flfl
O.flO
155
8602-155
CflNE 180:38
09/01/88 1500
18?
12,5
1.8
72
28 0.23
0 Ofl
0
0 00 fl 00
fl 00 0.00
0.00
i80
8602-156
CONE 180:39
09/01/88 1200
62
5.2
1.1
78
27 0.32
0 00
fl
0 00 fl Ofl
a 00 O.Ofl
O.Ofl
179
8602-168
CONE 180:50
09/01/88 1500
150 10.0
1.0
71
21 0.25 fl 00
fl
fl 00 0 00
fl 00 0.00
O.flO
181
8602-169
CflHE 180:51
09/01/88 2000
161
8.1
3.5
7fl
23 0.26
fl
0 00 0 00
fl 00 0.00
0.00
116
0 00 0.00
0.00
162
0 00
8602-171
COHE 181:01
09/01/88
100
13
1.7
1.7
50
19 0.27
0 00
fl
0 00 0 00
8602-172
CONE 181:02
09/01/88
853
13
5.1
5.1
18
36 0,25 0 00
0
0 00 fl 00
0 00 0.00
O.Ofl
155
8602-175
CONE 181:05
09/01/88 1800
188 10.5
3.3
76
22 0.26 0 00
0
0 00 0 00
0 00 0.00 0.00
189
8602-180
CflNE 181:10
09/01/88
700
60
8.5
2.5
77
31 0.21 0 00
0
0 00 Q 00
0 00 O.Ofl
0.00
161
8602-181
CONE 181:11
09/01/88
600
18
8.1
1.0
6?
22 0.23 fl 00
0
0 00 0 00
0 00 0.00
O.Ofl
185
8602-182
CONE 181:12
09/01/88
768
63
8,2
2.1
77
26 0.26
0 00
0
0 0(1
0 00
fl 00 O.flO
fl.flO
188
8602-185
CONE 181:15
09/01/88 900
81
9.0
3.6
71
26 0.21 0 00
0
0 00 0 00
0 00 0,00
fl.flO
182
8602-18?
CONE 181:17
09/01/88
600
31
5.7
1.5
79
32 0.31
0 00
0
0 00 0 00
fl 00 0.00
0.00
163
8602-188
CONE 181:18
09/01/88
900
75
3.8
3.0
75
30 0.21 0 00
fl
0 00 0 Ofl
0 00 fl.OO
0.00
156
8602-190
CONE 181:20
09/01/88
200
15
7.3
2.1
75
27 0.27
0 0(1
0
0 flfl
fl flfl
0 00 O.flO
0.00
183
8602-195
COHE 181:25
09/01/88 1000
15
1.5
3,7
55
36 0.25 0 00
fl
0 00 0 00
0 00 0.00
0.00
151
8602-500
CONE 131:30
09/01/88
600
31
5.1
2.1
71
26 0.25 0 00
fl
0 00 fl 00
0 Ofl
0.00
fl.flfl
172
CONE 181:35
09/01/88 100
1
1.3
1.6
73
28 0,29
0
0 00 0 00
0 00 0.00
0.00
187
0 00 0.00
O.Ofl
190
0 00 0.00 0.00
158
8602-505
0 00
8602-50?
COHE 181:37
09/01/88
600
23
3.8
4.3
47
26 0.24 fl 00
0
0 Ofl
8602-508
CONE 181:38
09/01/88 100
37
9.2
2.8
7?
33 0.27 0 00
0
0 00 0 00
8602-509
CONE 181:39
09/01/88
300
51
6.3
2.9
68
23 0.2?
0 00
0
0 Ofl
fl 00
0 00 0.00
O.Ofl
149
8602-510
CONE 181:10
09/01/88 800
52
6.5
2.0
77
22 0.25 0 00
0
0 Ofl
0 00
0. 00 0.00 0,00
152
8602-512
CONE 181:12
09/01/88
36
1.5
1.7
72
32 0.33
0 00
0
(1 Ofl
0 00
0. 00 fl.OO
0.00
167
26 0.27
0 00
0
0 00 0 00
0 00 0,00
O.GO
191
800
fl 00
8602-513
CONE 181:13
09/01/88
600
12
7.0
1.2
63
8602-511
COHE 181:11
09/01/88 1200
61
5.3
4.6
54
35 0.23 0 00
0
0 00 0 00
fl.00 0.00
O.Ofl
157
1.5
72
31 0.28 0 Ofl
0
fl 00 0 00
0. 00 0.00
O.Ofl
159
3.8
67
37 0.26 0 00
0
fl 00 0 flfl
0 00 0.00 0.00
113
0,00 O.GO
161
262
8602-516
CONE 181:16
08/01/88
300
12
1.0
8602-522
CONE 181:52
09/01/88 300
21
7.8
8602-523
CONE 181:53
09/01/88 100
27
6,7
2.5
73
27 0.26
0. Ofl
fl
0. 00 0 flfl
fl.Ofl
8602-527
CONE 182:01
09/02/88 1500
99
6.6
3.0
69
37 0.27 0. 00
0
0 Ofl
fl 00
0. 00 0.00 0.00
8602-531
CONE 182:08
09/02/38 1000
101 10.1
5.1
67
33 0.30 0. 00
0
0 00 0 00
0. 00 0,00 0.00
257
8602-532
CONE 182:09
09/02/88
3.9
4.5
46
27 0.27 0, 00
(1
0 00 0 Ofl
0. flfl
0,00 0.00
281
120 12.0
800
31
8602-533
CONE 182:10
09/02/88 1000
5.2
70
28 0.21 0. 00
0
0, 00 0. 00
0. 00 0.00 0.00
8602-535
CONE 182:12
09/02/88 1000
19
1.9
2.0
71
31
0, 00
0
0 00 0 Ofl
0, 00 0.00 O.flO
261
8602-53?
CONE 182:11
09/02/88 700
12
6.0
3.1
66
20 0,29 0, 00
0
0. 00 0. 00
0. 00 0.00 0,00
270
0.26
267
8602-538
COHE 182:15
09/02/88
800
36
1.6
2.4
G5
21
0. 00
0
0 00 0 00
0. Ofl 0,00 0.00
269
8602-539
CONE 182:16
09/02/88
800
67
8.1
2.1
78
31 0.28 0. 00
0
0. 00 0. 00
0. 00 0.00 0.00
263
8602-510
CONE 182:17
09/02/88 1280
29
2.3
1.9
51
31 0.36 0. 00
fl
0. 00 0 00
0. 00 0.00 0.00
271
8602-551
CONE 182:28
09/02/88 1000
12
1.2
0.1
76
32 0.32 0. 00
0
0. 00 0. 00
0, 00 0.00 G.OO
260
0,2?
ilgricul'ural Chenistry Oepartnent'»0regon State !iniversitv*»Agricultural Research Service**!! S Oept Agricultu
•Corvallis, Oregon*
1988 Bale and 5-Cone finalyses at 85! Moisture ContenHBale) or As Is Basis(S-Cone) as of October
1883
llccession
or Nursery
Nunber
Harvest
identification lype Location
8602-552
Oate
Yield
09/02/88 1191
IM
nil
Myr
Hun
CoH
HSI
HSI
Renain
lOOq.
il)
il)
Alpha Alpha leta Alpha
l.b/Ac Lb/ac
I
I
Ratio
6 Mo
163
13,7
6.7
67
31
0.25
O.flO
0
3.3
1,6
68
35
0.30
0
0
9.6
1,3
69
29 0.26
0
8602-551
COHE
05/02/88
200
7
8602-555
CflHE
05/02/38 1000
96
00
fl
0
Ofl
0
00
Serial
Hunber
00
27?
00
272
00
275
00
273
8602-560
COHE
05/02/38 1280
96
7.5
3.1
69
35 0.25
0
8602-561
CONE
09/02/88
200
10
5.1
1.8
71
21
0.31
0
8602-562
CflHE
09/02/88 800
52
6,5
3.2
6?
32
0.26
0 Ofl
8602-566
CONE
09/02/88
600
26
1.3
1
L, L
66
29
0.30
0.
00
0
00
278
8602-570
CONE
09/02/38
1
1.5
3.2
58
30 0.27
0,
flfl
fl
00
276
1
0
flfl
0
00
282
0
00
0
00
265
1.1
70
29
0.25
0
00
0
3.7
65' 29
0,23
0
00
0 00
66
26
0.25
0.
ao o
71
27
0.26
0
00
60
27 0.30
0
0 00
0
215
27
0,25
0
Ofl
0
278
19
fl. 30
0
00 0
256
8602-581
CONE
03/02/88 1155
8602-588
CONE
05/02/88 200
8602-602
CONE
09/02/88
93
13.3
6.7
8602-603
CONE
09/02/88
35
8.7
3.0
8602-635
CflNE
09/02/88
36
3.6
2.1
0.0
1.0
1.6
39
3.2
11
6.8
0
15
7.1
2.6
71
?
3.7
1.3
71
09/02/88 600
35
5.8
1.9
75
23
0.2?
0,
09/02/88 1200
11
3.7
1.5
71
35
0.31
0,
8602-609
CONE
09/02/88
8602-622
CONE
09/A2/88
8602-628
CONE
8602-630
CONE
200
8602-635
CONE
09/02/88 1021
67
6.5
2,0
7?
21 0.26
0,
8602-638
CflHE
09/02/88
300
11
1.6
2.1
68
28 0.15
0,
8602-619
COHE
09/02/88 300
33
10,9
3.5
76
30 0.25
0,
8602-661
COHE
09/02/88
26
5.1
1.6
76
30 0.27
0
8602-66?
COHE
09/02/88 800
61
8.0
2.8
71
27 0.21
0
500
280
271
0.33
09/02/88
700
00
00
0 0.00
09/02/88
CONE
0
fl
29
CflNE
8602-583
16
00
71
8602-571
100
0
8602-668
CONE
09/02/88
200
13
6.3
2.1
75
23 0.27
0
8602-671
CflNE
09/02/88 200
8
3.8
1.6
70
26 0.25
0
fl
00
0
DO
261
00
216
00
259
268
0
215
00
218
252
232
00
258
251
255
00
266
00
217
8603-005
CONE
09/02/88 200
13
6.3
5.0
56
20 0.22
0 00
253
8603-011
CflNE 185
09/02/88 900
17
5.2
2.6
67
39 0.26
0
250
9
1.3
2.8
61
20 0.21
0
16 15.5
3.8
80
26 0.21
0,
212
8603-01?
COHE 185
09/02/88
8603-018
CONE 185
09/02/88 100
8603-021
8603-028
CONE 185
09/02/83 100
17
1.3
2.3
65
29 0.23
0
0(1
213
CONE 185:
09/02/88 853
97 11.1
6.0
66
32 0.23
0
00
233
17
1.1
2.7
62
33 0.27 fl
00
211
C
5.1
2,3
70
27 0.26
0
00
231
0
200
8603-032
COHE 185
09/02/88
8603-031
CONE 185
09/02/88 100
400
J
00 0, 00
251
00
237
00
238
8603-036
CflHE 185
09/02/88
600
10
1.6
1.1
28
30 0.31
8603-038
COHE 185
09/02/88 300
15
5.1
2.6
66
26 0.26 0.
8603-010
CONE 185
09/02/88 600
55
9.1
1.0
70
37
0.26
0
Ofl
231
8603-011
CONE 185
09/02/88 500
21
1.7
2.5
65
37
0.2? fl
00
211
8603-013
CONE 185
09/02/88 200
9
1.5
3.2
58
31
0.33 0
flfl
222
8603-017
CONE 185
09/02/88 300
13
1.5
2.0
70
10 0.30
0,
00
223
86Q3-019
CONE 185
09/02/88 100
3
2.9
1.6
65
22 0.3? 0
00 0 00
220
8603-052
185'
09/02/88 800
00
236
8603-054
185
09/02/88
8603-063
CONE 186
50
6.2
2.8
69
28 0.26 0,
171
6
3.3
5.7
36
29 0.22
0,
09/02/88 100
6
1.6
1.1
51
19 0.35
0,
1,7
66
20
0
0
00
0
flfl
0,
0
0.25 0,
8603-066
186
09/02/88 1000
8603-067
186
09/02/88 100
11
2.7
1,3
31 0.36 0, 00
8603-070
CONE 186
09/02/88 500
23
1.6
7,0
32
8603-071
CONE 186;
09/02/88 600
13
2.2
2.9
13
8603-072
8603-074
CONE 186
09/02/88 300
13
1.3
1.9
69
16
CONE 186:
09/02/88 100
9
2.1
1.3
61
29 0,32
0
0
0.28 0
16 0,28
0
0.30 0
0.
00
00
00
210
00
215
00
226
00
229
00
209
00
197
00
225
00
218
"Agricultural Chenistry Departnent'»0re gon State Onivers ity"! gricu.
1988 Bale and 5-Cone Anal yses
tural Resea cn S ervice »» 1 b uept Hgr cul tu
at it Moisture Content*E ale)
cr As s Basis\5-Cone) as of
October 30,
Accession
„
Harvest
or Nursery
Nunber
8603-076
Identificatior
lype Location
CONE 186 18
Oate
09/02/88
Yield Alpha Alpha Beta
Lb/Hc '.b/ac
600
8603-081
CflNE 186 26
09/02/88 2000
8603-085
CflNE 186 27
09/02/88
500
23
X
3.5
5!
2.7
Alpha
Ratio
59
6 Mo
CoH
HSI
25 0.29
HSI
0.00
7.8'B
E«» -or •ail
Ur egon**
385
Oil
.
1yr
nil
Renain lOOq
i =
1/C
H/F it
Hun
Serial
it)
Hunber
fl
0.00 0 00
0,00
fl 00 O.flfl
210
0 00 0 00 0.90
205
115
7,3
3.1
70
19 0.34
fl 00
0
0 00 0 00
16
3,1
2.0
61
25 0.10
fl 00
0
0 00 a 00
0 Ofl
a 00 O.flO
227
0 00 0 00
fl 00 0 00 0.00
203
8603-086
CONE 186 28
09/02/88
?00
39
5.5
2.1
70
39 0.29
0 00
0
8603-089
CONE 186 31
09/02/88
100
25
6.2
2.9
68
25 0.28
0 00
fl
0 Ofl
0 oa
fl OD
0 flfl
fl.OO
208
8603-10!
COHE 186 13
09/02/88 1000
50
5.0
2.6
66
25 0.31
0 90
0
0 00 0 00
0 Ofl
0 00
0.00
239
8603-103
COHE 186 15
09/02/88 1280
2?
2.1
2.2
19
10 0.39
D 00
0
0 00 a 00
0 00 0 00 0.00
211
8603-105
COHE 186 17
09/02/88
62
7.2
1.7
60
21 0,23
0 00
0
0 00 0 00
0 Ofl
0 00
0.00
199
853
8603-107
CONE 186 19
09/02/88 1000
15
1.5
1.7
73
20 0.32
0 00
0
0 00 0 00
0 Ofl
0 00 0.00
200
8603-108
CONE 186 50
05/02/88 1000
37
3.7
1,6
71
26 0.33
0 flfl
0
0 00 0 00
0 Ofl
0 00 0.00
202
8603-111
COHE 186 53
09/02/88
700
21
3.0
2.2
58
21 0.31
fl 00
0
0 00 fl 00
0 00 fl Ofl
8603-113
COHE 18? 02
09/02/88
500
13
2,6
1.5
63'
29 0.11
0 00
0
0 00 0 00
0 00 fl 00 0.00
8603-114
CONE 187 03
09/02/88 1000
55
5,5
2.2
72
25 0.32
0 00
0
0 00 0 00
0 00 0 00 0.00
216
8603-117
CONE 187 06
09/02/88
200
13
6.6
2.6
71
26 0.30
fl 00
0
0 00 0 00
0 00 0 00 0.08
221
8603-120
CONE 187 09
09/02/88
700
21
3.5
3.8
18
35 0.28
fl 00
0
0 00 0 00
0 00 0 00 0.00
221
0 00
0
0 00 0 00
0 00 0 Ofl
0.00
212
0
(1 flfl
0 00
0 00 0 00 fl.flO
235
21!
8603-121
CflNE 187 10
09/02/88
800
25
3,2
3.0
51
21 0.29
86C3-125
COHE 187 11
09/02/88 200
12
5.5
2.2
73
26 0.26
fl flfl
0.00
201
206
8603-126
CONE 187 15
09/02/88
200
10
1.9
2.6
65
32 0.13
fl 00
0
0 00 0 00
0 00 0 00 0.00
8603-127
CONE 187 16
09/02/88
100
15
3.7
2.1
61
31
0.35
0 00
0
0 00 0 00
0 0(1
0 00 0.00
213
8603-128
CONE 18? 1?
09/02/88 1066
56
5,2
1.9
73
28 0.28
fl 00
0
0 00 0 00
0 00 0 00 0.00
219
8603-132
CONE 18? 21
09/02/88 100
32
8,0
1.1
66
22 0.26
0 Ofl
0
fl 00 0 Ofl
0 00 0 00 O.Ofl
207
8603-133
CONE 187 22
09/02/88 500
20
3.9
3.9
50
17 0.23
0 00
0
0 00 0 00
0 00 0 00 fl.OO
198
8603-137
CONE 18? 26
09/02/88 700
51
7.?
2.7
71
39 0.27
0 00
0
0 00 0 00
0 00 0 00 0,00
230
8603-141
CONE 187 30
09/02/83 800
28
3.5
3.1
51
20 0.26
0 00
0
0 DO
0 00
0 00 D 00 0,00
217
8603-141
COHE 187 33
09/02/88 600
10
1.6
0.9
65
29 0.11
0 00
0
0 00 0 00
0 00 0 00 0.00
201
8603-161
COHE 187 53
09/02/88
600
52
8.6
3.3
72
31 0.26
0 00
0
0 00 0 00
0 00 0 00 0.00
228
8603-165
CONE 188 01
09/08/88
600
23
3.9
1.7
70
28 0.30
0 00
0
fl 00 0 00
0 00 fl 00 fl.OO
38?
8603-170
CONE 188 06
09/08/88 100
11
3,6
1.0
17
23 0.30
0 flfl
0
0 00 0 00
0 Ofl
0 00 0.00
391
8603-171
CflNE 188 07
09/08/88 300
17
5.6
5.2
51
21 0.23
0 00
0
0 00 0 00
0 flfl
0 00 0,00
382
0 00
0
0 00 0 00
0 00 0 00 fl.OO
395
0 00 0 00 0.00
0 00 0 00 0,00
390
8603-179
CONE 188 15
09/08/88
100
20
5.1
2.0
71
36 0.30
8603-183
09/08/88 600
09/08/88 500
31
5.2
2.1
71
21 0.30 0 00
0
0 00 0 00
8603-186
COHE 188 19
COHE 188 22
0
0 00 0 00
8603-187
CONE 188 23
09/08/88 700
16
8603-190
COHE 188 26
09/08/88 100
8603-191
CflNE 188 27
09/08/88
100
0 00
382
51 10.0
1.5
71
19 0.27
6.5
3.3
67
33 0.26 0 00
0
0 00 0 00
0 00 0 00 0.00
393
0
0 00 0 00
0 00 0 00 0.00
391
0
fl 00 0 00
0 00 0 00 0.00
389
381
7
6.8
3.6
65
31 0.29
0 00
20
5.0
1.9
73
36 0.29
0 00
8603-193
CONE 188 29
09/08/88 800
22
2.7
2.1
56
19 0.10
0 00
0
0 00 0 00
0 00 0 00 0.00
8603-191
CONE 188 30
09/03/88 700
27
3.8
3.0
56
22 0.29
0 00
0
0 00 0 00
0 00 0 QO 0.00
396
398
8603-200
CONE 188 36
09/08/88 600
11
2.1
2.1
53
21 0.35
0 00
0
0 00 0 00
0 00 0 00 0,00
8603-207
CONE 188 13
09/08/88
600
50
8.1
2.1
77
27 0.27
0 00
0
0 00 0 00
0 00 0 00 0.00
381
383
8603-210
CONE 188 16
09/08/88 100
16
1.0
2.3
63
21
0.29
0 00
0
0 00 G 00
0 00 0 00 0.00
8603-211
CONE 188 17
09/08/88
200
1
1.9
1.2
61
26 0.33
fl 00
0
0 00 0 00
0 00 0 00 0.00
388
8603-212
CONE 188 18
09/08/88 100
16
1,0
1.9
68
24 0.31
0 00
0
0 00 0 00
0 00 0 00 0.00
397
8603-215
CONE 188:51
09/08/88 1000
56
5.6
3.0
65
39 0.31
0 00
0
0 00 0 00
0 00 0 00 O.flO
386
8603-216
CONE 188 52
09/08/88 600
16
2,7
1.1
65
38 0.32
0 00
0
0 00 0 00
0 00 0 00 0.00
385
Native Wild Yugoslavian Male Hop Genotypes us
D. Kralj and A. Haunold; field planted to Mai
Male No.
01P04 (below)
Mai o No.
g one t. i c
studies
• lavn r lock
O'/TN (below)
US L7- Ace
USDA Ace.No. 21398
both were obtained in 1983
,",o.
21399
] r/<:,
Native Wild Yugoslaviam Male Hop Genotypes •
•;
Kralj and Haunold, 1982-86, field planted ii
r,t
: (•;•
r:er:f* 1 C St U Gl C'
'.'.,: \ e Geriiiii lasio ;.l •
Male No. 20P09
USD?) Ace. No. 21400M
214(31!
91
Native Wild Yugoslavian Male Hop genotypes used tor genetic studies by
Kralj and Haunold, 1982-86. field planted to Ma ie Hop Geniiplasm block
in 1988/89. (rhizomes obtained in 1983).
photo taken in Yugoslavia near Zalec, Slovenia
Male
No.
40P15
US DA Access i on
No.
21402M
H.AunoUl
92
ACCESSION: 0141065
YR 88
PUB PG 1
MODE: 5358-05-00
CWU: 5358-22000-001-00D
TITLE: IMPROVED HOP GERMPLASM, VARIETIES, AND
Annual
PRODUCTION PRACTICES
USDA-ARS
Report for 1'
Hop Research, Corvall is ,0R.
PERIOD COVERED FROM 01/88 THRU 12/88
APPROVED:
R.E.
POSITION TITLE:
WELTY
proi. leader:
)l/89
Dr. Alfred Haunold
RESEARCH LEADER
PROGRESS REPORT
Brewery interest continues in the USDA selections 21180 and 21181
with the 1988 production scheduled for expanded brewing trials.
Seven commercial plots of female triploid Hallertauer-derived
selections were harvested in OR, WA, and ID.
Yields and quality were
generally satisfactory, although the alpha acids content this year
was lower than in previous years. USDA 21455, one of the seven
selections, will be released as the new cultivar Mt. Hood for
production beginning in 1989. Planting of large off-station plots of
the two German virus-free Tettnanger clones A and B (USDA 21496 and
21497) was completed. About 150 additional female and 65 triploid
male selections from the 85-Nursery were established in replicated
plots. Selections from the 87-Nursery from diploid Tettnanger x
selected tetraploid aroma males were harvested for the first time.
Cytological analyses and quality evaluations are currently under way.
Banner (USDA 21287) and Aquila (USDA 21222) produced excellent
yields in the first mature year in Oregon and will be recommended for
commercial production. The high-alpha, low cohumulone selection USDA
21373 was discontinued from future evaluation due to susceptibility
to downy mildew. A low-alpha special aroma hop (USDA 21120) was
established at a 4-acre commercial plot. Crosses between selected
tetraploid males (8309-26M and 8309-32M) and diploid Tettnanger were
repeated. One male, Sel .#8309-26M, was also crossed to the recently
obtained Saazer clone #72 (USDA Ace. No. 21525) in the greenhouse.
PUBLICATIONS
( 1)
HAUNOLD, A. 1988. Hopfenzuchtung in USA. Brauerei und Allg. Getr. Rundschau
98:195-196. (Abstract).
( 2)
HAUNOLD, A. 1988. Hop breeding in the United States, pp. 33-45. In: European
Brewing Convention Monograph XIII. L. Narziss (Ed). Verlag Hans Carl
(Brauwelt Verlag) Nuernberg, Fed. Rep. of Germany.
( 3)
HAUNOLD, A., and NICKERSON, G.B. 1988. Registration of USDA 19058M male hop
germplasm. Crop Sci. 28:1036.
( 4)
( 5)
U S D t". P A R TMENT OF AGRICULTURE
RESEARCH WORK UNIT/PROJECT DESCRIPTION . PROGRESS REPORT
93
2c
U.S. DLI'T OF AGKIC U LTU RE . STATE AOKICULTUFIAL EXPERIMENT STATIONS AND OTHER INSTITUTIONS
; . ACCI SSION
NO .
•: 0 ^ 5 1 5 2
/.
AGENCY
IDtNTI f "1C ATION
'. . WORK UNIT/PROJECT NO.
NO
2"C SR5 |3-0Si |"-.jC,
T^Z-^'i. REGIONAL
jTYPE/CHANT NO.
!
JHflTCH
I
C k ?. 0 C G 3 o
project NO.
OCT
1^8'.
I
I
TITLf.
KcTIu S /
0 r, I >Z C i >\ 'o /
o57n0L0GY.
C r r M I S T -" Y
AN0
CULTURE
CF
MCP5
(Stat e__C RIS _p ro cjre ss re port for 1
PI
12
RfORMING ORGANIZATION
CS0 P
I HAUN0 LG
SCIENCE
riG3ICULTU3AL
iXP z :
C^ c GCN
UN IV
STATE
i
S T i T I 0 N
a
4.
N I C K E S S 0 .-i
G
3
6.
6. STATUS
C0kV-,ll IS
TERMINATED
0 7 3 :> 1
C R E. G C N
PROGRESS
INVESTIGATOR NAME(S)
E
•
30. ESTIMATED TERMIN ATIONJ 84. PERIOD COVtIH-D (Mn., )r ,
OATE
30
FROM
JUN
THRU:
92
REPORT
The Hop Research Council continues to express interest in USDA 21181 and Miller Brewing
Co. is interested in USDA 21180, but to date no decisions regarding release of either
selection have been made. Commercial plots of the seven advanced triploid Hallertauerderived aroma selections were harvested. Yields were satisfactory but alpha acids
content was lower than in previous years.
new cultivar "Mt. Hood" in 1989.
Selection USDA 21455 will be released as the
Planting of large off-station plots of the two German
virusfree Tettnanger clones A and B was completed. About 150 additional female and 65
male triploid selections from the '85-Nursery were established in replicated plots.
Selections from the '-87 Nursery from diploid Tettnanger crossed to tetraploid aroma-type
males were harvested for the first time. Banner (USDA 21287) and Aquila (USDA 21222)
performed well in Oregon test plots and will be recommended for commercial production.
USDA 21373 was discontinued due to susceptibility to downy mildew. The low-alpha special
aroma hop USDA 21120 was established at a 4-acre commercial site. Additional crosses
involving diploid Tettnanger and Saazer Clone 72 and the two tetraploid aroma males
8309-26M and 8309-32M were made. 933 samples were analyzed for quality constituents.
Another 80 commercial aroma samples were analyzed by HPLC and GC techniques.
87. PUBLICATIONS
1. Haunold, A.
Hopfenzuechtung in USA.
1988.
Brauerei und Allg. Getr. Rundschau
98:195-196 (Abstract).. In German.
2. Haunold, A.
1988.
Hop Breeding in the United States, pp. 33-45.
Convention Monograph XIII.
Nue..rnharg.,_Fle_dL_Re-p
4.
In:
1988.
European Brew.
Verlag Hans Carl (Brauwelt Verlag),
.Qf_G_e.rmany_.___
3. Haunold, A., and G. B. Nickerson.
plasm.
L. Narziss (Ed).
—
Registration of USDA 19058M male hop germ
Crop Sci. 28:1036.
Nickerson, G. B., and R. Burkhardt.
1988.
Hop analysis check service.
46:138.
APPROVED (Signature)
Director
"-1 ^-nor'^r»T»l Qf^'fTfV?^
ASBC Journal
Information requested by Dr. Caniel A. Niffenegger, Ass't Area Director
USDA-ARS,
Albany, CA
94
94710
Jan. 13, 1988.
TECHNOLOGY TRANSFER ACTIVITIES IN FY 1987
FORAGE SEED AND CEREAL RESEARCH UNIT
CORVALLIS, OREGON 97331-7102
January 15, 1988
5358-05-00
A. Haunold, Research Geneticist - 5358-22000-001-00D
Development of hop cultivars with European aroma characteristics to reduce
imports.
Cooperating industries:
Hop Research Counci1
Anheuser Busch Companies
The Stroh Brewery Company
Miller Brewing Company
Adolph Coors Company
Hop Growers of America, Incorporated
Oregon Hop Commission
Five selections with acceptable yield, good quality and aroma characteristics,
and good disease resistance were planted in 3-acre commercial plots in Oregon,
Washington, and Idaho. They were harvested for the first time in 1987 and are
now awaiting plant-scale brewing trials and taste-panel evaluation. Two
additional selections were planted in 5-acre off-station plots in 1987.
Material initially developed from USDA germplasm and foreign introductions.
Lead Agency:
USDA, benefits and technology to be transferred upon public
release (if any) of new hop cultivars.
Benefits: Reduce imports of foreign aroma hops, which currently account for
about 15 million pounds (estimated value about $40 million U.S. dollars or
higher).
Meetings and progress reporting to industry groups during 1987:
January:
Hop Research Council meeting, San Diego, California.
U.S. Hop Convention, Hop Growers of America.
February:
Miller Brewing Company, Portland, Oregon.
March:
Oregon Hop Commission.
Idaho Hop Commission.
April,
Various telephone conferences with above-mentioned brewers and
May, and
grower organizations.
June:
American Society of Brewing Chemists.
July:
Oregon Hop Field Day.
August:
Summer meeting, Hop Research Council.
September: Telephone conferences with hop dealers and brewers concerning
experimental hops.
2
October:
Master Brewers Association.
Anheuser Busch Company.
Miller Brewing Company.
November:
Miller Brewing Company.
Adolph Coors Brewery Company.
Stroh Brewer Company.
December:
"Hop Research Council.
Hop .Growers of America, Incorporated.
R. E. Welt.y, Research Plant Pathologist - 5358-24000-002-00D
October:
Oregon Orchardgrass Commission, Albany, Oregon. Control of leaf
December:
Oregon Seed Growers League. Portland, Oregon. Disease control
diseases by properly timed applications of fungicides.
update.
January:
Professional Engineers Organization, Mid-Willamette Chapter,
Corvallis, Oregon. Design of a major research facility and_
implementation of a program to increase forage seed production in
the Northwest.
February:
Oregon Seed Industry Conference, Eugene, Oregon. Incidence and
control of the endophyte in seed of tall fescue.
Oregon State University, Plant Disease Short Course, Eugene,
Oregon. Leafspots, blights, and rust diseases of grasses grown
for seed.
April-
Linn-Benton County Farm Managers and Dealers, Albany, Oregon._
Control of three major leafspot diseases of orchardgrass by timely
applications of fungicides.
May
Oregon State University, Hyslop Field Laboratory, Corvallis.
June:
International Forage Seed Production Conference, Tune, Denmark.
Invited paper: Endophytes Associated with Tall Fescue and
Perennial Ryegrass. Their Detection in Seed Lots and Importance
Field research to control diseases of grasses grown for seed.
in Grasses.
Auqust-
American Phytopathological Society annual meeting, Cincinnati,
Ohio. Control of three leafspot diseases in orchardgrasss grown
for seed by fungicides.
Interest in endophyte fungi in tall fescue grasses was stimulated by the
discovery that these fungi are associated with "fescue toxicosis in cattle
qrazinq fungus-infected plants. The only known mode of spreading the fungus
is by sowing infected seed. Between 1983-1986, 1,086 lots of tall fescue seed
produced in Oregon were tested by seed stain, and 92% contained less than b%
of the seed infected with endophyte hyphae. These lots of seed represent 13.4
million kg of seed. During this period, certified production of tall fescue
95
seed increased from 5,590 ha (13,812 acres) in 1983 to 16,204 ha (40,043
acres) in 1987. Results are part of a voluntary program established by the
Oregon tall fescue seed industry and utilizes a detection method tested and
evaluated cooperatively by ARS, the Oregon Department of Agriculture, and
Oregon State Univesity.
James A. Kamm, Research Entomologist - 5358-24000-004-00D
December:
Oregon Seed Growers League, Eugene, Oregon. IPM practices to
reduce seed loss by Lygus bugs in red clover.
February:
Cascade Foothills Growers meeting, Shaw, Oregon.
Detection and
control of cranberry girdler in bentgrass and fine fescue.
March:
Union County Seed Growers, La Grande, Oregon. Speaker telephone
presentation: management alternatives in dealing with cutworm
population.
G. W. Mueller-Warrant -
5358-2400-006
May:
0SU Dept. Crop Science, Grass and Cereals Field Day Tour.
Topic: Weed control in grasses and legumes grown for seed.
June:
0SU Dept. Crop Science, Weed Science Group, Public Field Day
Tour. Topic: Weed control in grasses and legumes grown for
seed. Field tour of all field plots at Hyslop Field Laboratory.
October:
Oregon Society of Weed Science. Dinoseb alternatives:
control approaches in clover grown for seed.
December:
Oregon Seed Growers League.
Topic:
Weed
Search for alternatives to
atrazine and simazine in grasses grown for seed.
September:
Hoechst Roussel and Oregon Department of Agriculture.
Registration of fenoxaprop (Horizon lee) as a 24-C special localneeds label for use on ryegrass in Oregon. Conducted research
demonstrating efficacy of..this material, contacted company
marketing this product, and reviewed and revised their
registration label. Label # OR-870016 was approved by EPA in
December 1987.
G. M. Banowetz - 5358-22230-001-OOD
None.
E. J.
Tri one
5358-23000-002-OOD
None.
A. G. Berlage
5358-41440-001-00D
None.
D. B. Churchill' - 5858-40440-002-00D
None.
97
Agricultural Research Foundation
1987-88 ANNUAL REPORT FORM
ACCOUNT:
3618
PROJECT LEADER:
US Hop Research Council
Haunold
DEPARTMENT:
Crop Science
ACCOUNTING INFORMATION:
Beginning Balance (July 1, 1987)
S 2,088.48
24,500.00
Contributions (Check donor list below.) \Z"
(49.40)
Disbursements
Transfers (from one ARF account to another)
0.00
(1,225.00)
525,314.08
Bookkeeping
Ending Balance (June 30, 1988)
Contributions:
S24.500.00
Hop Research Council S OlC /fyj
INSTRUCTIONS:
1.
Limit your report to no more than 100 words.
2.
Describe the account highlighting accomplishments and explain how funds were spent. If no funds
3.
Reports are required for any account on the books for the 1987-88 Fiscal Year, including those
were spent, describe the purpose of the account.
accounts with low balances and no activity.
4.
5.
Return to: AGRICULTURAL RESEARCH FOUNDATION, Snell Hall 537, before September 16, 1988
If you have any questions, please call Dorothy Beaton (X3228).
DESCRIPTION OF PROJECT (Please type):
Five three-year old and two two-year old experimental Hallertauer triploid seedling
selections were harvested from commercial 3-acre plots.
One selection, USDA 21455
has been recommended for commercial release as a new hop cultivar.
The release
notice will be prepared in the near future.
Potential benefits:
The new yet to be named cultivar is similar to imported
European aroma hops. Potential new acreage of this hop in Oregon could be 1000 A
or higher with a farmgate value of 3-5 Million $ initially.
Use of funds: Pay salary of field technician, hourly help and purchasing supplies.
)
98
Agricultural Research Foundation
19S7-8S ANNUAL REPORT FORM
ACCOUNT:
3625
Oregon Hop Commission
PROJECT LEADER:
Haunold
DEPARTMENT:
Crop Science
ACCOUNTING INFORMATION:
S 2,492.12
14,000.00
(5,586.62)
(6,925.00)
(325.00)
$ 3,655.50
Beginning Balance (July 1, 19S7)
Contributions (Check donor list below.)
Disbursements
Transfers (from one ARF account to another)
Bookkeeping
Ending Balance (June 30, 1988)
Contributions:
S14,000.00
Oregon Hop Commission 5y/j;
f~~Y ob
Pit)
INSTRUCTIONS:
1.
Limit your report to no more than 100 words.
2.
Describe the account highlighting accomplishments and explain how funds were spent. If no funds
3.
Reports are required for any account on the books for the 19S7-88 Fiscal Year, including those
were spent, describe the purpose of the account.
accounts with low balances and no activity.
4.
5.
Return to: AGRICULTURAL RESEARCH FOUNDATION, Snell Hall 537, before September 16, 1988.
If you have any questions, please call Dorothy Beaton (X3228).
DESCRIPTION OF PROJECT (Please type):
Seven triploid Hallertauer seedling selections were harvested from commercial off-statioi
plots, but one, USDA 21491 ,had only minimal production since it was planted late
the previous year. The two virus-free German Tettnanger selections are now established
in 5-A plots, but had only minmal production this'year. One Hallertauer-type aroma
selection, USDA 21455, will be released as a commercial cultivar later this year.
Potential benefits: Tettnanger, an early maturing German aroma hops, would fit in
well with Oregon's hop production and harvesting scheme.
USDA 21455 has medium
maturity and should do very well in Oregon, adding at least another 1,000 acres to the
State's hop production capacity with an initial farmgate value o $ 3-5 million.
Use of funds: Field and greenhouse supplies, equipment repair and maintenance,
pay temporary hourly help.
)
99
Agricultural Research Foundation
19S7-S8 ANNUAL REPORT FORM
ACCOUNT:
3634
PROJECT LEADER:
Miller Brewing Company
Haunold
DEPARTMENT:
Crop Science
kpl. /r -m?
ACCOUNTING INFORMATION:
S 6,478.06
5,000.00
(636.25)
0.00
(250.00)
S10.59J.81
Beginning Balance (July 1, 1987)
Contributions (Check donor list below.)
v
Disbursements
Transfers (from one ARF account to another)
Bookkeeping
Ending Balance (June 30, 1988)
Contributions:
S 5,000.00
Miller Brewing Co. ]/" p{/_ — A^U~^
INSTRUCTIONS:
1.
Limit your report to no more than 100 words.
2.
Describe the account highlighting accomplishments and explain how funds were spent. If no funds
were spent, describe the purpose of the account.
3.
Reports are required for any account on the books for the 1987-88 Fiscal Year, including those
accounts with low balances and no activity.
4.
5.
Return to: AGRICULTURAL RESEARCH FOUNDATION, Snell Hall 537, before September 16, 1988.
If you have any questions, please call Dorothy Beaton (X3228).
DESCRIPTION OF PROJECT (Please type):
Commercial evaluation of USDA 21180 on a 1-A plot near Hubbard OR is being
continued. The zero-alpha/high bata hop selection USDA 21120 was increased by
soft-wood cuttings and established in a 4-acre commercial off-station plot near
Woodburn. Commercial bale samples of 4 triploid Hallertauer seedling selections
were sold to Miller Brewing Co for commercial evaluation.
Potential benefits: Good chance fo another commercial hop cultivar for use by Miller
Brewing Co, the second largest US brewer.
Use of funds:
)
Temporary hourly help, purchase of supplies, travel to meetings.
100
June
30, 1988; additional notes July 19,
To:
>
August 2, 1988
Members of the Hop Research Council, Growers, and Interested
I
Parties.
From:
Alfred Haunold, USDA-ARS, Research Geneticist, Corvallis, OR
97331.
Subject:
Preliminary observations of experimental hop selections
grown in Oregon off-station plots in 1988.
Banner (143-11, USDA 21287):
Angel,
4-acre plot. Annen Brothers Hop Ranch, Mount
Oregon.
Even stand, excellent growth, most plants are over the wire, arms
average from 20 to 36 inches; some plants are beginning to bloom. Leaf
color is light green, similar to the parent-variety Brewer's Gold. Some
plants have a slight yellow flecking on bottom leaves. Earlier in the
spring there was a bad outbreak of downy mildew, particularly basal spikes.
Plants have been hilled up; mildew apparently has been controlled with
Ridomil, and plants look clean and healthy. This plot, the first year on
the string, will probably yield between 7 to 8 bales per acre, perhaps
slightly more depending on the size of the cones.
USDA 21181:
Annen Brothers Hop Ranch. Mount Angel. Oregon.
This aroma hop, which has been tested for a number of years, is still
in the original 1-acre plot.
Plants have developed evenly, most are at the
wire, are arming out, but development is somewhat behind that of Banner.
Most arms are actively growing and are between 2 to 2h ft at the present
time. A few plants have started to bloom but flowering is at least 10 days
away, which should give ample time for additional arm development.
Yield
will probably be between 8 to 9 bales or better, depending on cone size.
The bottom shoots have been burned back with a chemical, probably Des-icate, but all plants are vigorous and healthy.
July 19: Most plants full bloom, very good set
USDA 21455:
Goschie Hop Ranch.
Silverton. Oregon.
The early development of this triploid Hallertauer selection is some
what behind that of most other hops in the area, in part because this plot-
has been pruned heavily in order to obtain additional planting stock. This
may have hurt the spring regrowth which was somewhat uneven. At this date
most plants are 15 ft or higher, and the general appearance is better than
it was about 3 weeks ago when it appeared quite irregular with some sleepers
just beginning to grow. All plants appear healthy, have started to arm out
but may be a little late in growth and development in order to produce
maximum yield. At this data yield is estimated to be between 6-7 bales/
acre. Two off-type plants have been identified and will be removed shortly.
No insect of mildew damage and no yellow flecking.
July 19: Most plants over the wire, starting to bloom--growth much improved.
Another 3-acre planting of USDA 21455 was established at a different
location of the same ranch. Spacing is 7h ft, plants are being trained on 3
ft stakes and are growing vigorously.
Aug. 2: Much improvement during past weeks. Most hops in full bloom, harvest will
be late (about Sept. 5). Yield estimate: 8-9 b/acre
101
The nursery for root propagation of USDA 21455 which was first .estab
lished last year looks excellent. The plants have been hilled up, are
growing vigorously and should produce ample numbers of rhizomes. An addi
tional nursery was established adjacent to the 1-year old nursery in 2-ft
spacing, about 8 ft between the rows, which will provide additional root
increase.
Tettnanger B, USDA 21497 (German clone No.
14):
Goschie Farm,
Silverton,
Oregon.
This 3-acre plot was started in Sept. 1987 and completed with softwood
cuttings in the spring of 1988. The stand is uneven, some plants are very
small, and others that were planted last fall are 10 ft up the wire. There
will only be a token sample available this year for brewer evaluation,
probably not more than 1-2 bales total. The following year, 1989, should
produce a good commercial crop. There are some missing hills in this plot
which will be replaced later this season, but generally growth has been
quite good and should improve substantially as the season progresses.
Aug.2:
Much improvement,but uneven growth: Plants have red stem with red stripes
USDA 21491:
Paul Serres Ranch. Woodburn, Oregon.
819 hi 1Is Strung ;total hl'lls:2093
This triploid Hallertauer seedling selection with higher alpha and
higher oil potential was established from a single nursery plant by softwood
propagation in late 1987 and completed in the spring of 1988. A total of 3
acres in one location and 2 acres at another location, both at the Serres
Ranch, will be available for commercial harvest in 1989.
In 1988, however,
the planting that was established in the fall of 1987 will produce some
cones, probably not more than 2-3 bales total. At this date growth is quite
irregular, some plants are 8-15 ft up the string and are arming out, others
are just beginning to grow as one would expect from baby plants that were
planted very late in the season. Plants that have armed out show substan
tial yield potential with the sidearms 3-5 ft long and 5-7 nodes on each
arm, which will probably also produce good-size laterals. If this pattern
holds for most plants in the test plot, I expect excellent yields in 1989.
The plants have not started flowering yet but will probably do so in early
to mid-July.
USDA 21458:
Paul Serres Farm. Woodburn.
Oregon.
This experimental triploid Hallertauer seedling selection is now in its
second mature year. Growth is very strong and very even, much better than
in 1987. Most plants are over the wire, are armed out very nicely (sidearms
3 ft or more and still growing), the leaves are dark in color, the stems are
reddish and very strong. Many plants (about 10% or more) have started to
grow straight up when they reached the top wire and then eventually fell
back in a pattern that suggests growing off or breaking away rather than
falling over and hanging across the top wire. This could be due to the
bullish growth nature of this hop associated with high fertility in this
piece of ground. Some of the main shoots have also started to fall away at
about 15 ft height, and then sidearms have started wrapping around the
string and are growing vigorously. Overall, this plot looks much better
than it did last year, and if cone development is as good as expected,
yields could be in excess of 10 bales. There is no indication of any downy
102
mildew or insect damage at this date. The plot has recently been suckered
and all plants are growing very vigorously. No indication of arm breakage.
July 19.
Arm breakage evident; ragged uneven growth
USDA 21459:
Stauffer Hop Ranch,
Hubbard.
Oregon.
Excellent and very even growth in this plot, which in 1987 was the best
of the initial five experimental triploids. This year the plot also looks
very good.
All plants are over the wire, show very nice overhang with good
sidearm development (2-4 ft long and 3-6 nodes on each sidearm). This hop
is not overly bullish (in contrast to the previous USDA 21458) and there is
no falling away or slipdown noticeable. All plants are still growing
vigorously and there is no sign of bloom yet. Yield potential is in excess
of 10 bales/acre. These plants have a green stem in contrast to some of the
other triploids from the same population, but the stems have a reddish hue
and a green ridge and green stripes. No insect or downy mildew damage at
this
time.
USDA 21457:
Robert Coleman,
Gervais.
Oregon.
Excellent even development of all plants in this plot which have a red
stem, particularly on the bottom portion of the plant. Most plants are
armed out very well, with sidearms 3-5 ft long and 5-7 nodes per arm and
secondary and tertiary laterals growing vigorously. Yield potential could
easily be 10 bales per acre or more if development continues as good as it
has until now.
All plants are healthy and no disease or insect problems
were noticeable.
Aug. 2.
Plant beginning to cone out-about 3k weeks from harvest. Top crop,lo b/A
Adjacent to this plot another 3-acre plot of 21457 has been planted in
1988 for stringing in 1989. There is complete stand but plants have not
been trained yet but will be put on 3-ft stakes later on. The plot needs
hand-hoeing but plants are developing very nicely. No disease or insect
problems.
Adjacent is the propagation nursery of 21457 which looks extremely
vigorous.
Rows have been recently hilled up with a hilling plow but need
some hand-hoeing and perhaps hand-hilling for maximum rhizome development.
Overall the development of the 2-year old plot is as good or better as
the 21459 at the Stauffer Ranch.
falling away.
None of the plants show any slipdown or
The development is very even, and the main shoots are easily
capable of supporting a 10-bale crop.
USDA 21456:
Don Weathers.
Salem.
Oregon.
Nice and even development of this 2-year old Hallertauer triploid
selection which looks quite similar to the previous 21457 at the Coleman
Ranch. Plants have a reddish stem, particularly on the bottom portion, show
nice even development, except for the three outside rows adjacent to the
road which show heptachlor damage. Sidearms are from 3-6 ft in length with
5-7 nodes and excellent development of secondary and tertiary laterals
similar to that of 21457 at Coleman's or perhaps slightly behind. Yield
potential at this stage appears to be 9-10 bales/acre.
Some plants have
started flowering but will probably not reach full flowering until the
second week of July. There are no disease or insect problems noticeable,
103
(there were some basal DM spikes in early spring) , no slipdown or gr.owingoff problems.
July 19: full bloom,some armst starting to cone out.Will mature early (about Aug.23-25
The nursery
(I was told that
tion) . The four
some fertilizer,
of 21456, adjacent to the 2-year plot consists of four rows
another new nursery was established at a different loca
rows here need weeding, hoeing and hand-hilling, and also
otherwise development will not be as good as expected for
maximum root production.
Aug.2.: Most cones about 1/3 developed, well hopped down, no top crop. Harvest^Aug.25
Tettnanger A (USDA 21496) (German clone No. 4):
Weathers Farm Salem,
Oregon..
This plot was established from softwood cuttings initially in late 1987
and completed in the spring of 1988. The older plantings show fairly good
stand but sluggish growth, perhaps slightly less vigorous than Tettnanger B
at the Goschie Ranch.
However, there are not enough older plants on the
string, and therefore I don't
from this plot in 1988. Most
planted in the spring of 1988
There is a significant number
expect more than 1-2 bales total production
of the plants of this nearly 4-acre plot were
but development is disappointingly slow.
of missing hills despite the fact that the
grower took very good care of the plot right after planting and moisture has
not been a problem. The later planting could have as much as 50% missing
hills, but the earlier planting is fairly good.
This planting will have to
be completed in the spring of 1989 from rhizomes obtained from hilled-up
plants that are on the string this season. The lower leaves of older plants
also show significant bronzing reminiscent of the "Fuggle bronzing". It is
not known whether this is associated with excess fertilizer or an insecti
cide.
Disyston is known to cause some leaf-burning (bronzing) when applied
to young plants.
.
Aug.2: About 1/3 of this 4 acre plot will be harvested; uneven growth;bines have
USDA 21490:
Weathers Hop Ranch. Salem. OR.
reddish hue, not as red as Tett.B
This is the second of the higher alpha, higher oil potential triploid
selections identified in 1987 and planted on a 5-acre plot in 1987. The
planting was completed in the spring of 1988 with rhizomes obtained from
hilled-up plants of the previous season. Plants have a green stem with a
reddish hue and red stripes. Development of the older planting (about 24
acres) is extremely nice and even. All plants are over the wire, are armed
out from 3 to 5 ft with 4-7 nodes per sidearm and very even arm development
all the way down. No disease or insect problems noticeable. Yield poten-
• tial will probably be 8-9 bales/acre, which is remarkable considering the
late planting of this plot in 1987. A few plants have started to bloom,
probably because they were trained fairly early after rhizomes had been
obtained for Idaho planting in March 1988, after which the hops could not be
held back and started to grow very vigorously in early April. At that time
it appeared that the growth was too early but now it has evened out very
nicely and the early training has not hurt the development of the plants. I
expect substantial production from this plot since 14 acres of the 5-acre
plot will produce an essentially mature crop with the adjacent 1-14 acres
perhaps 6-7 bales. The later planting, of course, will give lower yields.
There should be sufficient hops from the 1988 crop of this selection for all
brewers who want to test it in the coming brewing year.
Aug. 2:
Excellent cone set and well hopped down.
104
The commercial Willamettes in Oregon seem to be somewhat behind._in
development. There had been some problems with sleepers early in the season
but now most plants have started to grow, perhaps a bit late for obtaining
the yield potential that this variety is capable of. There are no disease
or insect problems that I noticed in the Willamette yards I visited, and
many plants have reached the top wire but none had started to bloom at this
date. Another two to three weeks of vegetative development could signifi
cantly improve the yield potential of Willamette in Oregon.
Aug.2. Most Willamettes much improved,arms continue to grow. Avg.to good yield potent
Nugget, as usual, started growing very vigorously in early spring and
looks very good at this time. Yields should be average or perhaps slightly
above the average of previous years.
The mature Perle in Oregon looks about as good this time of the year as
it always has. Plants have started to arm out (about 1-3 ft sidearms) but
despite the weaker appearance this hop has always produced above average
yields. Baby Perles look quite uneven, with some plants developed quite
well whereas others were sleepers and are now growing only about half up the
wire. Yields in these plots will probably be below expectations.
July 19, 1988
At a recent field trip I visited most of the previous plots. My
impressions and evaluation of the performance thus far has not changed
except that USDA 21455 (Goschie Farm) looks much better than three weeks
ago. It has armed out well and probably will have acceptable cone produc
tion, although not the full yield potential that I believe this selection is
capable of.
The other selections are in full bloom now and look very good except
for 21458 which shows some arm breakage and irregular growth.
Aquila (133-6.
USDA 21222)
This planting, approximately 4 acres at the J. I. Haas Mitoma Farm near
Independence, Oregon, is in its first production year (first year on the
string). Plants show excellent development in contrast to the previous year
when there was a severe weed problem and poor plant growth. All plants are
over the wire and in full bloom, sidearms 3-4 ft long with 3-5 nodes but
rather short secondary laterals and somewhat sparse cone set. This may be
due to a soil problem since adjacent Nuggets showed a similar side arm
development and below average bloom. Many arms had a single terminal cone
and the nodes prior to the terminal bud had only 3-5 flowers.
The plot has essentially full stand, plants have a reddish stem with
dark red stripes. Yield is estimated about 8 bales to the acre but could be
better depending on cone size. In good ground with adequate care this hop
is easily capable of producing 10 bales/acre. The hop seems to be at least
one week to ten days earlier in development than adjacent Nugget. It is
known from previous experiments, however, that Aquila would be a late
maturing hop in Oregon.
105
copies to: Elaine Annen
S.T.
G.B.
C.B.
Date:
October 7, 1988
To:
Members, Oregon Hop Commission
From:
Al Haunold, USDA-ARS, Corvallis, Oregon
Subject:
Verticillium Wilt in Hops
Likens
Nickerson
Skotland
I talked to Dr. Cal Skotland, plant pathologist, Prosser, Washington,
on Thursday, October 6. Dr. Skotland has had extensive experience with hop
diseases and particularly with Verticillium and Downy Mildew. He noticed
increased incidence of Verticillium Wilt in Washington Willamette plantings
in 1988 but thinks that this may be an isolated case which is not likely to
be repeated in subsequent years.
Past History: Dr. Skotland examined a 6-year old Willamette yard (John
Segal Ranch) in 1988 and previous years. He found occasional Verticillium
infection that fluctuated from year to year. In 1988 more plants were
infected than the previous year.
Last year he marked infected hills (36
hills total) and of these only one hill showed wilt infection this year,
while other previously clean hills showed symptoms.
Examples:
Row 1, 1977:
one hill infected;
Row 2, 1977:
five hills infected;
1988: 12 hills.
1988:
20 hills.
Other hop varieties:
Aquila, Banner.
Skotland found Verticillium Wilt
in these varieties.
In contrast to Willamette, plants were dying in these
plots. Verticillium isolated was Verticillium dahliae.
Willamette variety: The situation is always worse by presence of
heptachlor which growers often do not realize. For example, soil was
analyzed, no heptachlor was found.
However, Willamette plants picked up and
concentrated heptachlor, which made Verticillium symptoms worse.
One Willamette yard, in 1988: Plants were stressed due to lack of
moisture and poor management. Skotland found basal swelling, vascular
browning and increased Verticillium symptoms.
Summary
Dr. Skotland does not expect a similar Verticillium situation to occur
again next year. Plants that were infected in 1988 are probably not showing
symptoms the following year. He also found isolated plants of Hallertauer
triploid experimentals infected with Verticillium Wilt in 1987 but none this
year.
Dr. Skotland is not optimistic about Benomyl. First of all, we have no
residue data and the compound is not legal to use as a soil drench. When it
was used in cherries, results were variable. Therefore, it may not stop the
wilt if used in hops even if it were legal.
At this stage we should monitor the situation but there is no reason
for alarm.
page <•
Friday, Oct.
7, 1988:
Verticillium meeting at Oregon State University
A number of Oregon growers (Jeff Butch, Don and Carl Weathers, Mike
Kerr,
Davidsons, and perhaps others) had increased incidence of Verticillium
Wilt in their 1988 Willamette hops. Gale Gingrich, county agent, Marion
County, arranged a meeting between two OSU plant pathologist (Drs. Paul
Koepsell and Mary Powelson), Al Haunold, and three growers (Mike Kerr, Doug
Weathers and Patrick Leavy) in the OSU Botany Department. We discussed the
general situation, what to do about Verticillium Wilt and how to plan for
the future.
Dr. Mary Powelson has worked with Verticillium in potatoes and mint for
a number of years.
She stated from her experience that Verticillium fre
quently is a follow-up disease after plants had been stressed (lack of
nutrients, lack of water, hot weather, poor management).
Nematodes predis
pose plants to Verticillium Wilt. Therefore, control of nematodes would be
advisable.
Questions were raised concerning Difonate (for control of symphylans).
Will Difonate control nematodes? The answer was: probably not. Also,
Difonate is not registered for use in hops.
Mocap (a nematicide) is used on peppermint to control nematodes and
indirectly also wilt.
Questions concerning nutrient levels: Usually the nitrogen level in
hops is very high. Growers apply 200 lbs. N/acre or more. The phosphorus
and potassium levels usually are very high, and it is unlikely that hop
plants get stressed for major nutrients.
The major Verticillium species in Oregon is Verticillium dahliae. In
mint it is controlled with fumigation prior to planting.
In alfalfa we
often find Verticillium alboatrum (frequently does not survive adverse
environmental conditions and Oregon winters). For fumigation, Telone (DD,
Vidden-D) is used (28 gallons per acre) but it is probably more useful to
control nematodes since the dosage would be too low to be fungicidal.
However, Verticillium in mint can be controlled this way.
In pistachios, solarization is a farming practice. Use black plastic to
raise the temperature around the tree in the top 6-10 inches of soil (up to
60°C).
This reduces wilt.
The use of Mocap plots to experiment with nematode control it not
advisable at this time until we now which nematode species are present.
Mocap in hops has been tested against root-weevils in Idaho (see 1985 HRC
Report, p. 48). Therefore, first check and make a survey for nematodes,
identify species, then perhaps develop a plan of action. Nematodes move up
and down with the soil moisture and do not stay in one spot. The lesion
nematode (makes a visible lesion on the roots of some plants) is probably a
major species in Oregon according to Dr. Paul Koepsell.
Growers talked about surveying Oregon hop acreage in 1989, which should
be done shortly before harvest since Verticillium Wilt symptoms are most
noticeable in August.
Perhaps growers could then mark suspected hills and
106
page 3
take soil and root samples to verify the presence of Verticillium.
soil samples could be taken to monitor the presence of nematodes.
Also,
Growers felt that the situation, with exception of the few yards with
severe symptoms in 1988 , is not critical, but they would like to stay on
top and be prepared for action if something should develop in the future.
Growers with Verticillium infected plants in their yards may have to
modify some of their practices, particularly disposal of hop waste after
picking. If you suspect Verticillium infected plants in your yards, do not
put the hop waste back onto hop fields. This would be an ideal way to
spread the fungus. Verticillium dahliae forms microsclerotia and conidia.
These structures assure the rapid propagation of the fungus. Conidia do not
live very long but microsclerotia stay in the soil several years.
They
develop in a few days from mycelium in the stems when the fungus is stressed
by drying of chopped vines after picking and, therefore, spread the disease
from one yard to the next.
You may have to put the hop waste in a compost pile and let them heat
and sit for a year before putting it out into the field, preferably not a
hop yard. You could steam-sterilize the hop waste (similar to what mint
growers do with mint tubs) or you simply bring them out to wheat land or
other fields that are not in hops or not intended to be in hops in the near
future.
If you have an occasional wilt-infected plant, you may kill it with
Telone (1 cup Telone plus 1 cup Diesel - well mixed - pour in the middle of
the hill). Next spring the crown and the fungBs will be dead and you can
replant the hill.
107
108
ASESORIAS
INDUSTRIALES Y
ALVARO
IRECUI
AGR1COLAS LTD.
BORDA
Bogota,
Doctor
Alfred
May
10,
1988
Haunold
Departinent of Crop Science
Oregon State University
Corvallis, Oregon 97331
U.
S.
Dear
A.
doctor
Haunold:
tfith this letter we are sending- you a report of the pre
sent conditions of hop varieties that you and doctor Kenny sent
us during the past months. The sanitary conditions have been very
good all the time.
ties,
Comparing their behavior with the local varie
Fuggle and Cascade,
they started very well,
specially Willa-
matte and Nugget. The supervision of sanitary government din't
found any problem.
tfe will send you regular reports about the varieties
that you kindly sent us. Any comment from you would be helpfull.
Best regards,
HOP RESEARCH GROUP,
BAVARIA S.A
Alvaro Iregui Borda
Coordinator
AVENIDA 82 NO.
12-29 .
OFICINA 202 - TELEFONO 257 39 94 . APARTADO AEREO 90323 - BOGOTA, D.
E. - COLOMBIA
109
/^>\ United States
\M Department of
yj Agriculture
Agricultural
Northwest Area
Research
Service
Ing. Alvaro Iregui Borda
~ nce
CT
DEPT. Qr
OREGCfl
C\' "
CCS'-/ALL~i
'
-I..-.
*
'
>^ :
iv^r-siT^
ohec-:: . i 9733
July 6, 1
Coordinator, Hop Research Group
Bavaria S.A.
Avenida 82 No. 12-29
Apartado Aereo 90323 Bogota D.E. Colombia
Dear Ing. Iregui Borda,
Thank you very much for your letter of May 10, 1988 and the information
about the performance of certain American hop varieties at La Isla,Ca:iarca,
Judging from the plant height in early May,
to be doing very well. I would not get too
lack of rapid growth of the other varietes.
transplanting to the field, hops will first
Willamette and Nugget seem
concerned about the apparent
Quite frequently following
develop a good rootsystem
and in the second year the growth will be vigorous and much more
representative.
You should hand harvest cone samples and have them
analyzed in your laboroatory. Perhaps, you could sample cones during
the period of maturity (from very early to over-mature) to better
judge the proper development of the hop acids under your conditions and
also to properly judge the time for commercial harvest lateron. This
might be valuable for future years when you attempt commercial production.
I enclose a summary of the 1987 and 1988 US hop acreage that might be
of interest to you.
For your future endeavors with hop cultivation I wish you all the best.
Please do not hesitate to contact me again if you need advice or assistance.
Sincerely yours,
Dr. Alfred Haunold
Research Geneticist
Rate
in pot plant,
N?
greenhouse
planting
report
(2) Without elongation
USDA
Nugget
2.50
2.6o
1.97
(')
l .83
idem
(D
1.
Apr. 5/8
re-sprouting
6
Good/reg.
23/8
1^/7
Regular
Jan.
Die.
Corvallis
USDA
Perle
HOP NEW VARIETIES
2.1.0
1 .1.8
(1)
idem
6
Apr. 5/8
9 all Feb. 6 all Fe. 13 all
Apr. 5/8
Feb.
Good
Jan. 23/8 Jan. 23/8
Die. 12/7 Die. lV7
Corvallis Corvallis
USDA
tfillamaite
(1) Late trasplanting due to climate conditions
maximum
Plant height at May 8, mean in meters
Growth
survive
Field planting
Sprouting date
Ryzomes
Date farm received and
agronomist,
Colombia
FARM
Ramiro Palacios,
Date sending
Source
FROM:
Calarcci,
EXPERIMENTAL
'La Isla",
HOP
-
5
5
Mar. 25/8
Prosser
USDA
Tal i Man
1.60
0.77
Norma 1
10
Apr. 15/8
3 to 9 days
Good
0.50
0.36
Normal
6
Apr. 15/8
9 days all
Very good
poor
5
5
Mar. 25/8
Prosser
USDA
Olympic
'
2. 20
0.81
Normal
9
0 .'to
0.26
Without (2)
5
Apr. 15/8 Apr. 15/8
0.1.0
0.25
iden
2
Apr.15/8
15 days
regular
5
5
Mar. 25/8
Prosser
USDA
Gal ena
Colombia
[JAVARIA S.A.
3 to 9 d ays 8 to 22 days
Very good
1269
5
Mar 25/e
Prosser
USDA
Chinook
FIRST REPORT
Mar. 25/8
i'rosser
USDA
Yak. Clus.
1988
Bogota D.E.,
HOP RESEARCH GROUP,
I
j
^Aj^X)^\aX^
Agricultural Research Service
Research Management Information System
ARS CRIS Project System
11/04/87
Executive Summary Sheet
for oontractt No.
58-9AHZ-3-742
for CWU 5358-22000-001-01S
Accession Number 0048427
MODE Code 5358-05-00
Specific Cooperative Agreement
Award date 23/09/83
DEVELOPMENT AND CULTURE OF HIGH QUALITY HOPS
PROSSER
WASHINGTON
Project Status: ACTIVE
23/09/83 4p 30/04/88
Current Official Funding Levels:
Net to Location (including indirect):
*****
Official Strategic Plan Codes
FY"88
(
0)
Total All FY's
(-
273,719)
*****
2.2.04.1.n 100 %
Why Project was Initiated:
Extramural Research best alternat lve
Comments:
550A #00947 approved (FY 87 oblig. & extension to 30 APR 88)
Fid 19 corrected to 87 funds obligated.
Formerly CWU 5090-20013-OlOS & 5709-20010-006-OlS.
Last Modified
7/31/87 by Salvin, Agnes
t******OFFICIAL PROJECT*******
USDA
Date Modified: 7/31/87
RES. Work Unit/Project Desc.-Res. Resume
]
1. Ace:
2-4 Agcy ID:
5. Wk Unit/Prog:
0048427
ARS
5358-0500
5358-22000-001-01S
H2
6.
S tatus:
A= ACTIVE
7. Title: DEVELOPMENT AND CULTURE OF HIGH QUALITY HOPS
8. Performing Organization: 8537 1107 Responsible Organization: 0358 6556
IRRIGATED AGR RES &
EXT CENTER
PACIFIC WEST
AREA OFFICE
WASHINGTON STATE UNIVERSITY
City
State/County/Zip
PROSSER
AGRICULTURAL RESEARCH SERVICE
Cong. Dst
WASHINGTON 99350 04
City
State
ALBANY
Zip
CALIFORNIA
94710
12. Investigator(s)
HAUNOLD
FAULKNER
A
L
16: Research Location on campus:
R
B= NO
Project Type
17-1:
C=
COOP-AGMT
17-2:
21.
Facilities:
22.
Regional Project No.
18-4:
58-9AHZ-3-742
19-1:
0071775 19-2:
0.4
20:
87
C= COMBINED
A:
B:
C:
D:
24.
A= SAES
OBJECTIVES
Develop improved hop lines, develop improved production practices, and test
hop varieties and selections for adaption to irrigated hop producing areas.
25.
APPROACH
Identify, select and develop new hop experimental lines for segregating
progenies with improved genetic and agronomic characteristics. Identify
hereditary characters, resistance to diseases and insects in cooperation
with a geneticist, plant pathologist and entomologist. Evaluate commercial
potential of domestic and foreign varieties and advanced selections for
agronomic and cultural adaptability and production in the irrigated Pacific
Northwest. (This is a continuation of research conducted under General C/A
No. 58-9AHZ-1-550, Washington State University, to terminate 30 SEP 83, CWU
5702-20010-003A,
27.
Access.#0046434).
KEYWORDS
CULTURAL-PRACTICES
PLANT-GROWTH HOP-GENOTYPES PLANT-INTRODUCTIONS
PRODUCTION-PRACTICES CROP-YIELDS STORAGE-STABILITY RESIN-CONTENT
CROP-QUALITY DISEASE-INSECT-RESISTANCE AROMA-PROPERTIES VARIETIES
Approved
Recommended
Signature
Title
Date
Signature
Concurred
Title
BROOKS
28 Award Date:(DMY) 29 Start Date:(DMY) 30 T^rmiBa^ion:(DMY)
230983
230983
'^300488_JZ>
********** Official Strategic Plan Cosies **
2.2.04.1.n 100 %
Duration:
044
Date
USDA
| 7/31/8 7
H3
Res. Work Unit/Project Description - Classification of Research |
1. Ace No:
2-4 ID No:
5. WK Unit/Proj No:
\1. Hatch Marketing
0048427
ARS
5358-0500
32: Basic R.es:
5358-22000-001-01S
33: Applied Res:
020%
34: Development Effort:
080%
Classification by Activity,
Activity (2)
000%
Commodity , Science,
Commodity (4)
Science (6)
and Research Problem Area
Research
Problem Area
Code
Product of
(2)x(4)x(6)
%
Code
%
Code
%
36: 4900
40
2800
100
0212
100
405
40
37:
4500
10
2800
100
0212
100
207
10
38:
4600
10
2800
100
0212
100
208
10
39:
5000
40
2800
100
0212
100
307
40
Code
40:
41:
42:
43:
44:
45:
Special Classification
Code
Description
A4910 GERMPLSM,COL,MAINT,DIST
A4940 REPROD,GROWTH,DEVELOPMENT
A4564 INSECT/HOST INTERACTIONS
%
010
020
100
PST2
020
Cooperators
%
020
C2831 HOPS
79:
Description
020
A4615 BREED DISEASE RESIST PLNT
A5011 IMPR BREEDS & VARIET
A5019 OTHER PERFORM IMPROVM
NONPESTICIDAL CONTROL
Co de
010
020
•••
|Cooperating Departments within State
j
Performing Institution
D= STATE
83: Reporting Department
80
0200 AGRONOMY & SOILS
81
82
0200 AGRONOMY & SOILS
114
Washington
State University
Office of the Controller, Grant and Contract Finance Office
Pullman, Washington
99164-1025 / 509-335-2011
July 22, 1988
M
f
e
Dr. Alfred Haunold
USDA-ARS Western Region
Horticultural Crops Research Lab
3420 SW Orchard Avenue
Corvallis, OR
RE:
97330
Grant/Contract No.:
WSU Account Number:
Invoice Number:
Amount:
Dear Dr. Haunold:
Enclosed are the final voucher and closing documents for the above referenced
grant/contract.
Should you require additional information, please feel free to contact Linda
Boyle at (509) 335-2011, for assistance.
Sincerely,
Vincent Hutnak
Finance Officer-Sponsored Programs
VH/gva
Enclosures
I hereby certify that no equipment was purchased on Grant/Contract No.
58-9AHZ-3-742
, WSU Coding
11D-3319-5416
July 23, 1988
Date
Vincent Hutnak
Finance Officer-Sponsored Programs
•
115
CONTRACTOR'S RELEASE
Pursuant to the terms of Contract No. 58-9AHZ-3-742
3um 0f $ 273,719.00
to
and in consideration of the
which has been or is to be paid under the said contract
Washington State University. RM 240.
French AriTm'nisrraripn Bldg.,
ATTN:
Tnan Vinnt
Pullman, WA 99164-(Con tra c tor ' s Name and Address) 1025
(hereinafter called the Contractor) or its assignees, if any, the Contractor, upon
payment of the said sum by the UNITED STATES OF AMERICA (hereinafter called the
Government), does remise, release, and discharge the Government, its officers, agents,
and employees, of and from all liabilities, obligations, claims, and demands what
soever under or arising from the said contract, except:
I.
Specified claims in stated amounts or in estimated amounts where the
amounts are not susceptible of exact statement by the Contractor as follows:
2.
Claims, together with reasonable expenses incidental thereto, based upon
the liabilities of the Contractor to third parties arising out of the performance .
of the said contract, which are not known to the Contractor on the date of execu
tion of this release and of which the Contractor gives notice in writing to the
Contracting Officer within the period specified in the said contract.
3.
Claims for reimbursement of costs (other than expenses of the Contractor
by reason of his indemnification of the Government against patent liability),
including reasonable expenses incidental thereto, incurred by the Contractor under
the provisions of the said contract relating to patents.
The Contractor agrees, in connection with patent and copyright matters and with
claims which are not released as set forth above, that he will comply with all of
the provisions of the said contract, including without limitation those provisions
relating to notification to the Contracting Officer and relating to the defense or
prosecution of Litigation.
IN WITNESS WHEREOF, this release has been executed this
July
, 19 88 .
day of
Twenty-second
Washington State University
(Contractor)
WITNESSED:
TITLE
BY:
Vincent Hutnak
Finance Officer/Sponsored Programs
(NOTE:
In the case of a corporation witnesses are not required, but the
following certificate must be completed.)
CERTIFICATE
, certify that I am the
I,
(Official Title)
and
of
who
that
signed the above relase on behalf of
was
then
the
of said institution; that said release was duly
(Official Title)
signed for and in behalf of said Institution by authority of its governing body and
is within the scope of its institutional powers.
CORPORATE
SEAT,
Ill
CONTRACTOR'S ASSIGNMENT OF REFUNDS,
REBATES,
CREDITS , AND OTHER AMOUNTS
Pursuant to the terms of Contract No. 58-9AHZ-3-742
•_
and in cons ide ra-t ion of the
reimbursement of costs and payment of fee, if any, as provided in the said contract
and any assignment thereunder, the Washington State University, Rm 240. French Adminlstr'
Building, ATTN: Joan Root, Pullman, (Contractor's Name and Address) WA
(hereinafter called the Contractor) does hereby:
99164-1025
1. Assign, transfer, set over and release to the UNITED STATES OF AMERICA
(hereinafter called the Government), all right, title, and interest to all refunds,
rebates, credits, and other amounts (including any interest thereon), arising out
of the performance of the said contract, together with all the rights of action
accrued or which may hereafter accrue thereunder.
2. Agree to take whatever action may be necessary to effect prompt collection
of all refunds, rebates, credits, and other amounts (including any interest thereon)
due or which may become due, and to promptly forward to the Contracting Officer
checks (made payable to the Treasurer of the United States) for any proceeds so
collected. The reasonable costs of any such action to effect collection shall con
stitute allowable costs when approved by the Contracting Officer as stated in the
said contract and may be applied to reduce any amounts otherwise payable to the
Government under the terms hereof.
3.
Agree to cooperate fully with the Government a3 to any claim or suit in
connection with refunds, rebates, credits, or other amounts due (including any
interest thereon); to execute any protest, pleading application, power of attorney,
or other papers in connection therewith; and to permit the Government to represent
him at any hearing, trial, or other proceeding, arising out of such claim or suit.
IN WITNESS WHEREOF,, this assignment has been executed this Twenty-Second
July
day of
19 88 .
" Washington State University
(Contractor)
WITNESSED:
BY
;
TITLE
Vincent
.
(NOTE:
Hutnak
Finance Officer-Sponsored Programs
In the case of a corporation witnesses are not required,
but the following certificate mutt be completed.)
CERTIFICATE
I,
, certify that I am the
.
(Official Title)
of
and that
who
signed the above release on behalf of
•
was then the
of said institution; that said release was duly
(Official Title)
signed for and in behalf of said institution by authority of its governing body and
is within the scope of its institutional powers.
CORPORATE. SEAL
(Signature)
Total outlays this report period
Lest: Program Income credits
Net outlays this report period
(Line b minus line c)
Net outlays to date
(Line a plus line d)
Less: Non-Federal share of outlays
Total Federal share of outlays
(Line e minus line ()
Total unliquidated obligations
Less: Non-Federal share of unliquidated
b.
c
d.
e.
f.
g.
h.
I.
-K/A
N/A
-
AKS
(b)
09/23/83
(O
N/A
d. TOTAL AMOUNT
«.
KL&
eomptia
FEDERAL SHARE
1 1TV-3319-541ft
documents.
are for the purposes set forth in the award
that all outlays and unliquidated obligations \
I certify to the best of my knowledge and be
lief that this report is correct and complete and
13. CERTIFICATION
(d)
04/30/88
TO (WontA. Jay, y«ar)
STATUS OF FUNDS
58-9AHZ-3-742
(!)
TO
^
Accounting Supervisor I
Linda Boyle,
7.
1
Of
PACES
(s)
TOTAL
-0REPORT
(509)
335-2011
TELEPHONE (Area code,
number and extension)
July 21. 198S
SUBMITTED
DATE
273,719.00
273,719.00
-0-
-0-
273,719.00
273,719.00
117,349.57
117,849.57
$ 155,869.43
04/30/88
{Month, day. war)
[^J CASH Q ACCRUAL
BASIS
PAGE
CU. No. A-l 10
Pre»cnb*d by Offic« of Management • nd Budga!
STANDARD FORM 269 (7-76)
TYPED OR PRINTED NAME ANDyTlTLE
SIGNATURE OF AUTHORIZED CERTIFYING
OFFICIAL
^//
(')
10/01/86
FROM (Afo.a. do*. v*t)
&. FINAL REPORT
No. 80-RO180
0MB Approved
1J.D-JJ1. *-:><* io
PERIOD COVERED By THIS REPORT
5. RECIPIENT ACCOUNT NUMBER OR IDENTIFYING NUMBER
PROJECT/CRANT PERIOD (S,. ,.,lnuli...
FROM 1«»>I», 4iy, nirl
. 91-6001108
Q PROVISIONAL fj PREDETERMINED fj FINAL Q FIXED
-0-
.?7T,7iq.nn
?7T,7iq.nn
-n-
-Q-.
-0-
?7T,7iq.no
771.719.fin
117rK4q.S7
-0-
117.84S.57
* ISS.Rfiq.4?
(*)
TTST1A
«. EMPLOYER IDENTIFICATION NUMBER
NUMBER
1. FE0ERAL AGENCY AND ORGANIZATIONAL ELEMENT TO WHICH REPORT IS SUBMITTED ]Z. FEDERAL CRANT OR OTHER IDENTIFYING
1Z- "",*"??(.lisst:;' "*"**'"'• ««-•••< "«<•"'»".-»,«—«.. ,„..-,., »„ ,•«,„„ „W»«n«( AOtn.ew in
EXPENSE
(Place "X" in appropriate box)
«. TYPE OF RATE
Unobligated balance of Federal funds
authorized
Total cumulative amount of Federal funds
INDIRECT
ii.
m.
I.
Total Federal share of outlays and
k.
unliquidated obligations
Federal share of unliquidated obligations
).
obligations shown on line h
Net outlays previously reported
PROGRAMS/FUNCTIONS/ACTIVITIES
a.
10.
99164-1025
Joan Root
Pullman, WA
ATTN:
Washington State University
Rm 240, French Administration Building
3. RECIPIENT ORGANIZATION (N«m« «.uf u.flili «<Ure.#. inditing ZIP codt)
(Follow instructions on the back)
FINANCIAL STATUS REPORT
118
United States
fsi Department of
Agriculture
Agricultural
Pacific West Area
Research
National Forage Seed Production
Research Center
3450 S. W. Campus Way
Oregon State University
Service
Corvallis, Oregon 97331-7102
503 757-4824; FTS: 420-4824
April 6, 1988
SUBJECT:
TO:
Time Extension on Cooperative Agreement 58-9AHZ-3-742
Jack Nelson
Area Procurement Officer, USDA ARS
800 Buchanan Street
Albany, California
94710
FROM: Ronald E. Welty, Research Leader
Our Specific Cooperative Agreement, 58-9AHZ-3-742 with Washington State
University, Prosser, titled Development and Culture of High-Quality Hops,
expires April 30, 1988. Please extend this Agreement through September
28,1988.
cc:
A.
Haunold
119
fW^ lij/t^^K£?r£^w
TYPCOF FICStAHCM ACMCEMtNT
UNITCO STATCS OrrAHTMCMT O f Af.niCUl,TU»lC
SPECIFIC COOPERATIVE AGREEMENT
RESEARCH AGREEMENT
ACKECMCiir
aGCMCV (Name and otidrtu)
AGRICULTURAL RESEARCH SERVICE
Buchanan
May 1,
Street
Albany, CA 94710
S 7 1,345.
a-sM/A
/\U TMOfl IT Y
WA
USC 3318
>
Amount
8015358136
IMAfiCG Office [Complete mailing addrtu)
Accounting Operations Section
NFC-ARS
P.
Extension Center
Box 30
WA
7
O D L I C A r i O N DISTRIBUTION
Accounling Cod*
Lindsey R. Faulknar
Irrigated Agriculture Research and
Prosser,
1993
cms mo.
5358-22000-001-02S
fHtNCirAU INVCSTICATOII (Name and addrtL*)
0.
.,„ April 30,
CMArtce in k c l m a l o u u c a i i o i
Washington State University
Agricultural Experiment Station
P.
1988
FtUCIIAL OULICaTIOM
rclifOHMiHC onCANHATION (Nome and oddrru)
Pullman,
( Mew'),//f^i'f,///f;<"
•C'MOO O f ACIICKMEmT
PACIFIC WEST AREA
800
t v p c o r ACTIOr-
mo.
58-91H2-8-136
0.
Box- 53326
New Orleans, LA 70153
99350
title or project
A U T H O H I I E O O E f A H T M E N T A L O F F I C E I t ^ DCSICIIATED
FlEPMESEMTATIve (Name and oddrru)
Dev'elopment and culture of high quality hops.
Alfred
Haunold
Forage Seed and Cereal Research Unit
3420
SW Orchard Avenue
Corvallis, OR 97730
This Agreement include* the following:
BASIS FOR AWARD
0 Statement of Work; or
f~~l Project Summary;or
1 I Proposal;ond
K3 General Provisions
Q7CFR 3015. SubiMM U(by reference)
JjJrORM ARS-45I
I I SpecialProvisions
£3 Submit-
^Technical Reports.
•
• Fiscal Reports,
Oiher (Specify) :
Aulhori„d DepJ„m<:nu| Officer's
'• Designated Representative
FOR THE UNITED STATES DEPARTMENT OF AGRICULTURE
AUTHORUED DErAHTMEHTAL OFflCEO
TYPED NAME
JACK C
s^p. (]
(Signature ofperton authorized by the governing body ofthe performing organization toIncur contractual obligation!.)
. (SICnaTUNC
TYPED MAMG AND TITLE
U»
W,m i!liri3.'.K
usance mmn?muim pr^rams
rVPCO MAM£ A N O
Fo.mAns.-Sl
JUN 2 9 1988
FOR THE PERFORMING ORGANIZATION
I \Y\ \
/
NELSON
(</8$)
TITLE
JUL
1 3 198f
120
d a t e of transmittal
Transmittal of Documents
July 18, 1988
TO:
FROM land return receipt to):
SEE DISTRIBUTION LIFT
Jack C.
Nelson
Pacific West Area Office
Albany, Ca
PERFORMING ORGANIZATION
TYPE OF DOCUMENT
Washington State University
NUMBER ASSIGNED
58-91H2-8-136
1. •
, ir-^.
<=^
r
Specific Cooperative.Agreement
DATE OF
CRIS NUMBER
S3 Award
•
File
•
WRU
NUMBER
Issue
5358-22000-001-02S
June 29, 1988
8015358136
Forwarded for execution. Return signed document to this office.
ZD Forwarded for a^pro^pnorto execution. Indicate approval by signing below and return to this office.
3. KX Document enclosed is for your files.
7/^-0
4. D Forwarded for appropriate action:
5. •
Document has been reviewed and recommended changes are noted thereon. Please resubmit.
6. D Acknowledge receipt of these documents by signing below and return transmittal copy.'
7. •
Funds under this document will be charged to:
8. •
OTHER:
REMARKS
Distribute as follows:
Accounting Operations Section, NFC-ARS, New Orleans, LA
,A. Haunold, ADODR, Corvallis, OR
K. Kowalczyk, Corvallis, OR
P. Ferry, Albany
L. Rolle, Albany
Information Staff, Albany
Transmitted By —
•
Approved
•
Receipt Acknowledged
TITLE
Contract Specialist
JDATE
Julv
SIGNATURE
18.1QPP
Id/
121
THIS COOPERATIVE AGREEMENT is made and entered into by Washington State
University, hereafter referred to as the Cooperator, and the United States
Department of Agriculture, hereinafter referred to as ARS.
WHEREAS, the Cooperator and .ARS are currently conducting research studies to
develop hop genotypes and varieties for adaptability, disease resistance, quality,
yield, and other desirable characteristics; and
WHEREAS, the Cooperator and ARS desire to expand the research studies to evaluate
the cultural and management practices to improve hop production and quality; and
WHEREAS, the research investigation to be conducted under this agreement will be
coopeatively planned and carried out between the parties; and
WHEREAS, it is the intention of the parties to this cooperative agreement that
such research investigations shall be for their mutual benefit and for the benefit
of the people of the United States;
NOT, THEREFORE, for and in consideration of the promises and mutual covenants
herein contained, and other good and valuable considerations, the parties mutually
agree as follows:
A.
The Cooperator Agrees:
1.
To conduct at Prosser, Washington, research studies involving hops as
follows:
a.
Identify, select and develop experimental lines from segregating
progenies with improved genetic potential; i.e., increased yield,
disease resistance, ease of cultivation and harvesting, good
storage stability, and high resin content with good aroma
properties.
b.
Isolate and compare isoenzymes of hops to identify characteristics
in varieties in crossing experiments.
c.
Identify resistance or tolerance to important plant diseases,
insects and mites affecting hops, emphasizing evaluation of
progeny for resistance to the two-spotted spider mite.
d.
Evaluate commercial potential of European hop varieties in
seedless hop-growing areas and evaluate new cultural techniques
and practices in hop production in the Columbia Basin.
To provide the necessary personnel to conduct the research
investigation, travel of the Cooperator's employees engaged in the
project, and furnish the necessary facilities, equipment, and supplies
as mutually agreed upon.
122
To maintain current records of the investigations and provide
letter-type quarterly reports (4 copies), and such other reports as may
be mutually agreed upon, of the progress of the work to the Authorized
Departmental Officer's Designated Representative (ADODR), including a
final report (5 copies) setting forth in detail all work acccmpplished
and results obtained. Upon receipt of these reports, copies will be
sent to the following by the ADODR, Dr, Alfred Haunold:
Quarterly letter reports:
Authorized Departmental Officer
Area Director
Final report:
Authorized Departmental Officer
Area Director
National Agricultural Library
4.
To provide an annual patent disclosure statement.
ARS Agrees:
1.
To provide the services of ARS Representative to maintain close liaison
with the Cooperator through frequent visits and other means to review
and evaluate the research progress and to assist in the planning and
coordination of the research to be undertaken.
2.
To provide necessary laboratory space and any other necessary
facilities for the conduct of the research investigations.
3.
To make available to the project, personnel and specialized equipment
as required and not provided for under paragraph A.2 above, as may be
mutually agreed upon for planning and conducting the research covered
under this cooperative agreement, such equipment to remain the property
of ARS subject to its disposition.
4.
To assist in defraying the cost of the project by reimbursing the
Cooperator for salaries (including employee fringe benefits), travel of
the Cooperator's employees engaged in the project, expendable supplies
and materials, in an amount not to exceed $71,345 during the period of
this cooperative agreement. Indirect costs are not allowed.
It is Mutually Understood and Agreed:
1.
That no part of the funds made available by ARS to the Cooperator shall,
be expended for capital improvements, nonexpendable equipment, or
travel of ARS employees.
2.
Payment is made by letter of Credit.
3.
Any public information released concerning research carried out under
this Cooperative Agreement will describe the contribution of both
parties to the research effort.
4.
5.
This Cooperative Agreement may be amended at any time by mutual
agreement between the parties in writing.
This Cooperative Agreement may be terminated by either of the parties
upon 60 calendar days' notice in writing of one party to the other
party.
6.
Copies of correspondence between the Cooperator and the ADODR shall be
forwarded to the Authorized Departmental Officer.
123
ACCESSION: 0048427
YR 88
PUB PG 1 MODE: 5358-05-00
CWU: 5358-22000-001-OlS
TITLE: DEVELOPMENT AND CULTURE OF HIGH QUALITY HOPS
USDA-ARS Cooperative Proj. Prosser, WA
Project No.
PERIOD COVERED FROM 01/88 THRU 04/88
APPROVED: R.E. WELTY
$BI789'7
POSITION TITLE: RESEARCH LEADER
58/9AHZ-3-742
note: This contract ran out in April 1988
and was superceded by the above new
contract 58/9AHZ-3-742. Therefore, we have
two reports for 1988.
PROGRESS REPORT
frWK REPORT* The German cultivar Perle was introduced into WA for
commercial evaluation. In 1988, 236 ha of Perle were in production
in WA. Chinook was released as a cultivar in 1985. In 1988, 510 ha
of Chinook were in production in ID and WA. After aroma hop
selections were evaluated by 4 brewers for 3 years, 2 selections, WA
8254-167 and 8254-244, were chosen for large off-station testing by
one brewer.
New crosses to provide material for selection of hop
aroma or short stature growth habit were made. The effect of Prunus
necrotic ringspot virus (PNRSV) infection on the yield and alpha acid
production of Galena, Savinja Golding, and Ll was determined during 3
growing seasons. During this period, Galena had an average 24% yield
reduction and an average 9% reduction in alpha acid production,
Savinja Golding a 29% yield and 8% alpha acid reduction, and Ll a 14%
yield and 4% alpha acid reduction when infected with PNRSV.
Two-spotted spider mite population growth statistics were determined
on 55 hop progeny from females with some field resistance to spider
mite.
Families differed by 7% in generation time, 44% in net
reproductive rate, and 18% in intrinsic rate of increase.
The
isozyme banding patterns of six enzyme systems, malate dehydrogenase,
phosphoglucoisomerase, phosphoglucomutase, 6-P-gluconate
dehydrogenase, asparate aminotransferase, and catalase, were
determined in 20 commercially important hop cultivars. All but 2
cultivars could be identified using one or more isozyme systems.
PUBLICATIONS
( 1)
( 2)
( 3)
( 4)
( 5)
124
ACCESSION: 0142752
YR 88
PUB PG 1
MODE: 5358-05-00
CWU: 5358-22000-001-02S
TITLE: DEVELOPMENT AND CULTURE OF HIGH QUALITY HOPS
for the new US DA-ARS/Prosser Specific CooppAgreemt
§ 58-91H2-8-136
PERIOD COVERED FROM 05/88 THRU 12/88
APPROVED: R.E. WELTY
01/89
POSITION TITLE: RESEARCH LEADER
PROGRESS REPORT
USDA selections 21180, 21181, 21455, 21456, 21457, 21458, and 21459
and WA selection 415-90 were evaluated in large trials in Washington.
Yield and alpha acid content were 2100 kg/ha and 8.4%, 2900 and 6.6,
2260 and 2.9, 1180 and 1.1, 1000 and 3.8, 1500 and 2.0, 1950 and 3.6,
and 2120 and 12.6, respectively. New USDA selections 21490 and
21491, WA selections 8245-167 and 8254-244 and two German selections
of Tettnanger were established in large trials to provide commercial
yield and brewing quality data for these aroma hop selections. Over
750 cone samples representing 32 crosses made to produce new aroma
hop selections were collected to evaluate their brewing quality
potential. Seeds were collected from plants shown to have some
laboratory resistance to two-spotted spider mite for use in a field
trial to evaluate hop plant resistance to mites. The trial
evaluating the effect of Prunus necrotic ringspot virus (PNRSV) on
yield and alpha acid production of Galena, Savinja Golding, and Ll
was continued. Infected Galena plants had a 23% decrease in yield
and an 8% decrease in alpha acid concentration when compared with
noninfected plants. The yield of cones was reduced by 21% in Savinja
Golding and 6% in Ll when infected with PNRSV. Over 200 male
genotypes were surveyed for four isozyme systems. The number of
banding patterns found in each system were MDH five, PGI nine, and
PGD five.
PUBLICATIONS -.
( 1)
KENNY, S.T. 1988. Developing two-spotted spider mite resistance in hop. Agron.
Abstr., Amer. Soc. Agron., Madison, WI, p. 85.
( 2)
MIGAKI, G.I., CAVINESS, G.O., CHEN, H., SCHANUS, E.G., and KENNY, S.T. 1988.
Oxidation of alpha acids and essential oils in hop lupulin glands. Amer. Soc.
Brew. Chem. Newsletter 48(2):14-15. (Abstr.).
( 3)
MIGAKI, G.I., CAVINESS, G.O., CHEN, H., SCHANUS, E.G., and KENNY, S.T. 1988.
Oxidation of alpha acids and essential oils in hop lupulin glands. Brewers
Digest 63(4)-.37-38.
( 4)
( 5)
(Abstr.).
125
4^>\ United States
HA'i;/ Department of
Agriculture
"sS^
Service
Agriculture
To:
Pacific West Area
Research
Dr. Norman I. James, Area Director
USDA, ARS, Pacific West Area
800 Buchanan street, Albany, CA
from:
A.
April 14, 1988.
94710
Haunold
Research Geneticist, USDA, ARS
Project No. C/A
Subject:
58-9AHZ-3-742
Quarterly Progress Report , Jan. 1 to
March 31, 1988.
Enclosed are the original and one copy of the quarterly progress
report.
One copy was also mailed to Dr. Brooks, Beltsville, MD.
Thank you.
cc.
Dr. L.R. Faulkner, Prosser, WA.
126
Washington
State University
Irrigated Agriculture Research and Extension Center,
Prosser, Washington 99350-0030
509-786-2226
MEMORAND
M
DATE:
April 5, 1988
TO:
A.
Haunold
THROUGH:
L.
R.
Faulkne
FROM:
S.
T
Kenn>
SUBJECT:
QUARTERLY PROGRESS REPORT FOR THE PERIOD 1/1/J
C/A NO. 58-9AHZ-3-742
TO 3/31/88 FOR
Essential oil analyses of the 1987 harvest were completed and summarized
during this period.
Arrangements were made to test two aroma selections, 8254-167 and 8254-244,
from the breeding program in two-acre commercial plantings. The pedigree of
these selections is USDA 21285 x USDA 64037M; the parents represent mainly
European aroma germplasm.
Softwood propagation of these selections is
underway.
Two tettnanger clones were obtained from the Corvallis program for softwood
propagation for two-acre commercial trials in Washington and Idaho. Selec
tions USDA 21490 and 21491 were established in a grower's hop yard. Selec
tion 21491 will require additional softwood propagation to complete the
planting.
New germplasm accessions and additional selections from the. Corvallis program
were obtained for evaluation at Prosser.
STK:ns
127
Washington
State Universitv
Irrigated Agriculture Research and Extension Center,
Prosser, Washington 99350-0030
509-786-2226
MEMORANDUM
DATE:
July 15, 1988
TO:
A.
Haunold
THRU:
L.
R.
FROM:
S. T. Kenny${^
SUBJECT:
QUARTERLY PROGRESS REPORT FOR THE PERIODS
Faulkner
4/1/88 TO 4/30/88 FOR C/A No. 58-9AHZ-3-742 and
5/1/88 TO 6/30/88 FOR C/A No. 58-91H2-8-136.
Table 1 lists the results of the brewing quality analysis and six month
storage analysis of the 1987 crop year samples. The storage analysis was
completed during this period.
The new germplasm accessions and additional selections obtained earlier
from the Corvallis program were planted in the Roza nursery.
Growth in three-acre off-station trials of USDA selections 21180, 21181,
21455, 21456, 21457 (replanted), 21458 and 21459 was monitored.
USDA
selections 21490 and 21491 were established in three-acre off-station
trials near Harrah.
Propagation of the two German Tettnanger clones and
the Washington selections 8254-167 and 8254-244 continued.
Some plants of
these materials were established in off-station locations.
A survey of the isozyme banding patterns of over 200 male genotypes
growing at Prosser was started. Results'to date indicate that there are
five banding patterns for malate dehydrogenase (MDH) and nine banding
patterns for phosphoglucoisomerase (PGI). These patterns include the ones
previously found plus two new MDH patterns and five new PGI patterns. The
additional patterns found are likely due to the larger sample size used
this year.
128
Table 1.
Brewing quality analysis and six month storage analysis of hops grown in the 1987 crop year.
Hop
Chemistry program, Irrigated Agriculture Research and Extension Center, Washington State University,
Prosser
UA.
Fresh
Yield
Selection Location
(lb/A)
Alpha
%
Six
%
HSI
y onth
CoH
Ratio
HSI
Rema in.
Six Month
Fres h
X Alpha nl Oil/
A/B
Beta
H/C
100 g Ratio
19001
038/39
2766
6.88
3.83 0.247
39
1,80
0.480
74.2
1.01
2.00
19209
037/31-32
4.59
2.47 0.243
32
75.3
0.70
2.75
038/05
L16 009/03-04
TET 005/34-35
TET 016/18
3.79
2.71
35
1.85
1.40
0.344
21003
21011
21015
21015
21016
21039
21040
21041
21049
21049
21050
21051
21052
21053
21080
21084
21085
21091
21092
21097
21112
1090
804
0.360
69.8
0.87
2.75
3.85
3.44
43
1.00
0.261
92.9
0.20
2.13
29
0.85
0.456
72.7
0.59
3.15
4.78
3.83 0.222
4.06 0.243
2.64 0.260
35
1.81
0.307
76.4
0.81
2.76
4.52
2.60 0.282
31
1.74
0.370
80.6
0.69
2.78
3.96 0.222
47
0.92
0.295
93.6
0.65
2.45
4.75 0.243
40
1.42
0.294
81.4
0.89
2.07
3.85 0.245
37
1.19
0.367
70.5
0.31
2.50
2.67 0.266
33
1.55
0.356
77.7
0.69
2.79
21113
21114
21115
21116
21168
21169
21170
21173
21179
FUN
G S
COL
WIL
STY
STY
AHI
APO
ATL
011/24-26
017/30-32
017/10-11
016/09-11
011/28-29
017/15
009/30
010/30-32
010/27529
2230
344
1205
1230
1098
2321
802
879
1011
880
461
3.65
6.76
4.57
4.13
3.58
8.38
11.49
8.50
2.32 0.255
36
1.54
0.295
81.5
0.80
2.86
3.93 0.225
25
2.13
0.364
71.6
1.66
1.79
4.75 0.221
4.40 0.244
4.11 0.234
23
37
23
2.42
59.8
66.1
2.13
2.03
1.93
0.466
0.504
1.53
1.86
2.44
0.300
86.1
1.23
AUR 007/34
1486 10.01
BAC 009/35
039/46
038/33-34
888
2.91
4.99 0.229
31
0.58
0.274
81.4
0.52
2.85
3.01
1435
3.10
3.15 0.239
27
0.98
0.387
73.9
0.18
3.09
1130
3.46
4.40 0.206
27
0.79
0.448
63.3
0.46
3.17
048/30
1421
2.93
4.94 0.221
32
0.59
65.8
1.07
2.49
017/39-40
007/21-22
008/15-17
010/39-41
011/39-41
011/04
010/24-26
006/39-41
007/39-40
006/36-38
006/27-29
006/30-31
1227
4.42
5.19
9.91
5.36
3.31
6.75
5.02
5.56 0.225
37
0.79
0.528
0.374
83.9
0.62
2.76
3:67 0.233
1.41
0.385
75.8
4.39 0.245
31
37
2.26
0.371
82.3
1.31
1.32
1.72
5.06 0.223
4.21 0.243
27
1.06
30
0.79
0.475
0.441
65.2
0.98
0.74
3.02
3.14
3.42 0.234
48
1.97
0.247
91.9
0.65
0.99
3.28 0.268
37
28
23
30
29
29
1.53
0.477
68.2
0.77
1.92
0.75
0.46
0.494
74.0
0.67
3.22
0.354
64.8
0.95
2.02
0.46
1.09
0.290
83.6
0.38
3.18
0.321
79.2
0.79
2.75
0.49
0.265
97.4
0.40
3.02
CAS
H B
TAR
LUB
NAD
P T
B G
P B
T B
ELS
STR
HEE
1162
1736
485
235
2381
1754
388
1481
495
3.45
2.20
2.15
4.29
250
2.28
1191
21180
Brutotte
8.82
21181
Brulotte
7.13
21182 GAL 018/30-32
21185 .HER 005/30-32
21186 SPA 005/27-28
21193 NUG 018/33-35
21194
036/07-08
21196 B6A 009/23
21197
037/26
21202
21213
21214
21220
21226
21227
21238
21245
21252
21260
21281
0.255
ARO
SIR
ERO
CHI
PER
BLI
026/09-10
010/36-37
010/33-35
019/31-32
019/39-41
004/10
009/27-28
027/09-10
037/19-20
039/09-10
SUN 006/09-10
21284 BRA 008/10-11
21286 KIR 010/42-44
21406 ALP 006/42-44
21455
019/07-08
21455
Carpenter
21455
21455
Dixon
Habton
21456
019/09-10
continued
1255
1239
9.37
2.38
509
3.49
2061 12.54
1650 9.68
2121
6.68
1090
4.25
2549 5.08
606 3.45
169 4.31
5.67
1721
2738 10.04
1.87
21
1370 6.60
826 7.89
1645
9.93
2956 3.58
943 7.65
242 4.55
2047 3.25
6.78
1441
549
4.23
3.27
4.58 0.238
4.80 0.225
4.70 0.227
3.92
4.62
7.46
7.43
6.50
5.63
4.66
4.46
6.63
3.96
0.222
0.220
0.239
0.246
0.222
0.237
0.239
0.240
0.222
0.233
65.1
1.62
30
1.18
0.346
77.7
1.97
1.65
38
0.96
0.385
73.4
1.01
1.72
40
1.44
0.42
0.273
96.9
0.91
29
0.353
70.5
0.42
28
0.75' 0.336
164.8
0.81
25
27
2.81
1.45
0.344
0.563
62.9
61.8
2.63
34
1.68
0.411
78.3
1.55
2.98 0.246
35
1.43
0.358
74.9
0.83
1.99
3.15
3.18
2.01
2.05
1.45
2.77
4.43 0.223
4.53 0.236
28
1.15
0.300
82.9
0.86
3.09
28
0.76
0.414
77.1
0.60
4.63 0.235
27
0.92
2.16
0.506
64.7
0.70
3.11
3.18
0.347
82.8
0.47
0.412
0.613
73.5
67.2
83.9
1.65
0.79
20.09
1.36
2.23
0.07
1.93
3.13
2.62 0.253
42
3.28 0.237
4.59 0.219
33
29
3.40
3.45
2.85
5.05
34
1.94
31
2.28
0.762
0.348
35
3.49
0.329
78.4
1.25
1.76
46
0.71
2.30
1.65
0.402
73.6
0.89
0.18
0.354
126.8
82.7
1.63
0.94
0.33
0.389
0.314
0.384
0.244
0.272
0.270
0.220
3.32 0.244
2.76 0.253
3.92 0.235
2.67 0.251
6.18 0.216
5.42 0.239
1292
5.39
4.40
6.60 0.327
6.16 0.227
811
2.39
4.67 0.245
33
31
45
25
3.06
0.41
0.83
42.4
83.1
0.62
1.25
0.863
0.874
81.5
38.5
1.37
32.9
0.73
0.71
0.966
1.084
40.2
27.0
1.63
1.68
0.51
0.730
54.6
1.51
2.54
0.68
26
25
25
0.82
25
30
0.60
2.20
2.16
1.95
2.14
3.03
2.26
2.43
2.31
1.92
2.98
•nt Oi 1/ H/C
HMEB
100 q Ratio
0.49
0.38
0.37
0.13
0.20
0.41
0.31
0.33
0.49
0.39
0.28
0.44
%
2.51
3.26
3.91
3.00
3.39
3.22
2.90
4.24
3.38
3.44
3.05
2.50
3.49
3.51
3.41
2.34
5.40
2.88
5.08
3.46
2.42
5.10
4.75
2.57
0.51 2.25 2.36
0.47 2.71
3.13
0.41 2.49 2.89
0.52 3.34
1.53
0.28 3.57 5.45
0.16 3.79 5.12
0.20 3.81
5.29
0.48 3.15
8.01
0.28 3.34
3.93
0.56 2.08
1.98
0.70 2.19
1.33
0.28 3.90 4.97
0.23 4.03 8.22
0.39 1.47 0.77
0.37 2.52 4.81
0.22 3.96 6.61
0.47 2.52 3.74
0.24 3.87 5.67
0.45 3.24 5.05
0.08 5.17 8.33
1.19 1.89
2.03
0.63 1.96 3.90
0.62 2.51
0.68
0.72 3.76 5.73
0.24 3.68 5.50
1.13 2.43 1.05
1.11 2.58 3.46
0.65 1.80 2.28
0.39 3.26 3.61
0.49 3.51
2.54
0.21 3.87 7.08
0.25 4.24 5.98
0.31 0.26 0.95
0.94 2.43 2.68
0.29 3.91 11.23
0.39 3.00 5.94
0.87 2.61
1.26
0.80
0.53
0.81
0.42
0.30
0.52
0.56
0.45
2.08
0.55
0.44
2.62
2.85
3.96
2.93
2.92
0.65
0.54
0.29
3.94
3.59
3.34
7.84
8.22
0.81 3.05 6.82
0.75 2.93 10.40
0.59 3.73 10.90
129
Table 1 continued.
Six Month
Fresh
Yield
Select ioti Location
21456
21456
21456
21456
21457
21457
21457
21457
21457
21458
21458
21453
21458
21458
21459
21459
21459
21459
21469
21470
21470
21471
21471
21472
21472
21473
21473
21474
21474
21475
21475
21476
21476
21477
21477
21478
21479
21480
21480
21481
21481
21482
21482
21483
21483
21484
415-090
415-090
48209 FUH
56013 CAS
58016
60032
60033
60037
60038
60042 SHI
61021 STE
62013 COH
63006
64100 BUL
65009
65009
65101 TAL
023/35-36
(lb/A)
444
Alpha
%
%
HSI
CoH
Ratio
Six
Fres h
% Alpha ml Oi1/ H/C
A/3
Beta
HSI
Remain.
100 g Ratio
Month
ml Oi1/ H/C
HME3
100 c Ratio
/.
3.11
4.30 0.219
28
0.72
0.396
66.0
0.68
3.03
0.31
3.55
7.85
2.98
29
0.66
0.596
58.1
1.05
3.29
8.81
9.25
3.12
2.31
4.50 0.275
3.24 0.287
29
0.71
0.555
85.9
0.85
3.25
0.54 3.93
0.46 3.75
681
7.79
3.91
0.278
33
1.99
0.455
71.1
2.17
2.53
1.14 3.00
1066
4.51
3.80 0.227
26
1.1.9
0.530
65.6
1.44
3.07
0.51
3.72
9.07
665
3.71
0.221
26
1.15
0.431
63.8
1.00
3.16
3.80 0.257
26
1.22
0.613
61.4
1.18
3.35
0.43 3.79
0.60 3.96
8.09
Dixon
4.26
4.64
7.34
Gamache
3.38
3.23 0.271
23
1.05
0.490
73.0
0.77
3.31
0.37 3.63
6.77
9.63
Dixon
Haas
Habton
019/12-14
023/37
Habton
770
3.42
3.23 0.250
28
1.06
0.599
58.0
1.37
3.15
0.57 3.89
019/16-17
023/39-40
440
2.70
4.51
0.217
27
0.60
0.514
1.23
7.90
2.68
4.36 0.202
29
0.62
0.447
3.12
3.13
0.51 3.88
314
66.5
57.1
3.53
6.94
Brutotte
2.64
0.60
0.558
66.9
0.83
2.84
4.37 0.243
5.75 0.247
27
Dixon
26
0.49
0.566
.69.7
0.83
0.99
Habton
625
2.21
4.70 0.239
31
0.47
0.581
56.1
1.32
019/18-20
550
3.13 0.238
29
0.93
0.596
61.7
1.15
Brulotte
2.92
3.93
4.05 0.243
27
0.97
0.511
64.4
0.79
Dixon
4.15
4.16 0.243
27
1.00
0.483
77.2
0.69
3.19
2.16
3.48 0.241
29
0.92
0.611
50.8
1.30
4.46 0.226
30
0.48
0.749
42.9
1.31
43.3
35.0
1.13
Habton
1513
Habton
1731
1.27
020/09
1060
2.94
4.57 0.196
26
0.64
0.721
Habton
1372
2.08
3.97 0.237
26
0.52
0.823
718
4.50
5.44
3.91
0.204
26
1.15
0.661
56.4
1400
4.31
0.230
24
0.654
52.1
1.06
1.68
489
1.39
4.04 0.191
37
1.13
0.34
0.527
68.9
0.83
1456
1.48
4.44 0.272
36
0.33
0.660
40.2
1.15
0.89
1.07
020/11-12
Habton
020/21-22
Habton
020/23-24
Habton
020/25-26
Habton
020/41-42
Habton
797
1.84
4.33 0.159
31
0.43
0.609
68.7
1212
1.87
4.12 0.259
27
0.45
0.806
33.4
829
2.38
5.02 0.172
29
0.752
1692
4.02
4.03 0.245
28
0.47
1.00
0.505
44.2
67.4
1.55
876
4.21
3.75 0.267
37
1.12
0.478
49.6
1.10
1115
709
1178
2.82
3.96 0.307
29
0.71
0.437
70.3
1.21
3.68
25
0.96
0.419
71.8
29
0.90
0.522
72.3
1.03
1.09
020/45-46
588
Habton
892
Habton
1238
3.33
Habton
1209
3.42
022/09-10
022/45
255
1227
841
1165
382
4.12
4.06
3.25
3.66
2.57
3.84
3.16
4.73
4.17
3.93
4.53
4.46
5.04
3.51
3.98
4.08
Habton
1056
1.45
4.64 0.287
34
0.31
806
2.01
5.12 0.212
34
0.39
020/43-44
Habton
Mabton
022/13-14
Habton
023/43-44
2.86
2.39
1.88
0.235
0.275
0.213
0.249
0.248
0.240
0.213
0.231
0.220
0.258
0.204
29
30
32
1.27
33
0.51
0.531'
59.0
32
0.45
0.514
56.8
31
30
0.85
0.473
68.4
1.40
0.76
0.407
87.8
1.37
1.01
1.30
28
0.92
0.477
60.8
1.28
27
0.81
0.455
69.4
1.61
0.93
0.383
0.81
0.92
0.63
'0.481
68.6
69.4
3.17
3.19
3.06
3.12
3.15
1.40
3.15
0.497
40.1
0.71
0.550
75.3
1.10
0.542
79.5
0.87
3.12
3.12
2.85
3.14
Habton
1101
1.17
4.70 0.224
32
0.25
0.626
50.7
1.05
Habton
1080
33
29
30
34
0.59
2.52
68.8
1358
2.21
9.37
0.475
012/12-14
025/24&26
018/03-05
016/39-41
48/13-14
015/19-20
015/21-22
015/25-26
15/27
016/30S32
006/33-34
006/06-08
015/34
009/26
015/38
023/19-20
01.1/06-07
009/06-08
0.614
55.4
2.36
1.48
0.613
0.358
46.6
80.6
1.23
2.37
2.34
0.98
65102 L 1
continued
713
1.15
681
0.46
3052
235
2237
775
5.09
2.61
3.74
3.05
3.72
3.71
4.17
2.73
6.48
1.73
2.92
1.64
3.93
3.99
4.20
5.05
1695
2973
6.80
4.06 0.257
39
8.49
6.27
9.43
4.95 0.253
59
4.76 0.224
7.52 0.230
36
1.32
35
1.25
0.324
0.677
8.68
4.54
6.22 0.230
2.92 0.259
34
49
1.40
1.55
0.727
0.325
46.3
2523
82.0
2210
6.97
4.83 0.218
42
1.44
0.271
94.2
1879
912
1421
1426
3105
2423
9.85
4.05
4.80
2.43
0.249
0.252
0.248
0.268
0.221
0.267
0.326
0.420
0.226
0.222
0.234
0.230
3.15
3.30
3.05
3.04
3.14
3.21
3.06
2.14
2.15
2.34
1.26
2.26'
3.15
3.13
3.13
3.12
3.14
3.19
3.15
3.18
3.03
3.14
3.06
3.14
38
0.74
0.451
65.7
0.85
31
1.40
0.348
82.2
0.33
32
54
0.40
0.28
0.582
0.544
87.6
0.17
119.3
0.09
45
55
1.29
0.310
0.65
0.501
47
0.89
0.339
28
0.60
0.538
82.3
65.9
74.3
65.6
0.40
0.21
0.65
0.86
1.68
1.72
0.644
121.5
45.6
1.69
78.7
1.50
46.9
2.00
0.361
3.14
2.22
2.17
2.68
2.56
2.00
0.44
0.21
2.09
0.48
2.39
3.20
0.61
0.43 3.60
9.03
0.56 3.81
6.98
0.41
8.90
7.68
3.81
0.39 3.82
0.43 3.75
7.60
0.48 3.83
5.95
8.40
0.41 3.90
0.51 2.95 11.07
9.17
0.39 2.91
0.33 3.30 10.06
0.45 1.69
2.58
0.62 2.95
7.25
8.99
0.36 3.57
0.47 3.92 12.78
9.01
0.35 3.70
0.38 3.89 10.62
0.51 4.00 11.38
0.67 3.90
7.72
0.48 3.77
7.60
0.54
0.46
0.36
0.39
0.49
0.70
0.63
0.63
0.55
0.36
0.59
3.81
8.00
3.73
3.92
6.97
8.18
3.76
3.78
9.32
9.26
3.75
7.87
3.80
6.52
3.58
3.83
7.40
7.07
3.95
3.90
9.25
0.40 3.74
8.58
0.53 3.80
9.44
0.43 3.07
8.92
8.97
0.42 3.86 11.13
0.52 3.77 7.91
3.11
0.58 2.81
0.53 2.89
0.49 3.25
4.33
2.90
0.39 3.11
4.27
0.21 2.58
5.04
0.15 0.79
0.08 0.65
4.32
2.86
2.64
2.95
4.52
7.81
3.65
0.05
1.64
1.86
1.13
1.22
0.28 2.79
0.16 0.50
0.29 2.98
0.26 3.80
0.88 0.10
0.50 2.42
0.95 2.16
1.21 1.68
1.19 1.64
0.53
1.03
0.26 1.49
1.56
0.43
2.33
0.17 3.07
2.23
1.92
0.27
4.18
1.58
3.28
3.49
130
Table
1 continued.
Six Month
Fres h
Yield
Selection Location
8151-053
8151-082
8152-009
8153-020
3153-084
8153-097
8153-115
8153-127
8153-141
8154-212
8154-230
8154-237
8154-264
8154-274
8154-297
8252-115
8252-146
8252-155
8253-014
8253-017
8253-028
8253-046
8253-046
8253-080
8253-106
8253-133
8253-138
8253-149
8253-175
8253-199
8253-229
8253-239
8254-133
8254-142
3254-143
8254-146
8254-162
8254-165
8254-167
8254-181
8254-196
8254-213
8254-214
8254-222
8254-239
8254-241
8254-244
8254-253
8254-258
8254-265
8254-267
8254-269
8254-302
8254-318
8254-328
8254-333
8254-334
X
HSI
CoH
Ratio
HSI
Six Month
Fresh
% Alpha ml Oi1/ H/C ml Oil/ H/C HME8
Remain.
100 q Ratio 100 q Ratio %
2824
6.29
4.84 0.226
44
1.30
0.297
86.6
0.50
2.30
0.30 2.96
1.43
4.58
4.46 0.230
44
1.03
0.245
86.8
2462
4.25
4.02 0.214
46
1.06
0.291
87.8
0.51
0.42
2.36
2.24
0.30 3.05
0.21 2.84
1.74
3.16
7.08
5.07 0.216
32
81.1
1.63
0.18
0.51
2.29 0.249
30
0.580
36.3
0.90
1.63
067/31-32
067/29-30
1076
3.46
3.63 0.222
25
0.309
74.4
0.64
3.18
3.01
2.90 0.258
22
0.489
64.9
0.52
1.84
1.95
3.82
2.43
4.90
900
0.95
1.04
0.72
0.48
0.37
0.32
0.56
6.71
1.40
2.94
0.344
990
5.76
067/27-28
067/23-24
065/27
067/07-08
067/05-06
067/03-04
065/03-04
065/06510
065/07-08
065/11-12
065/14&18
065/15-16
065/20
065/22S26
065/23-24
643
3.86
3.05 0.233
19
1.27
0.319
84.8
0.57
1.46
0.32
1.72
3.31
0.42 3.69
0.25 3.81
0.54 3.74
4.62
6.47
6.70
0.16
0.36
0.45
0.62
0.39
0.48
0.40
0.56
0.50
0.49
0.56
0.65
0.77
1.00
2.89
2.77
3.81
3.79
3.75
2.48
2.66
2.93
2.52
2.86
2.30
3.76
3.09
2.79
6.53
6.43
6.97
6.66
8.35
4.44
3.41
2.24
4.18
3.11
3.31
4.24
3.10
3.34
0.34
0.27
0.25
0.34
0.26
0.29
0.35
0.59
0.55
0.71
0.77
0.50
0.35
0.51
0.49
3.98
3.72
3.79
3.85
3.83
3.97
3.70
3.83
3.74
3.76
3.69
3.79
3.92
3.88
3.66
8.40
7.67
5.95
8.33
8.63
9.80
6.69
6.21
4.35
5.60
4.75
7.49
7.21
4.04
5.16
66052 PRI 006/45-46
68052 P (3 006/12-14
8151-067
%
A/B
Beta
2334
65102 L 1 018/18-20
65104 L i3 010/06-08
65104 L I3 019/24-26
8151-002
(lb/A)
Alpha
067/21-22
067/14
067/11-12
065/30S34
065/31-32
065/35-36
065/38&42
065/46
065/39-40
065/44
065/47-48
064/03-04
064/05-06
064/07-08
064/09-10
064/11-12
064/13-14
066/03-04
066/05-06
066/07-08
066/09-10
066/11-12
066/13-14
066/15-16
066/17-18
066/21-22
066/23-24
066/25-26
066/27-28
066/29-30
066/31-32
066/33-34
066/35-36
066/37-38
066/39-40
066/41-42
066/43-44
066/45-46
066/47-48
067/37-38
067/35-36
067/33-34
continued
538
3.91
3.20 0.235
20
1.22
0.366
77.5
0.74
3.19
1091
1.51
2.84 0.240
22
0.53
0.396
67.0
0.36
3.16
578
5.49
4.56 0.246
25
1.20
0.624
59.8
1.18
3.21
431
2.29
1.98 0.275
36
C.6S3
55.6
0.24
752
4.00
5.02 0.238
20
1.16
0.80
0.694
. 53.1
0.94
2.06
2.07
533
2.41
5.09 0.225
25
71.0
2.52
5.75 0.231
27
0.47
0.44
0.379
1350
0.405
75.6
0.68
1.04
3.20
3.24
3.24
587
0.97
2.08 0.279
32
0.47
0.637
57.7
0.47
1165
5.11
22
1.56
0.481
74.6
0.92
1.96
1120
5.92
3.27 0.253
4.27 0.224
23
1.38
0.339
0.87
2.09
1.28
1.99
2.31
2.04
2.36
1185
8.99
5.02 0.239
21
1.79
0.319
80.3
82.4
1053
6.47
5.09 0.232
21
1.27
0.372
77.8
1191
9.66
5.29 0.227
23
1.83
0.323
78.5
1.13
1041
6.33
4.57 0.230
16
1.39
0.384
1.40
1.84
1262
5.48
3.71
0.263
25
1.48
0.668
76.8
50.4
1.66
2.59
1239
5.37
4.29 0.233
25
4.94 0.233
23
0.386
86.9
82.9
2.78
7.89
1.25
1.60
1.00
1071
1.94
2.38
492
1.30
4.M 0.216
36
0.32
0.415
64.1
0.73
3.18
1080
0.88
2.16 0.210
29
0.41
0.467
48.9
0.44
3.21
1650
4.38
1.12
30
0.39
0.389
0.416
66.9
1.50
3.90 0.222
3.82 0.246
22
1601
0.73
0.63
3.20
3.21
1529
1370
0.96
3.02 0.267
34
0.514
1.62
5.01
0.192
29
0.32
0.32
56.9
37.4
0.488
53.3
0.36
0.66
3.21
3.22
3.59
3.30 0.230
5.38 0.234
23
1.09
0.82
0.405
0.610
70.9
21
24
0.58
1.18
3.20
3.20
0.321
1.11
1.02
0.362'
26
3.92 0.249
26
0.68
0.396
4.73 0.236
31
0.39
0.212
0.237
0.220
0.220
32
23
24
0.36
22
1.13
1.06
0.418
0.407
0.369
0.445
•0.422
50.5
74.7
71.5
72.8
70.4
64.1
74.3
63.6
64.4
6.22
5.28 0.220
22
1.18
0.521
1177
6.67
7.46 0.206
21
0.89
707
2.77
4.19 0.246
25
1906
1257
4.42
4.77
912
3.35
1065
503
2.68
1.87
1115
1107
533
453
2.11
4.09
5.84
4.90
5.80
3.98
5.18
4.62
698
4.30 0.239
3.29 0.237
1.12
3.22
1.08
3.22
1.20
0.70
1.00
0.67
0.57
3.18
3.23
3.16
3.20
3.31
3.34
0.63 3.68
4.82
58.8
0.74
3.31
0.50 3.94
5.57
0.532
60.4
1.37
3.29
0.66
0.510
53.5
30.6
0.68
3.24
0.75
1.32
1.19
1.59
0.84
0.74
1.26
3.19
3.24
3.20
3.22
3.22
3.13
3.23
0.90
0.30
0.33
0.77
0.58
0.70
0.33
0.29
0.62
3.91
3.92
3.90
3.74
3.79
3.93
3.86
3.84
3.74
5.47
7.79
9.75
2.89
6.00
6.65
9.85
8.44
5.04
0.84
1.13
1.26
0.94
3.22
3.24
3.24
3.23
3.22
3.23
3.24
3.26
3.16
3.23
3.21
3.18
0.46
0.59
0.68
0.40
0.48
0.69
0.85
0.49
0.25
0.31
0.54
0.33
3.75
3.88
3.80
3.88
3.79
3.81
3.71
3.88
3.94
3.83
3.84
3.95
5.78
5.04
5.05
7.31
6.68
5.48
6.19
7.09
7.50
8.91
6.59
6.24
3.16
0.18 3.96
1.03
0.435
934
1.02
5.44 0.204
35
0.19
0.650
1173
1326
6.28
4.84
6.50 0.207
5.75 0.210
17
0.97
0.84
0.314
0.576
1081
1125
7.93
1.50
6.28 0.199
3.79 0.220
1.26
0.40
0.566
0.657
791
525
1.85
4.91
4.56 0.202
5.17 0.213
4.20
6.18
4.74
2.61
22
23
29
24
20
0.41
0.603
0.95
0.498
0.189
19
0.98
0.198
0.208
0.198
0.254
0.226
0.226
0.251
0.217
0.256
20
0.93
0.89
0.59
0.81
0.74
0.371
0.447
0.527
0.487
1575
1254
1793
1107
1510
765
593
976
626
1051
2.65
4.48
4.79
2.72
2.44
1.27
1109
3.73
2.98
5.38 0.232
4.12 0.224
20
853
21
0.69
0.72
799
2.41
3.58 0.224
21
0.67
4.30
6.65
5.33
4.46
3.26
6.02
6.38
4.26
4.46
3.40
22
22
24
22
23
24
25
30
2.90
0.510
0.579
84.4
57.5
52.7
53.5
44.8
64.5
72.0
69.2
63.2
63.9
75.5
54.4
0.91
0.370
72.7
76.5
0.94
1.24
1.64
0.87
0.56
0.62
0.95
0.70
0.343
96.3
0.35
0.75
0.611
0.64
0.473
0.55
0.37
0.522
0.524
0.466
53.8
61.2
57.4
53.3
6.53
131
Table 1 concluded.
Six Honth
Fresr
Selection Location
Alpha
Beta
(lb/A)
%
X
2.70
4.59 0.214
Habton
909
1334
2.91
1.64
3.24 0.251
3.72 0.274
Habton
1166
064/45-46
016/03&05
2190
1.82
2.60
0.254
5.35 0.220
3.05 0.261
3.48 0.281
5.48 0.223
3.14 0.219
5.54 0.224
4.47 0.227
4.46 0.276
4.03 0.277
2.72 0.272
4.48 0.263
4.19 0.284
3.54 0.253
Fuggle
Brulotte
Gtd Star
Brulotte
133-06
I43-11Y
020/15-16
021/15
021/16
Perle
Brulotte
1138
1375
1269
1850
Habton
Perle
U42-30-35 024/15-16
UillametteBrulotte
1243
005/15-16
005/12
1926
1357
Yeoman
Zenith
HSI
1539
022/07-08
050/37-38
8303-088
8303-094
8303-83
8303-94
8309-037
BOR-704
I43-11X
Yield
1329
2.12
4.10
6.18
4.09
5.05
7.09
7.69
6.77
0.63
4.44
11.28
9.92
2.91
A/B
CoH Ratio
34
20
HSI
Six Month
Fresr
% Alpha m I Oil/ H/C m I Oil/ H/C HMEB
100 g Ratio 100 q Ratic X
R ema in.
0.59
0.511
62.6
1.14
3.02
0.90
0.484
60.7
0.82
3.17
31
0.44
0.594
73.8
0.97
3.12
28
26
0.62
0.438
0.89
0.49
0.711
75.8
47.3
1.29
3.11
3.13
0.70
0.378
0.378
72.1
0.51
0.82
3.12
2.74
0.72
0.89
2.50
0.38
22
31
39
48
46
38
34
36
34
33
27
27
1.18
1.13
1.30
0.333
72.2
72.4
73.8
0.91
0.436
0.404
66.1
1.01
2.28
1.59
0.428
80.2
1.46
2.58
1.72
0.375
78.0
1.73
2.65
1.68
0.389
0.382
0.374
. 81.0
84.1
70.7
52.4
47.0
1.83
0.23
0.99
2.69
2.80
2.52
2.63
2.84
0.350
0.482
0.36
1.00
2.06
1.99
2.67
2.86
0.45
0.45
0.39
0.39
0.46
0.36
0.53
0.44
0.49
0.49
0.61
0.92
1.20
0.20
0.61
1.27
0.94
3.53
3.76
3.80
3.74
4.00
3.63
3.21
3.02
0.56
2.64
3.20
3.03
2.95
3.16
3.28
3.29
3.54
8.70
6.38
9.43
7.25
8.81
8.86
4.39
4.47
0.75
4.16
5.65
2.64
2.18
4.72
4.37
0.68
0.53
132
Agricultural
United States
uiJMJi Department of
Pacific West Area
Research
Agriculture
Service
~)r. William G.
Chace, jr.
lov. 23, 1988.
Area Director, USDA-ARS
800 Buchanan street, Albany, CA
From:
94710
Dr. Al Haunold
Research Geneticist, USDA-ARS
ADODR Proj. No. C/A 58-
Subject:
Quarterly Progress Report, July 1 to Sept. 30, 1988,
Enclosed are the original and one copy of the quarterly progress report.
One copy was also mailed to Dr. Howard Brooks, Beltsville, MD
Thank you.
cc. Dr. L.R. Faulkner, Prosser, WA
133
Washington
State University
Irrigated Agriculture Research and Extension Center,
Prosser, Washington 99350-0030
509-786-2226
MEMORANDUM
DATE:
November 11, 1988
TO:
A.
THROUGH:
IV
L. R. Faulkner /J\;/ ^'Jf
FROM:
S. T. KennyflS
SUBJECT:
QUARTERLY PROGRESS REPORT FOR THE PERIOD 7/1/88 TO 9/30/88 FOR
Haunold
C/A No. 58-91H2-8-136
Evaluations of agronomic potential and collection of cone samples for
evaluation of brewing quality were made on progeny from crosses made in
1986. (This is the first year the seedling were strung.)
The isoenzyme patterns of four isoenzyme systems, phosphoglucomutase,
6-phosphogluconate dehydrogenase, malate dehydrogenase, and phosphoglucoisomerase, of about 250 male plants were determined.
Seed from females identified in 1987 as showing some laboratory resistance
to two-spotted spider mite was obtained.
Commercial trials of Tettnanger A and Tettnanger B, European aroma
selections, and WSU selections 8254-167 and 8254-244, new aroma
selections, were established. The previously established commercial
trials of USDA 21180, 21181, 21455, 21456, 21457, 21458, 21459, 21490, and
21491 were observed for disease and agronomic characteristics.
Yield measurements and samples for brewing quality determination of
advanced selections and commercial cultivars were obtained.
134
Washington
State University
Irrigated Agriculture Research and Extension Center,
Prosser, Washington
99350-0030
509-786-2226
MEMORANDUM
DATE:
January 4, 1989
TO:
A. Haunold
THROUGH:
L. R. Faulkner
'y
FROM:
SUBJECT:
U
-^
S. T. Kenny
QUARTERLY PROGRESS^ REPORT FOR THE PERIOD 10/1/88 TO 12/31/88
FOR C/A No. 58-91H2-8-136
Table 1 summarizes the hop acid characteristics of progeny from crosses
evaluated in 1988. The pedigree information for the families was listed
in earlier reports. Families 8411, 8551, 8552 and 8553 are part of the
study evaluating two-spotted spider mite resistance. Families in the 8680
series are for evaluation of short stature growth habit. The remaining
eleven families are for evaluation of aroma hop brewing quality. There is
a large range in alpha and beta acid concentrations and cohumulone ratio
in the progeny.
Table 2 summarizes the yield and brewing quality data for experimental
hops grown in commercial trials in Washington in 1987 (storage data
determined in 1988) and 1988.
Seeds harvested from females having laboratory measured resistance to
two-spotted spider mite were cleaned and placed in pregerinination
conditions. Seedlings germinated in March 1989 will be used to establish
a replicated field trial to evaluate two-spotted spider mite resistance.
135
Table 1.
Summary of alpha and beta acid characteristics for selected
families grown at Prosser, WA in 1988.
Fami 1y
8411
Pedigree
% Alpha
N
5.32
1.55
1.72to8.28
2.41
0.81
l.llto4.14
34
6
24to41
42 Mean + SD
4.50
1.47
1.83to8.41
2.72
1.08
1.31to5.47
36
7
22to53
5.14
1.65
2.41to8.03
2.55
0.85
1.38to3.97
34
3.47
1.71
0.72to7.54
2.75
1.65
0.45to7.71
32
10
15to53
6.09
1.23
3.60to7.99
2.03
0.45
1.27to2.79
26
2
23to31
8.29
2.53
3.50 12.09
2.53
0.93
1.20to4.90
35
6
26to44
4.69
1.54
2.27to9.95
3.69
0.91
1.41to5.67
30
9
20to50
5.08
1.36
2.21to8.04
3.83
0.94
2.06to6.15
31
7
19to42
3.52
0.89
1.80to4.89
2.75
0.66
1.86to4.55
22
4
15to29
5.97
1.80
2.31to8.77
2.43
0.70
1.00to3.60
34
5.87
1.55
2.88to9.40
2.64
0.75
1.38to4.56
34
8
19to47
6.76
1.75
3.10 11.98
3.61
1.34
1.98to8.70
33
7
19to48
7.73
1.59
4.91 11.62
3.48
1.10
1.61to5.62
41
8
26to53
6.92
2.17
4.16 11.99
2.72
1.22
1.19to5.56
30
12
14to49
3.44
33
Range
8551
7003-081 X OP
Range
8552
13 Mean + SD
65104 X OP
Range
8553
38 Mean + SD
21163 X OP
Range
8655
21227 X 21088M
14 Mean + SD
Range
8656
21227 X 8154-2441'
10 Mean + SD
Range
8657
21170 X 19060M
•
37
Mean + SD
Range
8658
21170 X 19173M
31 Mean + SD
Range
8659
21170 X 21088M
15 Mean + SD
Range
8681
404-6 X 21337M
24 Mean + SD
Range
8683
404-6 X 8153-065M 30 Mean + SD
Range
8685
406-57 X 21337M
45 Mean + SD
Range
8686
406-57 X 21361M
17 Mean + SD
Range
8692
21373 X 19047M
20 Mean + SD
Range
8693
8694
21373 X 19170M
21373 X 21088M
14 Mean + SD
21373 X 21337M
8
21to46
10 Mean + SD
5.26
1.87
2.28to9.61
2.82 0.88
1.38to4.33
27
6.03
1.48
3.40to8.77
2.86
1.45
0.93to7.01
25
6
16to38
7.23
1.69
3.73to9.63
3.62
1.32
1.98to5.84
28
5.02
3.17 0.82
l,81to4.84
25
6
16to36
14 Mean + SD
21373 X 8153-032M 15 Mean + SD
21373 X 8153-056M 13 Mean + SD
Range
Note:
1.53
0.78to5.95
Range
8697
2.33
9
19to45
1.86 10.65
Range
8696
7.04
13
19to64
Range
Range
8695
CoH %
r SD
14 Mean
64007 X 21337M
% Beta
SD is Standard Deviation.
2.02
1.67to7.92
7
18to42
8
15to45
12.60
1,740
1,400
1,900
1,726
87
Topp. 88
21459
88
87
87
*
*
12.6
1.95
2.64
3.76
3.38
.276
.271
.287
.230
.270
.239
4.50
.250
4.27 .268
4.05 .243
4.71 .274
4.37 .248
3.23
3.08
2.47
3.24
5.37
5.42
6.95 .233
7.43 .246
29
29
26
27
27
29
24
28
27
29
25
25
39
38
31
30
HSI CoH
%
2.80
0.97
0.84
0.41
0.60
1.22
1.05
0.92
0.71
0.54
0.60
0.96
0.96
1.31
1.18
A/B
Ratio
1.67
1.48
0.79
1.00
0.83
0.96
0.77
0.96
0.54
0.85
0.73
0.91
1.34
1.01
2.37
1.97
53.9
49.5
40.3
24.2
22.9
14.5
21.8
35.8
16.9
19.5
24.5
27.9
34.3
22.2
30.0
36.2
ml oil/ Myr
100 g
%
11.7
13.1
32.1
26.0
45.4
49.5
43.6
34.1
45.8
49.0
41.4
38.4
29.2
35.3
26.0
31.0
Hum
%
2.4
2.4
3.1
3.4
3.1
3.4
3.4
3.3
3.3
3.4
2.4
2.6
1.7
1.7
1.5
1.7
H/C
Ratio
-
3.5
3.8
126
90
-
468
-
-
183
341
388
_
-
-
H/F
Ratio
55
64
67
73
86
33
73
78
Remaining
2.9
3.7
3.6
3.6
3.8
2.9
2.0
1.9
H/C
Ratio
4.3
7.6
9.0
6.8
9.3
8.2
3.9
2.0
HMEB
%
After Storage
%
Alpha
planted at a new location; only a few hops were produced.
Storage period was 6 months at room temperature.
Locations: Gran. - Granger, WA; Mabt. - Mabton, WA; Pross. - Prosser, WA; Topp. - Toppenish, WA.
Yield: 21457 In 1987, the planting nearly died out due to unknown soil conditions. In 1988, the plot was
NOTES
Pros.
910
88
Topp.
21458
415-90
3.59
3.93
1,350
88
87
Topp.
21457
1.14
2.31-
1,060
1,000
Mabt. 88
87
21456
2.88
3.27
910
2,020
88
87
Gran.
6.64
7.13
2,600
2,500
21455
87
88
Topp.
Beta
%
8.43
6.46 .253
8.82 . 7.46 .239
21181
1,900
1,910
88
87
Topp.
21180
Yield Alpha
(lb/A) %
Yield and brewing quality data for experimental hops in commercial trials in Washington.
Selection Location
and Year
Table 2.
CTi
co
137
£££x United States
j|) Department of
Agriculture
Agricultural
Northwest Area
DEPT. OF CROP SCIENCE
Research
Service
OREGON STATE UNIVERSITY
CORVALLIS, OREGON 9733 1
July 26, 1
To:
Idaho Department of Agriculture
From: Dr. Al Haunold
Research Geneticist
Subject:
Propagation of Experimental triploid Hallertauer seedling
selections for testing in Northern Idaho (Bonners Ferry area)
The following hop genotypes were tested for presence of hop viruses by
Dr. Cal Skotland, Plant Pathologist, Prosser, WA by using the ELISA technique:
Genotypes, listed by specific location in the USDA-OSU Hop Breeding yard
near Corvallis,
were indexed separately for each of 5 hop viruses.
Viruses
in the table are listed in the following order:
PNRV"(prunus necrotic ringspot virus) apple strain
PNRV ( d o
) cherry strain
HMV (hop mosaic virus)
AmHLV American hop latent virus
HLV hop latent virus
+ means positive,
Genotype
- means negative
OSU location in 1987/88
21455
10:15
21456
16:28
ii
16:25
21457
7:35
21458
22:66
21459
22:81
virus reading
22:84
Plants were produced by soft wood propagation,, rooted about 1 week in
sterile quartz sand, then transplanted to steam-sterilized potting soil mixture.
Motherplants from which the initial rhizomes for propagation were taken have
been observed for three years in field locations and no verticillium was observed,
138
See also :
Table 1, page..28.
May 30, 1989.
From:
Kenneth Hohmann, Rt. 1, Box 153,
Subject:
Wallowa, OR.
97885
Experimental hops: Cascade, Nugget, Wil.lamette,
Dear Dr. Haunold:
Tettnanger, Perle.
I thoughyyou might be interested to knwo-that the hops
rhizomes you sent me last spring (1988) did very well, as you can see
by the attached photo.
This year they are already nine feet high and I'm
expecting another bumper crop for more great beer.
Cascade seemed to do best, followed by Nugget, Perle, Willamette, and Tettnang.
The differences could have been in the amount of water they get, however,
this year I will try to water them more evenly.
Thanks again. K.H.
photo of hops (baby planting) in 1988, Wallowa, OR.
, photo taken in August.
name
Phosdrin, Duraphos,
mevinphos
052046, Phosfene, PD5
Gesfid, Menite,
Monitor, Tamaron
methamidophos
acute dermal LDcr.
Somonil (CIBA-GEIGY)
LD
50
dermal LD5Q
oral
50
dermal LDr,,
oral LD5Q
200
/.A
700
50
16-33
3, 7-12
118
18-21
50
oral LD
Supracide, Ultracide,
50
ll
10,200
methidathion
50
866
dermal LDr
oral LD
dermal
Yaltox
Folimat
oral LD
12420
acute oral LD,.,-.
(mg/kg body wtj
Mammalian toxicity
Curoterr, Furadan,
Ortho
Orthene, Ortran,
Trade names
omethoate
dimethoate
carbofuran
acephate
common
Generic or
was
for TEPP.
activity. Similar to TEPP. Probably no
better chance for registration than there
organophosphate with short residual
Not registered on hops in U.S. A very hot
activity. May be good for close to harvest
control of green peach aphid on potatoes.
Looked good in 1987 plots. Short residual
trol. Widely used in central Wash, for
Not registered on hops in U.S. Used widely
in Europe for aphid and worm (looper) con
Excellent for aphid control in 1987.
for control of Banks grass mite on corn.
in Europe for aphid control. Used in Texas
Not registered on hops in U.S. Used widely
Strong systemic.
Not registered on hops in U.S. Has been
tested here but produced heavy leaf burn
and was dropped from further testing.
Used in Europe for mites(7) and aphids.
weevil control. Used in Germany on hops.
sued on a Sect. 18 in Idaho which was
turned down. We would like to have it for
Not registered on hops in U.S. Recently pur
Western Europe on hops.
pilot brew taste evaluations. Used in
found to contribute to off-flavor in
Not registered on hops in U.S. Recently
Remarks
prepared by Dr. Wyatt Cone, Entomologist, Brosser, WA Jan. 1988.
APHICIDES AND MITICIDES USED ON HOPS IN FOREIGN COUNTRIES
thiodan
benzoepin
endosulfan
cypermethrin
propoxur
Thiosulfan, Tiovel
thiodan, Malix,
Thifor, Thimul,
Thiofor, Thionex,
Insectophene Kop-
Crisulfan Cyclodan,
Endocel, Endosol,
Hildan, Hoe 2671,
Thiodan, Beosit,
Chlorthlepin,
Barricade, Ripcord
Ammo, Cymbush,
Baygon, Bay 39007,
Blattanex, Propion,
Suncide, Unden,
Tugen Fliegenkugel
Elocron, Famid
dioxacarb
Trade names
Lannate, Nudrin
name
methomyl
common
Generic or
95-104
LD
50
251
LD
dermal
oral
50
359
30-70
dermal more than 1600
oral
dermal more than 1000
50
3000
dermal
LD
60-80
oral LD
oral
17-24
5880
oral LD5Q
dermal LD5
(mg/kg body wt)
Mammalian toxicity
trials.
very effective against hop aphids in 1987
Generally a good aphicide. Also effective
against worms and thrips. Thiodan was not
Not registered for use on hops in U.S.
No evidence of outbreak of mites in trials
on hops.
induced mite outbreaks on tree fruit crops.
in Europe for aphid control on hops. Has
on livestock, tree fruit, and cotton. Used
Not registered on hops in U.S. Used widely
Not registered on hops in U.S. General
use is by pest control operators for
household and lawn problems. Not much
chance of a crop use registration for us.
rado potato beetle control.
would not serve any useful purpose, for us.
Main use is for household pests and Colo
keted in U.S. on other crops. Probably
Not registered on hops in U.S. Not mar
to be analyzed for residues.
Fair aphid control in 1987 tests. Samples
tered for German hops imported into U.S.
Not registered on hops in U.S. but regis
Remarks
Page 2
Cone 1/88
4^
O
name
dimefox
oxamyl
heptnophos
dinobuton
binapacryl
permethrin
decamethrin
common
Generic or
NRDC 161
Wacker S14/10
Terra-systam,
Hanane, Pestox XIV,
DPX 1410
Vydate,
HOE 2982,
Ragadan
Hostaquick,
UC 19786
Dinofeny Drawinol,
MC 1053, Talan,
Acrex, Dessin,
HOE 2784, Horrocid
Morocide, Acricid,
Ambox, Dapacryl,
Endosan, FMC 9044,
Ectiban, Indothrin,
Kafil, Pounce, Promex
Ambush, BW-21-Z
Decis,
Trade names
50
128-138
LD
50
dermal LD
50
acute oral LD
dermal LD
1-2
2960
24 (formulated)
5.4 (uniform)
acute oral
2925
dermal LD5Q
320°
96-117
50
\/,o
421
oral LD5Q
dermal LD
50
oral LDP„
no dermal listed
50
oral LD.„
4000
dermal LDg more than
4000
more than
listed dermal
LD
oral LD
no
oral
Mammalian toxicity
(rng/kg body wt)
A systemic with
level.
Looked very good at that time.
never see this
in
U.S.
after brief exposure in open air.
Probably
technician and I developed severe headache
insecticide. Hazard from vapor, toxicity
high. Could kill some of our growers. My
Not registered on hops in U.S. Used
extensively in England. Systemic acaricide-
since.
nematodes. Extensive plot work in 1982,
1983, but DuPont indicated no further
development in U.S. We have not tried it
in western Europe for insects, mites, and
Not registered on hops in U.S. Used
researcl)
never see it in the U.S. even at the
short residual activity. Probably will
tured in West Germany.
Not registered on hops in U.S. Used in
western Europe against aphids. Manufac
results.
tested it years ago as UC 19786 with poor
Not registered on hops in U.S. Used in
Germany as a miticide--fungicide. I
Europe, it's a slow-acting mite ovicide.
residues from hop resins even using super
heated steam at 2000°F. We gave up. In
FMC chemists could not separate morocide
on hops in Europe. Has some fungicide
properties as well. We tried it years ago.
Not registered on hops in U.S. Used widely
ticularly cutworms. May cause mite outbreak.
spectrum activity against many insects, par
Not registered on hops in U.S. Used in
Germany. Synthetic pyrethroid with broad
aphid control in Germanv.
likelihood for us on hops. Used on hops for
Not registered on hops in U.S. Manufactured
in France. Used uidely on cotton. Not much
Remarks
Page 3
Cone 1/88
DIPEL
BACILLUS
THURING1ENSUS
INSECTICIDE
DESSICANT
COPPER
FUNGICIDE
ENDOTHALL
AND METALLIC
HYDROXIDE , OXIDE
HION
"fl
INSECTICIDE
(B T )
BACTOSPEINE
P10RATE
INSECTICIDE
PflRATHION
DES-I-CATE
VARIOUS
157 EC)
maAmon
RAMPART 10 S'
(tft'ra y\)
PARATHION
INSECTICIDE
METHYL
PARATHICH
METHYL
PARATHION
INSECTICIDE
PENNWALT
VARIOUS
4581-206
I OTHERS
55146-1
I OTHERS
5905-250
275-ia
VARIOUS
37100-32-2217
ABBOTT
37100-29-2217
127*9-121-3*704
241-257
I OTIERS
34704-2
t OTHERS
5905-55
GORDON CORP
P.B.I./
PLATTE
PLATTE
VARIOUS
VARIOUS
I 0T1ERS •'.
2935-284
3125-307
t 0T1ERS
APPROVED
APPROVED
APPROVED
APPROVED
APPROVED
APPROVED
APPROVED
APPROVED !
EXEMPTION
CRISIS
SECT 18
APPROVED :
TEMPORARY
APPROVAL
707-59
APPROVED
EXEMPT
EXEMPT
(i.5)i
15.00
0.1
1.00
0.50 i
Vff4
1.00
!
!
1.00 :
0.5
(«)•
0.05
0.75
30.00
30.00
PPK
(DRY)
PPM
l
I
:
(GREEN)
i
EPA
: TOLERANCE
:
: TOLERANCE
STATUS
EPA
:
*A
LABEL
I 0T1£RS
400-62
NUMBER
E.P.A.
2335-338
WILDER ELLIS !
DEVRON
HELENA
DIBRCM
(NflLED 8)
HfiLED
MOBflY
DI-SYSTDN 8
DISULFOTCH
APMCIDt
INSECTICIDE
VARIOUS
DIAZINON
DIAZINCN
APHICIDE
:
Ran t upas
KELTHfifC
DICCFO.
KITICIDE
UNIROYPL
:
I
i
l
NA*£
t SUPPORT
STATUS
: MANUFACTURER i
TRADE
LX1TE CR
I
PROPflRGITE
CCttCN NAME
ea-oct-ea
KIT1CIDE
TYPE
PLEASE REFER TO PRODUCT LABEL FOR SPECIFIC REQUIREMENTS
CURRENT PRODUCTS
(TOLERANCE PLUS LABEL)
THIS LIST IS TO BE USED FOR INFORMATIONAL PURPOSES ONLY.
U.S. HP PESTICIDE STATUS REPORT
430
N/fl
182
41C«5
20-30
6.8
300-400
N/ft
CONTACT
CONTACT
CONTACT
SLOU REL.
CONTACT
CONTACT
CONTACT
INJEST10N
CONTACT
:
!
2
15
1
N/A
SD
N/A
7
28
14
NONE
1
42
2-3' I
•INCREASED TOLERANCE GRANTED
SPRAY
OR AERIAL
:
GROUND SPRAY
AERIAL SPRAY
GROUND OR
AERIAL SPRAY
GROUND OR
AERIAL SPRAY
GROUND OR
,
DO NOT FEED RESIDUE
SUCKER GROWTH CONTROL
AS SAFE
GRflS -GENERALLY ASSUMED
"pbr'ck, f*/cj> knocks/i
-yssM*Lt.
GROUND SHAW I
SPRAY
OR AERIAL
CO NOT FEED RESIDUE
ur>
FOR SECT 18 CRISIS EXEMPTION, 1988 CROP ONLY
,
POOR AD I STWUS » '// >
6R0LHD SPRAY : f-» it
SPRAY
OR AERIAL
GROUND SPRAY
SPRAY
AERIAL
„
IH /tftff
.
m^fhd^dfi
IHADE0U1E CARRYOVER TO
PREVENT RAPID REINFESTAIION
SPRAY
GROUND SPRAY
ACCEPTABLE KILL LEVELS, BUT
NEU RESIDUE DATA NECESSARY til£?ft/H*/£.
TO RETAIN LABEL.
///•!'
I,
^TW/c Hi Si
DON1I'T FEED RESIDUE
BEFORE 1S89
INCONSISTANT EFFICACY, SOME
PHOTOTOXICITY, RESISTANCE INCREASING
•SPRAY DRIED, DUST SETTLED
CCt*£NT
OR AERIAL
SPRAY
OR AERIAL
GROUND SPRAY i
10-15 :GROUND SPRAY
SD
appl.
METHOD
GROUND SPRAY
21 I
SD
SD
SD
SDi
R.E.I. I
P.H.I.
-i-
SYSTEMIC
CONTACT
CONTACT
CONTACT
CONTACT
6-25 SYSTEMIC
3600
1230
10000
ACTION
OF
LD 50
(DERMAL)
MODE
TOXICITY
Nov. 1, 1988.
pencilled-in correction by A. Haunold, Corvallis, OR.
computer - arranged by Anheuser Busch Inc.( Don Gibson)
list prepared by HA Hop Commission (Ann George)
ro
PtEROKE
HERBICIDE
INSECTICIDE:
ICI
AMERICAS
55947-78
100-607
:
Mc
STIRRUP X
I
DC
53371-2
FERMCNE
DEXICALS
sTRlMETHYL DODECATRI
:TRIMETHYL DODECATRI
:
:
OTTERS
OTIERS
1471-120
SEVERAL
ELANCO
SEVERAL
AND OTIERS
2935-246
AND OTIERS
239-2186-10182,
I
WILBUR-ELLIS :
:
I
SANDOZ
: CIBA EE1GY
i
275-62
275-61
618-56
ECT.
TRIRURALIN
SULFUR
GRAMOXONE
SOLICAM
RIDOKIL
i
t
t
NUMBER
E.P.A.
TREFLAN 5,
:
FUNGICIDE I
HERBICIDE
SULFUR
PARAQUAT
DESSICANT/ :
DEFOLIANT,
NORRURAZCN
KERBICIDE
(2 LB)
HETALAXYL
(HORMONE)
FUNGICIDE
PRO-GIBB PLUS
ACID
ABBOTT
MERCK
ABBOTT
G1BREL
PRO-GIBB
GIBBERILLIC
GROWTH
l
REGULATOR
l
:
STATUS
I
l
t SUPPORT
I
NAME
:
:MANUFACTUR£R :
TRADE
DEFOLIANT
CCWON-NAME
2a-0ct-B3
GROWTH REB.
TYPE
APPROVED
APPROVED
APPROVED
' 1986
I
THROUGH i
APPROVED
APPROVED :
APPROVED
EPA
EXEMPT
0.20
3.00
i
!
hot
.05Ni
:
IC.^eUff:
(50.0 SPENT
:(.50 VINES)
0.10 :
1.00
0.50
PPM
.15 N<
(DRY)
TOLERANCE
PPM
: TOLERANCE
IGREEN)
:
LABEL
STATUS
EPA
PLEASE REFER TO PRODUCT LABEL FOR SPECIFIC REQUIREMENTS
CURRENT PRODUCTS
(TOLERANCE PLUS LABEL)
THIS LIST IS TO BE USED FOR INFORMATIONAL PURPOSES ONLY.
U.S. HCP PESTICIDE STATUS RETORT
(ORAL)
5000
157
10000
ORAL
1500
(DERMAL)
LD 50
TOXICITY
1
EMERGE
PRE-
:
!
I
CONTACT I
CONTACT
EKERGE :
PRE-
SYSTEMIC
CONTACT
CONTACT
ACTION
Of
MODE
SD
N/A
SD
SD
SD
SD
1
14
21
SD
R.E.I.
P.H. I.
i
APPL.
i
GROUND SPRAY
INCORPORATION
t SOIL
GROUND SPRAY
AERIAL SPRAY
GROUND OR
GROUND SPRAY
GROUND SPRAY
CROWN DRENCH
SHANK OR
GROUND
GROUND SRPAY
METHOD
APPLY WEN HOPS ARE DORMANT.
^>i^)/av A? rarafH^
SEX ATTRACTANT - HOT EFFECTIVE
DO HOT SPRAY OVER 1CP CROWNS
•NEGLIGIBLE.
APPLY,LATE FALL TO EARLY SPRING
LABEL REINSTATEMENT EXPECTED MID-1989.
ACTION EXPECTED IN 1ST QTR 1989
FOLIAR APPLICATION REQUESTED
•NEGLIGIBLE
COMMENT
oo
FUNGICIDE
TYPE
CCMMCH mi
28-Oct-Ba
(TOLERANCE WITHOUT LABEL)
CURRENT PRODUCTS
NAME
TRADE
U.S. HOP PESTICIDE STATUS REPORT
STATUS
; SUPPORT
MANUFACTURER
NUMBER
E.P.A.
STATUS
LABEL
60.00 i
PPK
PPM
EPA
TOLERANCE
(DRY)
TOLERANCE
(GREEN)
EPA
2,500
LD 50
(DERMAL)
TOXICITY
MODE
R.E.I.
P.H.I.
anymore.
OF
ACTION
ycucici i iy l
generally
older chemicals not to be used
APPL.
DO NOT FEED RESIDUE
:OLD LABEL MATERIAL OK. ADI STATUS POOR
:LABEL NOT RFJEUED DURING REGISTRATION
!
COMMENT
back
kut—fk)—e-f-f-f-l-av-ers-r-ma-y be brought
used in Europe, v.good efficacy
Coors taste panel found differences
AERIAL ^RAY , zfficfirt //7 *Z e\ jfa '
GROUND OR EXISTING SUPPLIES LEGAL »['{y £fhl/J.
SHANK
GROUND
METHOD
FUGICIDE
INSECTICIDE
TYPE
TR1FOR1KE
HETHCKYL
CQMKON.NAME
28-0ct-B8
!
:
i
PPN
PPK
SAPROL
(DRY)
(GREEN)
FMC
COLEMERCK
10,000
5,880
(DERMAL)
LD 50
NUMBER
t SUPPORT
NAME
STATUS
TOXICITY
EPA
TOLERANCE
EPA
OLERANCE
LABEL
STATUS
E.P.A.
MANUFACTURER
TRADE
FUNGINEX
CURRENT PRODUCTS
(TOLERAtCE WITHOUT LABEL)
U.S. HOP PESTICIDE STATUS REPORT
:SYSTEM1C
I
!
LOCALLY I
CONTACT
ACTION
OF
MODE
SD
R.E.I.
P.H.I.
APPL.
METHOD
^OlOcUyy »)i/{?t£uJ
U.S. METHODOLOGY DEVELOPED
"EXPIRES 1-12-90
CCWENT
cn
Momiay, OcronER 24,1988 A11
-.••-.
.,f,A
:2'
New Pesticide Policy Leaves Residue of Questions^
EPA Drops'Zero Risk'Rule to Allow New, Safer Chemicals, but Unproven Ones Stay in Use^
Congress did require the EPA to set limits^
on residues of pesticides that increase in con-" ."
centration during food processing.. But the".""
ByMichael Weisskopf
W1<hiiiK'""r"«S'.><r.Vrircr
Five years ago, the Environmental Protec
tion Agency denied a chemical company's re
task of quantifying concentrations is so com^*
plex that the agency has chosen not tosetlim-m*,
that could raise a heavy beer drinker's oddsof
useofthe pesticides—even onrawfoods. "_/&>
its on the residues. Instead, it simply prohibits";"
quest to market n fungicide for use on hops
At least a dozen pesticides that happen to^v
concentrate in processed foods have been kept^>
getting cancer by 1 in 100million.
Thedenial guaranteed a monopoly for a fun
off the market in recent years even though"""'*
gicide group used for years that is thousands
thov pose much lower (.nicer risks than oldernaTi
of times riskier.
chemicals with which they could compete-iG^ri'
approved, the EPA says.
• •••S'-^V.
Aliette, widely used in Europe to control's^-
Aliette was the lower-risk chemical caught
up in what a National Academy of Sciences
study last year termed the "Delaney Paradox."
downy, mildew, was rejected by the EPA forrio<!
Delaney was the New York congressman re
use on hops because it increased concentra?^^
Wtionduringdryingof the hops.
sponsible for a 1958 law governing pesticide
residue in food that, the EPA says, keeps new,
Nearly all of the pesticides in use todayylsO"
safer chemicals like Aliette off the market if
including the EBDCs that are used to treatwn
they carry any risk of cancer and increase in
hops, are based in active ingredients approvcdR.ii!-
concentration when the commodities on which
they are used get processed into soups,
sauces, juicesami baby food.
before the EPA required complete data 'omlrfi'
residue chemistry. Even though they may in^itr.crease in concentration in processed foodsandfl'
Ten days ago, theagency issued a new pol
icy to replace the "zero-risk" standard of the
pose higher cancer risks, they are permittedx:>c< .- f
to remain on the market simply because th^oiJ"
so-called Delaney Clause. Now, all pesticides
agency lacks the data to ban them under thoibiv
will be approved if they pose a " negligible
risk," increasing the odds of cancer by no
C WASHINGTON fOSI
more than 1 in 1 million.
Acknowledging thelegal uncertainty ofsuch
a move, EPA officials say the new policy is
necessary if older, more carcinogenic pesti
necessarily spell dcom for their forebears, it
could give regulators more justification for
Delaney Clause.
': ')•!"''
Meanwhile, new products like Aliette, ions*
which complete residue data is available, arejiitj'
rejected.
•
•.•dY
Gray said rigid interpretation of the De^-ft
But the agency offered no assurances for
removing those older chemicals, leaving open
replacing riskier clv.'micals.
"The utility of mere dangerous chemicals on
the market for the same purpose goes down a
a key question: Will shelving a law designed to lot," he said. "They can be removed without
creating some big ptoblem for thefarmer and
immunize the American food system fromcan
food supply. It will help us make better com
risk. It doesn't allow you to get rid of the bad-yfi.
cer-causing additives actually decrease the
chemicalsand leave the less bad ones in their,n,t,
cides are ever going to he rnpim.ru.
carcinogenic load?
According to Lawrie Molt, senior scientist
lower risk."
greater risk." While new carcinogenic pesti
pushed through his provision, he intended no
When Rep. James Joseph Delaney (D-N.Y.)
cides will enter the scene, albeit chemicals of
lower cancer risk, the El'A has no plan for
removing the older, more dangerous ones,
less a result for such processedfoods as ketch
Mott said.
In practice, the rule has confounded regu
lators for 30 yearsbecause df its conflict with
Noting that EPA already licenses 66 pes
ticides found to cause cancer in laboratory
animals, she said, "I don't want to hear that
they're going toadd six without taking off six.
up, peanut butter and apple sauce. The law
barred any food additive found to cause cancer
in man or animal.
the more liberal law governing pesticide res
idue on raw foods. For carcinogens, the EPA
You have to lock at safety of the entire food
generally permits residues on raw foods that
supply."
with the original zero-risk requirements for
Aliette may he an attractive replacement
for a ch.cmic.-d family known as EBDCs, the
only fungicides now used on hops, whose can
cer risks are as high as 1 In 10,000. But, Mott
increase.risks by 1 in 1 million, contrasting
pesticides on fruits and vegetables cooked and
rendered into processed foods.
But Congress realized the impossibility of
asked, if EBDCs are permitted to remain,- separating carcinogens legally permitted in
what incentive do farmers have to choose the rawfoods from processed foods, andit decided
newer, probably more expensive chemical to to permit the potentially cancer-causing res
idues in processed foods so long as they did
treathops used in beer and cattle feed?
EPA attorney; Edward Gray said that while not exceed the levels allowed on their raw
' the introduction of" neW pesticides does not ingredients.
EBDCs=
;o:».cs j-ju .v ,ua:... o^..^.« --.,.•..,!
cisions and scientifically untenable regulatoryjfer>
positions because it fails to allow you to dis^fe.
tinguish between a serious risk and a piddling ro'
parative decisions about which chemicals to
' ' '••^rhu.
keep and which notto keep. It should result in place."
"This policy change wasdesigned to remove.,^
at the Natural Resources Defense Council
(NRDC), the decision will "put the public at
laney Clause
ethylene-bis-dithiocarbamates
the barrier to sensible decision-making," he,lM7
said of the move to (he negligible-risk stanrij!*.;
dard announced Oct. 12.
o'Mnaii?
Some environmentalists who fear the cu,-?;,
mulative effects of carcinogens in the food.,-;;
supply say the only sensible decision is to ap-p^q;
ply the zero-risk standard of Delaney t.o!alfj3g:
pesticide residues in raw and processed foods.^
Others want guarantees, as a House billofr^j
fers, that for every .lew, carcinogenic pesti"^
cides approved, theEPA will eliminate anpUk^.
er, riskier chemical.
. . . ',...„»
Otherwise, says NRDC attorney Janet Ha£„£
thaway, "The only benefit is to the'makers of
new pesticides. The public health is not goiiig-jv
to benefit.
,,. r...,,
,i„n
Rhone-Poulanc Ag Co., the manufacturer b},^.
Aliette, views the new policy asan incentive-^j
to develop newer and safer compounds, said ^
spokesman Mary Anne Ford. "We areanxious.^
to see chemicals cleared that do provide^
greater margins of safety." ,.• / ;..; - '•', ti'-*ij
(zineb etc)
146
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CuiflanebtZineb
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155
Dr.
TO:
Al
Haunold
W.L.
An like r
Crop Science Dept.
CIBA-GEIGY Corp
Oregon State Univ.
Corvallis, OR 9 7331
811
SE
9 7th Ave
Vancouver,
WA 9 3664
LOCATION:
SUBJECT
3/7/88
FOLD1
TZefrlcf TftcA&eiye
MESSAGE
Al:
Enclosed is a copy of the Federal Register announcing the
increase in the metalaxyl tolerance to 50 ppm.
The increased tolerance is in effect for one year and can be
renewed.
I am told that residue studies are underway in
Europe that will maintain this tolerance on a permanent
basis.
RIDOMIL Plus (15% metalaxyl + 35% CU) can be applied six
times in Germany in addition to the soil application.
We have a submission in to EPA permitting the foliar
applications of the combination but it will not issue in
time for use in 1988.
Since a high tolerance is in effect,
it may be possible to get a 24-C registration to permit
this use in the present season.
Let me know if -you think
this would be possible and/or desirable.
Best regards,
SIGNED
REPLY
INSTRUCTIONS TO SENDER
n«tjrh Pink ft Gold CoDies (Retain for File ft Follow-uo)
DATE OF REPLY
DO NOT USE
CARBONS. THIS
REPLY TO
INSTRUCTIONS TO RECIPIENT
1. Write Reply at Bottom
156
Federal Register / Vol. 52; No. 200 / Wednesdny. October 20. 1007 / Rules and Regulations
41417
Table II.—Natural Gas Ceiling Prices: NGPA Sections 104 and 106(a)
/
I Subpart D. Pan 271)
/
Maximum lawlul price por MMBtu tor
delivonos modo in—
Category of natural gas and type ol sale of contract
Nov. 1987
Dec. 1987
Jan. 198fl
'A
Post—1078 gas:* All producors
1973-1974 Beinnium gas:
Small producer
Largo producer
Interstate Rollover gas: All producors
Replacement contract gas or recompletion gas:
10(a)
Small producer
Largo producer
Flowing gas:
Small producer
Large producer
and
:he
:nd
32.
„
_
:
$2,603
$2,689
$2,895
2.266
2.271
2276
1.733
1.737
1.741
.996
.998
1.000
1.271
1.274
1.277
.977
.979
.981
.645
.646
.64 7
.545
.546
.547
.756
.671
.758
.760
.672
.673
„..
.755
/.,...
.758
.7G0
.645
.646
.647
North subarea contacts daled alter 10-7-69.
Other contracts
_._
.614
.615
.569
.570
.335
.336
.616
.571
337
Certain Permian Basin gas:
Small producer
„
Large producer
-
Certain Roclcy Mountain gas:
Small producer
Large producer
Certain Appalachian Basin gas:
Minimum rate gas:1 All producers
71
1 Price lor minimum rate gas are expressed in lerms ol dollars per Mcf. rather than MMBtu.
• TNs price may also be applicable to other categories ol gas. (See § 271.402. 271.602)
3. Section 271.102(c) is amended by
ACTION: Final rule.
Food, Drug, and Cosmetic Act, propose
summary: These rules eslablish
residues of Ihe fungicide metalaxyl (A/-
inserting the inflation adjustment for ihe
.5
monlhs of August. September, and
October, 1987
y.
for
2,6-dimethylphenyl)-A'-
metalaxyl and ils metabolites in or on
§271.102 [>>
17 in
the establishment of a tolerance for
tolerances for residues of the fungicide
certain food and feed Items. These
regulations to establish maximum
permissible levels for residues of
metalaxyl were requested in a petition
submitted by Ciba-Geigy Corp.
effective date: Effective on October y
•i'i
>•:
Table III
28.1987.____________
by the document control number[PP
1.765
1.252
-.635
.361
..504
.103
.695
irice
num
vied.
C ol
See
••m
FOR FURTHER INFORMATION CONTACT:
It
of (FR Doc/07-24970 Filed 10-27-87: 8:45 am]
. .. BILUNOjtODE 6717-OJU
•
^^
•Fvi^; ^ftsllcWeTWeraricesJorMetalax yl;
•••££>. ,-ggrtain Food"and Feed ConTmoHitie's
,jf? AGENCY: Environmental Protection
in theFederal Register. If the following
calculations for total metalaxyl (ni)
557-1900.
-.-&* [PP7H5532/R91;FRL-3282-9J
'
Office location and telephone number:
Rm. 237, CM #2.1921. Jefferson Davis
'fffAGENCY
f^p^I-CFR Parts A93.jind_5&1'
These regulations expire 1 year after
Ihe date of publication of Ihe final rule
Agency, it will consider extending (he
Highway, Arlington, VA 22202, (703)-
*£VENVIRONMENTAL PROTECTION
^>o':Agency (EPA).
50 ppm.
Lois Rossi. Product Manager (PM) 21.
Registration Division (TS-7G7C),
Environmental Protection Agency, 401 M
Street SW.. Washington. DC 20400.
•H- ••
iew,
une
JeeiadMiv^QleiaBC£j2JU£ejiiJoEsat_
Protection Agency, Rm. 3708, 401 M
Street SVV., Washington. DC 20400.
Si.:= •
i.P • December......
.Li')-' January
the petition to IncltiHe a food addiTive
tolerance at 50 ppm on dry hops and a
7H5532/R921). may be submitted to the:
Hearing Clerk (A-110), Environmental
in.
188
million (ppm)PThc petitionerjimended
address: Wrilten objections, identified ,
•it - Month ol delivery 19#7 an\j 1988
(methoxyacetyl)alanine methyl ester]
and its metabolites containing Ihe 2,6dimethylaniline moiety, and N-{2hydroxymethyl-6-methenyl)-A'(methoxyacelyl)alanine methyl ester.
each expressed as metalaxyl, in or on
the commodity dry hops at 10 parts per
SUPPLEMENTARY INFORMATION: EPA
issued a proposed rule, published in the
are submitted and are acceptable to the
tolerance beyond the1-year time period:
Revised label with corrected
applied per year: residue data on
samples wilh analysis by the Pesticide
Analytical Manual (PAM-II) procedure
or another proven procedure that
determines parent and metabolites
Federal Register of August28.1987 (52
included in the U.S. tolerance
FR 3213B), which announced thai Ciba-
expression (storage intervals between
Ceigy Corp., Agricultural DivIsionTRC
JfoxjTnfOl), GreeiisboroTTTC~2??i9, had
submiTicTTpriTiofr7l 15532 to EPA
requesting thai the Administrator,
pursuant to scclion 408(c) of the Federal
samplingand analysis and storage
conditions should be reported for all
residue data).
There were no commentsor requests
for referral to an advisory committee
157
Federal Register / Vol. 2. No. 200 / Wednesday. October 2(1.' 1907 / Rules and Regulations
41410
received in response to the proposed
rule.
•
The data submitted in the petition and
all.other relevant material have been
evaluated and discussed in the proposed
residues of Ihe fiuij;ii:iile metalaxyl \N2.0-dimethy Iphenyl )-A;-
use retail prices lor appraisement of
property seized fur fnifeilnre in cures
(methoxyarelyl)ulanine methyl enter]
involving the criminal drug laws of the
and its metabolites containing the 2.0-
considered, the Agency concludes that
the tolerances will protect the public
hydroxyniethyl-0-mcthy Iphenyl )-A/(molboxyacctyl) alanine methyl ester,
each expressed as metalaxyl. in or on
United Slates. This is being done to
cnableiappraiscments in such cases to
be consistent with appraisements Jn
forfeiture cases not involving Ihe drug
laws.
/
health. Therefore, the tolerances arc
established as set forth below.
the following processed foods when
present therein as a result of application
EFFECTIVE DATE: October 8,1987i
rule. Based on the data and information
Any personadversely affected by this
regulation may. within 30days after
publication of this document in the
dimcthylaniline moiety, and A/-(2-
to growing hops:
Director. Asset Forfeiture Office,
Criminal Division, United States
Department of Justice, Washington. DC
Federal Register, file written objections
with the Ilearing Clerk, at the address
given above. Such objectionsshould
specify the provisions of the regulation
deemed objectionable and the grounds
20530; (2():») 7(10-1950.
SUPPLEMENTARY INFORMATION: The
regulations governing appraisement of
property seized for forfeiture in cases
involving tlie customs laws (19 CFR
PART 561—IAMENDED]
for the objections. If a hearing is
requested, the objections must state Ihe
Issues for the hearing and the grounds
for the objections. A hearing will be
2. In Part 501:
a. The authority citation for Part 5G1
continues to read as follows:
granled ifthe objections aresupporlcd.
bygrounds legally sufficient to justify
adding new paragraph (d), to read as
The Office of Managementand Budget follows:
has exempted this rule from the
§561.273 Metalaxyl.
requirements of section3 of Executive
Pursuant to the requirements of the
Regulatory Flexibility Acl (Pub. L. 90354, 94 Stat. 1161, 5 U.S.C. 001-612), the
Administrator has determined that
regulations establishing new tolerances
or raising tolerance levels or
establishing exemptions from tolerance
requirements do not have a significant
economic impact on a substantial
number of small entities. A certification
statement to this effect was published in
the Federal Register of May 4,1901 (46
•
•
*
*
residues of the fungicide metalaxyl [N(2,6-dimcthylphenyl)-A/-
(mcthoxyocelyl)alanine methylester)
and its metabolites containing the 2,0-
dimelhylaniline moiety,and A/-(2hydroxymcthyl-6-melhylphenyI)-A/(methoxyacetyl)alanine methyl ester,
each expressed as mclalaxyl, in or on
the following processed feeds when
present therein as a result of application
Parts per
million
Food additives, Animal feeds,
recordkeeping requirements.
amended as follows:
PART 193—[AMENDED]
InParll93:
a. The authority citation for Part 193
continues to read as follows:
Authority: 21 U.S.C. 346a.
b. Section 193.277 is amended by
adding new paragraph (d). to read as
follows:
§ 193.277
•
•
•
*
(d) A food additive regulation is
established until October 20,101)0, for
related forfeitures.
It has been determined that this is an
integral management mutter not
requiring consultation with the Office of
Management apd Budget under E.O.
12291. Moreover.'.this order will have no
impact upon siViall entities within the
meaning of the Regulatory Flexibility
Act, 5U.S.C.601,eiseo.
List of Subjects in21 CFR Part131G
Byvirtue/ofthe authority vested in me
by 28 U.S.C. 509, 510,and 5 U.S.C. 301,
follows:
PARTl'316-lAMENDEDJ
\RT1'316—[Ar,
.1
DEPARTMENT OF JUSTICE
1. The authority citation for Subpart F.
of ParA 1310 continues to. read as
Drug Enforcement Administration
folloyvs:
\
21 CFR Part 13t6
Authority: 21 U.S.C 871(1)^1801. DD5. Oilier
statutory provisions Interpreted orapplied
[A.G. Order No. 1230v87]
are cited to text in parentheses.
Administrative Functions^Practices,
ctipns{l
§1316.74 (Amended]
and Procedures; Technical
2i Section 1310.74 is amended by
removing the word "retail".
Amendment
A
\
i
agency: Drug Enforcement
Administration, Justice.
Metalaxyl.
•
(FR Doc. 87-219-11 Filed10-27-07: 0:45 am)
BILLING CODE 6S60-SO-M
ActingDirector. Officeof r>ss:ic:dc Prrgrcrr.;.
Therefore, Chapter I of 21 CFR is
appraisement regulations in nondrug-
Part1310 pfTitle 21 ofthe Code of
FederalRegulations is amended as-
Pesticides and pests, Reportingand
Dated: October 20.1987.
appraisement of propertyseizedfor
drug-related forfeitures, should be
Seizures and forfeitures.
List of Subjects in 21CFR Parts193 and
501
Susan H. Wayland,
retail price. The forfeiiurc regulations of
21 CFR 1318.74, which govern
amended for consistency with
(d) A feed additive regulation is
established until October 20,1980. for
to growing hops:
FR 24950).
274.7), and the nondrug-rclaScd laws
Investigation (20CFR&05), do not require
seized properly to be appraised at its
b. Section 501.273 is amended by
*
102.43). the immigration Ijws (0 CFR
enforced by the Fedcrul'Burcau ot
Authority: 21 U.S.C. 348.
the relief sought.
Order 12291.
FOR FURTHER INFORMATION CONTACT:
ACTION: Final rule/
summary: This order revises 21 CFR
1310.71 by deleting this roquiiemenMo
Date: October 0.1907.
Edwin Mcese III,
Attorney General.
|FR Doc. 87-21878Filed 10-27-07: $:-15 am
BILLING CODE 44 10-01-M
158
United States
Agricultural
Department of
Agriculture
Research
Pacific West Area
Service
DEFT. QF Cr?C? SCIENCE
COnVALLi5, OREGON 9733'
Wm. L. Anliker
Research & Development Representative
CIBA Geigy Corporation
811 SE 97th Avenue
Vancouver, WA
March 10, 1988.
98664
Dear Bill,
Thank you very much for the copy of the Federal Register dealing with
increased tolerance for metalaxyl. I assume that this increased tolerance
is alo in effect for the US hop industry, although I doubt that most of our
growers would come anywhere close to the 50ppm permitted now for one year.
Our hop industry would be extremely interested irr obtaining Ridomil Plus
for seasonal use in addition to the single soil-drench application.
Since
your company has already petitioned EPA for foliar application labels in
future years, I think we should be OK going through the 1988 season without
the 24-C registration. It is too early in the season to predict what mildew
situation we might have in late April, May or June, but from digging
planting stock in my yards we have not found many infected crowns.
For future years, a permanent label for Ridomil Plus woilild not only put the
US hop industry on an equal footing with our competitors in Europe but also
be a valuable and welcome additional tool
downy mildew disease.
in fighting the dreaded
Thank you very much for you cooperation and assistance.
Sincerely
Dr. Al Haunold
Research Geneticist
Crop-off station plots: Certified samples. Date indicates when
received at Ag. Chem La,
Basisl Ory Ueight B351V
Oate
Sanp if Oescnpi
Hardest
Hardest
9/20/88 N2l
triple, I115S Oregon
ettnana -•: 6, Go; chie
8G-255-X
9/20/88
\
\
69
CoH
Oil
x
\l? %8.4? ?259 \
LabHo
?.I6 88150
8.
1.10
1.29
1.80
.290
25
36
8.
3.01
3.03
3.33
.321
21 0.00
2,18
.362
28
.96
88166
88167
88170
9/28/88
lettnang Bale 3a *.l'i i
\
0
9/20/88
( '<-* •VS'l)
Bet? I Alpha Beta (^SI
Bales On, 'nc\Hl ph.
0
0
1.99
1,83
Uillane; e Bah •anpie
9/28/68
0
9.;
3.76
5.18
1.16
,300
35
.61
Oregon 2
9/28/88
0 10.t
3.68
3.62
1,12
.311
25
.52
Oregon 1 153
9/28/88
0
1.33
2.08
1.69
.306
2?
5.76
i.i
Uashmgi •n 21155
9/26/83
0
5,15
a.i>l
86-212-H !U50h 2 160)
9/28/88
10
f 13
9.11
(214 se)
9/28/88
21
BG-211-R
10.1
Oregon 1 191
fl-B 51550 (Oregon 21158)
10/01/88
0
10/21/88
0 11.[
fl-B 11551 (Oregon 2115?)
10/21/88' ' 0
fl-B 111552 (Oregon 2H56)
fl-B 31551, Oregon 21190, Bale 818
10/21/88
5,
u
1.93
88161
.286
23
,80
88172
.273
28 0.00
88171
88175
7.66
c
.263
22 0.00
3.19
1.19
.330
32
.56
88188
3.99
2.22
.350
26
.51
88190
.61
99
8.51
12. i
1.11
3.5:
1.70
1.07
.328
25
0 11.1
3.05
1.60
3.13
5.17
.3)5
28
10/21/88
0
8.6
3.16
6.72
3,16
7.35
.281
21
.76
fl-B 8116 (Uashmgton 2115?)
fl-B Jill (Washington 21155)
10/27/88
0 10.1
3.71
2.76
1,18
3.
,290
21
.73
88197
10/27/88
0 11.2
2.97
5.39
3.31
6.07
,269
23
.69
88207
fl-B
fl-B
fl-B
fl-B
10/31/88
0 10.6
3.11
7
3,52
1
j.
J.
.301
2?
10/31/88
0
8.6
2.62
2.85
2.87
3.12
.333
27
.65
38213
10/31/88
0
1.91
1.
2.09
1.55
.296
28
.82
88211
11/01/88
0 10.3
6.18
6.26
7.21
6.9?
.251
38 1,11
15
fl-B 21181 Lot S 21181 Bale 81
11/01/88
0
9.1
9.51
5,
10.19
6.50
.298
31
1.50
88216
fl-B Idaho 21155 Lot 81955 Bale 81 8G-106-5X
11/03/38
3.17
1.53
3.15
1,93
.111
23 1,25
88220
fl-B Idaho : 1156 Lot 81956 Bale 31 8S-106-6X
11/03/88
0
8.3
1.86
3.21
2.02
3.53
.362
28
.86
88221
fl-B Idaho 21157 Lot JI9S7 Bale 81 8G-106-7X
11/03/88
0
8.3
2.11
1
J. LJ
2.33
3.52
.355
26
1.18
88222
fl-B Idaho i 1158 Lot 81958 bale 83 8G-106-8X
11/03/88
0
8.2
2.07
1.50
2.25
1.90
.288
29
.80
88223
fl-B Idaho '.1159 Lot 81959 bale 81 8G-106-9X
11/03/88
0
8.7
2,70
2.72
2.96
2,97
,328
30
.85
88221
1.10
1.88
1.19
5.31
.332 28 1.01
88229
8.2
3,01
1.56
3.28
1.96
.322
27
.92
88230
2.96
1.60
3.22
5.00
.337
2?
1.00
88231
11/17/88
3.08
1.67
3.37
5.12
.326 31
.88
88232
11/17/88
3.18
1.60
3.16
5.00
,321
1.83
3.12
1.97
3.37
.399 28
Uashinqton
Uashinqton
Uashmgton
21181, Lot
USOfl 21156
USOfl 21156
USDfl 21156
USDfl 21156
USDfl 21156,
Lot 1158, Bale 812 (USOfl 21158)
Lot 821159, Bale 811 (USDfl 21159)
Lot 81159, Bale 88 (USDfl 21159)
1181, bale 826
Oregon,
Oregon,
Oregon,
Oregon,
Oreqon,
Idaho,
USDfl 21156, Idaho,
USDfl 21156, Idaho,
USDfl 21156, Idaho,
Bale
Bale
Bale
Bale
Bale
11/17/88
11/17/88
11/17/88
88193
28 1.00
88233
.92
8B231
82, Lot 1956
8 6, Lot 1956
8 7, Lot 1956
8 9, Lot 1956
11/21/88
0
7.1
11/21/88
0
7.5
1.81
3.01
1.95
3.29
.379 28
.68
88235
11/21/88
0
8.2
1.87
3.03
2.03
3.29
.363 28
.92
88236
11/21/88
0
7.9
2.08
3.11
2.26
3.73
.362
.81
88237
Idaho, Bale 813, Lot 1956
11/21/88
0
5.
2.07
3.18
2.19
3.37
.370 30
Idaho,
Idaho,
Idaho,
Idaho,
11/21/88
0
8.5
2.56
2.61
2.80
2.86
.351
28
.12
8B239
11/21/88
0-- 9.1
2.51
2.56
2.81
2.82
.358 27
.76
88210
11/21/88
0
8.7
2.53
2.10
2.77
2.63
.316 28
.01
88211
11/21/88
0
8.1
2.72
2.55
2.96
2.77
.338 27
.61
88212
USOfl 21159, Idaho, Bale 810, Lot 1959
11/21/88
0
8.7
2.87
2.79
3.11
2.95
.310 29
.60
88213
USDfl 21156, Uashmgton, Bale 8 1, Lot 86
USOfl 21156, Uashington, Bale 85, Lot 86
11/29/88
0 10.6
1.13
2.11
1.27
2.10
.11? 29
.63
88211
USDR 21156
USDfl
USDR
USDfl
USDfl
USDfl
21156,
21159,
21159,
21159,
21159,
Bale
Bale
Bale
Bale
86
CIO
812
817
821
•>-!
88191
88192
Bale
Bale
Bale
Bale
83, Lot
85, Lot
86, Lot
89, Lot
1959
1959
1959
1959
28
11/29/88
0
9.9
1.10
2.21
1.22
2.16
.110 28
.56
88215
USDfl 21156, Uashington, Bale 86, Lot 6
USDfl 21156, Uashington, Bale 88, Lot 6
11/29/83
0 10.1
1.17
2.26
1.30
2.52
.116 28
.51
88216
11/29/88
0 10.6
1.29
2.21
1.11
2.18
.130 30
.56
88217
USDfl 21156, Uashinqton, Bale 8 9, Lot 6
11/29/88
0 10.3
1.09
2.19
1.21
2.11
.132 28
.51
[USDR 21458, Uashington, Bale 36, Lot 1159
11/29/88
0
2.03
1.36
2.21
1.80
.311
27
.91
11/29/38
0 10.1
1.71
1.10
1.91
1.58
.337 29
.71
11/29/88
0
2.25
3.83
2.16
1.19
.321
27
.73
88251
.13
88252
.98
88253
88251
JUS0fi2145&,
ZJ4SS ' USDR 21153,USDfl 21151,
, USDfl 2115J,
USD)) 21159,
USDfl 21159,
USDfl 21159,
USDfl 21159,
Uashington, Bale 88, Lot 1159
Uashington, Bale 8I8, Lot 1159
Uashington, Bale 820, Lot 1159
Uashington, Bale 821, Lot 1159
Oregon, Bale 811, Lot 21159
Oregon, Bale 816, Lot 21159
Oregon, Bale 821, Lot 21159
Oregon, Bale 822, Lot 21159
USDfl 21159, Oreqon. Bale 832. Lot 21159
9.2
8.6
11/29/88
0 10.0
1.91
1.23
2.16
1.70
.306 26
11/29/88
0 11.7
2.12
1.33
2.10
1.90
.301 26
B8219
11/29/88
0 11.0
2.10
2.82
2.70
3.17
.380 25
.63
11/29/88
0
9.2
2.62
2.75
2.89
3.02
.366 23
.71
88255
11/29/88
0 11.2
2.56
3.00
2.89
3.38
.311
.71
B8256
11/29/88
0
9.6
2.61
2.77
2.89
3.D6
.372 25
.67
88257
11/29/88
0 11.3
2.57
2.71;
2.89
3.09
.359 23
.73
8B258
25
159
1988 Off-Station Plots:
Samples analyzed for Anheuser Bus ch Inc.
Busch Agricultural Resource;
38^
nL/g
Group
Results on fis Is Bas15
Alpha
«L Oil
X Alpha
« Beta
Ratio
CoH
lOOg I tlyrcene
21155 Id
3,2
1,5
12
23
1,25
21155 Ua
3.1
5.1
38
23
0.80
fl-B 8141, 21155 Ua
3,0
5.1
36
23
21155 Or 8G-21H
5.0
7.2
11
21156 Id
1.9
3.2
21156 Ua, 8G-136-H-06
fl-B 81552, 21156 Or
1.2
0
L.3
3.0
2115? Id
2.1
Identification
159a
[11
-i
i^.
'.11 0/.DC
roup
roup jroup
[21
[31
[11
Labh'o
• H/C
H/F
15.6
2.15
169.10
9513
518
189
171
38.9
2.12 1273.00
6033
612
92
Lli
88172
0.69
10.9
2.50
150.10
5879
87
51
265
8820?
22
1,16
13.6
2.65
136.91
9676
160
83
360
83150
37
23
0.86
31.7
3,29
1S2.51
6891
317
107
351
B8221
31
30
0,45
21.3
3.31
191.51
3683
132
39
210
83211
1.6
39
23
0.90
38.3
3.31
30.58
7119
121
82
309
88192
3.2
10
26
1.13
11,5
3.16
115.03
9689
175
132
136
88222
3,02
111.66
6053
63
81
232
88197
1
T)1
88220
fl-B 8116, 21457 Ua
fl-B 51551, 21157 Or
3.7
2.8
57
24
0.73
18.2
1,1
3.6
53
25
0.61
35,2
3.27
160.26
5112
133
11
211
83191
21153 Id
2,1
1.5
32
29
0.80
29.7
3.30
170.31
6699
112
76
298
88223
88211
21158 Ua, Lot 1158
1.9
1.2
31
28
0.82
25.0
3.28
65.27
6776
13?
72
370
21158 Or
1,9
1,3
31
2?
1.00
26.9
3.21
61.26
3120
167
85
385
88171
fi-B 81550, 21158 Or
2.0
1.0
33
26
0.51
23.2'
3.38
185.76
1201
235
68
212
88190
n
L, 1
2.7
50
30
0.85
17.2
3.21
3,59
6890
106
99
537
88221
21159 Ua, Lot 1159
3.1
3,5
17
27
0.82
50.7
3.19
4.13
6325
6?
69
160
88212
21159 Or
3.2
3.7
16
25
0.92
45.1
3.25
3.91
6955
Ill
59
195
88170
21159 Or, Lot 21159
2.6
2.8
18
2?
0.65
30.5
3.29
3.81
1981
103
54
576
38213
fl-B 8112, Aquila Id
fl-B 8118, ftquila Ua
R-B 8116, flquila Or
1.7
3.9
55
15
0.12
29.1
0.13
3.97
1523
12
150
50?
88195
6.9
1.9
58
12
1.56
55.5
0.10
5.00
9639
80
502 1200
83198
7.3
1.1
61
50
1.23
52.2
0.12
5.38
7198
59
391 1071
88218
fl-B 8115, Banner
R-B 8126, Banner
21181, Lot 21181
7,7
1.1
65
33
1.09
19.1
2.73
111.89
3396
278
233
316
88196
13681
91
276
119
88201
21159 Id
n
I0.2
5.1
65
33
1.62
55.7
2.51
112.90
9.5
5.9
62
34
1.50
17.3
2.77
95.56
11732
188
381
198
88216
21181 Ua, Lot 1181
6.5
6.3
51
33
1.15
12.5
1.69
130.61
9301
119
121
601
88215
R-B 8152
7.1
7.1
50
40
0.82
28.4
1.81
69.70
6126
115
71
541
38219
fl-B 81551, 21190 Or
3.2
6.?
32
21
0.76
14.0
3.28
192.88
6139
137
71
171
88193
fl-B 1150
4.9
7.6
39
17
1.05
46.0
3.07
31.59
3712
110
125
30?
83208
Tettnanger B USDR 21197 8G-211-E
3.9
1.1
1?
25
0.32
41.3
2.61
1.11
251?
58
13
59
38151
fl-B 8410
2.3
3.7
13
20
0.21
33.2
2.36
1.95
1711
65
22
65
88189
fl-B 8431
1.6
3.5
57
36
0.88
53.1
2.85
3.88
7521
53
76
215
83191
fl-B 8113
3.4
3.2
52
37
0.79
31.3
2.80
3.9?
6119
113
67
311
88217
fi-B 8136
3.9
2.5
61
28
0.76
45.1
3.01
5.61
6133
71
71
219
88205
fl-B 8131
3.6
2.1
60
29
0.73
19.1
2.91
5.26
6211
64
67
187
88201
R-B 8153
3.3
2.1
58
31
0.57
17.5
2.9?
5.01
1901
52
53
118
88209
fl-B 8433
2.7
1.7
61
32
0.10
37.0
3.03
6.17
3380
61
36
124
88203
0.71
12.9
2.69
5.35
6021
168
88
215
88202
0.59
35.2
2.99
7.05
4669
116
63
217
88199
112
83200
R-B 8427
3.1
2.9
52
34
R-B 8422
4.6
2.0
70
27
fi-B 8421
6.3
2.8
69
27
1.12
16.3
2.92
1.10
11836
138
168
fl-B 8110
7.1
1.3
63
21
1.11
16.6
2.01
17.68
8775
125
259 1353
Group [11 Major Hydrocarbons, Group 121 Oxidation Products, Group [3] Floral-Estery, Group [1] Citrus-Piney
160
Busch Agricultural
Si Resources, Inc.
October 28,
3/(/^m-^rro
1988
Ms. Gail Nickerson
Department of Agricultural Chemistry
Oregon State University
Corvallis, OR
97331-6502
Dear Gail:
Enclosed is a table presenting the inventory of the 1988 triploid
Hallertau crop.
Per our telephone conversation, complete analysis is to be
run on all varieties and all locations.
./
/
/
/
It is recommended that Oregon Hallertau and Tettnanq data be
placed in the data tables for the HRC research report to furnish
a reference point.
BARI will pay for the chemical analysis of this group of samples.
Please contact me if you need more material or have a missing
sample.
We appreciate your effort in handling the large workload from
the 1988 crop.
It makes for a great day when you have 318 bales of triploids
in storage for the hop industry to evaluate.
Yours sincerely,
\
. '
' > ••
' '
Paul H. Hoskins
PHH/vw
cc:
A. Haunold
S. Likens
Karl Weathers
Bob Coleman
Paul Serres
Bob Stauffer
Don Weathers
ii
n
ii
ii
Herman Goschie
ii
Oregon
ii
Ron Brulotte
n
Ken Gamache
Haas
•I
I.
J.
ii
Steiner, OR
Barth, OR
Steiner, OR
390
493
312
625
29
23
36
18
OR
Western,
493
23
OR
Steiner, OR
21
Western,
$
II
Barth, WA
535
26
436
535
21
Steiner, WA
5,625
2
$
Haas-Buena No
43
669
H
it
17
11
ii
3,750
1,041
n
Steiner, WA
Steiner, WA
3
ii
937
750
625
Location
Bale
$
Storage
Price Per
350
12
Tom Carpenter
15
18
ii
ii
Washington
H
ii
ii
*21455 will be released under the commercial name of Hood.
21457
21458
21459
21490
21455*
21456
21458
21459
21455*
21456
21457
21456
21457
21458
21459
21455*
of
Bales
No.
n
Dan Dixon
Idaho
Variety
ii
Grower
Yard
Location
1988 CROP
TRIPLOID HALLERTAU INVENTORY
162
Department of
Agricultural Chemistry
Coll&ge of
Ftgr icn 11 ura 1 Sc ierces
:.r-vallis,
One^Dn
y7331-65U2
<5B3
54-2386
October
Dr.
R.
A.
17
988
Beaton
DSIR, Crop Research Division
Riwaka Research Station
RD
New
3
Motueka
Zealand
J^nu^k?
A/277'*$r
Dear Ron ,
I apologize for taking so long to get your results to you, among other things we
moved our lab.
One of the reasons I have taken so long is the puzzle that your
germ plasm samples of Hallertauer, Saazer, and Tettnanger present.
The results
of the oil analyzes are quite different from the samples we have in our germ
plasm collection.
We did spectrophotometry <and HPLC analyses and the results
are also different from our samples. The NZ Hallertau sample has farnesene in
the oil which we do not find in Hallertau mittlefruh or Hallertauer diploid and
tetraploid genotypes.
However, there is a Hallertau clone grown commercially in
Idaho and Washington that has farnesene in the oil but the
humulene/caryophyllene/farnesene proportions are different.
Your clone has more
humulene and less farnesene than the clone grown commercially in the US.
The
OSU Saaz has farnesene higher than caryophy1lene , while your sample has little,
if any, farnesene. Your Tettnang sample has less farnesene than our genotypes
and the proportions of alpha/beta are different. It would be easier to ignore
the differences if we didn't get comparable alpha and beta-acids and cohumulone
contents on Sticklebract , Green Bullet, and SuperAlpha grown in Oregon and New
Zealand.
I'm sending the chromatographs along with a table of the results. The computer
printout gives the percent of each peak and also the ppm of each peak (nL/g
hops).
I am also including a table of average results on Oregon grown aroma
types.
Sincerely ,
Gail
Nickerson
Chemist
enc
163
NEW ZEALAND SAMPLES
i ; 300
LT\ u r
i
_m\
As
GROUP
mL
Oil
ppm
%
%
C/F
Myr
Hum
H/C
SuperAlpha
1 .24
50. 1
20.0
3.58
Green
Bullet
0.60
55.0
17.7
3. 15
St icklebract
1 .00
50.6
9.9
1 .82
2.5
1 .4
Alpharoma
1 .04
38. 1
24.8
3.58
7.8
2. 1
Pacific
0.92
53.3
18.4
2.94
NZ 77-05 tizHtfl.
0.80
45. 1
12.5 2. 1 1
NZ
0.33
37. 1
100 q
Identification
Gem
85-6-14
Saaz
/
Tettnang
-^
Hallertau
1
i
5. 1
0.30
23.7
0.28
22.5
35.0
23.6
37. 1
J r,
v>c~
'
IL
2.9
1
9 ,268
4,952
7,235
7,457
7,833
5,828
1 ,396
2 ,414
2,002
1 ,982
1 .4
1 .29
38. 1 3.55
0.32
H/F
3.73
3.30
/..
3.9
1 .1
8.2
2.5
•f
i>.6\
Notes:
in hop s
^1
(r Ll
&
g)
^
3
4
242
533
10.1
(c-5
98
1 10
156
B.8
c.l
175
77Q
796
<\n
51. L
210
172
342
<U
4.c
151
139
251
a*
(,.t>
189
150
437
B.o
sr.C
55
171
61 1
4.o
z-s
136
38
153
i.t.
124
25
77
"4.1
ic
4-fc,
95
25
102
lA
2,4-
*C &{ 3-(t
<'
T^
" 7"'
'kycr?
apparatus, 250g hops with 5L water. Internal• standard (0.025 mL ) was added to
pot and % internal standard in volatiles was used to calculate amount of
and identify peaks.
Group 1. Major Hydrocarbons: Beta-pinene, myrcene, caryophy 1lene , farnesene and
humulene.
Group 2. Oxidation Products (of caryophyllene and humulene): caryophyllene
oxide, humulene monoepoxides I, II, III, humulol , humulenol II,
humulene diepoxides.
Group 3. Floral-Estery: Linalool , geranyl acetate, geranyl isobutyrate
(+pentadecanone-2 ),
and geraniol.
Group 4. Citrus-Piney: Limonene, Four sesquiterpenes (post-humulene )-cadinenes/
muurolenes/selinenes.
Gas Chromatography: 30m x 0.25 mm ID SUPELCOWAX-10, 0.25 micron film thickness,
bonded fused capillary column. 0.9 mL He/min column, 1:100 split ratio.
Flame ionization detector.
Temperature "80'C for 5 min, then to
155°C at 5°/min then to 250°C at 4°/min and hold.
%£> U_
c.
188
Oil Content measured from six hour steam-distillation, Wright @ Connery
volatiles in hops (ppm, nL/g)
IS
+1
4-T
+6
3o
4-44-o
So
'•}<$
31
3 2-
164
European Uarieties in OSU
Germ
mL
A
I dent i ficat ion
_< J_0 ppm Farnesene
Hallertau Diploid
Hallertau Tetraploid
Alpha
4.3
3.8
5.0
Hallertau
mittlefruh
Farnesene
> Caryophyllene
Beta
A+B
4.6
48
3.9
4.6
PI asm
CoH
21
25
49
Co 11 ect ior
oil
Humu
3.47
44.5
32. 1
1 .05
3.77
35. 3
38.2
31 .7
39.7
H/C
0.73
H/F
52
20
0.80
3.45
55
24
0.56
3.45
1 .7
41 .6
21 .4
•n
0.66
3.41
1 .5
45.2
1
Tettnanger ( 1956 )
Tet tnanger ( 1964 )
4.
4
i
4
7
49
Saazer
4
3
j
6
54
24
0.62
3.37
1 .9
37. 1
Spalter
5
4
6
55
23
0.62
3. 43
1 .4
45.4
D
c
65
2b
1
02
.93
5.6
43
8
66
26
0
91
0
65
28
0
92
7
67
27
0
91
Farnesene
<
-"7
1
.
n
5
9
5
5
5
6
5
6
New
n
3
n
1
17.2
mL
A
Alpha
42.7
26.9
7.5
44.3
28.5
6.5
49.8
25.4
100 fl
H/C
66
41
1 .00
3. 1 1
66
42
1 .29
1 .75
63
"7 "7
1 .55
3.45
Bullet
9.4
4.7
Sticklebract
1 1 .7
6.0
1 1 .5
6.7
oil
CoH
A+B
I dent i ficat ion
;.08
5.7
Zealand Uarieties grown in Oregon
Beta
SuperAlpha
1
Caryophy 11 ene
Fuggle N
Fuggle H
Styrian
Golding
Green
%
1
Myrc
100 fl
D
1
H/F
2.3
Myrc
Humu
51 .6
25.9
40.8
1 ~?
41 .7
25.9
"?
165
t- •? ' 5 ?
se|?s!i
EB-t-c.
S 6 "52
SZ'BI
t
166
9Z -£e
sa-.es
ci.
ct
—
'.J. J
Zfr -QP.
s s '£;
£9^
—4
a
1
r-
££•£1
J
Q
B2
I£"BT
r=
_l
£!•=*-
£5*2
9s-e
J
*
:C
C
'
(
;
167
<5>
z"t;
£'t-o
<-.;-;
r.
ee'ia
b%x-W-
^
ez'si
if &
gg'l
^
^
168
- - -3? "I:
u
-J
v9
o
^t- •<?-?
i^'r-Z
X
GO
TS-cE
28-6
?
"rth1 ^ o".ht-.'!
:irw^:;r,.,tT.|
it**ai!
-W
Mi
«
GRAPHIC CONTROLS CORPORATION
BUFFALO NEW YORK
2
14-84
GC GC-WAI 74703/HP 9270 0625
F = Farnesene
H = Humulene
C = Caryophyllene
L = Linalool
IS= Internal Standard
M = Myrcene
PEAK IDENTIFICATION
then to 155°C at 5"/nin then to 2tO"C at 2'/nin. Chart speed 0.5 cn/nin.
Heliun carrier gas: 35 psi tank, 11 psi colunn pressure, lotal flou 112 cc/nin.
Sanple size: 2 nicroliters of 10Z solution in pentane, 1:100 split ratio.
HP 583QH EC uith flane ionization detector, attenuation x 8.
0.25 nicron filn, 30 n x 0.25 rm 10. Initial tenperature BO'C for 5 nin
ELC Conditions: SUPLtCOUflX-l0 bonded phase on fused silica capillary colunn,
OR
UFF)
GRAPHIC CONTROLS CORPORATION
OUFFALO. NEW TORK
21490
GC GCWAI 74703/HP 9270 0625
F = Farnesene
H = Humulene
C = Caryophy1lene
L = Li na1oo1
IS= Internal Standard
M = Myrcene
PEAK IDENTIFICATION
Heliun carrier gas: 35 psi tank, 11 psi colunn pressure. Total flou 112 cc/nin.
Sanple size: 2 nicroliters of 10X solution in pentane, 1:100 split ratio.
HP 56308 6C with flane ionization detector, attenuation x 8.
then to 155'C at 5Vnln then to 210'C at Z'/nin. Chart speed 0.5 cn/nin.
0.25 nicron filn, 30 n x 0.25 m 10. Initial tenperature 80'C for 5 nin
ELC Conditions: SUPELCOUflHO bonded phase on fused silica capillary colunn,
OR
o
"171
USDA 21456, grown in Oregon. 1
Typical oil chromatogram
from bale No. 17 (see next page)
OP-
1\<\5b
&dU*(?-
O
2l4S<i.
oil.
LO C3
CXZ 2 H5fo "feW^R^
0(2.
LuHoCc
^e*«^
HYDeocflSS^S
o/V6CMrtTFt>
Lai^Mo S5232.
U\>tto 0323:
172
Hop Chenistry Section (503) 754-2906
Agricultural Chenistry Department
USDA 21456 (tripl .Ha llertauer seedling)
grown in Oregon(Weathers,Salem) in 1!
Oregon State University
Representative oil composition
Corvallis, Oregon 97531-B502
Sample Identification: USDfl 2145G , Oregon, Bale #17
Moisture
Laboratory Serial Number: 88232
As
is
Basis
Content
% Alpha-Acids
3. 1
% Beta-Acids
4.7
Oil
Content (mL/100g)
.88
.96
% Uoiatiles (from IS)
1 .45
.59
Alpha Ratio: 40
Hop Storage Index:
(%):
8. 75
Dry Weight Basis
3.4
Cohumulone : 3 1 . 1
0.:
Calculated % Remaining:
Hop Oil Composition
Compound
Rel
RT
Area
%
87.j
ppm at 8% moisture content
nL Uolatiles/100g
nL oil/100g
Beta-Pinene
0.424
0.363
32.22
53.26
Myrcene
0.501
27.673
2455.20
4058.32
Limonene
Internal
Standard
0.5G9
0. 103
9. 10
15.04
1 .000
0.687
100.00
100.00
Linalool
1 .349
0.466
41 .36
68.35
Caryophyllene
1 .484
11.899
1055.76
1745.11
Farnesene
1 .617
0.352
31 .26
51 .67
Humulene
1 .652
40.899
3628.72
5993.03
Sesquiterpene 1
Sesquiterpene 2
Geranyl Acetate
Sesquiterpene 3
Sesquiterpene 4
Geranyl Isobutyrate
1 .742
1 .000
88.76
146.71
0.406
36.06
59.60
0.000
0.000
0.00
0.00
1 .813
2.074
183.98
304. 10
1 .821
1 . 103
97.86
161 .76
1 .920
0.257
22.83
37.74
1 .958
0.034
3.05
5.05
20.53
33.94
1 .750
Geraniol
Caryophyllene Oxide
Humulene Monoepoxide I
Humulene Monoepoxide II
Humulene Monoepoxide III
2.298
0.231 ..
2.332
0.239
21 .23
35.09
2.415
0.969
85.95
142.07
2.439
0.221
19.60
32.40
Humulol
2.651
,t 0.276
24.46
40.43
0.000
''0.000
0.00
0.00
0.000
0.000
0.00
0.00
Beta
Eudesmol
Alpha Eudesmol
2.817
0.035
3.12
5. 16
Farnesol
2.991
0.412
36.51
60.35
Humulene Diepoxide A
Humulene Diepoxide B
0.000
0.000
0.00
0.00
0.000
0.000
0.00
0.00
80.824
71 12.47
11756.54
1 .971
173.46
286.72
.758
66.63
4.686
412.36
681.61
88.239
7764.99
12835.11
Humulenol
II
Group
Group
Group
Group
1,
2,
3,
4,
Major Hydrocarbons
Oxidation Products
Floral-Ester
Citrus-Piney
Total
Accounted For:
Humulene/Caryophyllene
Humulene/Farnesene
Caryophyllene/Farnesene
3.437
116.090
33.77S
110.24
US-DA-2-7t-45-6--g rown- in Washington, 1988 crop: Typical oi Vchroma4G-g^am-(^aT-e-4iar-6;
173
t-FJE>
0824b
loA Z.4SG, ^ALfJ -ifcG
OJ
UA 2V4-SC, BAL?c *G
irt^; -:
r
—
~
^YDR^CPr^S=t5VJ-
COT
C
&e>z44>
a
c
trj
_
\M 214S&, BM-E*k
©*Y<qEK> M:E5>
892^3
174
Hop Chemistry Section (503) 754-2 906
USDA 21456 , 1988 season, Washington
Agricultural Chemistry Department
Oregon State University
Corvallis, Oregon 97331-6502
Representative oil composition
Sample Identification: USDA 21456, Washington, Bale #6, Lot 6
Laboratory Serial Number:
Moisture
88246
As
Is
asis
Content
% Alpha-Acids
1.2
% Beta-Acids
2.3
2.5
Oil Content (mL/100g)
% Volatiles (from IS)
-54
.90
1 .00
.60
Hop Oil Composition
Rel
Beta-Pinene
0.421
Area
RT
%
0.395
Myrcene
0.496
'19.040
Limonene
0.565
0.099
Internal
Standard
Linalool
1'
i .j
Alpha Ratio: 34
Cohumulone: 27.5
Hop Storage Index: 0.416 Calculated % Remaining
Compound
(%):
Dry Weight Basis
75.6
ppm at 8% moisture content
nL Uolatiles/100g
nL oil/100g
21 .84
1053.21
36.24
1747.30
5.49
9. 1 1
135.14
1 .000
1 .507
135.14
1 .349
0.575
31 .78
52.72
1277.53
Caryophyllene
1 .485
13.92 1
770.08
Farnesene
1 .624
0.239
13.22
21 .93
Humulene
1 .655
46.474
2570.73
4264.98
Sesquiterpene 1
Sesquiterpene 2
Geranyl Acetate
Sesquiterpene 3
Sesquiterpene 4
1 .743
1 .013
56.04
92.97
1 .752
0.466
25.78
42.76
0.000
0.000
0.00
0.00
1 .814
2. 102
1 16.30
192.94
1 .823
1 .076
59.51
98.74
Geranyl Isobutyrate
1 .923
0.264
14.61
24.24
Geraniol
1 .960
0.045
2.50
4.15
2.301
0.494
27.34
45.36
2.366
0.379
20.95
34.75
2.417
1 .785
98.72
163.78
0.000
0.000
0.00
0.00
0.357
19.75
32.77
Caryophyllene Oxide
Humulene Monoepoxide I
Humulene Monoepoxide II
Humulene Monoepoxide III
Humulol
2.657
Beta
0.000
Eudesmol
'•
0.000
0.00
0.00
0.00
0.00
Alpha Eudesmol
0.000
0.000
Humulenol
0,000
0.000
0.00
0.00
21.20
35.17
II
Farnesol
3.000
0.383
Humulene Diepoxide A
Humulene Diepoxide B
0.000
0.000
0.00
0.00
0.468
25.90
42.96
79.674
4306.68
7144.89
3.483
138.27
312.34
.884
47.78
4.136
Group 1, Major Hydrocarbons
Group 2, Oxidation Products
Group 3, Floral-Ester
Group 4, Citrus-Piney
Total Accounted For:
Humulene/Caryophyllene
Humulene/Farnesene
Caryophyllene/Farnesene
3.338
194.466
58.253
79.27
4.757
257.11
426.55
88.797
4799.84
7963.05
US-DA-2-1456-:—Typ-v&a-l-oi 1- chromatogram.
1988 season, I-dah-o,-
-175
(bale No. 13).
£S23S
•A-Ho 2.14-S"^ ^'ALH ^3
CD
CO
C? • -• CM
ervco
'^Sx.
#•0-
s
•
sj *vj
. T
u
uu
H ,- fldLriA
lO/VKo
2l4s^6> ^L£*l5
IDArHo
2.14^6,
i "J
cj-«
c^ __
Mrt>ft)^^B7j/0i
O^Y^e/oft-T^b
$3Z?e
176
1988 season:
Hop Chemistry Section (503) 754-2 906
Agricultural Chemistry Department
typical analysis and oil chromatogram
Oregon State University
Corvallis, Oregon 97331-6502
Idaho , Bale #13, Lot
Sample Identification: USDA 21456
Laboratory Serial Number:
88238
Moisture
Basis
As
Beta-Acids
Oil
J
Content (mL/l00g)
% Uolat iies (from
IS )
Alpha Ratio: 39
Hop
Storage
Hop Oil
Index
Cohumulone
370
1956
Content
(%):
5.60
Dry Weight Basis
.1
% Alpha-Acids
%
USDA 21456, Idaho
2.2
.4
. L
.34
89
.09
15
30.4
Calculated % Remaining
Composition
Compound
Rel
Area
RT
%
ppm at 8% moisture content
nL Uolatlles/100g
nL oil/100g
Beta-Pinene
0.422
0.692
56.61
73.41
Myrcene
0.503
'43.453
3557.27
4612.74
Limonene
0.000
0.000
0.00
0.00
Internal
1 .000
0.918
100.00
100.00
Standard
Linalool
1 .350
0.926
75.77
98.25
Caryophyllene
1 .484
9.026
738.87
958.10
Farnesene
1 .618
0. 164
13.45
17.44
Humulene
1 .652
29.463
2411.99
3127.65
Sesquiterpene 1
Sesquiterpene 2
Geranyl Acetate
Sesquiterpene 3
Sesquiterpene 4
Geranyl Isobutyrate
1 .743
0.706
57.79
74.94
33.09
1 .752
0.312
25.52
0.000
0.000
0.00
0.00
1 .814
1 .348
110.37
143.12
1 .822
0.758
62.04
80.45
1 .923
0.210
17. 19
22.29
Geraniol
1 .960
0.033
2.67
3.46
Caryophyllene Oxide
Humulene Monoepoxide I
Humulene Monoepoxide II
Humulene Monoepoxide III
2.302
0.427
34.99
45.37
2.367
0.282
23.1 1
29.97
2.418
1 .525
124.82
161.86
2.444
0.209
17.15
22.23
Humulol
2.657
0.171
14.00
18.16
Beta
0.000
0.000
0.00
0.00
0.000
0.00
0.00
Eudesmol
Alpha Eudesmol
0.000
:'
2.824
0.046
3.74
4.85
Farnesol
2.999
0.258
21 .09
27.35
Humulene Diepoxide A
Humulene Diepoxide B
0.000
0.000
0.00
0.00
4.183
0.039
3.22
4. 17
Humulenol
II
1. Major Hydrocarbons
2.106
Group 2 . Oxidation Products
Group 3. Floral-Ester
Citrus-Piney
Group 4
2.700
226.79
1 .168
98.12
127.23
3.124
262.39
340.24
89.098
7484.23
9704.8E
Group
Total
Accounted For:
Humulene/Caryophyllene
Humulene/Farnesene
Caryophyllene/Farnesene
3.264
179.329
54.934
8943.30
294.08
177
USDA 21458. grown in
Washington;
1988 season.
Typical oil chromatogram
(bale No.
6).
*1S
SS24^
um -MHA W
*^
**. ±>
-r^Lu.
"f
oj
itSLi^fLi
toA- Mq£&\ ^-^
H\/<dro carbons
©^.ygevvrk^ci
a 824^
17g
Hop Chemistry Section (503) 754-2906 USDA 21458 grown in Washington in 1
Agricultural Chemistry Department
Typical oil Composition.
Oregon State University
Corvallis, Oregon 97331-6502
Sample Identification: USDA#i4:5~# Washington, Bale #6, Lot
Moisture
Laboratory Serial Number: 38249
Is Basis
As
Content
9.20
Dry Weight Basis
% Alpha-Acids
2.0
2.2
%
4.4
4.8
Beta-Acids
459
(%) :
Oil Content (mL/100g)
.94
1 .04
% Volatiles (from IS )
'1 .44
1 .53
Alpha Ratio: 32
Cohumulone: 26.9
Hop Storage Index: 0.311 Calculated % Remaining: 89.6
Hop Oil Composition
Compound
Rel
Beta-Pinene
0.421
RT
Area
%
0.396
ppm at 8X moisture content
nL Volatiles/100g
nL oil/100g
37.77
57.64
Myrcene
0.499
29.704
2834. 18
4ol.5 . 29
Limonene
0.566
0.104
9.97
15.21
112.11
1 .000
0.780
1 12 . Ii
Linalool
1 .350
0.631
60.24
91 .94
Caryophyllene
1 .486
12. 128
1 157.20
1766.02
Farnesene
1 .621
0.521
49.73
75.90
Humulene
1 .656
40.422
3856.38
5886.04
Internal
Standard
Sesquiterpene I
Sesquiterpene 2
Geranyl Acetate
Sesquiterpene 3
Sesquiterpene 4
Geranyl Isobutyrate
1 .744
1 . 147
109.40
166.95
1 .754
0.558
53.28
81 .31
0.000
0.000
0.00
0.00
1 .816
1 .751
167.02
254.90
1 .824
0.884
84.34
123.72
0.242
23.12
^5.28
0.025
2.42
3.69
31 .79
1 .927
1 .963
Geraniol
Caryophyllene Oxide
Humulene Monoepoxide I
Humulene Monoepoxide II
Humulene Monoepoxide III
2.305
0...Z 18
20.83
2.395
0. 171
16.30
24.38
1 17.92
2.421
0.810
77.27
2.446
0. 171
16.30
24.88
23.69
36.15
Humulol
2.662
0.248
Beta
0.000
0.000
0.00
0.00
Alpha Eudesmol
0.000
0.000
0.00
0.00
Humulenol
2.830
0.073
G.95
10.61
70.82
Eudesmol
II
Farnesol
3.006
0.486
46.40
Humulene Diepoxide A
Humulene Diepoxide B
0.000
0.000
0.00
0.00
0. 125
1 1 .95
18.24
82.775
7794.98
1 1896.04
1 .816
171.04
261.02
.899
84.66
129.20
4.444
418.48
638.64
89.934
8469.16
12924.91
Group
Group
Group
Group
1,
2,
3,
4,
Total
Accounted For:
4.199"
Major Hydrocarbons
Oxidation Products
Floral-Ester
Citrus-Piney
Humulene/Caryophyllene
Humulene/Farnesene
77.551
3.333
Caryophyllene/Farnesene
23.268
US-BA-2-l-4-59-groM in Oregon. 1
sszs?-
oe, 2.14sq . ^o-l^Hrzz
OJ
OJ
S&ZS^f-
©<Z. Z-\4b% teHe.*^
QZ~ ai4^^, fcale. #"22-
L79
Typical oil chromatogramin(-ba-le-Ne^—£2-)-
^xygevia-'^
£S2S3-
180
Hop Chemistry Section (503) 754-290S
Agricultural Chemistry Department
Oregon State University
USDA 21459 grown in Oregon in 1
(Stauffer faram, Hubbard, OR).
Typical oil composition.
Corvallis, Oregon 97331-6502
Sample Identification: USDA 21459, Oregon, Bale #22, Lot 21459
Laboratory Serial Number: 88257
Moisture Content (%):
As
Is Basis
9.55
Dry Weight Basis
% Alpha-Acids
2.6
2.9
% Beta-Ac ids
2.8
3.1
Oil Content (mL/I00g)
.67
.74
% Volatiles (from IS)
.83
.92
Alpha Ratio: 49
Cohumulone: 25.3
Hop Storage Index: 0.372 Calculated % Remaining: 81.0
Hop Oil Composition
Compound
Rel
Beta-Pinene
0.420
RT
Area
%
ppm at 8% moisture content
nL Uolatiles/100g
nL oil/100g
0.445
30.41
37.77
2653.56
Myrcene
0.493
31 .294
2136.23
Limonene
0.564
0.118
8.09
10.04
167.79
1 .000
2.013
167.79
Linalool
1 .345
0.6 93
47.28
Caryophyllene
1 .480
8.737
596.40
Internal
Standard
58.73
740.81
Farnesene
1 .520
7. 159
488.72
607.06
Humulene
1 .649
28.738
1961.78
2436.80
Sesquiterpene 1
Sesquiterpene 2
Geranyl Acetate
Sesquiterpene 3
Sesquiterpene 4
Geranyl Isobutyrate
1 .743
3.594
245.34
304.74
1 .753
3.225
220. 17
273.48
1 .771
0.037
2.50
3. 10
1 .81 1
1 .503
102.57
127.40
1 .819
0.786
53.66
66.65
1 .920
0.292
19.97
24.80
Geraniol
1 .956
0.051
Caryophyllene Oxide
Humulene Monoepoxide I
Humulene Monoepoxide II
Humulene Monoepoxide III
2.297
0.234.
3.49
4.34
15.94
19.30
2.385
0. 170
1 1 .58
14.38
2.412
0.803
54.82
68.09
2.438
0. 162
11 .03
13.70
2.653
0.221
15.08
18.73
Beta Eudesmol
0.000
"'"' 0.000
0.00
0.00
Alpha Eudesmol
0.000
0.000
0.00
0.00
Humulenol
2.820
0.351
23.95
29.75
Farnesol
2.996
0.366
24.97
31 .01
Humulene Diepoxide A
3.347
0.016
1 .06
1 .32
0.087
5.93
7.37
Humulol
II
Humulene Diepoxide B
4.209
Group
Group
Group
Group
1 ,•Major Hydrocarbons
2, Oxidation Products
3, Floral-Ester
4, Citrus-Piney
Total
Accounted For:
928
5095 85
6329.76
042
137 04
170.22
073
72 00
226
88.269
Humulene/Caryophyllene
3.289
Humulene/Farnesene
4.014
Caryophyllene/Farnesene
1.220
619
5924.
21
89.44
769.15
7358.57
emz
IDArto Z14S% Salh *=?
=.£-£
iDAvtO
2l45q, Sak^
-is.;
Typical oil chromatogram (bale No. 9)
USDA 2145$ grown in Idaho in 1
t4YD^oC^^«xJS
-fl*
<CJ
ccf
1*3?
e ^ i f p£
tirp
=24*
3£r
r
\ D/Vrto 2l4-5<l
*__j
ezvftz
BaU, *^
oKV&eNr\7£T>
182,
Hop Chemistry Section (503) 754-2906
Agricultural Chemistry Department
Oregon State University
Corvallis, Oreqon 97331-6502
USDA 21459, Idaho, 1988 season.
Representative oil composition
(bale No.
9).
Sample Identification: USDA 2 1459, Idaho, Bale #9, Lot 1959
Laboratory Serial Number: 88242
Moisture Content (%):
As 15 Ba5i 5
Dry Weight Basis
% Alpha-Acids
2.7
3.0
% Beta-Acids
2.5
2.3
Oil Content (mL/100g)
.64
.70
1.1-7
1.28
% Volatiles
(from
IS)
8.05
Alpha Ratio: 52
Cohumulone: 26.6
Hop Storage Index: 0.333 Calculated % Remaining: 85.5
Hop Oil Composition
Compound
R el
RT
Area
%
ppm at 8% moisture content
nL Uolatiies/100g
nL oil/100g
Beta-Pinene
0 .423
0.700
44.84
82. 17
Myrcene
0 .504
51.594
3303.79
6054.15
Limonene
Internal
0 .563
0. 182
1 1 .63
21 .32
1 .000
0.853
100.00
100.00
Standard
Linaiool
1 .351
0.738
47.23
85 .63
Caryophyllene
1 .482
6.058
387.92
710.86
Farnesene
1 .620
5.317
340.50
623.97
Humulene
1 .647
19.506
1249.04
2288.35
Sesquiterpene 1
1 .744
2.682
171.75
314.75
Sesquiterpene 2
Geranyl Acetate
Sesquiterpene 3
Sesquiterpene 4
Geranyl Isobutyrat e
1 .754
2. 157
138.13
253.13
0 .000
0.000
0.00
0.00
1 .814
1 .064
68. 12
124.84
1 .822
0.573
36.69
67.24
12.13
22.23
1 924
0. 189
Geraniol
1 961
0.033
2.14
3.93
Caryophyllene Oxid e
Humulene Monoepoxi de I
Humulene Monoepoxi de II
Humulene Monoepoxi de III
2
0.110.
7.06
12.94
2 445
0. 102
6.55
12.00
Humulol
2
0.111
7.08
12.93
Beta
2
n
Eudesmol
Alpha Eudesmol
303
388
0. 131
8.40
15.39
418
0.410
26.24
48.08
658
0
000
0.000
0.00
0.00
0
000
0.000
0.00
0.00
2
825
0.138
8.85
16.23
Farnesol
2
999
0.220
14.08
25.80
Humulene Diepoxide A
Humulene Diepoxide B
0
000
0.000
0.00
0.00
0. 000
0.000
0.00
0.00
82 .475
5278.39
9672.57
1 .002
64.15
117.55
.961
61 .51
112.73
653
426.11
780.84
91 .096
5830.16
10683.68
Humulenol
II
Group
Group
Group
Group
1,
2,
3,
4,
Major Hydrocarbons
Oxidation Products
Floral-Ester
Citrus-Piney
Total
Accounted For:
Humulene/Caryophyllene
3.220
Humulene/Farnesene
3.668
Caryophyllene/Farnesene
1.139
6
183
March 31, 1988.
i.
To:
Al Haunold, USDA-ARS, Crop Science- Dept, OSU
From: Gail B. Nickerson, OSU Ag. Chemistry
Sample chromatograms with the new HP GC computer.
Plotter borrowed from Dr.
Morris' laboratory.
The Hallertauer triploids could be presented the same way.
Brewer's
Note:
Gold was used because the storage oil was already distilled.
The peak heights are proportional to the amound of
oil/100 g of hops.
Thus it becomes very clear how some constituents
decrease with age while others increase.
a
(U
J->
0>
U
4J
O
C_
CC
01
CO
Q.
o
c
cn
03
UJUI^^
Retention Time (min)
bLLiJu^JirU^^l^
JLJ*-^-^—"^
L^A^JwJ
Storage Hop Oil
Fresh Hop Oil
Brewers Gold (1987 Crop)
CO
cu
a
CU
•M
CU
o
4-»
U
c_
QC
cu
co
a.
o
c
10
Retention Time
V-
(min)
Fresh Hop Oil
Hydrocarbons
55
> i
60
i—i—i—i—i—i-i
Brewers Gold (1987 Crop)
»
i
i
65
CO
a
CJ
CU
+J
CD
+j
o
C-
oc
a.
in
a>
o
c
CU
5
~I
I i r~i
10
Vu__j
i ' ' '
o
15
f~]
i i i~i
jii
A_->-M"
„jU
Ll
Uxygenatud • - ration
StL-raye H.
^JaIu-^-
A—'
20
25
35
Retention Time
30
(min)
40
45
50
55
60
65
| i i i i i i i i i |—i—i—i—i—|—i—i—i—i—i—i—i—i—i—|—j—i—i—i—|—i—i—i—i | i—i—i—i—|—r~i—i—i—|
iVdlLJ LaajAH
r;tion
il
(1987 Crop)
Oxygenated <
Fresh Ho;
Brewers Gold
CO
\H
a
r
Slalesman Journal pholo by Gerry Lewin
Don, left, and Carl Weathers inspect young, experimental hop vines on their farm in Keizer.
-
188
ta
h
*%$%-*$%&$$&
F^rmPrQ
hf^np PYnorimontql winoc
Ul I I Iwi U
I Iv^r^w w/\N_/wlilliWilLOU
VIII OO
i
J3J2EE3SI
By Margaret Sizemore
\A/lll
Will
h l^conm
uiuoowi i i
and sprayed. Eventually, the hops pro
duced here will be tested by U. S.
SSESESSSKS'lgHSraSEEa
Of the Statesman-Journal
"We're hoping that this
may be a bright spot in the
future. It could replace a lot
of imported hops."
KEIZER — Delicate tendrils of hop
vines, carefully trained toward the sky,
snake up the wires at Mission Bottom
Farms.
In mid-May, the vines are only a few
feet high. Within a couple of months
the wires will be hidden by lush green
leaves and pine cone-like fruits that
hold the aroma of profits to be made in
brewing vats throughout the United
States and possibly overseas.
Brothers Don and Carl Weathers,
hop farmers for more than three dec
ades, know their business. They jointly
cultivate about 350 acres of hops. Part
of their acreage represents one of sever
al Mid-Willamette Valley off-station
trial sites where experimental hop
varieties are being grown.
The crop will break into bloom in
early July and be ready to harvest in
August.
The growers are linked to Al Haun
old, a plant geneticist for the U. S. De
partment of Agriculture, who has spent
the past 23 years experimenting to de
velop new hop varieties at Oregon State
University in Corvallis.
breweries, which continue their relent
less search for varieties to help regain a
greater share of the world hop market.
"This is a new variety that probably
will replace some European hops, and it
looks pretty promising," Carl said of
the Hallertauer.
Don VI o p. t h (f r s
His brother agreed: "We're hoping
that, this may be a bright spot in the fu
On the Hallertauer hop variety
ture. It could replace a lot of imported
hops."
Mission Bottom Farms currently
plays host to some of Haunold's more
recent work, a variety known as Haller
tauer. It is a high-yielding, arotnatic
hop that is becoming increasingly
scarce in Germany because a soil fun
gus is cutting production in that prime
area by about 10 percent a year, accord
ing to the OSU extension service.
Soil fungus is a topic that the broth
ers discuss with obvious distaste. "It
According to extension service statis
tics, Oregon produces about 17 percent
of the hops produced in the United
States. Yet it is a far cry from the 52
percent the state accounted for in 1935
before disease stuck Oregon hop fields.
Hops have been grown in Oregon since
1849.
Washington growers — particularly
those in the drier Yakima Valley —
gives you sleepless nights," Carl said.
Added Don, "It gives you a sick feel
ing at the bottom of your stomach."
Not surprisingly, hop acreage at the
picked up much of the production lost
by Oregon growers. Today, they pro
vide the greatest competition, accord
ing to Carl, followed by Germany.
Keizer farm is judiciously monitored
Turn to Hops, Page 2E.
/
_
into business
.
_
.
Continued from Page 1E.
Bullion-Brewer's
Gold
variety,
eventually replaced by Nugget.
Gale.. Gingrich, T.anv-.extension
"That's the problem," Carl said,
agent m Marion County, said that "We have too many varieties. We
hops from local experiment-site,, don't have any of the varieties
fields had been test-brewed by that we had 10 years a£o."
major breweries for the past cou
pie of years. Although brewers are
reporting initial positive results, it
still is too early to tell whether the
new varieties will mean gold down
the line for local producers.
At Mission Bottom Farms, the
constant emergence of new varie
ties has the two Weathers broth
Statewide, the Nug'get and Wil
lamette varieties i/have proved
somewhat /successful, now
ac
counting for:'about half of the
6,000 acres'of the crop grown in
Oregon.* •'Collectively,.' Oregon
farmers receive,'$15 million to $17
million for their crop annually, ac-
ers hoping for an- eventual stand : cording to the extension service.
Haunold.is' experimenting with
cross-breeding the latest star, Hal
efforts to enhance the crop as an lertauer, with other hops to devel
op a high-yieldingvariety suitable
export.
'.
i:': '•••. •
•"This is not new to ..us," Don for the Willamette. Valley's grow
said. "We've'participated in off- ing conditions. He also is concenout that they can concentrate on
producing. This also would aid in
station site trials before this in #rating_on retaining Hallertauer's
other varieties." ../key trait —noble aroma—a spicy
For example, 20yearsago it was-' smell for full-bodied beers that is
the Cascade variety. But it turned ' highly desired by brewers.
'; .
out to be a short-lived celebrity : Gingrich said that increased
strain. There was'the Fuggels hop, . hop plantings and income could
eventually replaced by a variety"• result if breweriesacceptedthe ex-
called . Willamette,
and >/the perimental varieties.
-7 '•
drinker.
tastes of today's sophisticated beer
United States and the world are looking
to Oregon for hops that will satisfy the
hop growing regions of Europe.
Recognizing these parallels of Mother
Nature, breweries throughout the
climate found in the famous Bavarian
hops, that promise is for another
growing season of abundant spring
rainfall and warm summer days. Our
mild climate here in Oregon is like the
and women who work the land to grow
promise and good fortune. For the men
The rainbows that form in Oregon's
Willamette Valley after a clean,
refreshing spring rain, remind us of
OREGON'S
GOOD FORTUNE
1/1*2KQ r»~mi«i..
T3A
NIC
K/*
A -,~«r
AD
Cinirr,
rrnoi
/ina
nnrn
strips the vines, screens
"W
As the vine grows and
reaches beyond the 18
foot wire height, side
out unwanted leaves
slotted floors and then
provides clean hops to
be spread onto drying
floors. The hops are
dried by hot air forced
up through the special
and stems, and
nutrients. In the vine's
keep it supplied with
cooled to room
additional water to
the side arms, leaves,
last month of maturity,
and hops have grown
to form a lush canopy
over the vast acreage
Once in the hands of
temperature. Next,
they are compressed
into 200 pound bales
and transported to cold
storage warehouses.
of the typical hop yard.
dealers or handlers, the
fresh hops may be
pelletized, extracted or
left whole in the bale
clarity, foam, and
natural preservative in
the beer. The qualities
it also enhances the
bitter flavor and aroma,
glands of resin, called
"luplin," near its core.
While the luplin
provides the pleasant
touch. A ripe cone is
golden-green in color
with bright yellow
and elastic to the
delicate petals are light
smaller in size and its
The hop cone is the
plant's flower. It
resembles a pine cone
in structure and shape,
but the hop cone is
prepared: spring 1988.
Prior to World War II,
harvested in the field
hops were hand
by lowering the trellis
wires. Today, the vines
are cut from the fields
and taken to a
arms form on which
machine. The machine
Every spring, Oregon's
hop yards come alive
with activity as another
growing season begins.
the wires overhead and
The strings are tied on
mechanical picking
The elaborate trellis
the hop will blossom.
During this time of
vigorous growth, the
plant requires
as 8 inches on a warm
system of crisscrossing
sunk securely in the
ground at each hop
wires atop wooden
plant, or "hill."
poles has stood bare
Training begins with
through the valley's
first growth as shoots at
mild winter. Now, as
the warmer days trigger every hill must be
individually selected
the plant to send up
and wrapped clockwise
shoots for the coming
season, the hop grower up the strings. Once
must hand-reconstruct
begun, the vine will
grow rapidly, as much
spring day, and crews
the maze of strings
year's crop.
which will hold this
of hand laborers must
train and retrain the
progress.
vines until the growe: is
satisfied with the y.
s
States and around the
before being selected
by brewmasters
throughout the United
world.
and characteristics of
or a combination,
different hop varieties
can be judged on a
spectrum ranging from
the aroma type to the
bittering variety.
Brewers will prefer ont
type over another,
depending on the type
of beer and taste they
wish to produce.
190
United States
Agricultural
Department of
Agriculture
Research
Dr.
Paul
Northwest Area
cf-7:
GOV
Service
Hoskins
President, HRC
Anheuser Busch Inc. Ag. Resources
12855 Flushing Meadow Or.
Suite 200 B. St. Louis, MO
Sept. 13, 1
63131-1284.
Dear Paul,
The enclosed article was reprinted in our local paper, apparently
taken from a Yakima Valley paper and written with the input of the
WA Hop Commission and Hop Growers of America Inc.
I am a bit upset with the tone of this article—it gives the simple
impressions that it was all the grower's work and efforts that made this
thing come about-- not a single word about any research efforts. Too bad.
I am not looking for being named personally, but it should be understood
that a lot of research went into all our success with aroma hop breeding,
starting with the introduction of USDA 61021 through Steiner's hebp
from Switzerland (which was then heattreated by Cal to give the nuclear
stock for all the Tettnangers now being grown), the release of Fuggle H,
Cascade, Willamette, Columbia and now the triploid Hallertauer seedling
selections and USDA 21455 which is about to be released.
Had it not been for research, the growers would simply not have the tools
to grow sufficient quantities of US aroma hops.
Also, Bill Elkins
seems to be a bit off with his statistics.
The average
import figure for the past 6 years was in excess of 15 Mill, lbs annually.
Aroma hops also have been around a Tot longer than the article leads one
to believe, i.e.
13% of US acreage in 1973
(Fuggle, Cascade, Tettnangs),
22% in 1976 (Fuggle, Cascade, Willamette, Tettnangs, Columbia),
and 24% in 1986 (Fuggle, Cascade, Willamette).
Perhaps I am overblowing this thing and the reporter simply wrote what
he wanted and omitted other facts that were presented to him.
However,
the only thing that researchers get out' of their work is public recognition,
while others can translate their efforts into economic gains. Therefore,
when research has contributed to an industry's progress, I think it is not
too much to ask that a research contribution is at least marginally acknowledged.
Research Geneticist
cc.
Elaine Annen, OR. Hop Commission
Sam T.
Likens, HRC
Cal Skotland, IAREC, Prosser, WA
Ron Welty, USDA, ARS, Corvallis, OR.
Corvallis Gazette-Times,
Sunday, Sept. 11, lc.
Hop growers
take on the
Europeans
By Nicholas K. Geranios
of the Associated Press
MOXEE, Wash.
— The handful of
Northwest farmers who produce nearly all the
nation's hops are going head-to-head against
European growers in a battle for a bigger
share of the beer flavoring market.
The U.S. hop growers are producing iarge
amounts of the aroma variety of hops that
traditionally are grown in West Germany and
Czechoslovakia, in hopes of convincing U.S.
brewers to stop importing that brand of hops
from Europe.
eclated Press
The 137 growers in Washington, Oregon and
Roberto Soria; on a platform about 18 feet above ground, uses a machete to
Idaho, who are just moving into the harvest
season, have long concentrated almost exclu
sively on bitter hops and left the aroma hops
to European growers who dominate the mar
chop down a hop vine near Moxee, Wash. Northwest hops producers are
trying to replace Imported hops.
ket.
While it may seem folly to challenge the
beer-loving Germans and Czechs in aroma
hops, U.S. growers think they have achieved
the quality to win. •
"The brewing trend by brewers worldwide
is to the aroma hop," said Bill Elkins, man
ager of the Yakima-based Hop Growers of
America. "We're showing that we can grow
them of high quality.
"The question is, can the brewers take
year and almost nothing in previous years.
The verdict is still out on last year's aroma
hops, as brewers are just starting to use them,
Elkins said.
Bitter hops, as the name implies, give beer
its bitter taste and bite. Aroma hops are less
acidic, and impart a stronger beer smell and
milder flavor.
"It's a more beery character," said Paul
Knight, manager of brewing for the Olympia
Brewing Co. in Tumwater, Wash.
Most breweries boil a distinctive combina
percent of their 32,200 acres with aroma hops,
tion of the two in their beer recipes, in the
past relying on U.S. bitter hops and aroma im
ports from overseas.
"Rainier is bitter compared to Budweiser,
which is more aromatic," Elkins said, offering
an example. "The closest thing to 100 percent
American hops is Miller."
The performance of the U.S. aromas will
be decided by the breweries, which are paying
for the experiment since they contract with
growers for a set price ahead of each year's
Elkins said. That's up from 25 percent last
crop.
them and can those German-trained brewmas-
ters be happy and turn out the same product?
The U.S. growers hope to replace the 11
million pounds of imported aromas each year
with domestic hops, and also to pursue aroma
exports to other nations, said Ann George of
Yakima, head of the Washington Hop Commis
sion.
To accomplish that they have planted 41
"A number of aroma varieties have gone
in," Elkins said. "Brewers may find they like
one better than the others."
The biggest dissatisfaction with European
hops is inability to control the types of pesti
cides used on the plants, officials say. Pesti
cide and chemical residue problems have
earned negative publicity for the beer industry
in recent years.
"There have been a lot of pesticide prob
lems," said Bert Grant of Yakima Brewing &
Malting Co., one of the nation's most cele
brated microbreweries.
"They (brewers) can't control what the
•Germans use as readily as they can control
domestic growers," said Grant, who uses
Yakima Valley hops exclusively.
The Northwest growers expect to harvest a
crop about 8 percent bigger than last year, at
53.7 million pounds, with all the growth in the
aroma category, according to the Washington
Agriculture Statistics Service.
Of that production, 4 million pounds comes.
See'Hops'/D4
• Hops growers fight imports
Continued (rom Page Dl
though some foreign beers and mi-
from Idaho, 11.3 million from Ore
crobrewers use up to one pound per
gon and 38.4 million from Washing
barrel for their distinctive taste.
ton.
and breweries were reluctant to dis
per pound, depending on the vari
cuss their plans for using U.S.
Hops sell for between 51 to $2.50
ety, Elkins said.
The United States grew 50 mil
Beer recipes are tightlyguarded,
aroma hops.
"It's pretty much confidential
pounds of hops last year, second
what each brewer would use," said
Knight, of Olympia.
But Elkins said early reports are
pounds. Czechoslovakia was third
that Anheuser-Busch and Coors ap
lion of the world's 195.5 million
onlyto WestGermany's 68.3 million
with 26.2 million, nearly all in
peared satisfied with the U.S.
aroma varieties.
aroma hops.
• Hops grow on vines strung from
18-foot-tall poles that stand like
miniature forests in the Pacific
used, there should be no impact on
•Northwest. The crop is expensive to
grow and is used only to flavor
beer.
Processors extract the lupulin,
, which flavors the beer. It takes just
one-quarter pound of hops to brew a
31-gallon barrel of U.S. beer, al
Regardless of which hops are
the taste of beers, unless the brewer
wants such a change, said Tom
Gasseling ofYakima, vice president
of the West Coast office of J.I. Haas .
Inc, the largest hop grower and
dealer! in the world.
"By no means will there be any
change in flavor".
193
reprinted in HOPS- USA
August
30, 1
t^
i^-J^^^fe^^
rounds
The following is a story printed in UseNovember 10, 1882 edition of the Yzkiina ncv.'spapcr> USDA to
; has been
ds of hops
HopCulturein Yakima
aosed hop
Lastweekwe published an article mainly upon the profitattendant upon theproper cultivation of
ma
1st
is
F>r the year
SO imports
ion pound
er 1 Stock
hops in Yakima. This week wc publish another article from the same pen, referring particularly to
the expense attendent upon their cultivation. Our correspondent says:
The following is for trie benefit of those who think that hops can be raised as cheap as com. No
mention is made of the commission for selling (which is 5 percent), rooting, clearing the yard,
twining the vines, manuring the land, etc. Perhaps you will say, 'I will do all the work myself,
and the expense will not be so great'. But remember what 'Poor Richard' says, Time is Money*.
You remind mc of the man that said his"house did not cost him but S10- but he worked twenty-six
iports
days on it If you raise hops it will keep you hopping, and by the time that you have been over a
hop yard 20 odd times during the year you will sing another tunc, and be ready to exclaim with
Solomon of old, "All is vanity and vexation of spirit'. We don't wish to discourage anybody - but
be cautious. The following is the estimated cost connected with 5 acres of hops. It will make your
head dizzy to peruse if
FIRST YEAR
Hop House, 16 x 46. 6.500 feel lumber, S20 per m, Delivered
$130.00
Nails
10:00
Shingles, 8,000
Carpenter work
Two stoves and pipe
40.00
75.00
50.00
10.00
30.00
30.00
5.00
5.00
1.00
50.00
20.00
10.00
15.00
Flue
Hop press
Twenty hop boxes
Burlap for the dry floor
Two crowbars
One rake
Hop roots
Preparing yard
Planting hop roots
Cultivating
SECOND YEAR
3,500 hop poles, delivered
Sharpening poles
Setting poles
Cultivating
S75.00
15.00
15.00
10.00
Drying
Bailing
Cloth for bailing
30.00
150.00
40.00
15.00
35.00
Freight to Portland
100.00
Suckering and training
Picking, 1,000 pounds per acre
S966.00
Total:
Note: In the saincarticlementionwasmade that growerswerebeingoffered 25«per pound for
their 1883 hop crop.
w^3i§^gJ-^.
193
SiIverton-Mt.Angel local paper:
=5y* ^
Sept 1988.
<?<?
PAGE 13 SECTiON B SILVERTON APPEAL ~TR!BUNFJMTD-AtfGi
!m
Where HOPS are grown
in OREGON
Before
long,
hops
imported from Germany to
brew your full-bodied beer,
may be grown right here in
the Willamette Valley.
Al
Haunold,
plant
4*^*^1
i\fmmmi
geneticist for the U.S.
Department of Agriculture
and Silverton hop grower
Herman
Goschie,
are
roaming
tip with
U.S.
breweries in working toward
regaining a large
of
the
portion
world-wide
hop
said Goschie. "They grow
well and seem well suited':to
the climate.
Others-,'of
the new varieties don't wapl-
to stay' on tha string ?hd .
iiave a tendency to bo&Asnp •_
in the picking rnncliinea: vl:y •'•
"If we're succeSsr\*^-',',tS9.'
new hop varieties >'iil* not.,
only be of value to the U.S.
brewing industry, but also
should lor.d theni?«h>>-» cjOJts
readily to export," . sold
Haunold.
market.
'Haunold is experimenting
with development of a high
yielding hop variety to be
"gro-ivn in western Oregon
similar to European varieties
such
with mar.v of the varieties^''
as
Hallertauer.
Mittclfruh and Tettnanger.
The varieties are known for
what beer makers call noble
aroma, a soicy srneli
considered higiiJy desirable.
•,.-.
Hj-.13orU-.uer is bxomfeg.
increasingly swirw f>£C8'U3u ii-
fungus in t;-:i; soil "in
Germany.
the.
prime
jiroduelion crew, ia cuttbg
production about 10 percent
nyear.
tr-fe1t''fcir &•& &4tft
Wliile Haunold talx>rs over
his experimental plants at
Oregon State University in
Corvallis, Goschie is serving
as an off-str.tion trial grower,
growing the experimental
hop varieties being testbrewed by U.S. breweries.
"We hove had no problem
OREGON
COMMISSION^
11358 Dominic Rcl.NE Ml Angel. OR 97362 [5031 634-2250
•ftft&fti*&&'&'&'&'b&&°&*&^&&'&'&'
SEASONED SEASOM5BS
HJPPY.SKIilD is p)pvl
of a uowe.r{OT<yrt in HoUahd.
It lias a'Hdvir^^v^'*
crunchy, nut-like fievor. ,lSb
.ta as-a tapping ifp'r. l%wb,
' rolls 'and "cookies. Ic •ssi-'^feo'
delicious in buttered raphes.
19-i
Strong. Easy-to-handle. Biodegradable.
Fast becoming the first choice ofhop prodvicers
tnrougiioui u it wuna.
"L;
"Paper Twine is so easy to handle,
once we're ready to begin, we can
"Last year 1used Paper Twine on 65
start stringing in 20 minutes. We've
eliminated the 24-hour lag period
acres. This year, I'm using it on 188
acres. I've found paper to be very
strong, and the vines cling to it
needed to soak coir. We've elimi
well."
nated one piece of equipment in our
operation. And we've significantly
Ray St. Mary, hop grower
Yakima Valley, Washington
increased the number of acres we
can string in a day."
Ted Durfey, manager
Emerald Acres
Yakima Valley, Washington
"Once we twine our fields, we can
forget all about it—evenat harvest
time. There's simplyless tendency
for paper to wrap up in the picking
machine."
"Portco Paper Twine deteriorates in
the ground aftera season. Coir got
into the equipment, increased our
down-time, and was generallya
nuisance."
Frank Fobert, owner
Fobert Brothers Inc.
Willamette Valley, Oregon
Mike Kerr, partner
Capitol Farms Inc.
Salem, Oregon
I'lH
19fa
Strong and effective
Portco PaperTwine is composed ot
twisted paper specially treated to
maintain its strength, even when
wet. The fibrous nature ot Paper
Twine ensures that vines will readily
cling to it. And Paper Twine has
been proven to effectively support
vines throughout the growing season
in a variety ot weather conditions.
Consistent
Growers can expect uniformity with
every order ot Portco PaperTwine.
Manufacturingof the product iscare
fully monitored throughout our auto
mated facility, ensuring that there
are no weak spots—and that every
into the soil within a season. There
are no remnants of twine left clutter
tangles less during twining. Growers
are reporting a significant increase in
ing the field; no strings to wrap or
clog your equipment. Hop growers
twine in a day.
the number of acres their crews can
are reporting significant laborsavings
in spring yard preparation, alone.
Higher density
Easy-to-handle
The density of PaperTwine allows
twining crews to continue working
in almost any weather, including
windy or gusty conditions. Managers
Portco PaperTwine is field ready, easy
ro transport and easy to handle be
cause the product comes on pallets,
not in bales. Presoaking of Paper
can plan specific days for twining,
knowing they can proceed right on
Twine is not necessary prior to twin
schedule.
ing. And the need for mechanical
lifting of bales or removing of chains
Readily available
and, due to fewer stops and starts,
Portco manufactures PaperTwine all
year round, ensuring steady supplies
to all hop growing regions of the
string meets customer expectations.
increasing daily productivity.
world. Portco's prime location on
Completely biodegradable
Easy-to-tie
Portco PaperTwine quickly decom
The smooth texture of PaperTwine
iseasy to tie, easyon hands, and
U.S.A., means that pallets of prod
uct can be readilyshipped by con
tainer to any destination.
poses and is completely absorbed
is eliminated. Crews are loading
more producton their twiningsleds
the Columbia River in Vancouver,
TYPICAL TENSILE TEST ON VARIOUS HOP TWINES AND WIRE*
Strength in lbs. force
WET
DRY
Every pallet of Portco Paper Twine
meets strict quality control standards.
One pallet consists of 44 hanks; one
hank being 300 strings. Product yield is
Range
Ave.
Range
Ave.
Coir (England)
40- 73
55
30- 38
34
Coir(U.SA)
68-100
82
54- 83
66
Steel Wire (Germany)
105-107
106
105-107
106
Portco Paper Twine
110-130
120
90-120
105
"Tests conducted at Portco testing facility on DillonDynamometer. Portco routinely conducts tests
on competitive samples submitted by customers. Based on these tests and individualcustomer
needs, Portco can recommend a paper twine substitution for every hop application.
200 ft. per pound.
The easy-to-tie Paper Twine knot
Portco also produces Paper Hop (arch)
Ties in any customer specified length.
Product yield is 500 ft. per pound.
—r^ft—.
4200 Columbia Way
Vancouver, WA 98661
(206) 696-1641
FAX# 206-695-4849
Maintain
a six
inch tail.
Cinch tight.
195
letter sent anonymously to the Or. Hop Coimii ssi on and various gravers
DECEMBER
TO WHOM
IT MAY
14,
1988
CONCERN:
LET ME INTRODUCE MYSELF.
I AM DR. RONALD D RATCLIF.
I AM
A RETIRED PLANT PATHOLOGIST WHO HAS BEEN WORKING FOR PRIVATE
INDUSTRY OVER FOURTY YEARS. I WORKED MOSTLY WITH POTATOES AND
MINT TRYING TO FIND A CURE FOR VERTICILLIUM WILT AND OTHER
DISEASES. I ALSO WORKED WITH DEVELOPING NEW VARIETIES. I WAS
CONTACTED BY SOME WASHINGTON GROWERS TO LOOK AT THE PROBLEM OF
VERTICILLIUM WILT IN WILLAMETTE HOPS. I DID THIS BECAUSE I WAS
INTERESTED IN SOMETHING TO DO DURING MY RETIREMENT. TO MY SURPRISE
I FOUND A LOT OF WILT IN WILLAMETTES NOT ONLY IN WASHINGTON BUT
ALSO IN OREGON. I HAVE LOOKED AT ALMOST EVERY WILLAMETTE YARD IN
THE TWO STATES. HERE IS WHAT I HAVE FOUND. DEPENDING WHAT WAS
GROWN ON THE GROUND BEFORE WILLAMETTES WERE PLANTED AND THE TYPE
OF SOIL THERE WAS MARKED DIFFERENCE IN THE THE NUMBER OF HILLS
INFECTED PER YARD. TO MY SURPRISE THE HIGHEST NUMBER OF INFECTED
HILLS WASIN SUNNYSIDE AND MISSION BOTTOM AREA OF THE WILLAMETTE
VALLEY. I FOUND A HIGH I LEVEL OF VERTICILLIUM ( DAHLIAE ) IN
SOME YARDS. I ALSO WATCHED THE NEW REPLANTS AND FOUND THAT THEY
DID NOT GROW AS THEY SHOULD HAVE. THERE WAS POOR CROWN GROWTH AND
A LOT OF PLANT DIE OUT. IN ONE RANCH IN OREGON I FOUND THE WORST
INFESTATION OF VERTILLIUM ( DAHLIAE ) I HAVE EVER SEEN IN ALL OF
MY STUDIES. IN SOME PARTS OF THE FIELD THE INFESTATION RAN AS
HIGH AS 75% WITH A LARGE DIE OUT. I WAS. TOLD YESTERDAY THAT THE
GROWER HAS TAKEN ONE OF HIS YARD OUT ALREADY. ALL I CAN SAY HE
NEEDS TO TAKE THEM ALL OUT BECAUSE OF THE HIGH INFESTATION IN THE
YARDS. MY SUGESTION TO ALL WILLAMETTE GROWERS TO BE CAREFULL
WHERE YOU GET YOUR PLANTS AND BE VERY CAREFULL WHERE YOU PLANT
THEM. ANOTHER THING I HAVE NOTICED THAT THE YIELDS OF OLDER YARDS
IS DECREASING AT AN ALARMING RATE. IT IS MY BELIEF THAT BECAUSE
THE WILLAMETTE IS A TPIPLOID HYBRED AND A PERANNUAL IT WILL
CONTINUE TO DECREASE IN YIELD WITH THE LOW TOLERANCE TO STRESS
AND DISEASES ALSO CONTRIBUTING TO THE PROBLEM. I WOULD SUGGEST THAT
SOMEONE LOOK INTO THE POSSIBILITY THAT SOME OF THE DIE OUT IN THE
WILLAMETTE COULD BE CAUSED BY VERTICILLIUM (ALBOATRUM ). WITH OUT
TELLING SOMEONE WHAT TO DO I WOULD START LOOKING IN THE PROSSER
AREA OF WASHINGTON AND THE MISSION BOTTOM AREA OF THE WILLAMETTE
VALLEY OF OREGON. THERE IS TO MANY PLANTS DIEING FOR THERE NOT
TO BE A PROBLEM. I READ THE BULLITIN OF OCTOBER 7, 1988, PUT OUT
BY AN AL HAUNOLD, USDA-ARS, CORVALLIS OREGON, WITH INTEREST. FOR
ONE THING I DON"T AGREE THAT THERE WILL NOT BE A PROBLEM NEXT
YEAR. THE WILLAMETTE HAS A VERY LOW STREES LEVEL AND BEING A
TRIPLOID HYBRED PERENIAL I WOULD BET THAT THE WILT PROBLEM WILL
INCREASE AND THE YIELDS WILL DECREASE DOWN TO A 2-4 BALE AVERAGE
IALSO DON"T AGREE WITH DR SCOTLAND THAT THERE WASN"T ANY WILT IN
HALLERTAUERS IN 1988. I FOUND JUST THE OPPOSITE. I FOUND THAT THE
VERTICILLIUM ( DAHLIAE ) WILT PROBLEM IN HALLERTAUERS IN TWO
^rnSnJ°UrLV,ERY
HIGH 35*" * DIDN"T C0VER EVER* THING BECAUSE THE
BEFORE MENTIONED BULITIN COVERS IT-ALL. ALTHOUGH I FEEL THE
PROBLEM IS MUCH WORSE THAN YOU THE GROWER ARE LED TO BELIEVE I ALSO
Lo\\Vs\\Hk?RY?l^l^rKr,kP IN THE P^ESs'o^'cJSEfltG1 THERE ALS°
LOSSES BY TRYING TO GET CLEARANCE FOR CHEMICALS IN THE U S
THAT ARE NOT OF ANY USE TO THE U.S. GROWER BUT WILL ALLOW THP
IMPROT OF HOPS FROM OTHER COUNTRIES.
"E
I FEEL THAT THE WILLAMETTE VARIETY OF HOPS WAS NOT
?fFEAHRAMEFDRT^ppHvBAFT°L?E
THING ISAREHAPPENING
THE HALLERTAUER VARIETY.RELEASEUNLESS ™E
THE SAME
BREWERIES
WTIITNP ?6
to
COMPENSATE THE GROWERS FOR THE EXPENCES I WOULD SUGGEST THAT T5e
GROWERS TAKE A LONG LOOK AT WHAT IS HAPPENING TO THEM YOU THF
5SSWEIFHAWVHA?0TTT,EMHiCpMBTB°
AVARIETY
WAR THAT^NLY^THE
BREWeS
£
LOSING
HAPPENING
CONTINUES
I ALSO SEE THE
BREWER
GOOD LUCK IN THE COMMING YEARS.
YOURS TRULY
DR RONALD D RATCLIF