AgjO^^j^a
'
' -'-
'"-Ug^ggu^Hr"'
TABLE OF CONTENTS
Page
HOP PRODUCTION STATISTICS
Hop Growers of America, 1989-90 Annual Statistical Report
US Hop Production by State and Variety, 1988-90
US Hop Acreage and Yields by State and Variety, 1988-90
1990 US Hop Production by Variety
US and World Hop Production 1971 to date
Alpha Acid Production 1977-90
US Hop Production by State and Variety
1990 Federal Hop Inspection Report
1
2
3
4
5
6
7
8
Leaf and Stem Content, 1974-90
9
Disposition of Production 1979-90
Brewery Consumption and Export
Supply and Disposition, 1982-90
Disposition of Production, 1979-90
1990 Hop Stocks
1990 US Exports of Hops and Hop Products
1990 US Imports of Hops and Hop Products
1990 Sold Ahead Projections
World Hop Statistics IHGC
IHGC - Economic Committee Report, December 1990
Worldwide Use of Hop Products
Fluctuation of World Hop Acreage, 1976-89
World Hop Production and Average Yields, 1987-89
World Hop Crop in Zentners, 1976-89
Alpha Acid by Varieties and World Alpha Supply
World Beer Production, Graphic Illustration
World Alpha Acid Balance, 1982-89
World Hop Balance, 1982-89
10
11
12
13
14
15
17
18
19
20
21
22
23
24
25
26
27
29
World Beer Production, 1989-90
30
Alpha Acid Production and Alpha Acid Balance, 1989 Crop
1988-89 World Hop Acreage and Production
31
32
IHGC Countries, Estimates of Forward Sales 1990-94
33
World Hop Production, 1971-89
World Hop Acreages, Alpha Acid, and Beer Production
by Country, 1989
EC Countries, Number of Growers and Total Hop Acres
34
35
36
HOP BREEDING
1990 Oregon HRC Off-Station Plots, Location Map
1990 USDA-OSU Main Hop Yard, Map
37
38
Page
Exchange of Germplasm and Preliminary Evaluation
Hop Germplasm and Cone Samples Distributed in 1990
Hop Germplasm Received at Corvallis in 1990
New Accession Numbers Assigned in 1990
Hop Genotypes Discarded in 1990
Crosses and Seed Collections Made in 1990
39
42
43
44
45
Intermediate and Advanced Evaluation
Seedless Observation Nursery (Smith Yard)
Seeded Hop Variety World Collection
Tettnanger-Type Triploid Selections, Females (89 Nursery)
Female Triploid Tettnanger-Type Selections, 4-Hill Plots
47
53
57
58
Zero-Alpha/High-Beta Selections (89 Nursery)
Native North American Female Hops
Native North American Male Hops
59
60
61
Oregon Commercial Off-Station Plots in 1990
Yield Comparison of Liberty, Willamette and Tettnanger
Information Sheet, USDA 21257 (High-Alpha)
Hop Variety Description Sheets (Hop Union USA)
1990 Field Notes, Oregon Off-Station Experimental Plots
Hops in Northern Idaho, Sandpoint and Bonner's Ferry
USDA-ARS Hop Research History and Accomplishments
Release of an early-flowering triploid pollinator composite
62
63
64
66
77
81
87
90a
HOP CHEMISTRY
Hop Oil Composition by GLC, Mt. Hood
1990 Females, Bale and Cone Analyses (Computer Printout)
1990 Females, Alpha/Beta Ratio Below 40
91
93
Ill
Potential Tettnanger Types
1990 Males, Lupulin Analyses
112
113
USDA HOP RESEARCH REPORTS AND PLANS
1990 USDA CRIS Report, Oregon
1990 State CRIS Report, Oregon
Termination of CWU (5358-22000-001-OOD)
Executive Summary Sheet, ARS Project No. 5358-22000-001-OOD
USDA Hop Research Goals and Mission
USDA Hop Technology Transfer
ARF Projects 36.18, 45.22, 45.09, Memorandum of Understanding
ARF Project 36.18, Hop Research Council
121
122
123
127
130
135
136
137
ARF Project 36.25, Oregon Hop Commission, MOU
ARF Project 36.25, Annual Report
ARF Projects 36.34, 45.20, Memorandum of Understanding
138
139
140
Page
ARF Project 36.34, Annual Report, Miller Brewing Company
141
ARF Project 45.22, Annual Report, Hop Research Council, Chemistry .... 142
ARF Project 45.20, Annual Report, Miller Brewing Company,
Chemistry
143
1990 Prosser USDA CRIS Report
144
Cooperative Agreement 58-91H2-8-136, Amendment
145
Dr. Steve Kenny Proposed as Principal Investigator
147
Quarterly Progress Report, Prosser, 1/1-3/31, 1990
Quarterly Progress Report, Prosser, 4/1-6/30, 1990
Quarterly Progress Report, Prosser, 7/1-9/30, 1990
Quarterly Progress Report, Prosser, 10/1-12/31, 1990
Release Notice of Centennial Hop
Germplasm Release of Five Downy Mildew Susceptible Hops
148
154
155
156
158
162
MISCELLANEOUS
Idaho Department Agric, Hop Disease Control Order
Idaho Hop Inspection Report, Notice of Hop Rhizome Removal
166
169
TOP (B08OWIRS ©F MMOQ^ MMC.
1989-1990 ANNUAL STATISTICAL REPORT
35TH ANNUAL HGA CONVENTION - SCOTTSDALE , ARIZONA - JANUARY 11, 1991
TABLE OF CONTENTS
1990 HOP PRODUCTION REPORTS
U.S.
U.S.
U.S.
U.S.
Hop Production by State and Variety, 1988-1990
Hop Acreage and Yields by State and Variety, 1988-1990
vs. World Hop Production, 1971-1990
vs. World Alpha Production, 1977-1990
SUMMARY:
Page 1
Page 2
Page 3
Page 4
Page 5
HOP PRODUCTION REPORTS
1990 U.S. HOP INSPECTION REPORTS
USDA Hop Inspection Report
Leaf and Stem Content, 1974-1990
Page 6
Page 7
SUMMARY: U.S. HOP INSPECTION REPORT
Page
7
DISPOSITION OF U.S. HOP PRODUCTION
Salable Hop Products, 1979-1990
Page 8
U.S. Brewery Usage, 1979-1990
Breakdown of Brewery Consumption and Exports, 1978-1990
Supply and Dlspostlon, 1982/83 to Date
Page 8
Page 9
Page 10
SUMMARY: DISPOSITION OF PRODUCTION
Page 1 1
September 1 U.S. Hop Stocks, 1972-1990 & SUMMARY
Page 12
U.S. HOP EXPORTS/IMPORTS
Breakdown of U.S. Hop Exports by Type and Destination
Page 13
SUMMARY: U.S. HOP EXPORTS
Page 14
Breakdown of U.S. Imports of hops by Type and Origin
Page 15
1 990 SOLD AHEAD SURVEY
Sold Ahead Survey Indications
WORLD HOP STATISTICS
Page 16
• Pages 17-34
Prepared by: Hop Growers or America, inc., P.O. Box 9218, YaKima, Wa.
98909
X Change
PRODUCTION - LBS
STATE & VARIETY
1990
90 vs. "89
182,600
164,800
-9 75%
234,300
224,700
-4 10%
321,200
- 17 5 1%
1988
1989
0
CALIFORNIA 1/
IDAHO
Aquila
Banner
0
Chinook
338,600
389,400
Cluster
984,900
1,120,000
1 3 72%
Erolca
896,700
692,300
574,000
507,200
-1 1 64%
Galena
951,600
853,200
792,000
-7 1 7%
0
0
Willamette
Other varieties
Total
62,400
978,200
872,200
920,100
5 49%
3,920,000
4,090,600
4,050,000
-0.99X
926,500
282,000
2,998,800
369,600
961,200
857,300
-1081%
265,200
192,100
-27 56%
2,594,300
2,744,200
5 78%
436,100
21 1,700
-51 46%
39 01%
OREGON
Fuqqle
Galena
Nuqqet
Perle
517,000
4,958,000
973,100
573,500
797,200
6,029,300
5,479,700
-9.12%
999,400
580,800
-41 89%
1 1.025,000
1 1,859,000
10,863,000
-8.40X
487,000
561,000
1,831,000
1,990,000
16,100,000
825,900
741,200
-10 26%
847,300
2,568,000
732,800
2,070,100
-1351%
2,385,700
13,003,000
2,777,100
I 1,442,100
Erolca
1,242,000
939,300
Galena
9,252,000
I 1,011,200
Tettnanq
Willamette
Other Varieties
Total
WASHINGTON
Aquila
Banner
Cascade
Chinook
Cluster
Nuqqet
Olympic
Perle
Tettnanq
Willamette
Other varieties
Total
UNITED STATES
2,916,000
545,000
603,000
1,958,000
2.091,000
175,000
4,347,500
493,800
799,000
1 1,089,800
4,777.600
-19 39%
16 41%
-12 00%
-14 94%
0 71%
9 89%
476,000
-3 60%
798,000
-13 19%
2,506,400
2,3 14,800
-764%
3.284,200
3.333.100
1 49%
245,300
590,200
140 60%
39.751.000
43.376.800
41.941.800
-3.31X
54.696.000
59.326.400
56.854.800
-4.17X
919,200
1/ Combined with Washington to avoid disclosureof Individual operations.
SOURCE: USDA. Prepared by Hop Growers of America
Page I
U.S. HOP AC RFAGF & YIELDS BY STATE & VAFULFJXJL9fifl:i9Q
STATE & VARIETY
YIELD - LBS.
ACRES HARVESTED
1989
1990
1988
1989
1990
1988
0
1 10
103
0
1,660
1,600
0
2,130
2,100
CALIFORNIA 1/
IDAHO
Aquila
0
I 10
107
Chino*
220
220
292
1,540
1,770
1,100
Cluster
490
490
560
1,830
2,010
2,000
Erolca
430
350
317
1,610
1,640
1,600
Galena
520
540
528
1,830
1,580
1,500
130
0
0
480
0
0
890
1,160
1,461
1,500
Banner
Willamette
Other varieties
1,010
980
793
970
Total
2,800
2,800
2,700
1,400
850
801
608
1,090
1,200
410
1,780
940
OREGON
Fuggle
Galena
150
149
99
1,880
Nuqqet
1,470
1,278
1,393
2,040
2,030
970
Perle
330
285
134
1.120
1.530
580
Tettnanq
470
531
618
1,100
1,080
290
3,700
3,792
3,859
1,340
1,590
420
530
576
389
1,840
1,740
493
7,500
7,412
7,100
1,470
1,600
1,530
Willamette
Other varieties
Total
WASHINGTON
Aquila
320
356
348
1,520
2,320
2,130
Banner
340
356
361
1,650
2,380
2,030
Cascade
920
1,297
1,270
1,990
1,980
1,630
1.990
1,880
1,910
1,890
1.000
Chinook
1,269
1,454
7,950
6,374
6,054
2,030
2,040
Erolca
640
472
439
1,940
1,990
1,820
Galena
4,900
5,735
1,890
1,920
1,800
Nuqqet
Cluster
1.800
2,241
6,161
2,827
1,620
1,940
1,690
Olympic
270
279
280
2,020
1,770
1,700
Perle
580
779
798
1.040
1,180
1,000
2,200
2,410
2,362
890
1,040
980
2.050
2.507
2,604
1,020
1,310
1,280
130
261
705
1,350
940
837
23.100
24.336
25.663
1.721
1.782
1.634
33.400
34.548
35.463
1,638
1.71 7
1,603
Tettnanq
Willamette
Other Varieties
Total
UNITED STATES
1/ Combined with Washlnqton to avoid disclosure of Individual operations.
SOURCE: USDA
Prepared by Hop Growers of America
Page 2
1990 U.S. Hop Production by Variety
State
Variety
ID
OR
WA
Total
Total
acres
Production
harvested
lb/A
acres
Aquila
103
Banner
107
Cascade
-
Chinook
292
Cluster
560
Eroica
317
Fuggle
Galena
Nugget
Olympic
Perle
Tettnanger
Willamette
-
528
-
-
-
-
-
-
-
-
-
-
-
608
Yield
lbs
348
451
2009
906 000
361
468
2046
957 500
1270
1270
1630
2,070 100
1454
1746
1775
3,098 300
6054
6614
1899
12,562 100
439
756
1728
1,306 200
608
1410
857 300
-
99
6161
6788
1779
12,073 900
1393
2827
4220
1782
7,521 800
280
280
1700
476 000
134
798
932
1083
1,009 700
618
2362
2980
1044
3,112 000
3859
2604
6463
1364
8,812 800
-
Other1
793
389
705
1887
1108
2,091 100
Totals
2700
7100
25663
35463
1603
56,854 800
JSaazer (No,Idaho), Mt. Hood, Liberty, and various experimental hops
U.S./ WORLD PRODUCTION - 1971 TO DATE
U.S.
W. GERMANY
OTHER WORLD
TOTAL WORLD
PRODUCTION
PRODUCTION
PRODUCTION
PRODUCTION
(Million Pounds)
(25%
(22%;
54.8 (20%;
57.0 (23%
55.9 (22%
57.8 (25%
54.8 (21%
55.1 (23%
54.9 (21%
75.6 (29%
79.1 (28%
78.6 (25°/o
68.1 (24%
56.2 (20%
49.7 (18%
49.0 (19%
50.0 (197o
54.7 (21%
59.3 (22%
56.0. (23%
(25%)
(28%)
84.9 (32%)
73.9 (30%)
71.5 (29%)
62.6 (26%)
81.6 (32%)
66.9 (28%)
68.8 (27%)
59.3 (23%)
74.3 (26%)
93.7 (29%)
81.2 (28%)
78.3 (28%)
78.5 (28%)
75.2 (29%)
68.2 (27%)
66.2 (25%)
70.1 (26%)
61.1 (25%)
49.7
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1983
1989
1990 •
107.0 (51%)
112.4(50%)
128.8 (48%)
118.4 (47%)
122.9 (49%)
115.0(49%)
123.5 (47%)
117.4 (49%)
137.2 (53%)
123.0 (48%)
132.7 (46%)
144.9 (46%)
137.9 (48%)
148.2 (52%)
147.4 (54%)
134.7 (52%)
141.4 (54%)
145.5 (55%)
137.5 (52%)
125.2 (52%)
53.4
51.3
66.9
210.1
230.6
268.5
249.3
250.2
(100%)
(100%)
239.4 100%)
260.9 100%)
257.9 100%)
286.1 100%)
317.2 100%)
287.2 100%)
282.7 (100%)
275.5 (100%)
258.9 (100%)
259.6 (100%)
266.4 (100%)
266.9 (100%)
238.1
259.5
^242.5 (100%)
Figures for 1990 are estimates. Totals may not add due to rounding.
U.S. /W. Germany Hop Production 1971-1990
M
t
1
1
1
0
n
P
o
u
n
a
s
H—I—I—1—I—h
1971
1973
1975
1977
1979
1981
H—I—I—h
1983
1985
1987
1989
Crop Year
•»U.S. Hop Production
a W. German Hop Production
Total World Hop Production 1971-1990
-i—I—I—H
H—I—I—I—h
1971
1973
1975
1977
1979
1981
Crop Year
» Total World Production
1933
1985
1987
(100%)
(100%)
(100%)
(100%)
(100%)
19e9
ALPHA PRODUCTION REPORT - metric tons
Other IHGC
Year
U.S.
W. Germany
1977
1,789
2,253
1978
1,550
1,705
2,186
5,441
1979
1,746
1,902
2,569
6,217
1980
2,405
1.541
2,135
6,081
1981
2,520
2,019
2,600
7,139
1982
2,673
2,188
2,702
7,563
1983
2,503
1,541
2,332
6,376
1984
2,140
2,299
2,647
7,086
1985
1,781
1,895
2,163
5,839
1986
2,157
1,999
1,987
6,143
1987
2,100
1,997
2,163
6,260
1,621
2,175
5,996
1,981
6,233
1,766
5,307
1988
2,200
1989
2,386
• 1,866
1990*
2,249
1,292
Countries
1/
2,207
Total
6,249
1/Total Alpha production for the other IHGC members: Australia, Belgium, Bulgaria, CzechoslovaKia, E. Germany, U.K., Spam, France, Hungary, Yugoslavia, and Poland.
* 1990 Figures are estimates
SOURCE: IHGC reports, U.S. Hop Administrative Committee reports
ALPHA PRODUCTION REPORT 1977 -
1990
M
e
t
r
i
c
T
o
n
s
977 1978 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990
Crop Year
oU
5. Alpha
a W. Germany Alpha
♦
Total IHGC Alpha
Page 4
SUMMARY:
1990 HOP PRODUCTION REPORTS
U.S. Hod Production by State and Variety
State
%Change
. %Change
%Change
'90 vs. '89
"90 vs.'88
'90 vs.'80
Washington
Oregon
-3.31%
-8.40%
+5.5%
-3.6%
-25%
-10.6%
Idaho
-0.99%
+5.5%
-26.2%
USA
-5.46%
+2.5%
-24.7%
*Two hop varieties had significant decreases in their 1990
production, as compared to 1989:
Washington's Cluster,
Oregon's Willamette,
-1,560,900 lbs
-549,600 lbs
(-12.00%).
( - 9.12%).
U.S. vs. World Production
"Preliminary figures show that 1990 World Hop production is down
9.1% as compared to last year.
"Overall World Hop production is down 23.5% from 1982, when
production levels reached a peak of 317.2 million pounds.
"Since 1971, the U.S. and W. Germany have supplied approximately 50%
of the world hops.
Page 5
1990 HOP INSPECTION REPORT
Prepared by
USDA, Federal Grain Inspection Service
Portland, Oregon
Table 1 - Total Nuntoer of Bales Inspected - Weighted Average of Leaf * Stem in Parenthesis
1985
1986
1987
1988
1989
1990
Oregon (X)
42,289 (1.56)
43,672 (0.92)
186,248
200,584
216,180
212,271
43,705 (1.55)
55,716 (1.28)
63,000 (0.83)
(1.14)
(0.92)
(0.96)
(1.01)
25,301 (0.73)
18.880 (1.28)
252,348
248,602
248,864
275,327
299,069
288,163
31 (0.45)
35 (0.00)
18,992 (1.01)
19.881 (1.20)
19,033 (1.11)
56,859 (1.35)
Total (X)
(1.16)
(0.93)
(1.23)
(1.00)
(0.95)
(1.09)
Calif, (X)
330 (0.06)
26 (0.46)
Idaho (X)
25,595 (1.16)
Wash. (X)
184,134 (1.25)
179,603 (0.95)
None
None
Table 2 - Nuntoer of Bales in Each Leaf i Stem Category - Percent of Total in Parenthesis
'
X of Total
25.3X
118,265(56)
21,860(38)
12,646(66)
152,774
53.OX
23,643(11)
11,147(20)
2,215(12)
10,10?(5)
37,005
12.8X
17,463
3,857(2)
2,734(5)
5,972(11)
IX
33,571(16)
16,418(29)
6,591
2.3X
6.IX
0_
2,287(1)
3,190(6)
49,989
17.3X
0
0
1,088
367
0
100.01
OX
Percent of Total in Parenthesis
1,392(2)
> 6X
29(0)
1,462(3)
12,806(22)
6X
0_
0
0_
2,194
0.8X
Total
879
5X
1,813(3)
3,326
1.2X
212,271(100)
56,859(100)
19,033(100)
288,163
0
0.1X
0.4X
802T0)
5,477
1.9X
15,604
5.4X
0
0
1,57311)
0_
0
Total
137(0)
230(0)
4X
3X
2X
7,511(4)
8,093(14)
5%
542(0)
546(1)
0
1,387(7)
Nuntoer of Bales in Each Seed Category -
Table 3
WA
165,679(78)
OR
11,685(21)
ID
19,033(100)
Total 196,397
X of Total
68.IX
3X
Ik
IX
OX
55,720(26)
14,370(25)
CR
2,785(15)
ID
Total 72,875
WA
0
12,835
2,341
0.8X
4.5X
212,271(100)
56,859(100)
19,033(100)
288,163
100.OX
U.S. Leaf and Stem Percentages 1976-1990
2.50_
P
2.25.
e
2.00_
r
1.75.
c
>"'."V.
'.* '.•
va'<
1.50.
••/..v.-
A'A-j
WW
w* AW
e
n
t
a
g
1.25.
1.00. KVAv
' ,'>.'•
0.75.
0.50
e
0.25
0.00
m
MS*
rW'Aj
WAj
•AW:
$& m •••#
$$.
AW: k\'A'
WW
•WA WW
•.'.'•/•'•
Avy
>'.'\
fA'A >V.Vr
/.«/,v
•w.w
'AA
y*ye
m
.v.v
WA
AW:
AVyj
'.V.v
Vy.
.<'.••:
'•V'V
$
i|£!l
' >'•
*
^
¥
f
w m-*il ¥ w 41976 1977 1978 1979 1980 1981 1962 1983 1984 1985 1986 1987 1988 1989 1990
$
Year
0 Percent
Page 6
U. S. HOP STATISTICS
LEAF & STEM CONTENT (%)
Crop Year
WA.
OR.
ID.
CA.
U. S. Average
1974
1.95
1.57
1.02
• .56
1.72
1975
1.75
1.24
.97
.65
1.53
1976
1.23
1.43
1.16
.88
1.24
1977
1.46
1.91
1.15
.90
1.49
1978
1.38
2.19
1.34
1.07
1.48
1979
1.92
2.32
1.38
1.83
1.93
1980
2.57
2.19
1.84
1.66
2.43
1981
1.93
2.49
1.60
2.73
2.01
1982
1.13
1.80
1.24
1.24
1.26
1983
1.25
1.44
• 1.20
1.20
1.28
1984
1.07
1.77
1.27
1.26
1.18
1985
1.25
1.56
1.16
0.06
1.16
1986
0.95
0.92
0.73
0.46
0.93
1987
1.14
1.55
1.28
0.45
1.23
1988
0.92
1.28
1.01
0.00
1.00
1989
0.96
0.83
1.20
1990
1.01
1.35
1.11
-
-
0.95
1.09
Source: Federal-State Inspection Service
Prepared by Hop Qrowers of America
SUMMARY: U.S. HOP INSPECTION REPORT
* The weighted average of leaf and stem content found in
1990 U.S. bale inspections increased .14%, compared
to 1989.
* Leaf and Stem content comparisons ('90 vs. '89j:
Idaho
Oregon
Washington
-.09%
+ .52%
+ .05%
* In 1990, the U.S.D.A. inspected 288,163 bales, a 10,906
bale decrease from the number inspected last year.
10
DISPOSITION OF PRODUCTION
SALABLE HOP PRODUCTS
net Domestic
Usage of 2
Exports
U.S. Hops
(+)
(+)
Plus or
Increase or
(Minus)
(Decrease) In
Unaccountable
Difference
( +)
Salable <
Domestic
Stocks
(-)
Product
(1,000 lbs.)
(100%)
(100%)
78,926 (100%)
78.134 (100%)
1979-80
36,373)
24,870
(2,380)
(4,470)
54,757
1980-81
41,963
43,723
34,742
32,181
31,332
26,091
28,362
33,427
28,346
24,493
26,689
23,700
2,380
1,520
74,411
(1,892)
12,600
2,673
3,098
14,030
7,016
67,995
(4,334)
2,364
56,053
1981-82
1982-83
1983-84
1984-83
1983-86
1986-87
1987-88
1988-89
1989-90
26,691
47,494
<3§JS£> ,dfift
i4r
22,168
866
490
29,139
34,963
31,322
(8,239)
(8,798)
(15,820)
(16,566)
(320)
(10.630)
(8,300)
26,399
(100%)
(100%)
49,613 (100%)
48,962 (100%)
50,964 (100%)
54,696 (100%)
59,326 (100%)
190
i Total production less fire: ios
loss 8t reserves not yet sold In normal outlets.
2Total usage less Imports adjusted for year-end Inventory changes.
] 5 million pounds minus adjustment to reflect more accurate export figure.
U.S. BREWERY USAGE
Net Usage
net Ueage
rorelgn
U.S. Hops
Hop*
U.S. Brewery Usage: U.S. and Foreign Hops
(1,000 lbs.)
1979-80
1980-81
1981-82
1982-83
1983-84
1984-83
1985-86
1986-87
1987-88
1988-89
1989-90
24,870(59%)
28,346(66%)
24,493 (39%)
26,689 (63%)
29,193 (63%)
26,691 (64%)
22,168 (33%)
29,139(67%)
34,965 (76%)
31,322(72%)
26,399(61%)
17,593(41%)
14,601 (34%)
17,346(41%)
14,349(33%)
13,677 (35%)
14,774(36%)
18,039(45%)
' 14,626(33%)
11,138 (24%)
1^302(28%)
79-60 80-81 81-82 82-83 83-M 84-83 85-88 86-87 87-88 88-89 89-90
(17]243)(39%)
Year
♦
Source: U.S.D.A. Prepared by Hop drawers of America
U5. Hops
afortlgnHops
♦
Total hopsuseo
Page 8
Marketing
^
5.4-1
5.3-1
5.5-1
1987-88
1988-89
1989-90
4.0-1
4.0-1
4.0-1
4.0-1
4.0-1
4.0-1
As Extract
As Extract
22,012
17,925
21,441
21,284
18,288
19.4O0
23,432
19,605
21,713
16,817
10,740
10,068
7,803
8,960
11,998
21,254
21,437
46,103
43,624
43,842
7,195
6,562
6,294 3/
6,014
5,590
7,567
9,209
9,283
9,357
34,644
34,476
34,341
34,485
35,451
34,617
36,220
36,894
'27.666
26^240
22,360
17,045
42,465
42,947
41,839
41,038
41,372 3/
41,465
40,207
43,787
35,078
15,207
19,692
17,336
39,953
(Mop Equivalent)
7,321
As Hops
6,883
7,616
Total
35,582
35,331
(Hop Equivalent)
EXPORTS
32,632
Aa Hops
BREWERY CONSUMPTION
¥
¥
i£
'•¥•
'*•
¥
,'*,%•
^
'¥
*•
^Extract
Source: U.S.D.A. Prepared bv Mop Growers of America
QCones/Pellets
Marketing Year
78-79 79-80 80-81 81-82 82-83 83-84 84-85 85-86 86-87 87-88 88-89 89-90
aw*
U.S. Brewery Hop Consumption By Form
Total
Qcones/Pellets
^Extract
Marketing Year
C;iHK \)
78-79 79-80 80-81 81-62 82-83 83-84 84-85 85-86 86-87 87-88 80-89 89-wO
U.S. Hop Exports By Form
Includes 3.5 million pounds minus adjustment to reflect more accurate domestic extract consumption
figure.
5 million pounds minus adjustment to reflect more accurate export extract figure.
II
3/
ed by Treasury Department. Export Conversion Factor Is based on USDA Hop Market Mews Service.
Domestic Conversion Tactor Is based on actual pounds of hops used In production of extract as report
6.6-1
1986-87
4.0-1
5.1-1
1983-84
4.7-1
5.0-1
1982-83
5.6-1
4.0-1
4.4-1
1984-85
4.0-1
3.5-1
1980-81
1081-82
1983-86
4.0-1
4.4-1
4.0-1
4.0-1
4.4-1
Export
1979-80
1/
Domestic
1/
1978-79
Years
FACTOR
EXTRACT CONVERSION
BREAKDOWN OF BREWERY CONSUMPTION AND EXPORTS - [In l,OOQ lbs.)
12
SUPPLY AND DISPOSITION 1982-83 TO DATE (in 1,000 lbs.)
SUPPLY
1982-83
1983 84
1984 85
1985-86
1986-87
1987 88
1988-89
1989-90
Carryin Stock i
47.030
61,080
68.096
70,460
70,950
70.630
60.000
51.700
Salable Prod. ;
78,154
67,995
56.053
49,615
48,962
50,964
54,696
59.326
Imports
14,349
15,672
14.774
18,039
14.626
11.138
12.302
17.243
139,533
144,748
138,923
138,114
134,338
132,732
126.998
128,269
TOTAL
DISPOSITION
Brewery Usage
Exported
Carryout Stocks t
Balancing Item
TOTAL
41.038
341,372
41.465
40.207
43,787
46.103
43.624
43.842
34,742
32.181
31.352
26.091
28,360
35.427
47,494
49.103
61,080
68.096
70.460
70.950
70,630
60.000
51,700
51.890
2,673
3 3.098
(4,354)
866
(8,239)
(8,798)
(15,820)
(16,566)
139,333
144,748
138,923
138.114
134.538
132.732
126,998
128.269
.211
.2133
.214
.208
.224
.233
.220
HOPPINQ RATE:
.218
i Brewer, dealer and grower stocks as of Sept. 1.
? Production less Mre loss and reserve hops not solid In normal outlets.
3 Includes 3.5 million pounds minus adjustment to reflect more accurate domestic extract consumption figure.
U.S. Hopping Ratio
0.30_
0.27_
0.24
0.21.
<'• :;r
0.18
0.15
0.12
0.09
0.06
0.03
0.00
-f-
+
1982-83
1983-84
1984-85
1985-86
1986-87
1987-88
1988-89
1989-90
Marketing Year
• Hopping Ratio
Source: U.S.D.A. ATT. Dept. of Commerce
Prepared by Hop Orowers of America
Page 10
13
SUMMARY: DISPOSITION OF PRODUCTION
Salable Hop Products.
* 1990 Salable hop products reached the level of 59,326,000
pounds, its highest point since the 1983-84 year.
Salable Hop Products 1979/80 - 1989/90
78930_
71037.
0
0
0
P
63144
55251.
47358_
39465.
o
31572.
u
23679.
n
d
s
15786.
7893.
0
79-80 80-81 81-82 82-83 83-84 84-85 85-86 86-87 87-88 88-89 89-90
Marketing Year
<• Salable Hop Products
U.S. Brewery Consumption
%Change 1989/90 vs. 1979/80
Imported hops used
Domestic hops used
-2.0%
+6.9%
*Total U.S. Brewery consumptionCdomestic and foreign hops)
increased .49% in 1990.
^Exports of U.S. Hop Extract reached a new high of 27,666,000
pounds in 1990, an 81.9% increase over the 1978-79 crop
year.
Page 11
14
1990 HOP STOCKS
September 1 U.S. Hop Stocks - 1,000 lbs,
Grower
TOTAL
Brewer
Dealer
1976
48,050
1,960
390
50,400
1977
48,520
1,580
380
50,480
1978
45,430
1,730
380
47,540
1979
35,270
2,930
0
38,200
1980
3 1,420
1,380
0
32,800
1981
32,240
1,950
240
34,430
1982
43,740
2,090
1,200
47,030
1983
56,700
3,000
1,380
61,080
Year
1984
60,480
6,256
1,360
68,096
1985
58,130
10,930
1,400
70,460
1986
60,630
8,930
1,390
70,950
1987
62,430
6,580
1,620
70,630
1988
49,090
9,160
1,750
60,000
1989
43,200
8,500
3/,
51,700
1990
46,810
5,080
3/
51,890
3/ Included In dealer stocks to avoid disclosure of individual operations.
US SEPTEMBER 1 STOCKS 1976-1990
I
0
0
0
p
o
u
n
d
5
1976 1977 1978 1979 1980 1931 1982 1983 1984 1985 1986 1987 1988 1989 1990
Year
E3T0TAL
a Dealer
♦Grower
• Brewer
SUMMARY: SEPTEMBER 1 U.S. HOP STOCKS
*U.S. hop stocks on September 1, 1990 were at 51,890,000. Compared
to 1980, September 1 hop stocks have increased 2.9%.
* Dealers and growers held 5.08 million pounds in 1990, compared
with 8.5 million pounds on hand last year.
1990 U.S. EXPORTS OF HOPS, PELLETS & HOP EXTRACT 15
CUMULATIVE 1989-1990 CROP YEAR - EXPORTS IN POUNDS
ARGENTINA
AUSTRALIA
BAHAMA'S
BARBADOS
BELSlUtt
BOLIVIA
BRAZIL
CAMEROON
CANADA
CHILE
COLOHBIA
CZECHOSLOVAKIA
DOMINICAN REPUBLIC
ECUADOR
FINLAND
FRANCE
FRENCH PACIFIC ISLAND
6ERNANY, FED, REP,
GHANA
GUATEMALA
GUYANA
HAITI
HONDURAS
HONG KONG
INDIA
IHDONESIA
IRAQ
IRELAND
JAMAICA
JAPAN
KOREA
LEEWARD-WIHDWARD ISL
LESOTHO
MALAWI
MALAYSIA
MEXICO
HETHERLAHD ANTILLES
IIETHERLANDS
NICARAGUA
NIGERIA
NORWAY
PAKISTAN
PANAMA
PAPUA NEW 6UINEA
PARAGUAY
PERU
PHILIPPINES
PORTUGAL
SIN6AP0RE
SOUTH AFRICA
SOVIET UNION
SPAIN
SRI LANKA
SURINAME
TOGO
TRINIDAD I TOBAGO
UNITED KINGDOM
URUGUAY
VENEZUELA
ZIMBABWE
TOTAL EKPORTS
EXTRACT HOP EQUIVALENT
(4.0-1)
GRAND TOTAL EXPORTS
Source: U.S.D.A. Prenared hv Hod Growers of America
CONES
0
0
0
0
323898
0
550980
44092
700963
0
0
0
55115
0
0
2205
0
PELLETS
0
24251
0
0
8818 "
0
8231523
• 0
27177B0
0
1052609
0
371639
48501
0
EXTRACT
59525
1349
7717
2006
203478
248767
175407
916161
39682
35275
72752
2205
2205
IB3B643
2124207
359390
0
0
. 0
121253
0
0
0
0
5106
0
769
8819
6614
0
0
39683
109679
15432
3087
0
0
30864
112434
0
56874
0
42372
0
7500
0
0
0
0
30864
0
9123
0
714290
0
0
0
0
4409
1B9B56
13228
0
0
0
26455
26455
15432
254272
19B41
0
28660
0
0
388010
0
0
15999
16272
11023
4410
0
372924
19841
0
0
8370
0
14228
0
2025245
13227
45745
396B3
551
2414
15432
424144
2205
0
0
0-
18740
41447
33071
222304
692830
66138
55103
0
0
44092
-0
8B20
11023
21219
52B72
12125
147708
7716
6916410
6613B
158731
0
0
50706
551150
0
6614
0
0
0
91050
5512
418B7
0
0
4902205
16535319
536194
13228
9088942
B5978
3667510
175407
1968770
39682
462029
121253
2205
2205
2205
4322240
5106
121253
769
BS19
13228
306439
41886
0
0
0
0
0
0
0
TOTAL
59525
25400
7717
7006
51148
0
0
1
*
15999
16272
11023
11024
26455
399379
74956
363951
35273
11457
28660
14228
30864
25256B9
13227
526763
41888
94071
2414
22932
18740
•41447
33071
2BB412
8B2425
66138
64226
50706
1265440
44092
6614
8820
11023
25628
333778
30865
189595
7716
2B353934
27665640
49103161
16
SUMMARY: U.S. EXPORTS OF HOPS, PELLETS Sf EXTRACT
Export of Cone Hops 1981/82 - 1909/90
Tot.l U.S. Hop Exports 1981/82 - 1989/90
176CO_
WOOOj
I56«3_
*5OO0_
i-floeo.
oooo.
17320^
35000
IC7560
30OOO
600O
25O00_
70 0_
2OO00.
5260_
15000.
35?0_
I0OOO
1760
5000
-f-
-f-
-f-
-+-
-r-
~f-
-+-
H1981-8? 1982-83 I 963-6- 1981-85 1985-66 1986-87 n^1
1981-9? 1982-83 1983-84 1984-65 1985-66 1964-8? 1987-68 1968-89 1989-90
Marketing Year
Marketing Year
• Con* E>t>oris
• Total US Ixoont
Export of PelUts 1981/82 - 1989/90
18000.
Export of Extract 1981/82 - 1989/90
280O0j
25200J
16200
72*00_
14400
196O0
12600.
I68O0
10800
• OOO
9CX»
1 I TOO
7200.
8400_
5400
5AOO
3600,
2800
1600
1'982-83 1983-84 1984-65 1965-66 1966-67 1967-68 1966-89 1989-90
Marketing Year
1981-82 1982-83 1963-84 1984-85 1985-64 1966-87 1987-88 1988-991989-X)
Marketing Year
• E»tr»ct E*Oorts<AcHj»l * *'
• Total U.S. hop exports hit a all time high of
49,103,000 pounds In 1990.
• The exports of U.S. cone hops fell 72.7% between
1981-82 and 1983-84. Since that time, U.S. cone
exports have leveled off at an average of 4.55
million pounds exported per year.
• U.S. exports of pellets and extract have
dramatically increased since the 1986-87 crop
year- Pellets (+ 315%)
Extract ( + 42.5%)
Page 14
17
1990 U.S. IMPORTS OF HOPS, PELLETS & HOP EXTRACT
CUMULATIVE 1989-1990 CROP YEAR - IMPORTS IN POUNDS
PELLETS
EXTRACT
TOTAL
0
:oo,44o
0
305,40
7,'JOO
88,184
0
0
38,184
24,000
903.620
0
0
903.620
559.0'">0
61,729
p
0
61,729
0
2,560.546
3eiqi'jm
tanaca
Ciina
2.550,546
Czechosic '11(13
j?rm3.n.y.
rep.
560,183
0
' :.3M,150
152,; '5
60,316
Japan
"lew z^a! 30(j
:"!
599,651
560,! 3 5
591,'''''"
?.".l7-1. V: "
0
60,315
'x ' .*• *
0
l 14,638
60,00V
599,651
1,04 1.1)0".
0
0
0
2,205
0
2,205
6.000
39,683
372,797
0
412,480
349,000
16,185,062
1,048,195
2,524
17,235,731
United Kinqoom
•
ruqosiavia
TOTAL IMPORTS
^ ~>_^
l/a"
''6 i,'.»"...•
' 1.565.789
0
T
' 'J,'538
0
Poland
88-89 Crop
CONES
^'jStrai'T
EXTRACT HOP EQUIVALENT (4 0-1)
1)
10,096
GRAND TOTAL IMPORTS
17.243.353
*I989 USDA report qrouped these countries toqetner in other category
Total U.S. Imports 1981/82 - 1989/90
Cone
Hop 1mports 1981/82 - 1989/90
TOOOO,
1
16000
0
16000
0
I4OO0
0
I20OO
p
lOOOO
0
8000
u
.
X^-"—"*
6000
n
d
5
*000
2000
0
1981-62 1982-63 1963-64 1984-85 1965-66 1966-87 1987-98 1966-89 1969-90
198 -821982 631983 -84 1984-65
965-86
986-97 1987-S9 1968-69
9'*?- *;
Marketing Year
Marketing Year
-Cone moons
> Tot»l Krxjorii to USA
Extract Imports 1981/82 - 1989/90
Pellet Imports 1991/82 - 19S9/90
1 100,
t
990
0
0
880
770
0
P
550
0
440
<J
330
^-*^**^\\
j^r
" -^^^
•
\
/
\
/
/
"" \ \
\
/
\/
d
\
\
\ jr
S
/
/
*r
n
s
/
/
/
720
no
0
1981-82 1962-63 1963-64 1964-65 1985-64 1966-87 I967-66 1966-89 1969-90
1961-621962-63 1963-84 1964-631963-66 1986-87 1967-68 1968-691969-90
Marketing Year
Marketing Year
• Ptllei Import j
Source: U.S.D.A. Prepared by Hop Growers of America)
E*ir»et imports<AcIi»1 • 4)
Page 15
1990 SOLD AHEAD PROJECTIONS
The 1990 Sold Ahead Survey conducted by Hop Qrowers of America received responses from 60% of the
growers representing 48% of the 1990 acreage total. An additional 7 responses did not Indicated their 1990
acreage and were unuseable for calculation purposes.
%OF 1989 CROF
YEAR
POUNDS CONTRACTED
1990
45,100,076
1991
44,217.060
75
1992
41,227,310
69
1993
32,085,188
54
1994
27,671,500
20,221,900
47
1995
76%
34
1989 SOLD AHEAD SURVEY PROJECTIONS
YEAR
POUNDS CONTRACTED
1989
49,707,999
91%
1990
44,503,791
35,489,434
82
46
1993
25,063,911
4,672,857
1994
1,154,285
1991
1992
°hOr 1988 CROP
65
9
2
Source: Mop Qrowers of America.
1990 SOLD AHEAD SURVEY PROJECTIONS
50.
M
45.
;t ,-,» r.t .*.« •".•_.",' •".*
40.
y*y*.*'." '."*"•* ***'.*•'
I
L
L
I
0
35.
30.
N
25.
P
20
0
u
15
•V'•"".*'-V'•*«*'-V'-""
N
D
10.
<;
5
ip
0
1990
1991
ii|i
1992
1993
1994
1995
CROP YEAR
^Contracted Hop Sales
Source: Hop Qrowers of America
Page 16
19
WORLD
STATISTICS
Most of the statistical reports provided in this section were derived from
annual reports published by 5.5. Steiner, Inc. and Joh. Barth and Sohn.
Table of Contents
IHGC Committee Report, December 6, 1990
page 18
Concise Review and Worldwide use of Hops
page 19
World Hop Acreage 1976-1989
page 20
World Hop Crop and Acreage Yields 1987-1989
page 21
World Hop Crop 1976-1989
page 22
Alpha Acids Levels and World Alpha Acids Supply
page 23
World Beer Production
page 24
1977-1990 (Steiner Report)
Balance of Hop Supply & World Alpha Acids balance
pages 25, 26
World Hop Balance
page 27
World Beer Production 1988-1989 (Barth Report)
page 28
Alpha Acid Production and Balance
page 29
Acreage and Hop Production
page 30
IHGC Countries - Estimated Forward Sales 199-1994
page 31
World Hop Production 1971-1989
page 32
Area under hops, production, alpha acid & beer production
page 33
E.E.C. Countries - Acres per growers
page 34
-INTERNATIONAL CONVERSION TABLE-
1 Zentner (Ztr.) = 50 kg
100 lbs.
= 45,359 kg
1 Hektar(ha)
1 acre
=110,23 lbs.
= ca. 0,907 Zentner (Ztr.)
= 2,471 acres
= 0,405 Hektar (ha)
1 Hektoliter (hi) = 100 Liter (Ltr.)
= 0,8523 bbl. [USA] = 0,6114 bbl. [Brit.]
1 bbl. [USA]
=117,34 Liter (Ltr.) = 1,1734 Hektoliter (hi)
1 bbl. [Brit.]
= 163,65 Liter (Ltr.) = 1,6365 Hektoliter (hi)
7,845!
5,577!
36,035!
346!
20,961!
1 5,231!
! 15,073j
„
1,240!
n/a
-222!
-0.375?!
0.35*!
521!
„„—..-•.-..•—————*
—
4,982,441]
7,484,685!
-
5,383.9!
6,232.7!
186,394,228!
205,094,917!
—.——• - . — — ♦-
"27326!'
137.1!
9,027,919!
5,445,411!
• 57,000,000!
24.4!
929,688]
262.1!
18.5!
334.5!
9,407,003!
169.1!
157.5!
5,814,685!
1,735,256}
339.2!
23,368,9721
4,660,126!
1,292.4!
another Increase of 2.02%.
compared to 1989: Hungary (-29.6%). Cast Qermany (-16.4%). Czechoslovakia 1-13%).
Belgium (-9.1%). United Kingdom (-2.6%]. Spain (-1.8%) and Yugoslavia (-1.3%|.
• 1990 world hop acreage Increased .35% over 1989, and estimates lor 1991 acreage Indicate
• Besides West Qermany, seven other countries had a decrease In their total hop production as
Poland (+ .8%).
• Only 2 countries realized Increases In their 1990 hop production: Trance (+ 4.2%) and
highlights Include:
665!"
1,408]
3,590
157,563
62,348!
59,529!
95,190;
94,664!
Paqo
3,"i"23
"i'Vosc!" ""2.029?
526]"" '""2'792o!
675695!
154,440
5,831
5,436!
15,073!
38,548
"7",908
'""r,409
_. _^.
23,475]
'""7731o!"
717]"'
J93]
5,436
8,908
29,281
0!
5,387!
5,473!
3,583!
49,845
2,305
27681
7,006
Total
395!
" 6^5981
~'T~2?jZ
3,410]
7]
„_„„„|„..
49!
29,281!
WEST GERMANY HOP PRODUCTION DOWN 12.7%
Apreliminary production report from the December 6. 1990 I.H.Q.C. meeting In Munich. Qermany, shows West Germany's total hop production at a level of 61. 178.205 pounds. This
represents a decrease of 12.7%. or 8.92 million pounds as compared to 1989. Other report
Columns may not add due to rounding.
SOURCE: IHQC. Prepared by Mop Qrowers of America.
Scottsdale.
]
"""27557!"
""32,659'!" ~]7~\B6\'
897]"""
--•j-j--
124!
j
Alpha
238.8!
37.8!
46.5!
1991 ACRE ESTIMATES
Tons
Aroma
ALPHA
2,102,546!
61,178,205!
• 4,624,190!
• 1,441,601!
Total
-18,700,689! '"'78488!
f-9.0293! -13.6195!
95,041,168]
n/a
5,761,774!
5,693,652!
4,649,103!
307,434!
859,581!
1,543,234!
462,970!
0!
21,884,712!
n/a
4,458,844!
950,632!
Aloha
Due to Incomplete data, the IHQC used 1989 hop production figures for the U.S.. Australia, and Bulgaria.
A final report with updated U.S. and world totals will be presented at the annual rtOA convention In
0.5595!
521!
« —
11,023]
_.—
52,911!
3,713,352!
59,751! 153,894! 110,053,749!
59,529! 154,440!
128!
1 94,664!
1 94,143!
227!
3,583!
7j
1,0851
3,469!
5,562]
5,216]_
23,368,972]
38,742,338!
6,590!
|
!
86!
0!
70,107]
32,3501
j 29,2811
n/a
8621
5781
1,408!
17,346!
734!
919!
165,347]
490,969]
Aroma
1,427,822!
j
2,6811
2,557!
;
2,305!
49,697!
29,281!
5,649!
8,686;
3,590!
1,312!
1241
341 j
8971
! Aroma 1 Aloha ; Total
93 Change '90 vs. '89;
Diff. 90 vs. ,89
IHGC 1989
IHGC Total
USA
Poland
Yugoslavia
Hungary
France
Spain
United Kingdom
E. Germany
Czechoslovakia
V. Germany
Belgium
Bulgaria
Australia
Country
1990 HOP ACRES
DECEMBER 6, 1990
1990 HOP PRODUCTION-LBS.
INTERNATIONAL HOP GROWERS CONGRESS - ECONOMIC COMMITTEE REPORT
III
r\o
o
21
Concise Review
World Alpha Acids Supply
World Beer Production
1988: 1086millionhl
1990': 1 150 million hi
1989': 1 120 million hi
+3.1%
+2,7%
World Mop Acreage
1987:
86434ha
1989:
91182 ha
2355206Ztr.
1989-: 2 421 140Ztr.
1988:7 310 000 kg
+ 10,1 %
-
0.6 %
World Alpha Acids Consumption
1988: 90 723 ha
+ 5.0 %
1988: 7 602 000 kg
+ 0.5%
1990': 8 050 000 kg
World Hop Crop
1987:
1987: 8 130 000kg
1989': 7 263 000 kg
1989': 7 840 000 kg
^ 3,1
%
+ 2.7
Cumulated World Alpha Acids Balance
1988: 2416624 Ztr.
+ 2,6 %
(Estimate: 9.1.1989)
+ 0,2%
1987: 6280 000 kg
1989': 4 963 000 kg
1988": 5 750 000 kg
-
8,4 %
-13.7 %
Worldwide Use of Hop Products
1987:
1350000Ztr.
+ 4,5%
1988: 1411000 Ztr.
WORLDWIDE USE OF HOP PRODUCTS
The efficient use of bittering substances in the
brewing process and the excellent storage stability
Republic of Germany alone about 440000 zn.
hops have been transformed into pellets and
of hop extract and pellets have led to a further
230000 zn. into extract. 100000 zn. of that as
increase in the demand for these hop products.
ethanoi extract. With regard to pellets a distinct
trend to pellets 45 (mecanically enriched) has
Based on estimates almost 60% of the world
hop crop of approx. 2.4 million zn. has been
processed into hop products. In the Federal
Hopfen/Hops
Houblon
Total Production
Ztr.
Ztr.
been observed.
Pellets
Extrakt/Extract/Extrait
Production
Production
± %
% Total
Ztr.
% Total
± %
1981
2 617 553
790000
30.2
+ 25.4
630000
24,1
+ 14.5
1982
2 844 500
930000
32.7
+ 17,7
720 000
25.3
+ 14.3
-
2,2
715000
26,6
-
0,7
2.8
33,9
1983
2 685055
910000
1984
2 553 104
950000
37,2
+
4,4
735000
28,8
+
32,7
-12,6
595000
23,5
- 19.0
1985
2 536490
830000
1986
2 343 802
830000
35,4
+
8,3
600000
25,6
+
±
0.0
520000
22,1
-13.3
+ 10,4
495000
20,5
-
1987
2355 206
830000
35,2
1988
2416624
916000
37.9
Source: S.5. Stelner
8,9
4,8
Page 19
22
WORLD HOP ACREA6E 1976- 1989 (Hectares and X share)
100 559
98 892
100
"321
100
i
100
go7-,3
" ,0o
91 182
mo
Total
81 514
79 858
-a ,72
100
-oo
19686
in 250:
24,7
-'4,3 "
,22,6 <
5 888'
:;5897V;
T
'
'00
77 863
;.i7.'$22.'i 17273'.;
7,4 '
17929
20.9;-
19171
19 986
19,4
19,9
19 759: 19004]
19,9/x -..W:}.
7,4 ;• ! aV.a'v
5825;
5692J
5903/;
-7,1- •'•
" 5,7 w
5,9'1
. 5i«HF
21.9 J ,22,5,:| V%^i
13200-
.10400
12.9 ! ;--13.4
Sf5,9-fi
21,8 j
21,9 '
4 747:
I H 11 fffl -3»°i
••••!
•'•I
Ji
9700
12,1
19597] 19649J "iijfMgl 19782j 19 9381
•.-T-.TTp:
' 1
5920:
21.2 '
10400
12.8
11 100-;
12,9-'.
11800'
II -357
11850,
11,9 •
1:.8
11.9
r^- ,:'<
1 SLfr^i J&S&
'-/•••'.^
-fr-
•••-••!
11-950
11657)
11950'
11950 j
11950!
11950-
13.0 !
13,7 •
13.8 •'
13.2 •
13,1 .
'12,8
;
•:•##£
•:'•'•'k*t
„JS -.'-
:_:.,-^J
CSSR
^-•1
--.v-{ hi-rM '?••;>
y...c;
ll-rxv:.. :4 ? •v:-;1
27988,' 27 422 i 27358
35.1 j 34,6 J a.'35,1, ,
30687
37;,8 ;
.26718'
31597'
. 31.1 •
32,a.i
323315311
32,
-32574*
|i 32.8.1
31;7&3j
H,V1
•;
'-:. 4
30986!
30694
30006. 29860^
•S.34.7 •
I
'V
••I
"Cm
j
t|
-:i
t
12545-
15,7
>
i1
J
12 393)
'5,7 ;
12546:
16.1 -J
i
i
,
12950:
15034J
174831
15,9 j
17,5 '-•
17,7 .;
i
• -i
16875
16,8 '
\0'
&.#•
rv-1 :-^?^ )T:.-J
S 15,3;
=42;9 i ;' 11.6 ^
32.8 .j
fj ':'
14060)
13,4:? ' 15;i t
15.4-J
'12643 -114931 -'101173 M1533-
•43fiA
29914
:-V \
13 7-241
••*•--•
15130
32,9;
USA
•i
' "' I, "^
f-
-'J
'•A^'-i
,s
'^. ?-
•
i
4 019.
5,0 -
1976
4 019!
5,1 j
1977
40451
5,2. )
1978
4379:
5,4 i
1979
Source- S.S
9363
10,9 '
1980
St*»1npr
13149
13,3 ;
1981
13 607-
14 134
11 740
13,5 " " 14.2 -
12.6 r
1982
1983
1984
• ••.•»
•
~:|
0879J 105561 9608^ 11417 j 114400 i
10879j
12^
12^ j
1985
12.1 A - 11,1 ]
1986
1987
12.6 i
1988
12, 5
1989
•!
Rest
23
WORLD HOP CROP AND AVERAGE YIELDS 1987 -
0Ztr./Hectare
+/- %
Ztr.
1988
1987
1989"
87/88
1989
1989-
88/89*
1987
1988
37.8
30,1
35.1
21,3
27,1
28,9
29,3
27.4
Perle
64 506
61791
81000
-
4,2
+31.1
Huller
17176
19 750
16000
+ 15,0
-19.0
143545
174 404
196000
+21,5
+ 12.4
16390
13038
11800
-20.5
23,1
21,2
23.3
202623
152699
146300
-24.6
37,0
28,5
28.8
84 865
86821
71600
+ 2.3
- 9,5
- 4,2
-17,5
41,3
47,1
7934
7165
7300
29,1
29,4
41,5
30,2
537 039
515668
530000
+ 1,9
+ 2,8
31,4
37 164
39500
27,8
28,6
21185
20961
20700
25,8
25,2
3200
32,9
26,9
25,8
17,6
30,8
34 934
26300
25,8
35,8
Hersbrucker
Hallertauer
Northern Brewer
Brewers Gold
Record
Hallertau Total
Tettnang
Spalt
2354
2938
Jura
24790
23110
Rest
474
466
620776
600307
Hersbaick
Germany (BRD) Total
480
C 620180''
England
103800
98309
99000
CSSR
238340
307 420
270 000
-USSR
220000
200000
200000
87080
74 020
75600
-
9,7
- 4,0
+ 6,4
+ 6,3
-
1,7
- 1,2
+ 8,9
+ 13,8
+ 3,0
24,9
22,6
31,8
24.5
-
3,3
+3,3
32,1
30,3
31,1
- 5,3
+29.0
- 9,1
-15,0
+ 0,7
25,8
-12,2
± 0,0
19,9
14,4
24,6
25,7
22.6
34,9
- 1,1
+24,8
-
6,8
21220
21180
19980
108300
95200
95580
- 0,2
-12,1
+ 2,1
- 5,7
+ 0,4
Poland
52058
56800
52000
+ 9,1
-
Germany (DDR)
Spain
71510
63139
63000
-11,7
36978
32 486
40000
-12,1
- 0,2
+23,1
France
14130
15675
15000
+ 10,9
Belgium
Bulgaria
14 328
12 036
12000
-16,0
14020
15710
16000
+ 12,1
- 4,3
- 0,3
+ 1,8
' Romania
34000
33000
33000
-
2,9
± 0,0
-
4,2
-
8,3
+ 1,9
- 9,1
Slovenia
Backa
Yugoslavia Total
30,6
8,5
35,0
26.5
24,0
25,3
13,1
13.1
30.1
30,0
30.0
29,2
29.8
32,9
21,3
30,3
22,7
25,5
33,3
30,1
23,7
20,3
25,3
31,9
25,1
28,5
14,5
16,5
19,2
17,0
25,4
15,0
13,2
25,8
29.5
24,0
24,4
22,2
27,1
21,9
27,9
26,8
Hungary
Europe Rest
13312
12756
13000
12000
11000
10000
Europe Total
1553552
1553838
1538760
± 0,0
- 1.0
23,8
23,7
23,4
142 100
+55,7
+ 14,3
-16,4
+ 14,1
+ 3,3
30,9
25.9
27.0
41,5
42,2
39,4
41,1
42,0
42.1
36,1
36,4
79811
124279
USA Bitter
203953
176400
147500
USA Highalpha
170263
194321
221800
-13,5
+ 14,1
USA Total
454027
495000
(jj11 400 >
+ 9,0
Canada
8 820
8910
9 000
+
1.0
+ 1.0
37,9
31.7
32.0
Argentina
Japan
4 900
5000
5000
+ 2,0
+ 0.0
37017
37888
37000
Australia
37 980
47160
49460
+ 2.4
+24.2
7150
7 800
8000
- 2.3
+ 4,9
+ 2,6
190000
200000
200000
2800
2800
18.9
39,6
44,4
47,1
38,5
35,0
11760
10500
11720
± 0,0
+ 0,0
+11,6
18,9
38,7
43,5
45,9
38,5
2700
19,1
36,7
50,3
45,3
36,5
19,3
25,8
33,8
23,0
16,5
25,7
+ 0,6
+ 0,2
27,2
26,6
26,6
USA Aroma
New-Zealand
China PR
•Turkey
South Africa
Rest
Total
47 300
2355206
Source: S.S. Stelner
47728
2416624
48000
2421 140
+ 9,1
+ 5,3
+ 3,7
-10,7
+ 0,9
+ 2,6
35,0
41,8
16,6
Page 21
24
WORLD HOP CROP
1 976 -
1 989 (lOOO Zentner and %share)
2 845
100
>ots)
161 ']
7.5-ij
145' 'i
6.3 I
":vi ^;CJ ^if^^S mt;^
187 • •206;!!
'-•;f87#
'8;7^
A 8,8 .
7.1
'1-8,5
:;170l] .-^58l3
130-'
7,2;-;! 'riftS ^a;??)
-10 1
5,i . •: 4,c3 '
104j.]
-9Brt(
4.4 .'i . 4',Q<|
-.99
4.1
$&1
194
244
;« i
9,0.'-
1
gfte"1'
238 •
.: 201
0,6 j .; 9,3,j ^IQ.y $W.
25i-:4 z£&\ L; :2i7:-
2513
256 . - 2bo;-
3,8^ ^8.7^ :Vb8vy1
9.9
10.1 i • .B$\j
•J
;.
':307.'
-270
•-:i27'j
.11.2
.-
-^
-U': '.&
.'• if';.;1
>'••'?" 2
\"%-\
Mb
",•:• i SSB"
• A:'
3
CSSR
•w
1
....
2381'.10,V[
•-.{ ;f~-'.'
HlV-'Ji'I-.
•'• - i•i •4'*'&i;
.•..";.. a «
.-1
•-;.
;•••
•"*•"'•
595
564 '
548 '
647 j
itj&Q^
553
592 j
27,6
24.4 :
25.4
27,6 j " 22.6"1
21.1
jo.8 j
':
.to-
-
£694'
22.1 :
'-• '
... ••&.
A!
. ?\-
1
-,]
627 i
628
588^1
24,6 .",
24,3 .
25,0 1
-t.i-a
•
V
•
I
J
••
501
25.1 •
548
1 550
22.7
22.7
W
•,.:
i:'-\
-•>#.
' .i
•t 525.
•496
498-1
718=)
•.f-.713-M
': 24,4
121.5
23.0
27,5'
'-.55,1..i
....
."'f118
'. 119 I
- 5,1 ' 4ij 5.1
'5,5 j
1976
1978
•.':109n
1977
"133- ;--i'1581
5.7- :;,e,9^
1979
1980
^Estimate
Source:
S.S. Stelner
22&!
si
wi:
233 ;j
8,7 •!
.8.2'-
1981
1982
---His *
23,0 !
333
5111 • 451-:;
20,0 ] 17.3
329
3571
. 12,5 I - 12,9 I " 14,1
1983
1984
1985
f-4445
M9M
'•••••-
'.'5
•!-.
.i
329 j
"14,13
1986
'454* : 4951
19.3i
20,5 1
511'
21,1
348 3
369 i
371 :
14.8I
15.3 '.
15,3 - -
1987
1988
1989*
UgA
Rest
25
ALPHA ACIDS LEVELS by HOPSTEINER - LABORATORIES
conducto.
(IftrVas is/t.q.)
conducto.
(IftrVas is/t.q.)
1986
1987
1988
1986
1987
1988
%
%
%
%
%
%
3.1
5,2
3,0
Hallertau Northern Brewer
8,7
8,9
8,0
6,4
7,4
6,6
Hallertau Brewers Gold
6,4
7,0
6.5
Tettnang
5,1
5,5
4,1
Super Styrians
8.2
7,8
7,9
Spalt
4,9
5,1
4,2
Target
10,2
12,0
10,9
Saaz
4.0
3,3
3,6
US-Galena
12,8
12,1
10,8
Styrian
5,7
5,0
5,0
US-Nugget
14,0
13.4
12.9
Backa
3,0
3,0
3,0
US-Cluster
8,0
7,7
7,0
Willamette
5,9
5,0
4,5
Pride of Ringwood
9.4
9,0
9,9
10,0
8,3
7,8
5,3
5,9
5,9
2. Alpha-Varieties
1. Aroma-Varieties
Hersbrucker
!. Perie*-
US-Perle
3. Rest
WORLD ALPHA ACIDS SUPPLY 1986-1988
Hopfen/Hops/Houblon
Hopfen/Hops/Houblon
Zentner Total
1986
1987
% Total
1988
1986
1987
1988
Aroma-Varieties
761936
782444
920661
32,5
33,2
38,1
Alpha-Varieties
970393
868063
641300
41,4
36,9
34,8
Rest
611473
704699
654663
26,1
29,9
27,1
Total
2343802
2355206
2416624
100
100
100
0 Alpha
0 Alpha
kg
%
1986
1987
1988
Aroma-Varieties
4,23
5,14
3,83
1614000
2010000
1765000
Alpha-Varieties
8,80
9.31
8,62
4274000
4041000
3625000
Rest
5,27
5,90
5,87
1612000
2078000
1920000
Total
6,40
6,90
6,05
7500000
8129000
7310000
Source: S.S. Stelner
1986
1987
1988
Page 23
WORLD BEER PRODUCTION 1977-1990 (hio Hectolitres and % share)
Europe
_??.::.: - '-iB.B : i-afi'6'=:
\<m&
Pip
• '
r£| * -
.:;*-!
y-;j •- -ij p$5*»l n4^==: —"-7H
- 1 2£>~j; i F"-
:'
' i.'i
'200,1 i 210,1: B*15i8; :'227.7' "i!27323.7
24.1 ' K-23,9.
r" 24.6
24,2".
'
~
*
'"'228.1'
' 23.9 ;
1
^23ff,"6 ' • 240,0;
-•23,9.^
W21.3
20.9
USA
'•.
:.2 ?:;..,]
102.0
12.1 •
1C9.9! • 118,3'• : 123.3 .
127,3
:2.6 : • .;I2,9 >, ift)3,3 ! ,. 13.6 ;
126.2! i\118,4
• 13.2 i
;-123,8i M31,t>!
^12,3:1 fe&M i^lflfr'-.i
..„
154,6:
•15,2'.
7.3
'j7.3 1
7,7
72,5 i
;'. 79,2 •
8,0 '< • 8.6
'82,3'
89.7
8.8 '
9.4
30.0.
3.6 .
:t:.j
3.6
35.53,9
39,0
4.2
42,6!
23,7 -
23.8-
23,7
24.;
24.5
1978
1979
1960
1981
1977
-"Estimate
94 5
102.6 j r-112,8 i
11,5
9,8 ! ! 10.7 1
48.9'! j" 47.2 { • 48,8
4,9 : I 4,9
4.5 '•
America
Rest
. 1 ^'^
122.;
140,4't '163.8'
12.0
. 13,5 j
48/3
52,3.
. 5,0
4,9 .1
Asia
54,5 '
56,1
5,0 :
5.0
57.3
5.0
Africa
-23.7! ^23,6? r23;3- ' 23,0' ' 23,8 j :'24.5
1987
193.1
16,3
1983
1S85
178.4
15,1 ; : 15.9
24.4 '
1985
180,7'
*Sl '
198.?
1984
173.7i
(
^
I- .. -...-I i- - . . H
62.0.
187.7;
,-15.4 ' • 15,5' -15.7
15 5
F" -'•
ik^'-l f-•-.•:-. 1
k-'-sj !'••
1619
1988
/ 25,0
1989'
25.5
1190'
27
BALANCE OF HOP SUPPLY
4.1 Hop Supply Balance of the World Market
The 1988 crop of 2 416624 zn. has yielded an
alpha acids supply of 7.31 million kg. Compared
with an estimated world-wide demand of 7.84
million kg for the world beer production in 1989 a
calculated shortage of approx. 530000 kg which is
slightly more than 180000 zn. of hops, is the
result. A hopping rate of 7g alpha acids per
hectolitre of beer has been here assumed.
Based on the 1989crop estimate and an antici
pated beer output in 1990 of 1 150 million hecto
litres the calculated result would again show a
shortage which will be 787000 kg of alpha acids
or 270000 zn. of hops.
Because of the lower alpha acids production in
1988 and the estimated hop crop in 1989 it is
expected that a further increase in beer produc
tion will result in a further decline world-wide in
hop inventories. The existingworld hop inventory
would then amount to approx. 60% of a yearly
requirement or a supply for approx. 7 months.
WORLD-ALPHA ACIDS BALANCE 1982-1989
Production
Alpha kg
Production
Einsatz/lnpunt/
Bier/Beer/Biere
Utilisation
Mio. hi
Alpha gr/hl
Bedarf
Consumption
Bilanz/Balance/
Bilan
Consommation
Alpha kg
Alpha kg
Kumulierte Bilanz
Cumulated Bal.
Bilan Cumule
Alpha kg
1982
8473000
1983
961
7,00
6727 000
+1746000
1982
+2 683000
1983
7 761000
1984
959
7,00
6713000
+ 1048000
1983
+3 731000
1984
8439000
1985
984
7,00
6 888 000
+ 1551000
1984
+5282000
1985
7356000
1986
1014
7,00
7098000
+
258000
1985
+5540000
1986
7500000
1987
1041
7,00
7287000
+
213000
1986
+5753000
1987
8129000
1988
1086
7,00
7602000
+
527000
1987
+6280000
1988
7310000
1989
1120*
7,00
7840000*
-
530000*
1988
+5750000*
1989
7263000
1990
1150*
7,00
8050000*
-
787000*
1989
+4 963000*
Mio. hi
Einsatz/lnput/Utilisation
Hopfen/Hops/Houblon
gr/hl
1150
125
Production
Bier/Beer/Biere
1983 1984 1985 1986 1987 1988 1989*1990*
Source:
S.S. Stelner
*)Schat7ung
") Estimate
") Estimation
1983 1984 1985 1986 1987 1988 1989*1990*
Page 25
28
WORLD-ALPHA ACIDS BALANCE 1982-1989
•| Sch.-ilzunq
I
8500
Production
Bedar (/Consumption/
') Estimate
Alpha 1000 kg
Consommation Alpha 1000 kg
') Estimation
1 746000
1 551000
527 000
-787 000'
8000
-530 000-
1048 000
+ 213000
7500
-258 000
7000
'•' •ii-t-:NiilH:-,:
ll!l
DS00
iji!l|
6000
5500
IIIMVi
;i'!!
5000
iHNi
m
i|i
4000
•'!!";•!
!
!!i :
3000
2000
iiil'
ib;
1000
i':i!i:
1982 1983
1983 1984- 1984 1985
Source: S.S. Stelner
1985 1986
1986 1987
1987 1988
1988 1989* 1989' 1990"
Page 26
29
WORLD HOP BALANCE 1982 -
1989
Production
Bedarf/Consumption/
1 Schatzung
Hopfen/Hops/Houblon
Consommation
•) Estimate
1000 Ztr.
1000 Ztr.
*) Estimation
2900
1982 1983
Source:
1983 1984
1984 1985
S.S. Stelner
1985 1986
1986 1987
1987 1988
1988 1989* 1989* 1990"
Page 27
30
World Beer Production 1988/89
EUROPE
Country
AFRICA
1989
1988
Fed. Rep. ol Germany
93.200
Great Britain
USSR
Czechoslovakia
France
Netherlands
Rumania
60.140
56.000*
27.200
24.800
22.684
20.900
18813
14 000
Belgium
13.166
Poland
12.380
11.107
10.383
9.388
9.200
8.600
7.0006.810
5.401
4.586
4.133'
3.914
3.7002.205
611
163
100*
66
92.639
60.280
54.000
26.579
24.400
22.670
19 959
17.526
13.000'
13792
12 257
11.00011.191
9.480
9015
8 600
70005.325
5401
4350
4.100:>
3.645
3.700*
2.0801
635
165
10051
Spain
German Dem. Rep.
Yugoslavia
Italy
Hungary
Austria
Denmark
Bulgaria
Portugal
Ireland
Sweden
Switzerland
Finland
Greece
Norway
Luxemburg
Malta
Albania-
Iceland
TOTAL
450.650
442.940
' later correction to 2.217
* Please Me country report
3 Production year from 1 10
Country
South Alrica
Nigeria
Cameroon
Kenya
Zaire
Zimbabwe
Ivory Coast
Zambia
Burundi
Gabon
Ruanda
Ethiopia
P. Rep. Congo
Angola
Ghana
Tansania
Burkina Faso
Marocco
Namibia
Egypt
Togo
Botswana
Tunesia
Algeria
Central African Rep.
Lesotho
Mozambique
Madagascar
Swaziland
Benin
Senegal
Malawi
Liberia
Reunion
to 30. 9. 1988 4.075
AMERICA
Uganda
Chad
Country
1989
1988
Niger
Mali
USA
Brazil
Mexico
Colombia
Venezuela
Argentina
Peru
Cuba
Chile
233.619
55.000
38.677
22710
18.000
11.000
6.100
5.400
3.333
2.765
231.500
47.800
34.131
23.837
18.000
13.000
5.950
6.700
3.320
2.657
FAR EAST
1989
1988
21.000
7.000
4.738
3.900
3.173
1 800
1.360
945
916
800
710
706
700*
700
614>
538
500*
500
498
460
438
415
400
366
325
313
300
250
213
206
180
153
150*
143
135
130
113
100*
BO
19.200
7.300
5.059
3.600
4.014-'
1.700
1.400
900
953
1.000
700
930
725
600
585
530
500498
455
480
450
342
390
430*
285
200*
296
203
210
250
290
150
160
145'
132
155
105
100
80*
53
53
30
15
17
People's Dem.RepYemen
Seychelles
Siena Leone
Guinea Bissau
Gambia
TOTAL
Specification in LOCO hi
60
SS
43
20
16
56.160
Country
Japan
People's Rep. China
Philippines
Rep. ol Korea
1988
1989
61.005
60.000*
13.650
10.500
4.0002.000*
1.900
1.686
1.7231.000992
709
441
100"
100"
71
5050
10
9
5*
5'
57.498
TOTAL
160.006
1 Irom 1. 4. 1988 to 31. 3. 1989
3 Please see country report
149.168
Taiwan
Vietnam
Thailand
Hong Kong
India
D. P. Rep. Korea
Indonesia
Malaysia
Singapore
Iran
Mongolia
Sri Lanka
Burma
Nepal
Laos
Pakistan
Bangla-Oesh
Cambodia
55.00012.480
10.420
3.987
2.0001.300
1.618
1.487'
1.000
910
650
414
10010075
5050
10
9
55-
AUSTRALIA/
OCEANIA
Country
1989
1988
Australia
18 700
3.890
494
170*
121
59
54
19.500
4.100
502
170*
125
64
55
23488
24.516
New Zealand
New Guinea
Tahiti
New Caledonia
Samoa
Vanuatu ""
Salomonen *"
TOTAL
55.670
1 later correction to 139
* later conrrrmed with 4,050
1 other sources: 567
NEAR EAST
Country
1989
1988
Turkey
2.500
700
2.650
425
Israel
Iraq
Cyprus
400*
314
13090*
37
Lebanon
Syria
Jordan
TDTAI
WORLD
TOTAL
409.861
4
171
400*
291
130
90*
36
4 099
"estimated
"non-alcoholic
'"from 1990 onwards
1989
1988
1.104.336
1.075.573
399.257
Source: Joh. Barth and Sohn
Page 28
31
989 Crop
Alpha Acid Production
Alpha acid production on the world
market was determined on the basis of
the following groups of varieties:
Group A:
Group B:
finest aroma hops
such as Saaz. Tettnang,
Group C:
Spalt
Group 0:
aroma hops such as
hop varieties without signi
ficance for the world market
bitter hops such as
Northern Brewer. Brewers
Hallertau. Hersbruck, Hull,
Gold, Cluster. Bullion, Pride
Perle, Golding, Fuggle.
of Ringwood, high-alpha
Cascade and others
hops from the USA and the
UK
When grouping world hop production in this way the following alpha production results for 1989 which compares to the previous
years as follows:
1989
Group
1988
share %
crop tons
A
7
B
19
C
22
D
52
17,283
29,980
29,820
41,468
100
118,551
Total
a % 0
a tons
share %
crop tons
3.1
530
10
4.5
15
24
9.2
1,360
1,600
3.800
51
18.733
25,788
31,477
41,365
6.2
7,290
100
117,363
5.4
a% 0
a tons
3.7
694
4.2
5.6
90
1.091
1,771
3.720
6.2
7,276
Alpha Acid Balance
After a year of surplus in 1987 and a year
of shortage following the 1988 crop, the
In our last report we estimated that the
1989 demand
1989 hop production resulted in another
international brewing industry had
stocks for 6-8 months, we may now
deficit, even though the hopping rate
(hopping rate
7.0 g alpha/hi)
safely assume that the overstocks have
1988 production
was still further reduced worldwide.
been almost used up.
Deficit
One factor is the further rise of world
beer production - which we estimated
to be + 1% in 1990 -, another the ex
tension of acreage for aroma varieties in
the US which now affects the world
market supply with bitter substances.
1990 demand
1987 demand
(hopping rate
7.1 g alpha/hi)
1986 production
Deficit
7,730.0 tons alpha
7,276.0 tons alpha
454.0 tons alpha
7,413.6 tons alpha
7,199.0 tons alpha
214.6 tons alpha
(estimated
hopping rate
6.9 g alpha/hi)
1989 production
Deficit
7.690.0 tons alpha
7,290.0 tons alpha
400.0 tons alpha
1988 demand
(hopping rate
7.0 g alpha/hi)
1987 production
Surplus
Source: Joh. Barth and Sohn
7,529.0 tons alpha
8,080.0 tons alpha
551.0 tons alpha
Page 29
32
Acreage and Hop Production
]
1989
|
acreage
1988
Ions
crop in Ions
acreage
in ha
per ha
- 1000 kg
in ha
16.859
1.63
1.21
1.29
1,92
27.397.2
16.756
814
130
1.42
989.7
168.7
1.408.0
1,956.9
1.23
24,6
19.938
1,60
3.742
1,26
Poperinge
80
322
Belgium
area
Hallertau
Spalt
Hersbruck
Jura
Tetlnang
others
Fed. Rep. ol Germany
England
Alsace
Nord
Burgundy
France
Ireland
Spain
Portugal
EEC
Saaz
Auscha
Tirschitz
Slovakia
£
2
Ions
crop in Ions
- 1000 kg
727
1.336
19
1,54
1.29
1.13
1.59
1.39
1.23
25 845,8
1.048.1
146.9
1 155.5
1.858.2
23,3
31.945,0
19.782
1,52
30.077,8
4.719,5
3.878
1,27
4.915,4
1.46
1.72
137,3
468,9
84
332
1.67
1.39
140.4
461.4
402
1,51
606,2
416
1.45
601,8
455
69
2
1.51
0,96
2.50
688.8
66.2
5.0
425
56
8
1.68
1.00
1,63
715.0
56.0
13.0
526
1,44
760,0
489
1,60
784,0
22
1,16
25,6
22
1,27
28,0
1.560
1,46
2.269,6
1.600
1,02
1.624,3
821
124
734
1.380
20
118
2,11
248,4
134
1,15
154.3
26.308
1,54
40.574,3
26.321
1,45
38.185,6
7.690
1.602
1.144
1.505
0.97
1.18
1.24
0.98
7.481.0
1.897.0
1.414,0
1.481,0
7.678
1.657
1.015
1.600
1,34
1.27
1.52
0,92
10.259.0
2.105.0
1.542.0
1.465.0
15.371,0
Czechoslovakia
11.941
1,03
12.273,0
11.950
USSR*
1,29
15.000
0,63
9.500,0
15.000
Slovenia
Backa and llok
0,63
9.500,0
2.518
685
1.29
1,35
3.247,0
926.0
2.460
706
Yugoslavia
1.50
1.50
3.702.0
1.059.0
3.203
1,30
Germ. Dem. Rep.
3.166
1,50
4.761,0
2.239
1,37
2J20
Poland
1,36
3.156,9
2.399
1,19
2.840.0
950
0,83
785.5
2.200
0,75
1.650,0
2.372
1,03
Bulgaria
833
0,94
Rumania
2.300
1,10
441
1,36
4.173,0
3.074,8
2.450,0
780,0
2.500,0
599,7
495
1,28
637,8
96
85
1.57
1.32
0.60
150,3
112.0
3,0
91
86
3
1.71
1.14
0.23
155.7
98.0
0.7
254,4
Hungary
Muhlviertel
Leulschach
Waldvierlel
Austria
5
186
1,43
265,3
180
1,41
Switzerland
21
2,17
45,7
23
Albania*
1,81
41.7
70
1,00
70,0
70
1,00
70,0
64.914
1,18
76.305,8
65.074
1,19
77.253,9
9.849
2.999
1.133
2,00
1.80
1,64
19.716.0
5.390.0
1.860,0
9.424
3.010
1.186
1.92
1.63
1.43
18.131,0
4.914,0
1.699.0
24.744,0
EUROPE
Washington
Oregon
Idaho
USA
13.981
1,93
26.966,0
13.620
1,80
Canada
290
1,45
419,2
281
Japan
1,59
445,9
935
2,07
980
1,90
1.862,2
1.113
2,22
1.085
2,14
2.325,0
199
2,21
People's Rep. ol China
162
2,47
400.0
5.000
1,40
Dem. People's Rep. ol North Korea1
5.000
1,40
7.000,0
2.000
0,60
2.000
0,80
1.600,0
412
1,30
536,4
481
1,16
556,0
450
0,56
250,0
Turkey
120
1,08
1.939,3
2.473,0
439,3
7.000,0
1.200,0
545,0
605,0
250,0
130,0
Argentina'
80
1,75
140,0
250
1,11
278,0
250
1,00
250,0
90.177
1,32
118.550,6
89.875
1,31
117.363,4
Australia
New Zealand
Republic ol South Korea
410'
1,33
South Africa
515
1,18
India*.
450
0,56
WORLD
1 see corresponding counlry report.
Source: Joh. Barth and Sohn
Page 30
33
•^D SALES 1990-1994
IHGC COUNTRIES - ESTIMATED
sales (tentners)
Es*.
Country
1990
F.R.C.
France
Belgium
United Kingdom
Spain
Ireland
530 000
U
570
2 809
87 000
42 100
250
:o
13
1
63
-.3
ooo
350
800
000
100
100
1992
1993
1994
350 000
13 850
250 000
13 275
150 000
42 000
15 000
40 000
3 000
153 000
40 000
100
676 720
561 350
445 950
318 275
-.03 700
227 400
29 700
Yugoslavia
45
225
60
47
322
34
20
200
50
67
12
42 400
U.S.A.
Australia
EEC
Czechoslovakia
C.D.R.
Poland
Hungary
TOTAL IHGC
-.0 000
600
000
000
500
12 000
1 510 320
000
600
500
000
000
500
000
1 227 950
24 700
14 700
50 000
8 900
50 000
45 000
43 500
61
842 050
493 575
19 000
75 000
000
252 900
Source : IHGC March 1990
Page 31
000
120 986
118 622
118 324
791
725
419
372 455
366 497
407 032
239
472
1985
.19-86
1983
1489
979 = 100)
<DEX 'S9
.971 =- 100)
104
120
829
84
*39
;i-:race
JEEX
•=-£ *=-s*
•~J *B.n='*=.=: ** -r ~. =
1987
2
118
262
100
123
123
100
118 392
849
3a3= = "==RK=:=snf03:
307
:*=*:*c*: = = =
365
120 352
132 593
997
805
543
165
990
528
414
7 382
7 436
8
8
7
8
6
7
046
348
6374
7 230
6 137
7 066
7 468
6 627
1
5,69
6,60
5,78
6,35
7,11
6,10
6,29
6,03
5,94
5,92
5,87
6,31
5,96
6,37
5,75
6,00
5,79
6,23
5,60
ALPHA
96
101
1,39
7
98
138
216
97
112
6,09
:*=aas=-^ast'x*iiitat-:a-=3*Bii;y8-pBj*-is
1,38
1,36
1,34
1,30
1,40
123 640
851
651
1983
1984
1,55
1,43
1,39
642
785
966
148 339
652 833
1981
1982
132
US 939
350 848
772
1979
1980
378
1,«
1,37
1,49
1,37
l,*5
1,38
1,43
1,35
1,46
1,35
5 377
6 174
TONNES
T/HA
1,28
ALPHA
YIELD
113 502
106 760
117 796
HI 176
118 301
96 050
105 172
TONNES
PROD
110 009
117 992
355 920
270 040
135 200
103 440
366 020
223 520
921
ZTR
=
200 173
1975
1976
1977
1978
1974
1973
1
2
1971
19.72
HA
PRODUCTION
izas'acasaxa-r'csasQ-iaax'OS-c-C'C-ial
AREA
:a33'k:'=93B3l
YEAR
1989
BEER
970
970
970
982
990
954
802
826
848
875
911
936
689
731
771
658
1 050
1 090
1 044
hi
million
PROD,
93
114
84,81
98
898
165
ccK'iv'z-BSCs'-isaa aacas*:
82,16
81,98
80,62
86,04
96,45
92,05
81,38
92,17
71,65
79,14
91,92
80,74
89,78
78,47
89,15
79,45
90,47
81,60
86,52
KG/HA
ALPHA
111
109
361
:*:-c=3s:z:
398
387
405
410
401
378
326
151
301
24 5
191
210
167
606
400
128
290
533
264
221
235
207
372
622
DM/Ztr
FRG
SPOT
PRICE
67
52
360
-=L^S_= -SC-S-sss
353
332
331
331
331
327 •
319
297
324
341
377
390
405
409
Dtt/Ztr
CONTRACT
PRICE
FRG
SXttXl&n0^a^M3*^Z2XU^^^a&ZlS3ZXariXlM^X?VczsatSr3=-XXJM.D-ZXZ
WORLD HOP PRODUCTION 1971 -
AVE.
134
307
1,32
1,56
1.51
1,60
1,93
2,15
1,98
1.74
0,98
1,51
1.51
1,74
0,66
0,710,76
0,80
0,83
0,85
0,90
0,90
$/Lb
USA
PRICE
-Pi
CO
i
240
2
90 504
460
0
0
0
400
0
- 45
lib
-
115
102
850
84'
49
42
947
226
4
105
331
1 500
2 000
1 000
1 600
-
2 100
-
- 650
-
-
-
-I 021
1 153
1989-80
(+/-)
tUJ
Area
Source: European Communities Report 4/9^/qn
total
2 000
North Korea
Others
World
5 000
China
500
Z 600
935
IS 000
-105
124
0
36 251
62 469
• 54
441
- 13
• 80
950
372
Romania
USSR
Japan
Total IHCC(-EEC)
Total IHCCC+EEC)
Hungary
Bulgaria
Poland
CD. I?
0
->
<-50
_
257
19
lb
-
8
♦ 0
-
- 56
135
- 16
40
156
204
113
Australiu
Yugosl.-iviu
Czeclms lovukiu
9«l
U.S.A
26 2IK
21
EEC-12
142
Portugal
743
443"
402
529
938
(+/-)
1989-88
I'JHV
19
Iu,
ha
11<i
Area
II.
Atv«
Ireland
Spain
United Kingdom
Belgium
Krancc
F.R.G.
Country
:
IV
260
949
512
460
000
000
000
1.32
0,60
1,40
2,07
0,67
0,57
1.45
1,49
1,30
1.03
1.34
1,03
1,36
0,82
2.22
1,93
1.5S
1,60
1,44
1.55
1.26
1.57
1.74
1.19
: 1989
2 365 239 : 1,30
66 000
32 COO
140 000
24 000
38 780
200 000
1 052 720
1 864 459
15 600
245
60
49
12
538 200
49 460
83 000
811 739
4
12 456
94 388
45 392
15
638 782
1989
Production J Held
Ztr
: t/h*
III
7 436
255
100
300
70
420
70
3 766
6 221
46
129
36
200
442
280
2 386
247
2 455
2
36
385
175
17
28
1 812
1989
Alplut T
Product.
V
6,3
5,8
7,7
4,4
6,0
3,0
5,2
6.7
7.2
3.6
6,7
5.3
6,0
6,0
6,7
8,9
10,0
6,0
8.3
6.9
5.7
3,7
5,7
8.2
7.7
1989
Alpha
Percent
VI
BY PRODUCER COUNTRIES 1989
32.:
107,0
20,0
25,0
34,0
35,0
102,0
103,9
99,6
87,4
37,0
89,3
54,4
82,1
48,9
222.3
170,7
92,6
90,9
54,0
88,7
103,0
121,3
120,3
105,2
1989
alpha
kg/ha
Yield
VII
1 102.0
61,0
56,0
13.0
60,0
1,0
302,4
338,3
608,6
12,0
23,0
24,8
12,4
9.4
7.0
231,5
18,7
269,8'
60,1
27,2
6,3
5.4
14,0
93,2
20,9
1989
(Barth)
•ro/hl
Beer prod
VIII
AREA UNDER HOPS. PRODUCTION OF HOPS. ALPHA ACID AND BEER
rx
243
-
-
18
25
3
8
3
28
950
000
600
000
000
500
90 680
15
2
5
2
2
36 387
62 630
950
176
0
0
0
0
0
15
161
136
0
38
-
31
- 140
0
0
0
269
-
21
12
1990-89
ha
Change
410
950
204
X
Area
100
2 410
2
11
3
14 250
1 113
26
18
150
19 950
550
420
3 715
1 440
1990
ha
Area
Forecast
en
36
E. E. C.
COUNTRIES
Seven Member States currently produce hops. 6,871 growers farm a total
area of 64,785 acres, with each grower having on average 9.4 acres under
hopsCsee Table 1). Production structures vary considerably from Member
State to Member State. In the United Kingdom, 252 hop producers farm
more than 9,200 acres(37 acres/grower), whereas each Spanish producer
farms an average of only 2 acres.
TABLE 1:
W. Germany
France
* of growers
Total hop acres
4,298
49,267
1 1.5
183
1,307
7
8
Acres/Growers
Belgium
124
993
United Kingdom
252
9,249
37
2
52
26
1,972
3,566
Ireland
Spain
Portugal
E.E.C.
40
6.87'
Source: European Communities Report, 4/23/90
351
64.785
2
9
9.4
Page 34
J\
c
-<
,-//•
?4/#<
°>
V^
-N
X
„ *•-•»*
;>^
<^. yi
<-->)
-tN
-te-
'"~~^
=5.
•<
^i
~s
-£>
^
\
^
H)JKiecT6en urser?
tt.b:J,i
i
^1 ^1
"-~S^-
,'
a.
o
ST
co
38
y/^-^-//^/
fttyf
3pP/Q'wcc/tr)
i*5-
•^
•4
-JCJ
*x3
£
V
ST
3S- :
•^1 3
•*
v-..
1
C>-4-
-^
$ g£
<%(
J
0£1
<#J
<?9i
£
•$
A
as/
ou
<?&
3=
Olh
P^
V
. . <i
^
1^
f=H
2
co
fco.:
!§
<5>
-i4U"
Is
4--;-
f&sg D/J-PJ/J7
•^:«r
1
i
1
39
Table 1:
Hop germplasm and plant or cone samples distributed in 1990.
Date
Recipient
Variety or selection
sent
Alexander, Dr. Albert
March 14
Univ. de Moncton
Amount
Reason and remarks
21014, Hallertauer m.f.
5
21015, Tettnager
5
•i
botanical studies
Nuveau Brunswick
48209, Fuggle H
5
ii
Canada
21041, Willamette
5
ii
56013, Cascade
5
ii
21227, Perle
5
it
21226, Ch inook
5
ii
21011, L-16 Late Cluter
5
ii
21182, Galena
5
n
Anderson, Uayne
March
16
21183, Eroica
5
ii
21193, Nugget
5
ii
21225, Olympic
5
ii
21040, Columbia
5
ii
65101, Talisman
5
ii
21455, Mt. Hood
30
nursery increase
ii
21041, Willamette
5
21173, Strisselspalt
5
DSIR, Motueka
21014, Halltertauer m.f.
5
ii
New Zealand
21185, Hersbrucker G
5
ii
21207, Yugoslavian 27P04
5
ii
21208, Yugoslavian 32P02
5
ii
5
ii
Corvallis, OR
97330
Beatson, Dr. Ron
Feb. 27
21087M ,
Brooks, Dr. S.N.
Yugoslavian 3/3
March 14
56013, Cascade
Oct. 18
21609, Pacific Gem
5
21610, New Zeal. Hallertauer
5
10
hop breeding
hobby gardening
Cortez, CO 81321
Bailey, Libby
OSU, Dept. Soils
Crosby, Kevin
Woodburn, OR
March 6
97071
potted plants, nematode
studies
dipl. pollinator for
19009M
40
19036M
50
Nugget
19039M
15
ii
19040M
30
ii
19058M
50
ii
19061M
30
ii
19062M
20
n
21017M
50
ii
21059M
30
n
21060M
50
n
21087M
25
ii
21089M
20
ii
21090M
20
ii
21325M
-<n
it
40
Table 1:
continued.
Date
Recipient
sent
Coleman, John
Gervais, OR
March 19
97137
Galovic, Vladislavs
Novi
March 19
Sad-Backi Petrovac
Yugoslavia
Goschie, Herman
Silverton, OR
March 27
97381
Hohmarm, Ken
Variety or selection
Amount
Reason and remarks
early tripl.
21175M
15
21176M
5
ii
21189M
15
ii
ii
21190M
5
21191M
15
n
21539M
20
ii
21542H
20
ii
21544M
20
ii
21545H
20
ii
21546M
20
ii
21547M
20
ii
hop breeding
19058M
6
64035M
6
ii
64037M
6
n
early tripl.
21541M
15
21542M
40
ii
21543M
20
ii
21544M
20
ii
21545M
15
ii
21547M
25
ii
21548M
15
ii
hobby gardening
March 14
21455,
April 17
21175M
50
21176M
50
21189M
50
ii
21190M
50
ii
21191M
50
ii
21192M
50
ii
21539M
2
21540M
2
21541M
2
ii
21542M
2
ii
21543M
2
ii
21544M
2
ii
21545M
2
ii
Uallowa, OR 97885
Kirk, Terry
St. Paul, OR
Klein, Dr. Robert
Wash.
Feb. 26
State Univ.
IAREC, Prosser, WA
iy tripl. pollinator
ii
ear
iy tripl. poll., virus
ii
indexing
2
ii
21547M
2
ii
21548M
2
ii
21546M
June 25
ear
19105
21451
21494
21495
21505
10 leaves
virus indexing
41
Table 1:
concluded.
Date
Recipient
Klein, Dr. Robert
Wash.
Variety or selection
sent
June 25
19060M
Amount
10 leaves
Reason and remarks
virus indexing
19061M
State Univ.
IAREC, Prosser, WA
19182M
21059M
21064M
21069M
21272M
July 12
21123
10 leaves virus indexing
21439
58112
60029
48209, Fuggle H
20
March 19
21455, Mt. Hood
6
variety collection
March 28
21455, Mt. Hood
7
home brewing
Dec.
Kralj, Dr. Dragica
18
virus cleanup
Hop Res. Institute
Zatec, Yugoslavia
Maurer, Paul
Versilles, KY 40383
April 2
McFerson, Dr. Jim
56013, Cascade
Geneva, NY
21193, Nugget
14456-0462
germplasm collection
21041, Willamette
USDA Germplasm Rep.
21182, Galena
21455, Mt. Hood
Russel, Dr. Inge
March 19
21193, Nugget
brewery demonstration
March 19
21455, Mt. Hood
high school display
Aug. 20
various genotypes
Labatt Brewing Co.
London, Ont.
Canada
Seghetti, Guy M.
Roseburg, OR
Stoltenow, Sandra I.
Div. Criminal
30
dried leaf and flower
specimen for demonstration
Invest.
Iowa Dep. Publ. Safety
Des Moines, IA
50319
Nov. 20
Schaller, Jack
21041, Willamette
300 g
Chicago, IL
60622
Weiss, Dr. James M.
Boulder, CO
dried hop cones for trial
brewing
Chicago Brewing Co.
80301
March 16
21015, Tettnanger
5
21077, Saazer
5
hobby gardening
"
21455, Mt. Hood
5
"
42
Table 2.
Hop Germplasm received at Corvallis in 1990.
Date
received
Supplier
Dr. Robert Klein
Amount
July 18
Variety/
Pedigree
Remarks
21538
Potted plants, virus -
(virusfree
Osvald 72C)
IAREC, Prosser, WA
free Osvald 72C clone
(heat treated and
meristem tip. cultured
USDA 21532)
Dr.
R.A.
Beatson
April 23
DSIR Motueka
21609
virusfree, triploid,
Pacific Gem
aroma
21610
virusfree,
NZ Hallertauer
aroma
New Zealand
Dr. Dragica Kralj
June 15
4
21611, Celeia
Inst, for Hop Res.
triploid,
triploid, aroma,
late
Zalec, Yugoslavia
4
21612, Ceres
triploid, aroma,
late
4
21613, Cekin
triploid, aroma
late
4
21614, Cicero
triploid, aroma,
late (did not
survive)
43
Table 3:
New Accession numbers assigned in 1990.
Accession
1990
No.
Location
21609
Greenhouse
New Zealand
Name or Pedigree
Remarks
Pacific Gem
triploid, aroma, v. high yield, a
15, p 8, CoH<30, H/C 2.5, med.
late, good storage (see 1987 USDA
tetrapl. SmoothCone
(66056) x OP
Rep. p. 95)
21610
21611
21612
Greenhouse
Greenhouse
New Zealand
Yugoslavia
Greenhouse
New Zealand Hallertau
12, P 6-8; CoH <10, H/C 2.1, poor
OP
storage
Celeia
tetrapl. Sav. Golding
triploid, aroma, high yield,
quality like Saazer, a 4-7, p 5-
(21049) x $ 105/58
8, H/C 2.4, tannoids
Cerera
triploid, aroma, high yield,
late, quality like Saazer, a 4-7,
P 5-8; H/C 2.4, tannoids
tetrapl. Sav. Golding
(21049) x g 105/58
21613
21614
Aurora (21053) x
triploid, aroma, high yield,
late, quality like Styrian, a
tetrapl. $ 3/3 (21087M)
8, P 5-8; H/C 3.0
Cicero
triploid, aroma, high yield,
late, quality like Styrian, a 58, p 5-8; H/C 2.6 (lost in
greenhouse-to be replaced spring
Cekin
Greenhouse
Greenhouse
triploid, aroma, high yield, o 8-
tetrapl. Hallertauer x
Aurora (21053) x
tetrapl. $ 3/3 (21087M)
5-
•91}.
21615M
55:53-54
Sel.
7303-52M
62013 X
21110M
Comet x
Bullion-ZS
male, vigorous, med. early, good
storage,
a 45-50, p 21, CoH 30
44
Table 4.
Hop genotypes discarded in 1990.
Accession
1990
Number
Location
Name or Pedigree
Reason
21501
206:12-16
56013 x 19058M
very small cones,
DM crown
infection, poor growth, late
21495
236:17-21
56013 x 21136M
<g , DM crown infection, stunted
cones
21506
235:23-27
56013 x 21137H
poor growth,
21508
218:28-32
64003 x 21271M
virus, poor growth, bronze
leaves,
21509
220:28-32
- " -
21384
223:28-32
64100 x 64035M
DM crown infection
late
DM crown infection, very late
0/, variegated leaves, short
arms, poor growth,
21229
31:9-12
Cluster seedling (?)
poor cone set
too different from Cluster,
fair to poor storage
21054
43:47-48
62013 x 6616-35M
poor growth, sparse set,
ruffled cones, v. short arms
19200
7:49-50
Urbann x LCS
too
21299
43:49-50
21055 x 21170M
weak arms,
late
small ruffled
cones, poor picker, mites
21439
44:49-50
56013 x 19005M
sleeper, v. poor growth
21440
45:49-50
56013 x
v. poor growth, late
21442
53:49-50
56013 x 19072M
cfl, large ruffled cones, poor set
54002
54:49-50
19100 x 16048M
sleeper, very poor, too late
21212
3:51-52
Wild Yugoslavian 41P36
too late
21152
22:51-52
19001 x 63023M
v. poor set, large cones
21023
29:51-52
63018 x OP
|f/poor set, v. short arms, late
21474
6:62-71
21397 x 64037M
v. poor set, poor vigor
9:62-71
21397 x 64035H
poor growth, sparse set, wrong o//3
21397 x 64037M
poor growth, sparse set
21477
19010M
104:29-30
•WW.
14:62-71
V1.
low a
107:29-30
21483
15:62-71
M
poor growth, sparse set
Commercial test plots removed (hops remain in Germplasm Collection)
21456
Weathers
21456
HRC discontinued testing
21287
Annen
Banner (21287)
too susceptible to downy mildew
-4S
-5S
08-
09-'"
Burlington, ND
Oxbow, SAS
SAS
QuApelle, SAS
9034
35
Ind. Head,
9033'
32/
30 "'
31/"-
9029'
27^,
S-4
S-3
S-2
>500
E-7
It
E-2
QuApelle E-l
>500
315
1000
>500
42
83
28
>500
6
30
E-6
E-5
Indiar1 Head B
"
11
11
Oxbow S-l
-
II
26^
219
E-3
E-4
71
II
216
E-2
>500
>500
Northgate E-l
25^,
24^
23/
9022-O Northgate, ND
W-4
W-3
r\r
tl
20-^
It
W-2
S-3
70
145
>500
>400
>500
>400
341
>400
>500
S-2
N-3
N-2
No.
Seeds
Earth S-l
Mohal]. W-l
White
it
••
Burlington N-l
W-2
19-^
9018^ Mohall, ND
17/
9015 >">White Earth, ND
13^
9012
IF"
Minot W-l
-3S
07
9010""' Minot, ND
-2S
Minot E-1S
9005
06
-4E
-2E
W-1E
-3E
Logan
Coll. site or Pedigreey
03
Minot, ND
Logan, ND
of
Source
Loc.
04
02
9001
No.
Cross
11
blue +
blue
tan
n
»
blue
blue +
II
II
II
11
"
blue
tan
blue +
blue
blue +
blue +
blue
blue
blue
color
Seed
tan
tan
tan
tan
tan
tan
Table 5: Seed collections (OP crosses) and controlled crosses made in 1990.
large cones
culvert
in buckthorn
smaller cones,
good aroma
recollection of 8950
(plant C)
" (100 ra away from A,3,C)
recollection of 8945 (plant A)
(plant B)
farthest W
W side, first spotted; nr. snowberry
farther W, large cones
lg. seeds; N of culvert, E side
lg. seeds; E side in mowed weeds
lg. seeds; W end of culvert
above
lg. cones, shrubs over terrace
grassy knoll, S. side
near shrubs, knoll
near shrubs, terrace
old remnant barn nearby
v.
v. large cones
large seeds
Remarks
en
of
No.
221:09
221:08
221:09
221:06
221:10
109:3-4
136:49
9042
9043
9044
9045
9046
9047
9048
8309-32M:
i/ 8309-26M:
208:09
9041
9040
9039
Saazer x
- 19058M
(Tett x 8309-32M) tetrapl. x OP
8802-35 x OP
tetraploid Saazer x OP
21534 x OP
21522 x 8309-32M
Saazer x (tet. Hall.-21381M)
Saazer-38 x (tet.Hall.-21381M)
21522 x 8309-26M
Saazer 38 x Cas-19058M
21522 x 21429M
>500
>500
57
>1000
241
235
119
>500
344
>1000
>1000
Saazer 38 x (Cas x 65009-64035M)
21522 x 21361M
Saazer 38 x Zattler Seedling
21522 x 64035M
Saazer 36 x Zattler Seedling
21521 x 64035M
tetr. Saazer x Zattler Seedling
21534 x 64037M
Cas x 65009-64035M
- " -
Cas
tetr. Saazer x Zattler Seedling
21534 x 64035M
tetr.
21534 x 21429M
182
Seeds
9038
tetrapl. Saazer x Yug. 5/9
21534 x 21088M
Coll. site or Pedigreey
21534 x 21361M
139
tetr. Saazer x (Cas x 65009-64035M)
Greenhouse
Loc.
Source
concluded.
9037
9036
No.
Cross
Table 5 :
Seed
blue + tan
blue + tan
tan
tan
blue + tan
blue
blue + tan
blue + tan
color
get Tettnanger or Saazer type triploids
get Saazer-type triploids
dipl. x tetrapl; get Saazer-type triploids
diploid x dipl., get Saazer-type diploids
tetrapl. x dipl., get Saazer-type triploids
Remarks
-1^
CT>
221
222
223
224
225
227
228
229
230
231
232
233
234
236
237
21519
8601-25
8020-32
8021-11
21041
21520
21403
8401-68
21404
64007
8401-70
21238
8303-66
21193
220
8303-37
217
21227
tl
213
21287
8303-17
212
8401-41
216
209
21499
21515
207
21514
215
206
21056
214
205
8401-04
21049
204
21370
8019-03
203
21498
tl
H
II
H
"
It
"
"
"
H
"
"
"
"
it
"
H
H
"
li
"
H
H
H
H
n
H
"
201 1-5
202
21369
Row:Hill
or Sel. No.
21368
Location
Accession
May 4, 14.
Yeoman
E
Nugget
21397 x 64035M
Blisk
21397 x 19172M
19105 x 19058
Green Bullet
21397 x 19172M
ML
L
ME
ME
L
L
ML
L
ML
Sticklebract
ML
Ba x (Groene Bel2xNB -OP)
M
M
M
ME
M
E
M
ML
ME
Willamette
19185 x 21268M
19185 x 21267M
61021 x 8309-26M
Apolon x (DunavScNB- OP)
21397 x 64035M
Perle
21397 x 64035M
Herbrucker-8
19185 x 21266M
Styrian Golding
ME
L
Banner
E
Zenith
ML
ME
ML
ML
E
ML
M
Maturity1
21397 x 19172M
Herbrucker-6
Bullion 10A
21397 x 19172M
tetr. Atlas x (NBxSavG-TG)
ii
tetr. Atlas + (NBxSavG-TG)
Name or Pedigree
VG
VG
VG
VG
VG
P
VG
VG
VG
G
G
VG
VG
G
G-P
G
G
VG
VG
VG
VG
G
P
G
VG
G
G
P
VG
VG
date
vigor
316
7
14
8/28
7
14
7
14
7
7
7
7
8/28
6
6
6
8/28
6
14
8/28
6
6
6
2201
1152
1886
1647
1408
200e
1587
2483
960
689
1400e
1869
lOOOe
623
lOOOe
734
742
1237
1271
1056
1766
1809
117
1166
2006
1504
1220
8/28
6
1288
14.4
3.4
12.7
3.3
1.9
4.1
4.6
10.0
3.6
5.8
4.7
6.4
8.6
7.8
3.9
11.2
3.7
3.6
5.1
4.1
11.4
3.3
10.0
3.6
9.9
4.7
10.6
12.9
9.6
12.0
%
lb/A
1527
a
Yield3
6
5
Sept.
Harvest
Cone set2
5.3
4.3
4.0
5.0
6.9
2.2
3.8
5.3
3.2
3.8
2.1
2.7
3.7
3.5
4.8
4.4
3.4
6.0
3.9
2.3
6.0
4.9
3.1
4.9
4.9
4.9
3.6
4.1
4.8
4.4
%
B
73
44
76
39
22
65
55
65
53
61
70
70
70
69
45
72
53
38
57
64
66
40
76
42
67
49
74
75
66
73
ratio
Quality
31
26
34
28
29
44
29
47
36
35
24
42
25
29
19
30
26
20
37
31
35
26
25
19
37
30
34
26
33
37
%
CoH
2.28
2.39
2.74
2.39
3.06
2.23
3.12
2.02
2.87
2.49
3.49
2.35
1.84
3.11
2.60
2.26
H/C
ii
triploid
high myrcene
top crop
Roundup damage
compact cone, high myrcene
d"
sleeper
sparse set
baby, diploid
top crop
downy mildew
high myrcene
o", high myrcene
triploid, high myrcene
it
triploid, high myrcene
Remarks
Table 6. Hop varieties and selections grown in the Seeded Observation Nursery (Smith Yard). Corvallis, 1990. Pruned March 28; trained
-pi
21397 x 19172M
v.f. Lubelska
218: "
219: "
220: "
222: "
223: "
224: "
225: "
226: "
228: "
230:"
21518
8401-175
21523
21524
8401-192
-196
8601-58
8405-38
8021-40
19185 x 21268M
21397 x 21337M
61021 x 8309-26M
ii
21397 x 19172M
v.f. Nadwislanska
L
E
ML
ML
E
E
E
VE
L
L
Hersbrucker-red stem
Hersbrucker-alpha
L
L
Hersbrucker-9
M
21397 x 64035M
M
L
ML
L
E
E
ML
ME
ME
ML
E
L
L
SB x [Ha-OP x(Saazer x Ha-OP)]
21517
H
21397 x 19172M
217: "
213: "
-163
21516
212: "
8401-158
21397 x 19172M
21397 x 19058M
215: "
211: "
216: "
210: "
8401-145
8301-57
v.f. Saazer 38
21485
209: "
21522
v.f. Saazer 36
21397 x 19058M
21397 x 64035M
21397 x 19172M
21397 x 64035M
21397 x 19172M
8303-122
205: "
208: "
8301-01
204: M
8403-121
21521
202:6-10
8401-132
M
tetrapl. Hallertauer m.f.
245: "
244: "
8303-77
246:"
243:"
8401-76
21397
242: "
21003
8303-88
ML
21397 x 64035M
241: "
21406
SuperAlpha
Alpharoma
tetraploid Fuggle
ME
240: "
Galena
239:1-5
21182
21405
Maturity1
Row:Hill
or Sel. No.
Name or Pedigree
Location
Accession
Table 6. continued
VG
G
G
VG
VG
P
G-P
VG
VG
VG
G
VG
G
G
G
VG
G
P
P
VG
G-P
G
G
P
G
VG
P
VG
G
VG
date
vigor
8/29
10
8/28
8/28
8/29
8/29
17
17
17
17
17
17
14
7
7
7
14
14
8/28
Sept.
Harvest
Cone set2
1348
503
700e
1357
1450
69
282
836
853
1203
747
1237
1400e
1200e
1200e
1105
793
lOOe
200e
1638
lOOOe
1024
1200e
200e
lOOOe
1792
200e
2193
1212
2560
Yield3
5.9
5.1
5.6
4.9
5.5
5.0
6.5
6.3
7.0
6.2
5.3
10.8
5.6
2.8
4.8
4.3
5.5
5.2
4.1
4.2
3.1
3.8
2.6
1.7
4.8
2.4
3.8
10.0
11.3
14.6
%
a
3.7
3.6
2.6
3.9
3.6
4.5
4.9
4.8
5.2
7.3
6.7
5.5
3.0
2.0
3.0
4.8
4.6
4.7
3.8
4.7
3.9
4.6
3.9
3.1
3.1
3.3
2.0
4.1
6.6
9.4
%
B
62
58
68
56
60
53
57
57
58
46
44
66
65
59
61
47
55
52
52
48
44
45
40
36
61
42
66
71
63
61
ratio
Quality
34
26
21
24
29
24
24
32
22
20
19
23
23
27
27
32
33
34
24
33
22
23
22
30
27
31
28
31
39
41
%
CoH
3.66
3.54
2.21
2.32
2.57
2.11
3.25
2.20
H/C
top
crop
r
it
poor climber
baby, diploid
top crop
top crop
sleeper
used for crossing
top crop
sleeper
v. large cones
<?, DM/cones
Remarks
4S>
CO
231:6-10
8602-35
"
"
217:
218:
219:
222:
223:
-35
21228
8025-57
5026-152
21502
"
"
"
"
"
216:
-26
"
214:
213: "
212:
210: "
"
"
-20
8407-06
-90
8406-84
208:
-278
"
205:
207:
21500
8602-274
"
204:
"
203:
-207
246: "
8406-38
8602-189
245: "
21407
247: "
243: "
8406-04
202:12-16
242: "
8602-162
21513
241:"
8304-67
21408
238: "
236: "
8405-84
239: "
235: "
8303-142
8405-101
234: "
8405-39
8602-119
233: "
8303-124
232: "
Row:Hill
or Sel. No.
-55
Location
Accp,<i<;inn
Table 6. continued
Cas x 19058M
19185 x 21353M
19185 x 21344M
Hallertauer (Fu-type)
"
"
ii
21397 x 21380M
ii
21397 x 21361M
61021 x 8309-26M
Cas x 19058M
ii
61021 x 8309-26M
Cas x 19058M
65009 x 63012M
21397 x 21361M
Cascade x OP
21397 x 21361M
6021 x 8309-26M
21397 x 64037M
21397 x 21337M
61021 x 8309-26M
21397 x 21337M
21397 x 64035M
21397 x 21337M
21397 x 64035M
61021 x 8309-26M
Name or Pedigree
L
L
ME
E
ML
ML
ME
ME
ME
ME
L
L
L
E
L
M
ME
M
M
E
M
Maturity1
VG
G
VG
VG
P-G
P-G
P-G
G
P-G
P-G
VG
VG
VG
VG
VG
VG
VG
VG
VG
G
G-P
P
G
VG
VG
vigor
Cone set2
11
11
8/30
8/30
11
11
8/30
8/30
8/30
8/30
10
10
8/29
10
10
10
10
10
8/29
10
Sept.
date
Harvest
1604
845
1361
1224
597
597
700
1013
853
785
1200e
400e
1817
400e
300e
2261
1600e
964
2073
887
400e
843
717
lOOe
600e
864
1058
992
lOOe
8.4
5.2
6.2
4.6
7.3
6.7
7.4
6.0
2.8
6.6
10.3
12.3
10.9
6.3
9.9
12.0
11.2
4.4
11.6
6.3
8.6
4.0
5.4
2.7
6.2
8.0
6.4
3.6
9.1
8.0
%
lb/A
200e
a
Yield3
8.5
3.2
2.1
2.6
4.3
4.3
4.0
5.6
5.3
4.2
3.8
3.6
6.4
7.9
3.7
5.8
5.9
3.4
5.1
3.3
3.9
5.8
4.0
2.1
3.6
5.5
4.1
3.4
4.4
3.0
%
B
50
62
75
64
63
61
65
52
34
61
73
77
63
44
73
67
65
56
69
65
69
41
57
57
63
59
61
52
67
72
ratio
Quahty
33
31
26
27
27
32
24
24
24
23
28
39
29
27
21
32
56
23
41
26
27
27
23
30
24
30
29
26
27
28
%
CoH
2.94
2.78
4.45
2.44
H/C
sleeper
sleeper
baby diploid
baby diploid
baby diploid
baby diploid
O
v. high CoH
baby, diploid
baby diploid
top crop
baby, diploid
baby, diploid
sleeper
Remarks
214:
215:
217:
219:
8408-74
21247
8308-44
-46
222:
212:
21199
8031-02
209:
8408-70
221:
208:
8603-346
8408-126
206:
8408-66
202:1L7-21
-288
204:
243:
-232
-314
242:
-97
II
II
II
It
H
"
H
it
ii
tl
II
"
H
M
240:
-77
"
239:
It
H
II
II
II
tl
II
II
II
"
11
It
8603-73
237:
236:
9304-90
-120
235:
8408-01
232:
-578
21503
231:
8602-411
234:
230:
21261
233:
229:
21200
21409
228:
227:
-305
8407-43
226:
8602-300
224:1L2-16
21382
H
Row:Hill
or Sel. No.
225:
Location
Accession
21251
continued
Table 6.
56013 x 21271M
21397 x 21381M
"
21397 x 21362M
21055 x 21108M
21397 x 21381M
65009 x 19182M
21397 x 21381M
61021 x 8309-32M
21397 x 21381M
II
H
II
"
H
61021 x 8309-32M
ll
21397 x 64037M
21397 x 21381M
Cas x 19058M
65009 x 19046M
M
61021 x 8309-26M
65009 x 19046M
v.f. Eroica
21397 x 21380M
it
61021 x 8309-26M
21055 x 21109M
Cas x 19058M
Name or Pedigree
M
L
ME
L
ME
L
E
L
ME
L
ME
ME
ME
L
L
L
L
ME
L
L
Maturity1
/">
VG
G
G-P
P-G
VG
P
VG
G
G
G-P
G
G
G
G
G
G
G-P
P
P
VG
G
VG
VG
P-G
VG
VG
vigor
t2
Cone set
8/31
11
8/31
12
8/31
8/31
17
8/31
8/30
8/30
8/31
11
11
11
11
8/20
11
11
Sept.
date
Harvest
1092
1416
614
512
1519
800e
1382
1374
300e
444
200e
200e
200e
300e
600e
600e
555
282
290
1681
1041
400e
400e
1450
1468
631
600e
600e
1237
9.2
6.8
6.7
5.5
14.3
3.1
9.8
4.8
12.3
6.3
6.0
2.6
6.9
4.8
5.5
6.2
2.8
2.1
6.2
5.6
6.9
6.6
7.2
8.7
13.4
5.2
9.1
7.8
14.6
10.4
%
lb/A
1408
a
Yield3
4.6
5.9
4.5
4.0
4.7
2.5
5.9
5.6
3.5
6.7
5.3
4.6
5.3
3.9
5.8
5.3
5.4
4.9
5.3
8.7
7.3
3.7
5.3
6.7
5.8
5.3
4.3
4.2
6.1
8.7
%
B
67
53
60
58
75
56
62
46
78
48
53
37
57
55
49
54
34
30
54
39
48
64
58
56
70
49
73
65
70
54
ratio
Quality-
30
27
28
24
40
31
38
32
22
23
23
23
28
29
26
31
24
26
29
32
28
33
31
23
41
27
23
31
40
24
%
CoH
3.82
2.10
3.26
2.32
1.96
0.08
H/C
triploid
diploid
diploid
?
diploid
diploid
top crop
sleeper
baby, diploid
baby,
baby,
baby,
baby,
baby,
baby,
sleeper
top crop
baby, diploid
baby, diploid
baby, diploid
baby, diploid
no humulene
Remarks
on
O
235:
237:
8309-07
-08
234:
237:
238:
21505
21497
21470
232:
-84
227:
-244
231:
225:
8254-167
8036-83
224:
21257
230:
220:
21457
21491
219:
21256
229:
215:
21455
21469
214:
21254
228:
210:
21490
65009
209:
Tettnanger B
It
21397 x 19058M
II
II
M
II
64003 x 21268M
21397 x 21337M
21397 x 19058M
BG x EG-XS
it
21285 x 64037M
21055 x 21110M
21397 x 64035M
21055 x 21110M
Mt. Hood
21055 x 21109M
M
M
E
L
L
ML
M
L
ML
ME
L
M
ME
M
ML
ML
L
ML
ME
21397 x 21381M
21397 x 21237M
L
ME
19005 x 19046M
21397 x 21381M
ME
ML
ME
ME
M
ME
ME
L
ME
L
Maturity1
21397 x 21381M
61021 x 8309-32M
ii
21397 x 21381M
Cas x 21136M
21397 x 21381M
61021 x 8309-32M
21397 x 21381M
21055 x 21108M
21397 x 64033M
Name or Pedigree
II
H
tl
M
II
M
"
II
II
"
II
H
"
"
204:23-27
"
"
H
**
"
"
II
II
21484
241:
M
II
8309-34
240:
21120
8309-24
239:
234:
21494
238:
232:
8309-05
8309-10
228:
8603-481
8603-564
227:
8309-04
224:17-21
8409-18
ii
Row:Hill
or Sel. No.
226:
Location
Accession
21250
continued
Table 6.
G
P
VG
VG
G-P
G-P
P
VG
P
G
VG
P
G
P
G
P-G
G-P
P
G
G
P-G
G
G
G-P
VG
VG
VG
G
VG
P
vigor
a.2
Cone set
t-y
12
13
12
5
5
5
12
5
5
12
5
4
4
17
4
4
4
4
4
4
8/31
12
8/31
Sept.
date
Harvest
1007
111
1186
1212
589
572
734
1553
495
964
2039
213
725
400e
lOOOe
563
606
300e
896
200e
572
700e
1092
512
1024
1399
1400e
819
1664
2.7
6.8
7.4
4.2
7.9
6.4
4.2
10.7
5.5
7.5
18.8
5.0
14.9
3.5
6.1
3.4
5.1
3.0
5.5
1.0
5.4
10.7
7.1
7.1
6.4
5.9
7.6
2.4
12.6
6.4
%
lb/A
lOOOe
a
Yield3
6.3
6.6
2.7
2.5
4.5
4.4
6.5
7.8
7.7
7.9
7.0
3.9
6.2
4.7
2.4
7.5
4.3
3.8
4.4
6.3
4.3
3.2
6.1
5.9
6.3
7.2
4.2
4.6
3.7
4.1
%
B
31
51
73
62
64
59
39
58
42
49
73
56
70
43
72
31
54
44
56
13
56
77
54
55
51
45
64
35
77
61
ratio
Quahty
29
25
31
25
37
23
26
42
23
19
38
24
42
26
31
30
26
30
27
52
24
25
24
26
26
23
24
31
29
26
%
CoH
2.43
3.79
4.33
3.55
2.30
2.77
3.58
3.96
1.48
3.56
1.37
3.63
3.56
1.36
H/C
weak arms
sleeper, Prosser
sleeper, Prosser
sleeper
highest alpha
treeshaded
baby
baby, diploid
baby, triploid
sleeper
Remarks
239:23-27
241:
242:
21486
21471
21473
239:
241:
21512
21246
It
II
II
"
"
"
"
H
ii
ii
ii
it
it
"
ii
"
ii
E
L
21397 x 21381M
Aquila
Swiss Tettnanger St-2
21055 x 21108M
21254 x 21335M
21254 x 21328M
E
Swiss Tettnanger St-1
L
L
L
E
L
L
L
ME
L
ML
ME
L
ME
ML
L
L
ME
ME
ME
Maturity1
65009 x 19046M
ii
"
21397 x 21381M
Chinook
21397 x 21362M
Centennial
21397 x 21381M
it
21397 x 21380M
YC x 64037M
21397 x 21362M
21397 x 64035M
21397 x 19058M
Cas x 21137M
Name or Pedigree
614
14
14
1049
687
589
435
8/29
14
717
640
631
2256
1322
13
8/29
8/29
13
13
13
828
1237
13
lOOOe
452
35
500e
500e
1613
300e
384
452
1928
8/29
14
13
13
5
5
5
Yield3
green weight/5-hill plot x 0.08532; e = visual estimate and chem. analysis from 5-sample
VG
G-P
G-P
P-G
G
G
G
VG
VG
G
VG
G
G-P
P
P
P
P
VG
P
P
P
VG
date
vigor
Sept.
Harvest
Cone set2
1E, ME, M, ML, L = early, med. early, medium, med. late, late
2VG, G, P = very good, good, poor
238:
232:
21197
21511
231:
21536
235:
229:
21490
21197
228:
8408-74
234:
227:
8309-05
233:
226:
21226
21493
219:
8308-20
21222
216:
21507
214:
-43
215:
213:
8407-35
21492
208:
"
207:28-32
21459
21202
H
"
Row:Hill
or Sel. No.
„
Location
Accession
T
Table 6. concluded
13.9
8.7
12.4
4.7
8.2
7.6
5.1
10.9
4.7
4.9
5.1
13.8
7.2
12.6
4.3
4.1
5.6
6.5
2.3
2.5
6.2
11.8
%
a
3.9
2.1
5.3
2.7
5.1
4.8
2.6
8.9
7.4
3.9
6.5
4.2
3.8
4.2
4.8
5.9
4.5
6.8
3.3
4.4
6.1
6.9
%
B
78'
80
70
64
62
61
66
55
39
56
44
77
66
75
47
41
55
49
41
36
50
63
ratio
Quahty
40
33
35
28
49
22
26
45
24
28
23
37
26
29
29
30
28
31
29
25
24
33
%
CoH
1.06
2.97
0.30
3.52
3.03
0.27
3.55
2.34
2.42
H/C
no humulene
sleeper
no humulene
top crop
tree shaded
sleeper
Remarks
L
L
L
L
E
Green Bullet
Hersbrucker - G
Late Cluster, L-16
Hersbrucker-E
Hallertauer m.f.
1:1-4
2:
3: "
4: "
5:
6: "
7:
8:
9:
10:
19001
21403
21404
21185
21011
21179
21014
21015
21016
48209
28: "
21170
21406
21187
33-
26:
21169
21405
24:
21186
32:
22:
62013
21227
20:
61021
31:
NP 2/55
Bramling
Strisselspalt
19:
61020
21173
Southern Brewer
18:
25: "
"
17:
60019
29:
E
Spalter
Tardif de Bourgogne
16:
60042
30:
L
Comet
15:
21039
21188
L
Golden Star
14:
21167
21284
L
13:
56013
"
"
"
"
"
"
"
ME
Cascade
Hybrid-2
12: "
SuperAlpha
Perle
Alpharoma
Elsasser
Yugoslavian Golding
Savinja Golding
Swiss Tettnanger
Shinshuwase
Backa
Hallertauer
11: "
56001
56002
E
L
E
L
ME
L
ME
L
ME
L
E
E
E
L
ME
E
E
E
Tettnanger
Fuggle-N
Fuggle-H
"
L
L
Brewer's Gold
Sticklebract
Row:Hill
No.
Maturity1
Name
Location
Accession
VG
G-P
P
P
VG
VG
VG
P
P-G
P
VG
P
G
P
VG
VG
P-G
VG
G-P
P
G
G
P
P
P
G
P
VG
VG
G
Cone set2
747
8/20
1800e
352
277
1600e
1562
14
8/29
8/29
373
8/29
2200e
896
192
1237
149
1035
569
2200e
2200e
600e
1061
608
405
1067
1152
14
8/20
14
8/20
8/20
8/20
8/20
8/29
8/29
261
171
312
17
1450
120
1900e
2200e
5.4
9.6
4.4
5.0
4.9
8.2
5.8
4.2
4.0
3.9
11.6
4.4
4.0
4.0
3.9
4.3
8.8
6.1
3.2
4.3
4.9
5.2
5.8
5.0
3.4
6.5
2.8
5.8
7.8
8.6
%
lb/A
1600
a
Yield3
8/20
8/20
8/20
8/20
14
17
7
Sept.
date
Harvest
3.5
3.3
2.7
1.9
3.4
3.0
3.1
5.8
4.6
3.1
4.0
3.5
1.9
2.1
2.9
3.5
5.4
5.1
4.8
4.0
2.1
2.2
4.0
4.1
7.1
4.5
5.0
2.9
4.6
3.7
%
B
61
75
62
72
59
73
65
42
47
55
74
56
68
66
57
55
62
55
40
52
70
70
59
55
33
59
35
66
63
70
ratio
Quality
39
28
28
27
33
40
23
23
20
22
42
22
27
26
57
51
37
38
25
20
25
27
30
18
29
47
24
45
48
39
%
CoH
2.82
3.82
3.64
0.19
3.65
2.74
3.13
3.58
3.61
1.75
H/C
triploid
triploid
soft rot/crown
no humulene
sleeper
sleeper
triploid
triploid
Remarks
Table 7. Agronomic and quality data of hops grown in the Seeded Hop Variety World Collection, Corvallis. 1990. Pruned
March 26; trained May 7-8.
en
CO
54
1-1
13 *d "U
B
J2 J2 J2
o.
oj
a.
c
Pi
O
o
oo
in
ON
so
00 IO VO
x
"O (N SQ CN </")
o
N
U
N
(N
\o
00 H N Is;
•-I co cn cn
o
cn
r t CO
? N # (S w-i
M
-t
•?§
-—i t> -H in r- so i-i
so so so r - >o t> r>
O
ST)
5
m
*f
N
O
*t O
- t CI f l f l
-H
tj-
co r-
o\
o
o
r-
cn
cn
.
- . )fi rj
rt^. . .t^r ?*;
• i—i
13
«
O
*t N
t> oo r— r-
0\ h
VO
f> so r~
so r- rso r> s©
SO
SO
>/->in</-)ovococSTHcst-~
oso\cNcocN©st--osoo>n
CNCNCO00COt-I*-~t-ISOCO
M
CN •* **•
o
ca
^
^
r*i N
t ' i*i t*i N
MHN>n-tt--O00M
oco^>>o>oQO\*-<r-~r00t~-t-;'NCSO\pp0-<-)lO
"53
t-i
oj
u
(>
4-1
a -a
i-i -t to N
O
a.
O
ON
cn
cn
qaq
ON
CN CN CN CN -*
CN
CN CN
00
00 00 00
-t
-t K
(S «
i-i -t rt (^ -J
tH CO Tf CO CO CO T-i
CN ON CO On Tt; tH t> CO 00 so
lOCHNCioHinaih
>do\'iM3co\6--iKr~:od
SO t> oo -o* o
OJ
OJ
ON
©\
O
O
CN
CN
CN •*
CN
00
00
s© t> >/-j CN
oj
OsCNsOIOOOt-ICOOOO
\cocoh8oo»ioo5
CO T-I
t-I t-I tH (s| ,-| ?"]
-*
S
oooo>/->ooot— "--oni/it-i
ajoioOcOTtcoroooco
OsOTtoO^r-CN^-ioOcO
i—I
CN
On
•*
O
CN CN
O
i—I
O
OS
Os
O
CN CN t> t> CN CN CN
o
00
00
00
00
00 00
00 00 00
00 00 00 00
^?oo^^a 6>>°>a>>SS ooS^o^o
u
a
o
U
WHl^jJW^ W
J
-WW..,
222 w
J
a
o
oj
o
t-i
C3
oj
IflJ
•a fl
S3 u
3
a o.
a 3
4-1
Ii
CS
o
NZOU a
d
.a
a
U
1w
J
a
Ii
M
J
oj
m
a
W i-J J
q
w
3
>< pa
o
pi
O
J3
O
w|w
w
O
O
£
a
J
O0
t>0
o
t>
d
ill!
r^ ^3 ^3
o
w
4-1
4-1
OJ
P V
U -s
ot i IS
>i
Ph Pm
•"
•a j<
s -
a
3 £C3
-a
OJ
.
a"
CO u
oo d
OJ
T3
fe
°
t-^ 00 Os O
CN CO
TH T-I t-i CN CN CN CN CN
a
C3
woe
<-> ha
a
"**-»
pi
o
.2 3
00
S|
.3 P-1
•-t
>o SO t>
00
CO
CO
CO
CO
CO
00
%
co
Os
a
s
CN CN
tHCNCO**>0
sot>ooos0^co--tjoso
c
"3
to
o
o
<J
< z
_
OS
Tf Tt
CN
T-I
T-I
T-I
T-I
CN
CN
CN
CN CO
o
o
tH CN CN
CN SO SO
s
tH
o
T-I
O
T-I
rH
3 3
>0
so
CNsOCNtHCNOCO*-J-IOsO
oosooinii-iioooioioio
tHtHt-IOOOtHQOO
UOt—It-ISOSOSOt-ISOSOSO
sOCNCNsosOsocNsOsOsO
CN CO •*-(• OS
th wo so r~
Tf r l H
H
O
CN CN CN
00 H
rIt—It—It—It—It-It—it—1
SOCNCNCNCNCNCNCNCNCN
in •* -3- **io
o
o
o
c^?
CN O
—
o
c-
a
OJ
3
W
o
o
O
CO
CO
in
o
&•
CO •* CN Tf
in
o
ft
•n
so
m
so
CN
(N
CO
tH
CN
oo
r~
T-I
TH
TH
SO
CN
tH
s
CN CO CN CN CN -5
-<t
CN
p
oo t> m
so t-i in oo t> cn
CN
CN
ft
CO
CO
CO
CN
CN
PS
cn
in
os r so i n
o
t>
o
r-
-*
so
t>
t-i in cn
o
•&
ft
r—
CN
Tf
r-
t>
t>
&
in -it oq co r-. co in p t-i cn
-t -t ri »t -t u-i vi >n vi csi
CO sq sq 00 CO so tH
tH
ft
ft T-i
^
00 p Tt* "£} CO •*' Tt -*" •*' so
3
5?
O
3
** ft 00 ft
t> t> SO t>
on in
CN <N
in
lO O
ON 00 CN
so r> so t~- •*
03
t-J CO so
CN
m
CN
so
m
CN
o
**. "*. P
CO -t CN CO ON r-; f;
CO CO CO CO ft
oq sq co oq os p
2.14
t>
pt-;ONoqpp-Hcococo
in in ft ft ft ft ft cn" so ft
sot-;** cNinoqcoosp
r> th t-h rS co cn ft so p
cn oq cn -<t
OOOOsOCOOOCOTt'oo"
2.94
CiWoSHioHaHM
2
incoooftt—pcNoscocN
"o
CO
rH
CO CN
§£3 fc
O
On
3.46
p
Oh
E-3
OJ
OO
On
CN
r-
t^— —
CN
OO
CNCN
ONOOO--I--1--1
CN CO CO CO CN CN CN
0000
OOOOOOOOOOOOOOt-10000
CO
,—I ,—I 00 00 ,—I t—I t—( ,—I ,—I ,—I
Ph Ph Ph
OJ
Oh
d
CO CO
000000 00 00 00 00
CO
CO CO
CO
q
-h
CO CN
—~— r—- t~- c—
o
Pi
Ph O o
>
o
>
O Pi Ph Ph Ph
OoOOO^p,
2.54
o
o
o
O
1.97
.-» J
.
wS j j j
2.55
w W W W W W W ,,.,.., W W J w ... .T,...
, w ri1
CO
CN
•
°
00
O
s
«
i.U
B
S
iZL
ch
« -d
'
^"*
Cm
S>*2
^>1 oo1 os
JJ1 13
»-" *Tj
1
1
J-j
03
CS><lHlHllk4>He-3
ii
o
BCIUOOOON
S^.a^-r^j^j^^^ i
'W
i S i>
!1
!W
u3
ou
ut-t
«r^
p3
3u
p
03
n
fi
s
ed K O
d
._-r-ik>iiiiiiuii ^.
OJ
OJ O J> KjOhOhOjOjO-H
"So.HHlHlHlHlHlH
KWc?USKKKK<
-3
J3 13
3
Oh 3
M M
03
-O
*o
Ch O
y
u
d
03
d .3
03
O
*s^
9oj •%>
O u
co
< < < < Q Z>oao3Z
d
O
T3
03
•J3
O
(/I
W3 4-,
d
5 „s ° —
•"2
5 £•§•§
aUB^ajZ
OJ
u
o
Ph
Ui
4-1
o
o
OJ
3
Ch" «
CN
-a
OJ
3
.a
8
t-i cn co --t m
co
co
co
co
co
S
£«>$ THCNCO^lnsO^oddNfN CO^^so^OOOjOtHCN
d
o
o
d
o
OJ
s
C3
U
o
u
< z
socNsocNONcO'-tinoo
t> >n *<t >n so r» 00 ON
T-I
- hTH
t-ii-it-i
on in T-H T-I i
OCNCOtHtHCNCOOOSCO
ininininoooooooor-Qs
VlOSHHtOHHrll^'J
cn t-h o
i n in v n i n i n m
t—It—ItHt—It—It—It—IT—IT—in
oooiooooooo
T—it—it—it—it—it—it—it—it—it—i
OOt-It-ICNtHi-ItHOCN
t—it—it—it—it—it—it—it—it-ht-i
CNcNCNCNCNcNCNcNCNCN
CNCNCNCNcNcNCNCNCNCN
CNCNCNCNCNCNcNCNCNcN
r- o
on cn
30
32
33
39
21283
21396
65104
21520
"
it
Late Cluster, L-8
Ba 11/72-19a
L
L
E
E
Wye Viking
Tolhurst
H
n
E
E
E
E
ME
E
E
Wye Saxon
Sunshine
Pride of Kent
Early Prolific
Early Promise
Keyworth's Early
Keyworth's Midseason
Maturity1
H
"
H
H
n
H
Name
P
G
P
P
P
P
VG
VG
G-P
P
P
Cone set2
1E, ME, M, ML, L = early, med. early, medium, med. late, late
2VG, G, P = very good, good, poor
3Green weight/4-hill plot x 1.0665; e = visual estimate
29
27
21280
28
26
21179
21281
25
21278
21282
24
21277
23 9-12
Row:Hill
No.
21276
Location
Accession
Table 7. continued
17
17
8/21
8/21
8/30
8/21
8/21
8/21
8/21
8/21
8/21
Sept.
date
Harvest
213
1024
228
341
213
320
1280
2133
597
181
448
lb/A
Yield3
5.5
5.6
1.5
7.2
7.7
8.1
8.8
7.4
8.8
5.0
4.0
%
4.0
4.2
2.8
3.4
3.5
2.6
5.9
3.0
3.4
1.3
1.9
%
58
57
35
68
69
75
60
71
72
80
68
ratio
Quality
34
46
27
22
17
28
39
45
31
25
23
%
CoH
2.51
2.68
sleeper
H/C Remarks
61021 x
136:16
26
32
33
8802-02
-12
-18
-19
-24
5.9
5.3
7.8
1.70
1.37
1.56
23
22
26
22
52
61
59
60
5.4
6.3
5.9
3.8
5.3
6.9
9.0
5.6
8.1
1322
2688
1365
1024
1164
1322
ea.
ea.
early
med.
medium
ea.
med.
medium
ea.
med.
med.
med.
medium
early
early
51
137:04
07
08
10
19
21
26
30
33
35
138:11
-37
-42
-45
-46
-48
-57
-59
-64
-68
8804-03
-05
8805-06
-07
-11
-17
21497 x 8309-26M/32M
Cas x
65009-64035M
early
early
early
1.11
20
4.1
4.4
4.0
725
4.8
3.8
3.5
5.6
45
52
56
46
25
0.52
0.07
0.31
5.6
0.49
24
22
11.6
0.89
54
61
5.9
4.8
21
7.6
4.8
1.65
2';
20
11.1
16.4
16.3
9.2
trace
1.05
21
0
7.9
trace
11.5
0
0
10.8
21.3
17.1
15.3
12.2
14.6
27.8
17.6
15.2
26.5
19.6
31.7
31.9
23.8
21.4
11.0
21.1
18.5
26.1
17.2
18.4
20.6
17.3
20.2
19.2
24.9
15.2
32.0
22.4
20.3
14,5
14.3
10.1
7.5
trace
62
3.3
5.8
5.1
0
10.1
52
0.83
9.2
11.0
4.3
21
1.35
1.41
6.1
5.9
5.0
5.3
6.4
7.5
7.6
trace
4.4
66
1.35
1.11
1.54
9.5
4.4
10.0
7.1
4.8
21
56
5.3
25
22
63
4.8
25
24
0.48
31
64
71
0.65
26
5.6
54
2.6
3.0
5.1
67
62
2.9
1.71
1.48
1.35
1.68
1.99
1.51
7.0
5.3
7.0
6.7
9.4
200
150
1834
1578
1792
1237
early
early
early
1109
early
med.
ea.
2090
early
—' Caryophyllene; Farnesene; Humulene; Myrcene
8309-32M
8309-26M
21497 - Tettnanger
=/61021 - Swiss Tettnanger
208:6-10
Saazer-36 control
19:1-4
Swiss Tettn. control
commercial Tettnanger B control
15
-13
21521
61021
21497
10
11
-12
52
139 09
45
-40
-11
2432
med.
20
-15
8806-02
2730
early
18
-13
ea.
2815
med.
9.8
6.2
8.0
1877
ea.
6.0
2218
1152
6.0
5.0
23
61
5.2
8.3
1536
early
early
8309-32M
8309-26M
23
64
4.8
8.7
2474
2218
25
63
24
27
63
4.
4.
1749
12
16
21497 x
21497 x
6.3
1.81
26
58
64
4.4
6.0
9.5
1920
ea.
med.
43
-29
ea.
24
63
3.
2602
medium
41
-27
11.0
5.8
1.75
1.34
21
55
6.
1706
ea.
med.
38
58.3
21.2
44.2
3.65
3.25
3.67
34.9
3.58
3.53
3.64
3.59
3.51.
3.42
3.57
3.27
3.35
3.36
3.31
3.52
3.60
3.27
3.34
3.11
3.26
3.49
3.15
3.62
3.34
3.49
3.36
3.20
3.52
3.36
3.53
82.7
82.5
78.4
84.
80.
76.
80.
35.
85.
76.
77.
82.
85.
84.
75.3
83.8
73.5
86.9
84.5
81.4
82.0
79.5
79.3
81.8
86.5
70.4
83.0
81.5
84.7
81.1
79.8
83.6
3.56
%
Major
hydroc
3.44
H/C
57.3
55.4
59.5
46.1
44.7
63.1
57.6
41.9
41.3
41.5
42.7
44.1
33.3
38.3
25.3
54.3
52.7
54.5
49.6
52.9
43.8
40.2
59.3
28.9
43.6
44.4
48.9
11.6
7.9
1.22
8.3
3.3
6.3
1.50
46.7
23
57
41.8
29.7
28.6
0
0
22
60
8.2
8.3
60
5.
8.3
1.67
26
58
4.
H
Percent of oil
4.
4.
6.7
6.0
3370
2133
1.32
ml/100 g
1749
8309-32M
23
%
Oil
2432
%
ratio CoH
ea.
%
lbs/A
B
med.
a
Maturity Yield
Corvallis, 1990.
early
early
early
No.
Pedigree V
Location
March 27; trained May 2, 7, 1990.
Row:Hill
Selection
Pruned:
Table 8: Preliminary Tettnanger-type vigorous triploid selections from the '89 Nurse.ry.
2n
2n
20
21(?)
2n - 31(?)
2n - 29(?)
posthuraulenes?
Remarks
cn
58
Table 9 : Triploid Tettnanger-type baby selections grown for the first year in a 4-hill
Observation Nursery, Main Yard, Corvallis. 1990.
Planted Oct. 1989; pruned March 27, 1990; trained May 9.
Quality
Selection
Location
Number
Row:Hill
8802-02
7:17-20
-12
17:
"
-18
23:
M
-19
24:
"
-24
28:
"
-26
30:
"
-27
31:
"
Pedigree
Yield1
ratio
CoH
a
B
lb/A
%
%
300e
9.4
5.9
62
23
200e
8.0
4.3
65
23
n
300e
6.7
5.9
53
25
H
300e
4.9
4.0
55
23
M
200e
6.9
7.5
48
23
n
200e
11.6
5.9
66
28
H
200e
7.7
4.9
61
26
61021 x 8309-26M
«
%
-46
5:21-24
»
300e
7.4
4.3
63
22
-48
7:
"
"
400e
8.8
5.8
60
26
-57
16:
"
»
200e
5.7
6.8
46
26
-59
18:
"
400e
7.3
4.6
62
24
-68
25:
"
300e
5.7
6.0
49
24
200e
5.8
4.2
58
26
lOOe
9.1
5.5
62
29
8805-06
33:21-24
-11
34:
"
-13
35:
"
-15
36:
"
-18
38:
"
8806-02
15:25-28
M
H
61021 x 8309-32M
»
200e
7.6
4.9
61
21
ii
lOOe
5.0
5.2
49
23
"
lOOe
7.0
4.3
64
26
400e
5.1
5.5
48
29
lOOe
5.4
3.8
58
26
300e
6.7
6.3
52
26
200e
6.5
4.6
59
24
200e
5.2
5.0
51
25
»
21497 x 8309-26M/32M
H
-11
23:
"
-12
24:
"
-13
25:
"
n
-17
29:
"
»
»
Je = visual estimate; chem. analysis is on 5-cone samples
Remarks
140:02
-25
" .
-
" -
H
- " -
.
• .
• .
E, ME, ML, L = early; med. early; med. late; late
7
14
14
13
11
11
11
11
7
7
7
7
1216
1280
lOOOe
1300e
1200e
1200e
1200e
1200e
1300e
1024
1706
1400e
1200e
1200e
1109
2560
1066
1194
1962
2858
1792
1408
1280
1.6
2.8
0.3
0.3
1.6
0.0
2.1
0.1
0.8
0.4
1.5
0.4
0.9
1.8
0.5
1.2
1.7
0.0
0.6
3.0
0.3
0.5
1.4
lbs/A
Sept
7
a
%
Yield3
Date
Harv.
B
5.8
8.2
8.6
8.0
8.3
8.9
8.0
6.9
7.1
7.5
7.3
9.7
7.5
7.6
7.7
8.7
7.6
8.8
7.7
8.9
7.6
8.1
8.2
%
21
25
3
3
16
0
21
2
10
5
17
4
11
19
6
12
18
0
7
25
4
5
15
ratio
hill x 0.42659; e = visual estimate
M, H, C, F = myrcene, hum ulene, ca ryophyllene, farnesene
ML
E
ME
L
L
L
L
L
ME
E
ML
ME
E
3green wt. of single
19005 x 19046M
21121 x 21119
.
.
21120 x 21119M
Fu-FuS) x LCS-FuS
19046M = LCS x FuS
21119M =
21121 =
•21120 = (LGpS x
146:39
34
-105
1:47-48
144:21
-92
21120
52
-71
8811- 05
44
-63
23
37
-56
-146
ML
143:03
8809-22
44
15
-142
145:09
09
-136
-115
142:03
-130
-132
L
51
ML
ME
74
- " -
- " -
L
ME
32
•
42
» _
ML
L
L
L
ity2
Matur-
-65
-
_ " _
- " -
_ n
n
21120 x 19046M
Pedigree1
-55
11
40
-11
23
38
-09
-46
139:32
8808-03
-34
Location
Row:Hill
Accession or
Selection No.
Pruned: March 27; trained: May 2.
Table:lOVigorous zero-alpha/high-beta selections from the '89 Nursery, Corvallis, 1990.
40
36
45
53
39
43
32
52
53
35
35
43
37
40
57
38
38
41
49
31
27
53
42
%
CoH
oil
1.00
1.62
1.21
0.84
0.83
1.70
0.97
1.39
0.97
1.93
0.88
0.99
0.96
ml/lOOg
54.9
65.3
33.5
54.8
33.2
50.3
72.5
74.7
38.3
56.9
56.0
%
M
1.6
13.0
9.4
7.0
5.4
3.3
1.0
0.8
14.9
1.7
1.8
%
H
2.5
1.0
3.8
2.9
3.1
2.8
6.1
0.8
8.9
3.1
2.9
%
C
Percent of oil4
F
0.1
0.0
11.8
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
%
0.65
1.82
2.45
2.41
1.75
1.17
0.97
0.99
1.67
0.55
0.62
H/C
59.1
79.3
58.5
64.8
41.8
56.5
79.7
76.5
62.2
61.8
60.8
%
Hydroc.
Major
control
sr>
lgoones, humulene
hard pick
sparse set
high farnesene
compact mlg cone
top crop
compact cones
high humulene
large cones
top crop
Remarks
60
Table 11 : Agronomic and quality data of Native North American female hops grown at Corvalhs, OR in 1990.
Planted June 1989.
|
1
Quality
Accession
Location
Name or
No.
Row:Hill
Pedigree
Vigor1
lb/A
%
%
%
%
21596
2:39-40
Utah 11
VG
811
1.9
2.3
45
30
21599
3:
"
Utah 12
VG
1386
2.6
2.8
49
76
late
21600
4:
"
Utah 13
VG
lOOe
1.7
1.4
55
79
21552
6:
"
Missouri 4
VG
640
5.0
2.5
67
62
large cones
compact cones, late
21557
19:
late
21562
12:
21564
13:
21565
14:
21578
21:
"
Montana 6
G
21583
24:
"
Montana 10
G
lOOe
5.3
2.3
21586
25:
"
Montana 12
G
100c
5.2
5.3
21594
27:
"
Montana 20
G
lOOe
3.8
2.9
21602
30:
"
Montana 24
G-P
100c
4.7
4.6
Yield2
a
B
ratio
CoH
Remarks
H
Missouri 3
VG
640
3.7
2.4
61
59
"
Iowa 2
VG
853
1.4
1.4
50
64
"
Iowa 4
VG
896
2.9
4.5
39
69
"
Iowa 5
G
100c
0.7
1.6
29
67
100c
2.4
2.3
51
59
early, compact cones
69
73
49
67
compact cones
compact cones
57
66
compact cones
50
67
58016
1:41-44
Utah 526-5
VG
853
2.4
1.4
63
27?
60020
3:
New Mexico 2-4
VG
400e
1.6
3.1
33
44
60021
4:
New Mexico 3-5
VG
100c
2.8
1.7
62
67
60024
6:
Colorado 1-2
VG
200c
5.3
3.8
58
58
60027
8:
Colorado 2-2
VG
565
1.3
2.6
33
65
late, aphid resistant
early
early
o", early, monoecious
early
Colorado 3-1
VG
114
3.8
3.0
55
65
late
Colorado 5-1
VG
600e
2.4
1.7
58
47
o", early, monoecious
Wyoming 2-1
Wyoming 3-1
VG
4.0
3.4
54
44
late
VG
224
1.6
3.0
35
60
early, aphid susceptible
Arizona 1-4
VG
512
3.1
3.4
48
73
60029
10:
60032
11:
60037
12:
"
H
"
"
II
"
"
60038
13:
60015
15:
"
60016
16:
"
60025
17:
"
H
New Mexico 1-3
Colorado 1-3
1290
VG
300e
2.6
2.2
54
67
early
G-VG
200e
6.3
2.2
74
53
ruffled cones
early
early
late, compact cones
60033
19:
"
Colorado 6-1
VG
200e
1.8
2.5
42
68
60035
20:
"
Colorado 7-2
VG
142
3.1
5.0
38
49
21551
22:
"
Nebraska 3
VG
437
3.5
3.2
53
62
21554
23:
"
Nebraska 6
G
491
2.5
2.4
51
58
21556
24:
Missouri 2
VG
704
2.3
1.7
58
61
compact cones, late
21559
25:
Missouri 5
P
200e
0.9
2.2
28
53
late
Iowa 3
G
384
1.0
1.1
48
52
Iowa 6
G
384
4.0
4.1
49
66
2.5
3.2
44
76
H
"
21563
27:
21566
28:
"
21567
29:
"
"
"
21568
30:
21576
33:
21579
34:
n
21581
35:
"
21590
41:
M
n
21591
42:
n
21592
43:
"
Iowa 7
VG
No. Dakota 1
150e
small compact c, late
VG
405
4.5
5.7
44
68
Montana 4
G
100c
4.6
4.2
53
58
early
Montana 7
VG
lOOe
4.4
4.0
52
58
Montana 9
VG
lOOe
3.2
2.8
53
77
G
lOOe
1.0
1.7
36
66
hard pick
early, hard pick
early, hard pick
small compact cones
Montana 16
Montana 17
G
lOOe
1.5
1.2
56
61
Montana 18
VG
lOOe
5.2
4.4
54
64
VG, G, P = very good; good; poor
2Yield factors: 2-hill plot: 0.21329; 4-hill plot: 0.10665
e = visual estimate
61
Table 12 :
Native North American male hops grown at Corvallis, OR in 1990.
Planted June 1989.
Accession
No.
Location
Name
Row:Hill
Pedigree
Oua litv
or
Vigor^
a
P
ratio
CoH
Remarks
Montana 21
G
26.8
36.7
42
48
tl
Missouri 1
VG
32.7
36.0
48
53
tt
Missouri 4
VG
37.8
39.6
49
51
-
Iowa 1
VG
23.5
54.7
30
61
-
No.
Dakota 2
G
40.9
36.7
53
45
It
No.
Dakota 3
G
not collected
17
Tl
No.
Dakota 5
G
not collected
21573M
18
n
No.
Dakota 6
G
42.1
37.7
53
41
21582M
23
tt
Missouri
VG
32.4
48.9
40
46
21597M
28:
tt
Montana 22
G-P
21601M
29:
tt
Montana 23
G
35.3
38.2
48
47
Arizona 1-2
VG
38.5
22.8
63
58
21595M
1 :39-40
21555M
8
21558M
10
21561M
11
21569M
15
21570M
16
21572M
7
O** , monoecious
not collected
60013M
2: 41-44
60023M
5:
(t
Colorado 1-1
VG
26.5
40.1
40
38
60026M
7:
tl
Colorado 2-1
VG
27.1
40.3
40
57
early
60028M
9:
tt
Colorado 2-3
VG
39.8
30.3
57
49
early
21117M
14:
II
Native Wisconsin
VG
29.9
36.3
45
32
not Wild
60031M
18:
II
Colorado 4-1
VG
35.7
42.5
46
36
21549M
21:
tl
Nebraska 1
VG
33.5
45.8
42
53
21560M
26:
Missouri 6
VG
34.5
48.0
42
47
21571M
31:
II
No.
Dakota 4
G
39.5
28.5
58
43
21574M
32:
It
No.
Dakota 7
G
not
21585M
37:
tt
Montana 11
P
not collected
21587M
38:
It
Montana 13
VG
30.5
44.9
40
49
21588M
39:
-
Montana 14
VG
24.3
53.9
31
44
21589M
40:
'•
Montana 15
G
25.7
49.3
34
42
American
y
»
P, G, VG - poor, good, very good
collected
long arms
Weathers
Goschie
Annen
21496
21497
21120
1.2
13
1293
2586
0
16
0
2
4.0
11
725
2176
1
7
0
3
3.7
3.9
3.1
3.1
7
479
1438
6
1
3 0
.
16
1241
3103
5
0
5
2
20
3010
4038
1
0
*posthumulene sesquiterpenes are 6.3% of total oil.
Serres
•I
21491
tl
3.1
54
3010
10710
1
0
9
4
Weathers
21490
2.6
40
2296
8035
1
0
5
3
Butsch
21484
32
1920
6339
1
0
3
3
Stauffer
21459
4.1
27
1489
5213
0
1
5
3
Coleman
21457
4.9
20
1341
4024
1
1
3 0
Goschie
21455
%
lb/A
lbs
%
a
%
Bales
0.3
0.2
0.1
12.1
16.3
0.1
7.0
6.4
12.9
7.1
5.1
1.6
1.12
0.68
0.52
0.52
2.54
25
65
7.1
4.8
4.2
3.5
5.7
5.7
21
20
24
23
1.23
0.3
11.9
0.60
30
4.7
5.3
0.64
27
3.4
3.7
0.3
8.3
1.12
24
0.2
9.3
3.5
%
%
1.24
ml/100
Oil
26
%
CoH
6.3
%
8
Quality "as is"
Yield
No.
tion
+
Stem
Total
Produc-
Leaf
Seeds
Acres
Grower
No.
Access.
USDA
Table 13: Oregon commercial off-station plots in 1990.
0.S
17.1
20.3
34.1
21.0
22.5
43.3
18.2
28.3
23.5
%
70.2
44.2
44.2
35.0
55.0
52.2
27.4
53.2
45.9
50.0
%
72.7*
82.7
83.7
82.1
82.7
82.0
82.9
81.4
82.7
83.0
%
C+F+H+M
Major
hydroc.
lot
spec,
aroma
hard pick
Stroh
HRC
lot
Hood
baby
Mt.
Remarks
rv>
cn
63
Yield comparison of Liberty (USDA 21457) from 3-acre commercial trials
with the state averages of representative arona hops Willamette and Tettnanger
over a three-year period.
1988 to 1990.
yield, lbs per acre
Oregon
Washington
Idaho
Year
Cul tivar
1988
Liberty
1636
soil pro bl em
798
Willamette
1340
1020
480
Tettnanger
1100
890
Li berty
1925
1025
560
Willamette
1590
1310
not grown
Tettnanger
1080
1040
not grown
Liberty
1738
996
Willamette
1420
1280
not grown
Tettnanger
1290
980
not grown
1989
1990
not grown
809
1766
1011—7
722
Willamette
1450
1203
480 -1
Tettnanger
1157
970
3 yr avg. Liberty
1/ based on 2-year data..;
2/ grown only one year
not grown
64
INFORMATION SHEET, USDA 21257
(Selection No. 7313-83)
Pedigree:
21055 x
21110M
[Comet x (BG x Fu-Colo2-l)] x Bu-ZS
Genetic composition:
1/4 Comet; 1/4 Bullion; 1/8 Brewer's Gold; 1/8 German
mildew-resistant aroma hop; 1/16 Fuggle; 1/16 Colorado Wild
American; 1/8 unknown.
Diploid:
Chromosome number 2n = 2x = 20.
Maturity:
Medium early (about August 25 in Western Oregon).
History:
1973:
1974:
Cross 7313 made at Oregon State University.
Seeds germinated in the spring; 111 seedlings transplanted
1975:
1976:
Single-hill nursery plant, no cone samples.
Second year nursery plant, little downy mildew infection
1977:
1978:
1979:
1980:
despite no control measures; compact cones.
Five-hill seedless observation nursery, no cone samples.
First production year, medium early, sparse set.
Second production year, early.
Accession Number 21257 assigned; excellent cone set, medium
early.
to the field.
1981:
Established at seedless Smith Yard.
1982:
1983:
First production year, seedless Smith Yard, 5-hill plot.
To Prosser, Washington.
1983
1990:
to
Large tapered compact cones like USDA 65009; early;
occasionally somewhat sparse cone set; downy mildew observed
in 1989.
Pruning and training:
Picking and drying:
Cone type:
Like any other hop, no special precautions required.
Compact cones, little shatter, easy to dry.
Large compact, tapered, 250-350 mg dry weight per cone.
Storage stability:
Fair to good, comparable to Centennial (21507), better
than Chinook or Eroica; not as good as Nugget or Galena.
In six
different tests since 1979 the alpha remaining has ranged from 5075%, with an average of 63%.
Diseases:
No systemic downy mildew infection. Downy mildew cone infection
observed only once. No Verticillium wilt.
Will.
II
11
1978
1979
1980
1559
2039
1766
1689
1800e
1500e
2218
15.2
18.8
16.2
15.9
15.1
13.9
18.3
16.8
11.2
1937
13.3
lOOOe
6.5
7.0
8.0
6.1
7.6
6.8
7.8
7.7
5.2
5.6
5.4
6.2
6.7
6.5
• 6.3
4.5
%
P
39
39
38
41
37
40
38
39
41
38
34
40
42
36
36
%
CoH
6 mo.
50
75
68
68
53
64
remain
63
in progress
%a
storage
2^4
2.80
2.49
2.35
2.54
3.34
3.44
3.31
2.78
2.14
ml/100 g
Oil
2/
~
-> Caryophyllene, Farnesene, Humulene, Myrcene
70
73
67
72
66
67
70
69
68
70
67
68
70
70
71
78
Ratio
1.53
1.56
1.48
1.42
1.83
1.52
H/C
7.0
5.3
3.2
6.0
5.4
6.4
%
C
8.2
4.7
8.6
9.9
9.7
%
H
oil*/
65.6
72.4
60.6
62.1
67.1
%
M
~~
0 10.7 59.3
0
0
trace
0
0
%
F
Percent of total
77.0
79.1
80.3
75.2
77.4
83.2
Major Hydroc.
(C+F+H+M)
a> Nug. ,Galena
single hill
Remarks
14 yrs Galena (Or)1881 10.6 6.6 63
39
75
1.16
2.10 4.6
o.l
10.0 55.6
70.3
The 1982 and 83 data for OR were 5-cone samples. If these are not used the averages would be: alpha 16.2; beta 6.9
-/second highest of all hops in the test (behind the low producing Yeoman)
~W
•^ e - visual estimate
1988 Prosser, WA 2760 12.ll/ 6.6
Average (Oregon)
••
ti
1989
1990
it
1988
"
1986
1987
ii
1985
Smith Yard
1984
n
Smith Yard
Will. Yard
12.2
13.4
15.9
15.4
15.7
1400e
1200e
1400e
Yard
Smith Yard
1305
1424
1152
%
lb/A
15.9
a
Yield^
Will.
1983
1982
Main Yard
1976
Yard
Location
Year
Yield and quality data of USDA 21257 (5-hill plots)
cr>
66
HOPUNION USA
PO
GROWER
BOX 9697
•
DEALER
•
INC"
PROCESSOR
(509) 457-3200
TELEX 15 23 J2
203 DIVISION STHEET
TELEFAX 509-453-1S51
YAKIMA WASHINGTON 98909 USA
HOP VARIETY: GALENA
(Z/lft)
Pedigree
Bred from Brewers Gold by open pollination.
Maturity
Early to mid-season.
-Held
1900 - 2500 kg/ha. or 1700-2230 Ib/ac.
Growth Habit
Neat and columnar.
Disease Reaction
Exhibits reaction to infection with Prunus
necrotic ring-spot virus.
downy mildew.
Some resistance to
Pickability
Good.
Drying-Baling
Normal.
Cone-Structure
Medium compact and plump.
Quality:
Lupulin
Abundant, yellow in color.
Aroma
Medium but pleasant hoppiness.
Alpha Acids
12.0 - 14.0% w/w.
Beta Acids
7.0 - 9.0% w/w.
Co-Hum ulone
32 - 42% of alpha-acids.
Storageability
75 - 80% alpha-acids remaining after six (6)
months storage @ 20° C.
Total Oil
0.9- 1.2% v/w.
Myrcene
55 - 60% of whole oil.
Humulene
10- 15% of whole oil.
Caryophyllene
3 - 5% of whole oil.
Farnesene
<1% of whole oil.
General Trade Perception
An excellent high alpha-acids hop with balanced
bittering properties combined with an acceptable
aroma profile.
Other Information
Released in 1978 and now a major U. S. high
alpha-acids hop.
67
HOPUNION USA
P O
GROWER
BOX 96"7
DEALER
INC".
PROCESSOR
YAKIMA
5091 457 320H
TELEX IS 23 .12
203 DIVISION S*"EL:
TELEFAX 5(i") J5 i '•'•' •
V'VASHING'
HOP VARIETY: NUGGET (2//*?3
Pedigree
Selected from a cross between Brewers Gold and a
high alpha-acids male with good storage
properties.
Maturity
Mid-season.
Yield
1900 - 2500 kg/ha. or 1700-2230 Ib/ac.
Growth Habit
Good.
Disease Reaction
Little visual reaction to infection with Prunus
necrotic ring-spot virus. Moderate to good
resistance to downy mildew.
Pickability
Excellent.
Drying-Baling
Normal.
Cone-Structure
Heavy, tight and moderately long.
Quality:
Lupulin
Plentiful and yellow-orange in color.
Aroma
Quite heavy and herbal.
Alpha Acids
12.0 - 14.0% w/w.
Beta Acids
4.0 - 6.0% w/w.
Co-Hum ulone
24 - 30% of alpha-acids.
Storageability
70 - 80% alpha-acids remaining after six (6)
months storage @ 20° C.
Total Oil
1.7-2.3%v/w.
Myrcene
51 - 59% of whole oil.
Humulene
12 - 22% of whole oil.
Caryophyllene
7 - 10% of whole oil.
Farnesene
<1% of whole oil.
General Trade Perception
A high alpha-acids hop with a good aroma profile.
Other Information
Released in 1982 and now a major high
alpha-acids variety in the U. S. A.
68
HOPUNION USA
P O
GROWER
BOX 969'
DEALER
iNc"
PROCESSOR
YAKIMA
15091 457 320O
TELEX 15 23 42
203 DIVISION ST^EE'
TELEFAX 509453-1551
VVAS-'NGTON 98909 USA
HOP VARIETY: CHINOOK (2/22£
Pedigree
From a cross between Petham Golding and a
USDA-selected male with high alpha-acids and
good storage properties.
Maturity
Mid-season to late.
2000 - 2500 kg/ha. or 1780-2230 Ib/ac.
Yield
Growth Habit
Good and neat.
Disease Reaction
Tolerant to infection with Prunus necrotic
ring-spot virus, moderately resistant to downy
mildew. Not excessively sensitive to insects.
Pickability
Good.
Drying-Baling
Normal.
Cone-Structure
Long, medium compact with turned outward
petals.
Quality:
Lupulin
Abundant and yellow-orange in color.
Aroma
Mild to medium-heavy, spicy.
Alpha Acids
12.0 - 14.0% w/w.
Beta Acids
3.0 - 4.0% w/w.
Co-Hum ulone
29 - 34% of alpha-acids.
Storageability
65 - 70% of alpha acids remaining after six (6)
months storage at 20° C
Total Oil
1.5-2.5%v/w.
Myrcene
35 - 40% of whole oil.
Humulene
20- 25% of whole oil.
Caryophyllene
9 - 11% of whole oil.
Farnesene
<1% of whole oil.
General Trade Perception
A high alpha-acids hop with a highly acceptable
aroma profile.
Other Information
Released to U. S. industry in 1985 and becoming
increasingly popular.
HOPUNION USA
PO
GROWER
BOX 9697
DEALER
69
INC"
PROCESSOR
15091 45 7 320O
TELEX 15 31 •••.'
203 DIVISION ST"EE"
TELEFAX 509 45 > •'•'••
YAKIMA WASHINGTON 98909 'JSA
HOP VARIETY: PERLE
Pedigree
{2.1X21
Bred in Germany from the English Northern
Brewer variety.
Maturity
Early.
Yield
1300 - 1800 kg/ha. or 1160-1600 Ib/ac.
Growth Habit
Good.
Disease Reaction
Mainly tolerant to Prunus necrotic ring-spot virus
infection. Fairly resistant to downy mildew.
Pickability
Normal to good.
Drying-Baling
Normal.
Cone-Structure
Fairly loose, medium-long.
Quality:
Lupulin
Plentiful, fairly dark yellow.
Aroma
Pleasant and slightly spicy.
Alpha Acids
7.0 - 9.5% w/w.
Beta Acids
4.0 - 5.0% w/w.
Co-Hum ulone
27 - 32% of alpha-acids.
Storageability
80 - 85% alpha-acids remaining after six (6)
months storage @ 20° C.
Total Oil
0.7-0.9%v/w.
Myrcene
45 - 55% of whole oil.
Humulene
28 - 33% of whole oil.
Caryophyllene
10 - 12% of whole oil.
Farnesene
<1% of whole oil.
General Trade Perception
A hop with German type aroma properties
combined with moderate bittering potential.
Other Information
Only recently established in the U. S. industry.
70
HOPUNION USA
P O
GROWER
BOX 9697
DEALER
INC"
PROCESSOR
i509i 457 3200
TELEX 15 23 42
203 DIVISION STE!EET
YAKIMA. WASHINGTON 98909 USA
TELEFAX 509 453 •'>'••
HOP VARIETY: MOUNT HOOD ($/?fr
Pedigree
A triploid seedling of the German Hallertauer
variety.
Maturity
Early to mid-season.
Yield
1700 - 2200 kg/ha. or 1520-1960 lb/ac.
Growth Habit
Fairly vigorous but manageable.
Disease Reaction
Moderately resistant to downy mildew. Reaction
to Prunus necrotic ring-spot virus not yet known.
Pickability
Normal to good.
Drying-Baling
Normal.
Cone-Structure
Medium size and fairly compact.
Quality:
Lupulin
Moderate amount, yellow in color.
Aroma
Mild, pleasant and clean.
Alpha Acids
5.0 - 8.0% w/w.
Beta Acids
5.0 - 7.5% w/w.
Co-Hum ulone
22 - 23% of alpha-acids.
Storageability
50 - 60% alpha-acids remaining after six (6)
months storage @ 20° C.
Total Oil
1.0- 1.3% v/w.
Myrcene
55- 65% of whole oil.
Humulene
15 - 25% of whole oil.
Caryophyllene
7 - 10% of whole oil.
Farnesene
<1% of whole oil.
General Trade Perception
Aroma variety with marked similarities to the
German Hallertauer and Hersbrucker varieties.
Other Information
Released in the U. S. in 1988.
71
HOPUNION USA
P O
GROWER
BOX 9697
DEALER
INC
PROCESSOR
YAKIMA
15091 457 3200
TELEX 15 23 4.'
203 DIVISION STaEf.i
TELEFAX 509 4^3 ;','.•
W A S h IN G ' I
HOP VARIETY: WILLAMETTE (%/fftf/
Pedigree
A triploid seedling of the English Fuggle variety.
Maturity
Early to mid-season.
Yield
1500 - 1900 kg/ha. or 1340-1700 Ib/ac.
Growth Habit
Good, vigorous but manageable.
Disease Reaction
No visible reaction to Prunus recrotic ring-spot
virus. Fair resistance to downy mildew.
Susceptible to Vertlcillium wilt.
Pickability
Good.
Drying-Baling
Normal.
Cone-Structure
Small to medium sized, round, and fairly light.
Quality:
Lupulin
Moderate amount, golden yellow in color.
Aroma
Mild and pleasant, slightly spicy.
Alpha Acids
4.5 - 7.0% w/w.
Beta Acids
3.0 - 4.0% w/w.
Co-Hum ulone
30 - 35% of alpha-acids.
Storageability
60 - 65% alpha-acids remaining after six (6)
months storage @ 20° C.
Total Oil
1.0- 1.5% v/w.
Myrcene
45 - 55% of whole oil.
Humulene
20 - 30% of whole oil.
Caryophyllene
7 - 8% of whole oil.
Farnesene
5 - 6% of whole oil.
General Trade Perception
A quality aroma hop.
Other Information
Released in 1976 and well established in the U. S.
industry.
J
72
HOPUNION USA
P O
GROWER
BOX 969"
•
DEALER
•
NC
PROCESSOR
YAKIMA
(5091 457 3200
TELEX 15 23 J2
203 DIVISION STREET
TELEFAX 509-453-1551
WASHINGT;
HOP VARIETY: CASCADE ( fyf/3
Pedigree
Open pollination of a Fuggle seedling, itself
derived from crosses between Fuggle and the
Russian hop Serebrianker.
Maturity
Mid-season.
Yield
1600 - 2200 kg/ha. or 1430-1960 Ib/ac.
Growth Habit
Good.
Disease Reaction
Not seriously affected by Prunus necrotic
ring-spot virus. Good crown and cone resistance
to downy mildew, partly tolerant to Verticillium
wilt.
Prone to insects.
Pickability
Good.
Drying-Baling
Normal.
Cone-Structure
Compact, medium sized.
Quality:
Lupulin
Moderate amount, yellow color.
Aroma
Pleasant, flowery and spicy.
Alpha Acids
4.5 -7.0% w/w.
Beta Acids
4.5 - 7.0% w/w.
Co-Hum ulone
33 -40% of alpha-acids.
Storageabllity
48 -52% alpha-acids remaining after six (6)
months storage @ 20°.
Total Oil
0.8- 1.5% v/w.
Myrcene
45 - 60% of whole oil.
Humulene
10 -16% of whole oil.
Caryophyllene
3 - 6% of whole oil.
Farnesene
4 - 8% of whole oil.
General Trade Perception
Aroma variety with well balanced bittering
potential.
Other Information
Released in 1972 and well established in U. S.
industry.
73
HOPUNION USA
P O BOX 969'
203 DIVISION ST3£E"
YAKIMA W AS ~ : N G ~0 N -18909 USA
GROWER
DEALER
INC
PROCESSOR
15091 46 7 120'i
TELEX '5 23 42
TELEFAX 509 461 •=.=.'
HOP VARIETY: FUGGLE (HflMf
Pedigree
A chance seedling selected in 1875 in England.
Maturity
Early.
Yield
1200 - 1800 kg/ha. or 1070-1600 lb/ac.
Growth Habit
Neat and manageable.
Disease Reaction
Not seriously affected by Prunus necrotic
ring-spot virus. Resistant to downy mildew. Not
excessively sensitive to insects.
Pickability
Good.
Drying-Baling
Normal.
Cone-Structure
Small and rather light, medium compact.
Quality:
Lupulin
Moderate amount, yellow color.
Aroma
Mild and pleasant.
Alpha Acids
4.0 - 5.5% w/w.
Beta Acids
1.5 -2.0% w/w.
Co-Hum ulone
25 - 32% of alpha-acids.
Storageability
60 - 65% alpha-acids remaining after six (6)
months storage @ 20° C.
Total Oil
0.7- 1.2% v/w.
Myrcene
40 - 50% of whole oil.
Humulene
20- 26% of whole oil.
Caryophyllene
6 - 10% of whole oil.
Farnesene
4 - 5% of whole oil.
General Trade Perception
Traditional aroma hop.
Other Information
Also known overseas as Styrian (Savinja)
Golding.
74
HOPUNION USA
P O
GROWER
80 x ^69:
DEALER
INC
PROCESSOR
203 DIVISION S'
YAKIMA
15091 4 5
00
TELEX '5 23 J
TELEFAX 509 453 •-'
V.'AS1-' ^C.'ON. ^H^O/l USA
HOP VARIETY: TETTNANGER (2/@/S~
Pedigree
Traditional German variety developed in the area
of the same name.
Maturity
Early.
Yield
1000 - 1500 kg/ha. or 900-1340 Ib/ac.
Growth Habit
Fairly neat.
Disease Reaction
Can display reaction to Prunus necrotic ring-spot
virus infection. Moderately resistant to downy
mildew. Sensitive to insects and mites.
Pickability
Fair to good.
Drying-Baling
Normal.
Cone-Structure
Medium compact fairly small light cone.
Quality:
Lupulin
Moderate amount, pale yellow.
Aroma
Very fine and slightly spicy.
Alpha Acids
4.0 - 5.0% w/w.
Beta Acids
3.5 - 4.5% w/w.
Co-Hum ulone
20 - 25% of alpha-acids.
Storageability
55 - 60% of alpha-acids remaining after six (6)
months storage at 20° C
Total Oil
0.4-0.8%v/w.
Myrcene
36- 45% of whole oil.
Humulene
18- 23% of whole oil.
Caryophyllene
6 - 7% of whole oil.
Farnesene
10- 12% of whole oil.
General Trade Perception
A true noble aroma variety.
Other Information
Only recently established in U. S. industry.
75
HOPUNION USA
PO
GROWER
BOX 9697
DEALER
INC"
PROCESSOR
15091 457 3200
TELEX 15 23 42
TELEFAX 609-453 1651
203 DIVISION STQEET
YAKIMA WASHINGTON 98909 USA
HOP VARIETY: HALLERTAUER (2/Q/tf
Pedigree
Traditional German variety selected in the area of
the same name.
Maturity
Early.
Yield
900 - 1400 kg/ha. or 800-1250 Ib/ac.
Growth Habit
Rather variable and often quite weak in the U. S.
Disease Reaction
Can display reaction to Prunus necrotic ring-spot
virus infection. Fairly sensitive to downy mildew
and insects.
Pickability
Fair to good.
Drying-Baling
Normal.
Cone-Structure
Fairly loose, small and light.
Quality:
Lupulin
Moderate amount, quite pale.
Aroma
Very mild, pleasant and slightly flowery.
Alpha Acids
3.5 - 5.5% w/w.
Beta Acids
3.5 - 5.5% w/w.
Co-Hum ulone
18 - 24% of alpha-acids.
Storageability
52 - 58% alpha-acids remaining after six (6)
months storage @ 20° C.
Total Oil
0.6- 1.0% v/w.
Myrcene
35 - 44% of whole oil.
Humulene
30 - 38% of whole oil.
Caryophyllene
10 -12% of whole oil.
Farnesene
<1% of whole oil.
General Trade Perception
Traditional superior aroma hop.
Other Information
Declining production in Germany due to
sensitivity to Verticillium wilt.
76
HOPUNION USA
P O
GROWER
BOX 969 7
DEALER
INC
PROCESSOR
YAKIMA
:6C9i 467 .13
TELEX '5 23
203 DIVISION S'MEc
TELEFAX 509 4-! -i
7JA1HiMir ON -1H90-9 USA
HOP VARIETY: CLUSTER H]- £if/{f)2
Pedigree
Not known but possibly the result of a cross
between an English variety and an American
male hop.
Maturity
Early to late.
Yield
1900 - 2400 kg/ha. or 1700-2140 Ib/ac.
Growth Habit
Vigorous but manageable.
Disease Reaction
Very susceptible to downy mildew. Not seriously
affected by Prunus necrotic ring-spot virus.
Pickability
Good.
Drying-Baling
Normal.
Cone-Structure
Medium compact cone.
Quality:
Lupulin
Plentiful, yellow in color.
Aroma
Medium and quite spicy.
Alpha Acids
5.5 - 8.5% w/w.
Beta Acids
4.5 - 5.5% w/w.
Co-Hum ulone
36 - 42% of alpha-acids.
Storageability
80 - 85% alpha-acids remaining after six (6)
months storage @ 20° C.
Total Oil
0.4 - 0.8% v/w.
Myrcene
45 - 55% of whole oil.
Humulene
15- 18% of whole oil.
Caryophyllene
6- 7% of whole oil.
Farnesene
<1% of whole oil.
General Trade Perception
Other Information
An excellent general purpose hop with medium
and well balanced bittering potential and no
undesirable aroma properties.
For years the standard U. S. cultivar, improved by
mass selection in the mid-sixties.
77
June 21, 1990, First Day of Summer.
Field Trip to Oregon Off-station Experimental Hop Plots
Alfred Haunold, Hop Breeding and Genetics
In contrast to the past three weeks which had unsettled weather and below
average temperatures which greatly reduced hop growth, we seem to be headed
toward a period of near normal summer weather.
This should greatly help hop
growth, in particular the development of sidearms and flowering.
Weathers Hop Farms,
Salem,
Oregon
USDA 21490: Excellent growth, practically all plants are 2-4 ft above
the wire and sidearms are 2-3 ft long. Very even growth and lots of bottom
growth but occasionally mildew spikes. Grower has not burned off the bottom
and I will advise them to do so, which is critical before mildew gets out of
hand. Suckering to be done with Des-i-cate on 6/25 . Spikes are beginning to
dry up, perhaps the result of an Aliette spray. Lower leaves show some
honeydew, but I could not find any signs of aphids, and therefore they must
have been sprayed rather recently. At this stage insects do not seem to be a
problem. All indications point toward another 10-11 bale crop in this yard.
Adjacent Perle:
About half of the plants have reached the top wire but
have just begun to arm out. The bottom has been hand-stripped but not
sprayed. Growth is as expected of Perle at this stage but considerably behind
that of USDA 21490.
Adjacent Willamette Yard: Somewhat further along in development. Many
plants have just reached the top wire or are slightly above it and they are
beginning to arm out. Growth again is substantially behind that of USDA
21490.
USDA 21496. Tettnanger A:
Signs of verticillium wilt.
Most plants that
I cut into have substantial vascular browning but in contrast to the verticil
lium reaction in Willamette or Fuggle there is no basal swelling of the main
vine near the soil surface.
The wilt infestation in view of the cool wet
weather that we have had during the past three weeks is not surprising. What
is surprising, however, is the high degree of infection in Tettnanger, which
is also found in the adjoining commercial Tettnanger (green-stemmed clone) in
this field. Some plants here are almost completely dead and substantial
vascular browning was noted. This field, which is about 1-2 years ahead in
physiological development as compared to Tettnanger A, showed better develop
ment of most plants, but Verticillium at this stage is a concern. Approxim
ately 10-15% of all plants seem to be infected, with visual symptoms quite
evident.
Most plants of USDA 21496 (Tettnanger A) are above the wire and sidearms
are about 1-2 ft long. An occasional plant must have flowered early, since
there are cones on short, stubby sidearms. Other plants are just beginning to
bloom while others are still arming out.
Yield will be spotty but should
reach about 5 to 5.5 bales per acre, perhaps slightly better.
The adjoining
78
2
commercial Tettnanger is somewhat better, and if Verticillium does not
continue to spread yield should be above 6 bales.
For the future I recommend removing Tettnanger A after the 1990 season
since it appears to offer no advantage over the standard commercial Tett
nanger .
Coleman,
Gervais,
Oregon
USDA 21457:
Excellent development of this experimental hop. Very nice
and even growth; all plants are at or over the wire by at least 1-3 ft, and
the sidearms are 1-3 ft in length and still growing. No sign of bloom, no
sign of downy mildew, no sign of Verticillium wilt. With the warm weather we
are having now (temperatures are expected to reach 90 today), sidearms should
develop well and form the basis for an excellent yield, probably in excess of
10 bales/acre. Grower has sprayed with Ridomil+ (Ridomil + copper), but there
is no danger of downy mildew. There are also no signs of any insect infesta
tions (no aphids and no mites), and the yard is in excellent shape.
Plants
have a deep bluish-green color, indicative of excellent nutritional status.
The adjacent increase nursery has been maintained well, is basically free of
weeds but plants have not been hilled up as much as in past years, since
apparently there are plenty of roots available in case that we should decide
to release this experimental hop. The adjacent three-acre field, which is
planted at 7.5 ft spacing, has not been trained since the grower was advised
against it. The Hop Research Council apparently is satisfied with the
production from the current three acres.
However, the adjacent three acres
could be trained next year and produce an essentially mature crop.
John I.
Haas,
Riverside Ranch,
St.
Paul,
Oregon
USDA 21120: The field for the planting of this 4-acre experimental plus
adjoining commercial planting has been prepared now for well over three weeks.
Initial plans were to fumigate this field but continued rain made this
impossible. Current plans are to fumigate early next week (June 25-26). This
is unfortunate,
since we would have to wait another 6 weeks at the least
before planting can begin, and therefore hops will not have a chance to
develop a good crown before the end of dormancy next fall. I talked to the
manager and advised him to check with Central Management to see whether
fumigation could be eliminated.
He promised to call Management today. (Word
just received: Experimental plants growing well in greenhouse pots. Will be
transplanted later this summer).
Stauffer Farms,
Hubbard,
Oregon
USDA 21459: Excellent development of all plants in this experimental
plot. All plants are well over the wire (2-4 ft) and well armed out, 3-4 ft
for most plants, and still growing. Plants show even development, 2-3 vines
trained on each string. There are no signs of any disease or any insect
problems. The bottom has been sprayed (probably Des-i-cate or paraquat) and
is nice and clean. This plot is perhaps the furthest along in vegetative
development of any experimental plot that I have seen so far today. If
79
3
development continues, with the warm weather now which is likely, we could
expect an excellent crop above 10 bales/acre.
Annen Farms,
Mt.
Angel,
Oregon
USDA 21120: This now three-year old plot has finally reached its normal
development stage that we had expected already last year. Most plants are at
or over the wire and are well armed out, with sidearms sometimes up to 3 ft or
more in length. Laterals have started to develop, and all indications are for
a good crop at this stage. Plants have been hilled up but the ridges have not
been pushed down.
I don't know whether the grower intends to leave the ridges
or eventually will push them down, but it has to be done soon because the
bottom sidearms are hanging down and would interfere with tractor work. There
is only an occasional basal mildew spike which should not pose any problem.
Plants have been hand-stripped and look very healthy.
There are no signs of
any insect problems. I also didn't see many missing hills. Even in the lower
portion of the yard, which in previous years had lagged behind in development,
most plants are well developed, nice and even, and point to a good crop,
probably in the 9 bale range. There are indications that some chemical
stripping (probably Des-i-cate or paraquat) was done some time ago, but there
is no visible damage to the main vines, although they show some discoloration.
Plants have developed quite well and everything points toward an excellent
crop.
USDA 21491,
Paul Serres,
Woodburn,
Oregon
USDA 21491:
Excellent development of most plants in this experimental
plot. All plants at or over the wire, often by 2-4 ft.
Sidearm development
has just started but all indications are that it will be very good. Base of
the plants has been sprayed (probably Des-i-cate or paraquat) and excellent
sucker control was obtained. There are no indications of any downy mildly or
any other disease or insect problems. Development of plants in this plot is
somewhat ahead of the adjoining Willamette, but Willamette plants are also at
or near the top wire for the most part. Sidearm development of Willamette,
however,
is somewhat behind that of USDA 21491.
Most plants of USDA 21491
have from four to six vines trained (two or three on each string) and all
indications point toward a very good yield, probably above 9 bales/acre.
Plants are conspicuous by.their dark bluish-green color, a combination of the
triploid status and excellent nutritional level in this field.
USDA 21484,
Butch Farms,
Silverton,
Oregon
USDA 21484: This is the first year that this experimental hop is on the
string. It was planted in May/June of 1989. Excellent development of all
these plants and practically no missing hills at all. Very even growth, two
to three vines were trained per string. Most plants are over the wire,
sometimes by as much as 4 ft. Sidearms have developed quite well, anywhere
from 1 ft to 3 ft out and are still growing. The second laterals are coming
now and they are developing very nicely. Plants have been suckered (paraquat
with apparently no damage to the main vines, although thee is some discolora
tion due to the chemical contact).
There are no disease or insect problems
noticeable at this time. The bine is deep red, the leaves have a bluish-green
80
4
color and look very healthy. An occasional plant has some flowers in burf,I
am not sure whether this is a very early hop or whether it is due to the
early pruning. These hops were pruned in early March, while most other hops
were pruned later. I expect that this hop may be in full burr in about 2-3
weeks. If development continues as well as it has thus far, a yield in excess
of eight to nine bales is possible.
Goschie Farms,
Silverton,
USDA 21497. Tettnanger B:
Oregon
Uneven development of this experimental plot.
Many plants which should have by now developed into fully mature plants look
like babies. Quite a few hills have only a single vine per string and there
are still a few missing hills. Other plants are only one third along the wire
and the terminal tip is fluffy and has quit growing. Older leaves show
peculiar bronzing. Other plants again show very good development, with at
least one shoot per plant well over the wire. There has been some early bloom
and some cones are developing. It appears that this plot is physiologically
out of synch and yield will be disappointing, maybe about five bales.
The adjacent commercial Oregon Tettnanger is much better in development,
similar to the last few years. This is the clone with the green vine. It
also has much healthier leaf development and does not show the bronzing.
During the past two years this plot has consistently been better than
Tettnanger A, but this year it looks worse. If there is no compelling reason
to continue either Tettnanger A or B for another year, I would recommend
pulling out both plots since their yield potential apparently is substantially
below that of the
accepted commercial Tettnanger grown both in Oregon and in
Washington. In contrast to the Tettnanger A, however, I could not find any
Verticillium problems here, only an occasional mildew spike, which apparently
is not sporulating (perhaps Aliette protection). Plants have been handstripped, but otherwise look healthy. Bottom growth has not been burned back.
USDA 21455, Mt. Hood: The original planting, now in its fifth year,
looks weak. It has been deep-pruned this year by mistake, and the signs are
very clear. This hop does not like deep pruning. Regrowth was spotty, and
plants are just now reaching the top of the wire, some have not even reached
it.
It looks more like a baby crop to me at this stage.
Hopefully, with the
warm weather, plants will arm out and produce a decent crop, but I doubt that
it will be more than seven bales/acre.
New Planting, Mt. Hood:
string.
Now in its third year, second year on the
Plants here look much better, are further along in development than
the original Mt. Hood planting; most plants are over the wire. The grower
used Coir yarn rather than paper since they have noticed a tendency of Mt.
Hood plants to fall away from the string and not climb as well as they should.
There is still some tendency of falling away, but most plants are fairly well
along in growth. I expect the yield in this field to be about a bale better
than the original Mt. Hood planting discussed earlier.
Mr. Goschie says that about three Oregon growers bought roots from him
this year and a total of about 50 acres of Mt. Hood are in the ground in
Oregon, mainly by growers who were interested to experiment on their own
before'they make a full-scale commitment. Goschie's Mt. Hoods have been sold
on a commercial basis for the next three years.
81
Distribution:
HRC members
OR. WA. ID Hop Com.
.G.Nickerson
U. Ganpert
Thursday, June 28, 1990
g studer
Impressions from a Field Trip to the Hop Growing Areas of
Northern Idaho, Sandpoint and Bonner's FerryAlfred Haunold, USDA ARS,
Corvallis, Oregon
I was invited by Don and Carl Weathers, Oregon hop growers,
to fly in their private plane to Bonner's Ferry to see the hop
growing areas of northern Idaho. The last time I saw hops in
this area was in 1978 when the U.S.
Brewers Association had a
meeting at Coeur d'Alene and subsequently we visited Bonner's
Ferry.
At that time there were 200 acres of hops in Bonner's
Ferry on a ranch owned by the S. S. Steiner Corporation.
The.Steiner Ranch has now been purchased by Anheuser-Busch
to grow hops that Anheuser-Busch has been importing from Europe
for many years.
At the time of purchase, the Steiner Ranch had
about 180 acres of Hallertauer mittelfriiher and a
few
experimental plots of European noble aroma hops.
Anheuser-Busch purchased an additional 2,000+ acres of land
in this valley to expand the hop-growing operations.
There are
now three ranches in this valley, one of about 1,200 acres,
another one of appoximately 600 acres, and the old Steiner Ranch
of 200 acres.
This land had previously been in either cereals
(wheat or barley) or in pasture.
It is excellent flat ground
with plenty of water, both from wells and from a nearby river.
The Steiner Ranch (200 acres) at the present time has no
hops. The trellis is still in place, but two years ago a severe
frost (wind chill factor to -65°F) killed out most of the hops.
A decision was made not to replant but to start the new hop
operations on the recently purchased land.
No decision has been
made whether to replant the Steiner Ranch, but preliminary plans
are to concentrate on the newly purchased land.
The first planting on the newly purchased land was made
about three years ago.
These hops are now mature, and the first
crop was obtained last year.
Hallertauer mittelfriiher
Planting of this variety came from the old Hallertauer
mittelfriiher stock from the Steiner Ranch. Hops at the time of
our visit were over or near the wire and appeared to be growing
vigorously. They were arming out, looked excellent, both in
growth and health.
There were no nutritional deficiencies.
Leaves had a dark green color, side arms were developing well.
There was some downy mildew on basal spikes. The manager, Mr.
Brad Studer, stated that downy mildew has been a continuous
problem, not only this spring but also in past years.
Ridomil,
ridomil plus copper, and cocide are employed to control the
disease. At the present time, a weekly spray of cocide is
82
applied to keep the disease in check.
Temperatures in this area
are relatively cool with occasional rain even this late in the
season, which favors continued development of this disease.
did not notice any major problems, and it appears that the
I
manager has the disease well under control.
I was surprised by the excellent development of Hallertauer
mittelfriiher in this area.
acre were obtained,
Last year, yields of 6-7 bales per
and there are all indications that this
year's yield will be at least as good.
This is a seedless area
which means that the cones will be relatively small, similar to
those from Germany (about 100 mg per cone).
If they would be
seeded or semi-seeded, the yield could be even higher. AnheuserBusch, however, wants hops that are very comparable to those that
they purchase from Europe,
and there are all indications that
they are able to obtain such hops from northern Idaho.
Tettnanger
This hop originated from the old Swiss Tettnanger (USDA
61021) which was originally brought to the Yakima Valley by Mr.
Charles Zimmerman*? former USDA plant physiologist.
It was then
heat-treated by Dr. Skotland at Prosser, Washington and is now
grown as commercial Tettnanger both in Oregon and Washington, and
now in northern Idaho.
The variety has a green stem color and is
somewhat different in quality from the German Tettnanger. The
alpha acids content from Oregon and Washington plots of the
commercial U.S. Tettnanger is about twice that of the beta acids
content.
The cohumulone content in previous analyses was
approximately 26%.
I asked Mr. Studer to send me a sample from
this year's crop so we can obtain an analysis of this hop grown
in northern Idaho.
Tettnanger, like Hallertauer, also showed excellent
development, even more vigorous growth than the Hallertauer
mittelfriiher.
Most plants were over the wire by two to three
feet, were arming out, and growing well.
Downy mildew is being
kept well under control, and there are no problems with growth or
production.
Yield in previous years has been in excess of six
bales, sometimes higher than seven bales, and there are all
indications that this crop will be similar. There are no signs
of bloom (like in Hallertauer) and, judging from the growth, both
Hallertauer and the adjacent Tattnanger will bloom in about two
weeks or about mid-July.
Flowering should be completed by about
late July and harvest traditionally starts at the end of August
or early September.
This is a relatively short interval between flowering and
harvest (approximately six weeks) which may also be responsible
for the relatively small cone size of these hops in that northern
location.
The climate in this valley seems to be relatively mild; in
addition to cereals (wheat, barley, both malting and feed barley,
83
some oats), there are fruit-growing operations (apricots,
peaches, apples, melons, etc.) close to this area.
The winters,
however, are severe, usually with snow cover.
If there is no
snow cover, like last year, then winter kill in hops can be
expected.
New Plantings
The established hops discussed in the previous paragraphs
are on about 400-500 acres.
The remainder (over 1,200 acres) is
newly planted, either last year or this year, and another 200
acres are yet to be planted.
Most of the plantings came from
virus-free (Prunus necrotic ringspot-free) stock which was
increased by vegetative cuttings at commercial operations in the
Yakima Valley.
Anheuser-Busch had to obtain an import permit to
bring hops into the three counties in northern Idaho since they
are under a quarantine by the State of Idaho.
This was obtained
in cooperation with the plant pathologist at Prosser (Dr.
Skotland) and the nursery inspectors from the State of Idaho.
The recent shipment (about 600,000 potted plants,
approximately 10-15 weeks old) were Saazer, Clone 72Y, virusfree, (USDA Accession Number 21535).
The plants came in threeinch pots; some were transplanted about three weeks ago and they
are now growing vigorously.
Shoots are about three feet long.
They will be trained on a single string and should reach a height
of about three to six feet by the end of the season.
We saw a Tettnanger planting which came from similarlytreated potted plants last year, but it was disappointing.
Plants had reached a height of about six to ten feet and
apparently stopped growing.
The internodes became shorter and
shorter, there was a fluffy tip, and the bottom leaves were
brownish-bronze in color.
This appears to be physiological,
perhaps related to the cool spring temperatures this area
experienced about one month ago.
A few plants, however, are
still growing vigorously and are arming out.
The manager stated that he experimented with various
management techniques in the spring.
There is no pruning as we
know it in Oregon,-but early spring growth is burned back with
paraquat (grammoxone) in the spring after shoots have reached
about two to three feet in length.
This also controls the early
weed growth.
New growth then comes back vigorously and plants
are trained about the second week of May.
This seems to be very
beneficial.
Areas that had been burned back showed excellent
growth, mush better than those that were not treated with
grammoxone.
Unfortunately, this was done on only about a few
acres on an experimental basis.
The adjacent unburned areas show
the previously-mentioned physiological symptoms, namely poor
growth and early termination of growth of the leading shoot.
Mr. Studer stated that he will employ this technique next year on
all hop operations.
84
Hops are not hilled up very much.
He sees no particular
benefit from hilling other than extra work.
I mentioned that
some hilling might be beneficial because it aids in development
of the crown.
He stated that he will do some, but will try to
get by with as little hilling as possible.
In Oregon we have
tried flat culture, but invariably yields have been depressed.
The stand on the newly-planted land (about 1,500 acres at
the present time) is excellent.
There are very few missing
hills, and if so they are immediately replanted with reserve
potted plants.
There are no male plants in this area since it is
totally seedless.
Verticillium wilt does not seem to be any
problem, and downy mildew is being kept in check very well.
Aliette is not approved for use in northern Idaho, and therefore
this is making the control of the disease somewhat more difficult
than in Oregon. However, I did not notice any problems at the
present time. Insect pests are also being kept under control.
There is no problem at the present time with aphids. Late in the
summer, when temperatures occasionally reach 90°F, there is some
buildup of spider mites, but this can be controlled quite easily.
Yard Construction and Management
Mr. Studer is the overall manager of this operation of
nearly 2,000 acres of hops.
The 200 acres of trellis on the old
Steiner Ranch are still in place, but at the present time brewing
barley is being grown there. There is one picking machine still
at the location, but it may be moved to the new operation, about
10 miles away.
Yards are generally on flat land that had previously been in
cereals or in pasture.
It is excellent ground with plenty of
subsoil moisture and a river nearby from which land can be
irrigated with sprinklers.
Mr. Studer said they have 16 miles of
three-inch hand lines which are used for irrigation.
Yard construction is very substantial.
Eight-inch anchor
posts, sometimes even larger, and six-inch center posts, with
heavy cables and substantial cross wires are capable of
supporting well in excess of 10 bales per acre. It is unlikely
such yields will be reached, but I see no problem at all with any
stability in these yards.
Yards are relatively large; it appears
that at least 100 or more acres are under a single trellis, but
with sturdy poles and anchoring this should not be any problem at
all.
Roadways are in excellent shape. They have been oiled to
keep the dust down. Recently, a biodegradable papermill waste
product has been used on the roads to keep the dust down. All
yards are on a rectangular shape and are easily accessible and
can be reached with any machinery very easily.
One yard (the
latest being developed and planted now) is about five miles north
of the main 1,200 acre yard, immediately adjacent to the Canadian
border.
It is also on level, excellent ground and has ample
85
water supply from the adjacent river.
There are apparently no
restrictions for irrigating with river water.
Labor Supply
Mr. Studer is the overall manager of this operation of
nearly 2,000 acres of hops.
In addition, Anheuser-Busch,
owns several thousand additional
slopes of the valley.
Inc.
acres of timber land on the
There are no plans at the present time to
expand this operation since land has become very scarce.
Adjoining farms are mainly in grain and the rotation seems to be
wheat, barley, wheat, barley.
Lower land with higher moisture
levels is generally in hay for livestock feeding.
Across the Canadian border, about 15 miles,
Labbatt brewery,
a large Canadian brewer.
is a large
In Canada beer cannot
be shipped from one province to the next, so all major Canadian
breweries tend to have a brewery in each province to sell their
beer.
We tasted their "Kootenay" brand at lunch; it was
excellent - less carbonation than most American beers, apparently
higher malt content, and a very pleasant, mild hoppy flavor.
In addition to Mr. Studer, each of the three ranches has one
manager and several foremen.
They have daily meetings and
discuss strategy, but otherwise they seem to have a free hand.
Most of the labor force (about 260 full-time) is of Mexican
origin.
They have worked in this area before, and there is a
return rate of about 80% from year to year.
Workers go back to
Mexico after the season but come again in the spring to work on
hops.
Many of them have become very skilled and they are very
reliable workers.
Laborers are paid $4.75/hour and they can work as many hours
as they want to, but are expected to put in a core time of work,
usually about eight to ten hours per day. Tractor drivers get
higher pay. There is no charge for housing.
Initially, plans
were to charge 25 cents per hour (substracted from the wages,
which at the time were $5.00 per hour).
This caused some
problems and questions in workers' minds, so this year they are
being paid a flat $4.75 an hour and housing is supplied free of
charge.
Anheuser-Busch constructed two labor camps,
one on each
farm, which are a model of migrant housing.
They looked more
like motels with one- or two-bedroom units, kitchen, bathroom,
and some furniture.
Each worker is assigned his living quarters.
Many have families, which has caused some problems in the
adjoining community because children are going to local schools.
However, this operation is paying substantial taxes which should
compensate for the additional burden.
Athletic fields,
playgrounds, and other recreational facilities have been
constructed for the workers.
The labor camp (i.e., motel) has
been inspected by the State of Idaho and OSHA, and they were full
of praise.
I inquired about the cost of the smaller camp which
86
is just now being finished (about 35 units), and Mr. Studer
indicated a cost of about $450,000.
Hop Picking, Drying, and Processing Facilities
At the main 1,200-acre ranch, there are approximately six
picking machines installed v/ith all additional facilities such as
drying kilns, storage rooms, machinery sheds, etc. On the newest
ranch near the Canadian border, two machines will be installed
which will also have additional modifications developed by Mr.
Paul Serres, an Oregon grower. Otherwise, the machines are
essentially Dauenhauer machines purchased from Mr. Dauenhauer,
Santa Rosa, CA. The layout is spacious, and kilns are well
separated from the picking machines as is the hop storage
facility (common storage). After harvest hops are being shipped
to Yakima for frozen storage.
At the present time it appears that this will be an
excellent hop-growing operation with full production in about one
to two years. I mentioned to Mr. Studer that European hops, and
particularly the Saazer hops which are being planted now, may
take from three to five years to reach full production. It is,
therefore, not surprising to see a somewhat dissappointing
appearance of baby hops (first year on the string
after planting) such as we saw earlier where hops
growing half way up the wire. With the change in
management (burn back with grammoxone, etc.), Mr.
or one year
had quit
spring
Studer hopes to
overcome this growth problem and have full production in one or
two years, He is somewhat concerned of an impending visit by Mr.
August Busch, III, CEO of Busch companies, who is planning to
come in one or two weeks.
There should be no problem.
I think
everyone associated with the operation has done an excellent job,
and I was amazed at the progress that had been made.
When I last visited this area in 1978, Hallertauer hops at
the Steiner Ranch were in full bloom in late July-early August,
and it appeared that the yield at that time was below
expectations (3-4 bales).
There have been years when hop yields
at this ranch were in excess of six bales, but from what I have
been told by people who visited the operation over the years,
this was perhaps the exception. From the way it appears under
the Studer management, this should not be an exception. Yields
in the neighborhood of six bales might be common if hops continue
to look as good as the established Hallertauer mittelfruh or
Tettnanger hops mentioned earlier.
The flight to and from Bonner's Ferry took about three
hours. Mr. Chris Weathers, an experienced pilot and the son of
Don, did an excellent job. We had very good flying weather,
occasionally somewhat bumpy but generally quiet and enjoyable for
a novice like myself who had never flown in a small plane. This
was a Beechcraft two-engine plane, and without the generous offer
of Don and Carl, I would not have been able to make this trip.
I, therefore, thank them very much for the opportunity to
accompany them on this trip.
I would also like to thank
Anheuser-Busch Co. and Mr. Brad Studer for their generous
hospitality and the opportunity to see their impressive hop
operations in northern Idaho.
87
Dr. Alfred Haunold, USDA-ARS
Corvallis, OR 97331
USDA-ARS Hop Research
October 12, 1990
Historical perspective:
The present USDA-ARS hop research project was started at Oregon State
University in 1931 primarily as a response to the recently introduced downy
mildew disease which threatened the U.S. hop industry.
Most hops at that time
were grown in Oregon and nearly all of them were Clusters, a variety extremely
susceptible to the new disease. The project was designed to serve the U.S.
hop industry which was concentrated in Oregon, California, and Washington.
Oregon had the largest acreage at that time. In the 1950s Idaho became a hop
producing state and California started a slow decline until 1989 when the last
hop yard in that state was removed.
One agronomist and one plant pathologist did most of the early hop
research. Emphasis was primarily on disease and insect control plus germplasm
and variety testing to find a replacement for Clusters. Eventually it was
recognized that Clusters were too susceptible to be grown in the moist climate
of the Willamette Valley and the Cluster acreage shifted to the Yakima Valley,
Washington in the 1950s.
Oregon's acreage dropped from nearly 30,000 acres to less than 5,000
acres but has since recovered to about 8,000 acres.
about 25,000 and Idaho about 3,000 acres.
Washington now grows
Together the three states produce
nearly 60 million pounds of hops annually with a farmgate value of approxim
ately 150 million dollars. The U.S. currently is the second largest hop
producer worldwide. From 50 to 70% of our annual production is exported every
year resulting in a very favorable trade balance for this commodity.
In the 1950s USDA hop research was expanded to include agronomic and
varietal evaluation, studies on genetic resistance to downy mildew, and
studies on hop quality. State scientists at Prosser, Washington, Corvallis,
Oregon, Davis, California, and Parma, Idaho, cooperated with the USDA hop
research effort.
A well balanced team of USDA scientists had been assembled at Oregon
State University by the mid-1960s, which included an agronomist (project
leader), geneticist, plant pathologist, plant physiologist, and a research
chemist. Due to budgetary constraints most positions except the geneticist
have now been eliminated. The cooperative research with Prosser, Washington,
primarily due to pressure by the Washington hop industry, was formalized into
a USDA cooperative agreement in the early 1980s which, however, included only
nominal oversight on part of the USDA. About 30% funding was provided for a
state chemist at Oregon State University from federal funds.
The USDA hop research project was scheduled for closeout in 1983 with a
three-year phase-down to accomplish a complete closeout in the fall of 1986.
The major reasons given at the time were that "USDA had done enough for the
U.S. hop industry" and "that the financially strong brewing and hop growing
industry should be able to carry the program on its own" and that it was "not
cost-effective to run small research programs that serve only a single com
modity. "
The phase-out was reversed through the intervention of political leaders
from Oregon and Washington with strong support from the brewing and hop
growing industry who felt that "once a research project is eliminated, the
efficiency and productivity of the industry which it serves will gradually
decline leading to the demise of the U.S. hop growing industry."
Present
status:
Fortunately for the U.S. hop industry the USDA hop research project at
Oregon State University which serves the now remaining three hop growing
states Oregon, Washington, and Idaho has continued to be productive. Nugget,
a new "Superalpha" hop was released in 1983. This cultivar alone now accounts
for over 12% of total U.S. hop production. Willamette, another USDA release
now is the second largest U.S. hop variety in terms of acreage and third
largest in terms of production. Cascade, released by USDA in the early 1970s
is one of the backbones of the Washington hop industry. Although these three
varieties were first selected and tested at Corvallis, they also grew well in
Washington.
Another USDA release, Mt. Hood (1989), is now grown on nearly 600 acres
in Oregon and Washington. It is valued worldwide for its similarity to
European noble aroma hops which are in short supply worldwide. Canadian,
Japanese, and South American breweries have expressed keen interest in this
new release.
Cooperative work with Prosser, Washington, resulted in the release of the
three cultivars Chinook, Olympic, and Centennial. Chinook appears to be the
most promising of the three. It is grown primarily in Washington with a 1989
production of over 2 million pounds.
Cooperative work with Idaho identified the two superalpha hops Galena and
Eroica which are now grown widely in the three hop producing states.
Summary of Accomplishments:
New or improved hop varieties:
Talisman - Cooperative work with Idaho, released in 1968.
Fuggle H - Reselection and virus cleanup of Fuggle, released in 1972.
Cascade - New hop cultivar released in 1972.
Comet - New high-alpha hop cultivar released in 1974.
Willamette - First commercially successful triploid hop released in 1976.
Columbia - Sister selection of Willamette, released in 1976.
89
3
Galena - Superalpha hop, cooperative work with Idaho, released in 1978.
Eroica - Superalpha hop, cooperative work with Idaho, released in 1982.
Nugget - Superalpha hop, released in 1983.
Olympic - Superalpha hop, cooperative work with Washington, released in 1983.
Chinook - High-alpha plus aroma hop, cooperative work with Washington,
released in 1985.
Mt. Hood - Noble aroma European-type hop, released in 1989.
Centennial - High-alpha hop, cooperative work with Washington, released in
1990.
In addition 31 germplasm lines have been released during the past 21
years. Many are valued for hop breeding. Triploid, nearly sterile males were
released to growers for use as yield stimulators to produce higher cone yields
without undesirable seeds.
The incumbent geneticist currently handles both the germplasm work
(curator, germplasm introduction and characterization), cytology, cyto
genetics, hop breeding and agronomy. A research assistant (M.S. level,
supported with industry funds) manages the day to day operations of two field
locations (15 acres and 3 acres, respectively) plus the field laboratory (100
x 50 ft building, fuel storage shed, chemical shed - all built with either
industry of USDA funds and owned by the hop project).
Major emphasis of the present research efforts is on germplasm develop
ment, polyploidy breeding and genetics, development of superior aroma and
high-resin cultivars, disease control, and chemistry of aroma and flavor
compounds.
Contributions by the USDA hop chemist included procedures to measure the
storage stability of hop resins (Hop Storage Index - a key quality parameter
now used worldwide), analysis of male lupulin glands and characterization of
alpha acid analogs in breeding material.
The loss of the USDA hop chemist position in 1982 following the retire
ment of the incumbent necessitated some rearrangement of priorities.
Basic
work for the time being has to be deferred to support the higher priority
germplasm and breeding work. Some industry funding allowed establishment of
cooperative work with Ag Chemistry (Oregon State University), primarily on
flavor research.
Major contributions in plant pathology include procedures for hop downy
mildew screening, adaptation of the ELISA technique for hop virus screening
and evaluation of Ridomil and Aliette for systemic hop downy mildew control.
The plant physiologist (transferred to Prosser in 1970) studied plant
hormones in relation to flowering and cone production, which resulted in
90
4
commercial use of Gibberellins by U.S. hop growers. He also made selected
crosses with germplasm supplied from Corvallis which resulted in the pre
viously mentioned cultivars Olympic, Chinook, and Centennial.
Future
trends:
Hops are now grown commercially in Washington, Oregon, and Idaho. The
1989 production was nearly 60 million pounds with a farmgate value of $150
million.
Over 60% of these hops were exported worldwide.
New hop cultivars
developed either by USDA alone or through cooperative research now account for
nearly 70% of total U.S. hop production.
There is no question that hops, a vital segment of the U.S. agricultural
industry, need continued support by an active research program.
Current work
on European aroma hops, which was started in 1983, will likely result in the
release of two or more new cultivars within the next two years. Foreign
brewers who have often discounted American^grown hop because of their per
ceived "inferior aroma properties" have now taken note of Mt. Hood, the first
American hop that resembles European noble aroma hops. This interest is
spreading quickly. Five foreign brewers (in Japan, the Netherlands, and
Canada) have now joined the Hop Research Council, an industry group composed
primarily of American hop growers, brewers and trades people, which actively
supports all phases of hop research in the three hop producing states.
The cooperative work with Prosser, Washington (funded under a USDA
cooperative agreement since 1980) could perhaps be strengthened in the future.
It would be desirable to more closely integrate the hop cultivar development
work at Prosser with the Corvallis program, which would free additional time
for Dr. Kenny's work on hop agronomy, quality, physiology, and long-range
basic studies (insect resistance, DNA markers, isozyme analysis, restriction
fragment polymorphism) which he has started recently with industry supplied
funds.
90 a
U.S.
DEPARTMENT OF AGRICULTURE
AGRICULTURAL RESEARCH SERVICE
WASHINGTON, DC 20250
and
OREGON AGRICULTURAL EXPERIMENT STATION
OREGON STATE UNIVERSITY
CORVALLIS, OR
NOTICE OF RELEASE OF AN
97331
EARLY-FLOWERING
TRIPLOID HOP POLLINATOR COMPOSITE FOR YIELD STIMULATION
The U.S. Department of Agriculture, Agricultural Research Service,
Washington, D.C. and the Oregon Agricultural Experiment Station, Oregon State
University, Corvallis, OR. announce the release of an early flowering triploid
hop pollinator composite.
The composite consists of ten different genotypes, USDA Accession Numbers
21539 to 21548, which originated from crosses made on tetraploid Hallertauer
mittelfriih (USDA 21397) in 1983 at Corvallis, Oregon. Seedling plants were
screened cytologically in 1984, increased by softwood cuttings and established
in 4-hill nursery plots near Corvallis, Oregon. After three years of prelimi
nary testing, selected genotypes were established in 2-hill observation plots
to assess their maturity and pollen shedding potential.
Since all ten genotypes originated from crosses on tetraploid Hallertauer
mittelfriih, they are phenotypically similar. All mature early to medium early
and normally reach their pollen shedding peak the second week of July. All
are vigorous climbers and, depending on spring temperatures, may reach the top
of the trellis (5.5 m) by late June or early July. All ten appear to be
resistant to hop downy mildew (incited by Pseudoperonospora humuli Miy. et
Tak., G.W. Wilson). Except for an early spring soil drench with Metalaxyl, a
systemic fungicide registered for downy mildew control in hops, no other
control measures were required to keep plants free of the disease during the
entire growing season.
Verticillium wilt (incited by various Verticillium species) has never
been observed in any of the ten pollinators despite the fact that the test
location is known to carry some natural Verticillium wilt infestation.
Recent tests involving the ELISA technique have shown that all 10
genotypes have remained free of ILAR viruses such as Prunus necrotic ringspot
(serotype NRSV-hop) and apple mosaic (ApMV), respectively, despite 6 years of
field evaluation near other hop plants infected with these viruses. Aphid
transmitted CARLA viruses such as hop mosaic (HMV), hop latent (HLV), and
American hop latent (AHLV) commonly found in commercial hop yards have
gradually invaded these hops during the past 6 years but failed to produce
visual symptoms.
All ten pollinators show vigorous spring regrowth after pruning. They
produce abundant, moderately coarse, erect shoots that are easy to train and
rapidly climb a supporting string to the top of the trellis (5.5 m). They
90 b
differ somewhat in sidearm length and time of maximum pollen shedding, but all
produce abundant quantities of pollen over a two-week period, coinciding with
maximum receptiveness of early flowering commercial hop cultivars such as
Fuggle, Tettnanger and Perle in western Oregon. All ten genotypes produce
mostly medium-size 3-5 lobed dark green leaves with moderately deep lobing,
pronounced ridges, and sharp serration along the edges. The main stem is
green with a reddish hue, primarily at the point of sidearm branching and
occasionally has red stripes along the stem ridges. Sidearms vary in length
from 12 to 36 inches (30-92 cm) and have well developed secondary and tertiary
branches with abundant flowers.
Although brewing quality factors are not important for these pollinators,
analysis of isolated lupulin glands showed them to be similar among each
other.
All have a good balance of alpha and beta acids (alpha ratio between
45-60) and low cohumulone content.
The ten pollinators thus far have only been tested in Oregon, the only
one of the three hop producing states in the United States where male hops are
permitted for yield stimulation. Stimulated female flowers develop into cones
up to 20% larger than non-stimulated cones and thus produce higher yields.
Such cones rarely contain seeds but phenotypically look like seeded cones.
Since these pollinators are phenotypically similar, they are likely to be
used as a composite. They will be kept separate by USDA Accession numbers to
permit slight variations of the composite mixture for distribution to growers,
depending on continued performance of individual components.
The U.S. Department of Agriculture, ARS, in cooperation with the Oregon
Agricultural Experiment Station and the USDA Pacific Northwest Clonal Germ
plasm Repository near Corvallis, Oregon will maintain planting stock of the
ten pollinators. Small amounts of rhizomes will be supplied to research
institutions and interested growers upon request.
r%BC. Didtsbr^Di^ertof
£/
f
Date
Oregon Agricultural Experiment Station
Pf?/ •? p yyo
/•R.D. Plowman, Administrator
|Agricultural Research Service
Date
91
Oct. 25, 1990
Mo^
Chemistry/Bioanalytical
Ser- v x cots
ftQriculturEal
C h e m i s t r y D e p a r t jnent
O r - e q <r> n
3 fc e» -fc e
University
Cor-vol 1 ± s ,
Oregon 97331-65©Z
HOP
©AS-LIQUID
OIL
COMPOSITION
CHROMATOGRAPHIC
CONDITIONS
Equipment:
Heulett-Packard Model 5890 Gas Chromatograph equipped with split/splitless
capillary inlet and flame ionization detector (FID). Inlet insert packed with
80-100 mesh Chromosorb U (acid-uashed). Inlet temperature 230"C, detector
temperature 250*C.
Heulett-Packard Model 7G72ft Automatic sampler uith Precision Sampling syringes
uith 0.0ZB" 00 needles and 10 microliter total capacity. ftutosampler is
connected to HP 19405ft sample event control module (S/ECM is connected to HP-IL
loop).
Hewlett-Packard Model 3393ft Integrator controlling the GC and autosampler via
HP-IL loop. HP model 8Z169A HP-IL/HP-IB interface connects integrator and HP
ZZZ5fl ThinkJet printer and HP 91ZZ 3.5" dual disc drives. Solvent peak ignored
by starting integration at 6.5 min, attenuation Z"3, area reject 100, threshold
1, peak width 0.04 to 0.1Z at 65 min. Minimum area detected approximately
0.005%.
Colunn: Supelcowax 10 fused silica capillary column, 60m, 0.25mm ID, 0.25 micro
meter film thickness.
(Supelco Catalog #2-4081)
Carrier Gas: Helium (50 psi tank pressure) 170 kPa column head pressure, 0.7
mL/min through column (measured at 80"C>, 1:100 split ratio. Septum purge 1.5
mL / m i n.
Makeup Gas: Nitrogen (about 30 mL/min)
Temperature Program:
Isothermal
at
80"C for 5 min
80'C to 1G0*C at S'C/min
1G0*C to 240'C at 4*C/min
Isothermal at 240*C for 1A min
Total Run Time: 65 min
Sample: 2 microliters of a 10% solution of hop oil in pentane with tetradecane
added as an internal standard (0.025 mL/250g hops or 0,52 of oil).
October
1930
k
U
_i_JW
l
J
10
^jJjL^. JiU^AJ.
^uuJ
"5.
c
C
O
t »v
II
I
c
W
L
o
jJWtaJ
0
r/r*\ f Vt/vi A «
15
Ill^/O
MJibt
1
J
E
0
t
V
c
N ( ^1
20
l\A U/. at
25
30
Retention Time
35
(min)
-Jji^Umi^ Iu
A*
o
JUJ^XuJlLujJJIL
a
§
$-
§
$
40
V
w
"^1989
x
t4
1990
Mt
Hood
Mt
45
50
LULjl_
55
Hood
Chyte-\z&k Nov/. l<i<sq)
Washington
(Note: Two diff. columns
were used in these analyses)
Washington
-1-
93
*P,gricultural Chenistry Oepart«ent**0regon State Uniuer5ity**figricultural Research Service**!! S Dept figriculture**Corvallis, Oregon*
4>
Accession
or Nurser
1990 Sale and 5-Cone Analyses at 8J Moist jre Content(Bale)
„1>i| kcc/£c£>Plo. Harvest Yield Alpha Blpha Beta
lb/Ac Lb/ac
V
as o;
Houenber 7, 1991
Oil
Blpha
6 Ho
tlyr
Hun
Serial
H/F U)
«>
Nunber
ft/
HSI Regain 100q H/C
Identification
Ivoe Location
19001
Brewers Sold
Bale 001:01-01 09/07/90 1600
138
8.6
3.7
70
39 0.34
19027
Fu x Fu-S
9
1.3
2.9
3D
39 0.33 0.69 51
19028
EGr x F.C-S
Bale 033:19-50 09/07/90 725
Bale 031:19-50 09/07/90 1792
39
2.2
5.5
23
14 0.32 0.98
38
0.51 2.11 21.85 81.01 2.11
527
19105
LGp-S(Fu Fu-S) Bale 001:19-50 09/10/90 1088
16
1.5
6.1
19
37 0,32 1.73
14
0.68 2.00 216.60 78.61 1.33
599
79
Nunber
Date
ir As '.s Basis(5-Cone)
A
I
Ratio
Cof-
HSI
1.04
19110
Belg 31-S OP
Bale 002:19-50 08/21/90 1021
51
5.3
5,0
52
55 0.29 0.15
19120
Sunshine-S
Cone 003:19-50 09/06/90 800
38
1.7
1.1
77
25 0.30
1913?
37
0.55 62
1.82 1.75 135.24 79.14 1.60
450
2.87 39.16 21.00
522
0.18 3.01
0.00
0.00 0.00 0.00
123
0.00 0.00
0.00 0.00 0.00
272
0.10
Sunshine-5
Cone 001:19-50 09/06/90 800
32
1.0
1.9
68
25 0.47 0,54
64
0.00 0.00
0.00
0.00
0.00
271
19151
Fu-RedO-OP
Cone 005:19-50 09/06/90 2000
37
1.8
3.5
35
52 0.30 0.85 41
0.00 0,00
0.00
0.00 0.00
277
19185
LGpFuRedHP
Cone 006:19-50 09/06/90 1800
53
3.0
1.6
65
40 0.28 0.61
21001
Fu R-2
Bale 031:19-50 08/28/90 277
15
5.1
3.8
59
39 0.30
21003
FuH
Bale 102:01-02 08/21/90 896
35
3.9
1.8
69
23 0.37 0.51
57
0.00 0.00
0.00
0.00 0.00
282
0.41 88
0.96 2.02
2.61 52.97 13.97
132
0.53 2.58
7.90 19.97 23.35
11
75
0.81 2.66
7.31 13.75 23.66
39
75
0.89 2.82
6.59 55.70 19.73
56
0.61 55
0.00 0.00
0.00
0.00
0.00
0.59
0.00
0.00
0.00
0.00
111
0.75 0.00
0.00
0.00
0.00
768
21003
FuH
Bale 103:01-02 08/21/90 768
33
1.3
2.1
6B
25 0.32
21003
Full
Bale 101:01-02 08/21/90 1258
51
1.3
2.1
67
25 0.34 0.51
0.66 61
21003
Full
Cone 212:01-05 09/07/90 200
8
3.8
2.0
66
28 0.32
21007
6735-005
Bale 011;19-50 08/21/90 891
33
3.7
2.3
61
34 0.33 0.15 87
21011
L-16
Bale 005:01-01 09/H/90 1150
93
6.1
1.5
59
47 0.29
0.39
81
21011
Hallertau tIF
Bale 007:01-01 08/20/90 261
13
5.0
1.1
55
13 0.26
0.18 75
21015
Bale 008:01-01 08/20/90
10
5.8
4.0
59
30 0.26
0.00
21016
Tettnanger
Fu H, UF
Bale 009:01-01 08/20/90 1152
60
5.2
2.2
70
27 0.30
21023
6532-011
Cone 029:51-52 09/07/90 600
71 12.4
4.7
73
31 0.2?
171
0.75 3.58 163,05 50.08 27.32
33
26
0.36
3.13
2.00 15.10 15.38
0.10 81
0.98
2.71
6.78 56.1? 19,21
0.51 63
0.00 0.00
0.00
0.00 0.00
0.00 0,00
0
380
32
352
731
21039
Golden Star
Cone 015:01-01 09/17/90 2200
91
1.3
3.5
55
51 0.24 0.60
58
0.00 0.00
0.00
21010
Columbia
Bale 023:05-08 09/17/90 71?
52
7.0
1.1
63
12 0.28 0.69
56
1.98 2.09
1.60 67.29 10.31
828
21011
Uillanette
Bale 021;05-08 09/17/90 1237
75
6.1
3.7
62
37 0.30
0.73 57
1.91 2.70
1.08 60.12 15.37
819
21011
Uillanette
Bale 227:01-05 09/07/90 689
10
5.8
3,8
61
35 0.30
0.11 85
0.56 3.06
4.69 79.53 6.29
160
21012
6769-002
Cone 108:13-1109/11/90 2000
51
2.7
1.7
61
11 0,29
0.60 58
0.00 0.00
0.00 0.00 0.00
507
21013
Bale 018:05-08 08/29/90 608
16
7.6
4.2
65
21 0.30
0,12
31
1.14 3.15 27.60 66.28 11.73
178
Bale 019:05-03 08/20/90 155
37
8.1
1.3
65
23 0.27 0,53 69
1.50 2.26 52.15 67.65 14.26
31
800
31
1.2
1.B
70
2? 0.34
0.11
0.16
2.76
7.73 55.56 19.78
35
Bale 211:01-05 08/28/90 1056
13
4.1
2.3
64
31 0.32
0.87 14
1.34 2.37
4.95 60.10 16.62
135
Bale 001:09-12 08/30/90 1536
166 10.8
1.3
72
21 0.27
1.02
32
2.62 2.14
.78 67.19 7.32
329
Bale 001:09-12 08/30/90 919
103 10.8
3.8
74
24 0.26
1.29
20
2.17 0.00
0.00 0.00 0.00
321
Sale 002:09-12 08/31/90 311
36 10.6
3.6
74
38 0.29
0.72
53
1.13 0.00
0.00
0.00
0.00
221
21053
Uye Challenger
tlye Horthdcwn
Styrian, Yugo
Styrian, Yugo
Anil, Yugo
Apolon, Yugo
Atlas, Yugo
fiurora, Yugo
Bale 003:09-12 08/30/90 805
83 10.3
3,6
74
21
0.29 0.55 70
0.95 2.94
3.52 70.41
9.73
318
21051
5806-067
Cone 013:17-18 09/05/90 800
80 10.0
3.7
73
33 0.29 0,70 51
0.00
0.00
0.00 0.00 0.00
259
2!055
6806-080
Bale 033:05-08 08/29/90 1015
15.3
4.3
73
18 0.32
2.05
1.33
1.51 62.78
164
21055
6806-080
Bale 011:17-13 08/23/90 381
53 13.9
3.8
78
45 0.31 0.14 89
1.51 0.00
0.00
0.00 0.00
87
21056
310 11.1
5.0
69
40 0.26
0,60
0.00 0.00 0.00
163
21056
Bullion, 10R.UF Bale 013:09-12 08/29/90 3061
Bullion, iOA,UF Bale 206:01-05 09/06/90 2006
198
9.9
4.9
67
37 0.30
1.10
28
2.35 0.00
0.00
175
21057
PrRinguood Sel Cone 036:19-50 09/06/90 2000
81
1.0
3.0
57
39 0.26
0.35
84
0.00
0.00 0.00
21062
6512-021
Bale 013:51-52 08/21/90 853
39
4.6
2.1
69
51
0.33
0.77
51
1,04 0.00
21073
Record, Belg
Blue N.B., Belg
Backa, Y'ugo
Dunau, Yugo
Bale 021:09-12 08/30/90 1072
21011
21019
21019
21050
21051
21052
21079
21080
21081
Bale 020:05-08 08/20/90
160
0.00
0.00 fl.OO
0.00
293
0.00 0.00 0.00
116
1.99 2.66 324.65 63.48 15.58
331
0,00
6.9
6.3
52
27 0.2?
0.68
56
1
4.2
1.7
72
21 0.35
0.00
0
0.61 0.00
0,00 0.00 0.00
Cone 008:09-12 09/17/90 100
15
3.8
4.1
48
25 0.22 0.46 71
0.00 0.00
0.00 0.00
67
Bale 005:09-12 08/31/90 960
Bale 006:09-12 08/30/90 782
Bale 007:09-12 08/30/90 127
11
0,00
724
227
6.9
3.3
68
28 0.33
0.43 90
0.74 3.16 20.82 71.03 9.61
102 13.0
4.6
74
40 0.31
0.54 49
0.90 0.00
0.00 0.00 0.00
321
8.2
3.1
73
29 0.27 0.3?
0,53 0,00
0.00 0.00 0.00
436
4.8
3.1
60
22 0,25 0.52 65
0.00 0.00
0.00 0.00 0.00
248
3.7
3.9
49
22 0.25 0.63 52
0.00 0.00
0.03 0.00 0.00
251
5.5
3.7
60
24 0.24
0.66 54
0.00 0.00
0.00
0.00 0.00
256
7.6
5.7
57
38 0.21 0.81 12
1.79 2.51
2.39 70.81 ?.5f
327
29
Cone 039:19-50 09/05/90 600
22
21086
Cone 010:19-50 09/05/90 600
33
21092
Cascade OF
Bale 011:09-12 08/30/90 519
12
21085
26
6.41
74
Cone 037:19-50 09/05/90 600
21083
2108+
1.15
83
85
Bale 009:09-12 08/20/90
Neoplanta, Yugo
Uojuodina, Yugo
Yugo ID/12
Yugo UII/23
Yugo UIII/27
21082
0.16
8?
35
84
-2-
94
Agricultural Chenistry Oepartflent**0regon State liniuersj ty**figricultural Resear :h Service**0 S Oept Bgriculture**C orvalh s, Oregon*
1990 Bale cjnd 5-Cone Analyses at 82 Moisture Content(Bale) jr As .s Basi5(5-Cone) as of Novenber 7, 1991
Oil
Accession
Harvest
or Nurser ;
Hunter
Identification Type Location
Date.
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
I
I
6 no M
ei/
Ratio CoH HSI HSI Renai n lOOq H/C
90
M
tlyr
Hun
Serial
tt)
«)
Nunber
1.04 2.54 514.54 56.60 20.07
75
22 0.30
0.39
1.5
56
35 0.21
0.13
71
0.00
0.00
0 00 0.00
5.2
60
38 0.22 0.12 75
0.00
0.00
0 00 0.00 0,00
8.1
1.5
65
31
324
8.2
4.7
64
24 0.2?
1.20 23
1.47
Bale 101:11-12 08/22/90 2133
201
9,5
6.5
60
31
0.60
1.98 0.00
Bale 016:09-12 08/30/90 1701
194 11.4
4.3
70
35 0.27
0.74 19
1.99
16
3.5
4.0
17
21 0.31
0.16 ??
0.28 0.00
0 00 0.00
Bale 019:09-12 08/21/90 171
5
2.8
4.1
11
25 0.28 0.00
0
0.33 3.16
2 40 26.45 28,69
21115
Pocket Talisnan Bale 020:09-12 09/17/90 483
21
4.3
2.3
65
58 0.2?
55
0.86 1.35
21116
128 11.7
4.9
70
3? 0,26 0,98 34
21120
Brewers Sold UF Bale 015:09-12 08/30/90 1095
Bale 001:17-18 09/07/90 1216
7001-013
19
1,6
5.8
21
40 0.32
21120
7001-013
2
1.0
6,3
13
20
1?
8.4
2.9
Cone 009:19-50 09/06/90 1000
58
5.8
Cone 010:13-50 09/06/90 2000
15?
7.9
21097
Huller Bittere - Bale 030:05-08 09/17/90 853
72
21098
6913-068
Bale 112:03-04 03/21/90 3946
21099
6921-006
21112
21113
Uye larget
Lubelska, Pol
Bale 018:09-12 08/21/90 469
21114
Naduislanska
H. Brewer OF
Bale 012:03-12 08/20/90 203
21094
6903-112
21095
6903-259
21093
21121
7001-039
Cone 210:17-21 09/14/90 200
Cone 002:17-48 09/05/90 1600
12
0.7
2.3
0.26 0.69 53
0.29
0.68
66
0.88 2.05 49 43 79.31
0.00
2.32
20
281
231
823
1.26 33.62 53.70 8.10
38
0.00
61
1.97138 25 74.26 6.08
328
0,00
51
0 00 0.00
40 71 71.36
3.66
57
859
0 00 0.00
0.00
320
1.36 21
1.00 0.65 26 83 54.87
1.61
116
52 0.26
1.12
28
O.OO 0.00
0 00 0.00
0.00
693
63 0.31
1.39 18
0.00 0.00
0 00 0.00
0.00
242
0.00
239
351
2.7!
0.00
21122
7001-047
Cone 003:47-18 09/05/90 1600
29
1.3
2.5
12
49 0.30 0.69
51
0.00
0.00
0 00 0.00
21123
7001-051
Cone 001:17-18 09/07/90 1000
1
0.4
3.3
11
62 0.36
1.18
26
0.00 0.00
0 00 0.00
0.00
21125
7001-067
Cone 006:47-49 03/05/90 1800
8
0.4
1.5
22
42 0.32
0.62
56
0.00 0.00
0 00 0.00
0.00
218
21127
7001-081
Cone 008:47-48 09/05/90 1600
7
0.4
3.3
11
61 0.30
1.30
21
0.00 0.00
0 00 0.00
0.00
236
21128
7001-123
Cone 009:47-48 09/05/90 1200
1
0.4
1.2
23
51 0.46
1.22
24
0.00 0.00
0 00 0.00
0.00
231
21138
6701-054
Bale 016:19-50 09/10/90 896
15
1.?
1.9
4?
29 0.39
0.55
80
0.51
0.00
0 00 0.00
0.00
60?
21139
6701-138
Bale 024:49-50 09/07/90 1365
11
3.2
5.9
35
49 0.26
0.4?
68
0.37 0.63
7 42 60.10 1.98
519
21143
6023-001
Bale 050:51-52 08/21/90 640
21
3.8
1.7
69
23 0.31
0.53 82
0.96 0.00
0 00 0.00
0.00
119
21144
6185-001
Bale 051:51-52 09/10/90
0
4.7
6.4
12
39 0.28
0.33
39
1.91
0.00
0 00 0.00
0.00
531
21115
6305-001
Cone 052:51-52 09/07/90 311
12
3.5
3.7
18
3? 0.31
0.4?
70
0.00
0.00
0 00 0.00
0.00
358
21119
6616-002
Cone 018:51-52 03/07/90 1800
178
9.9
7.7
56
49 0.27
1.06
31
0.00
0.00
0 00 0.00
0.00
363
21150
6616-010
Bale 019:51-52 08/21/90 1386
68
4.9
4.5
52
35 0.32
0.83
1?
1.11
O.OO
0 00 0.00
0.00
121
21151
6616-020
Cone 030:51-52 09/07/90 1800
117
6,5
5.4
55
10 0.2?
0.91
38
0 00 0.00
0.00
365
21156
6806-094
Bale 009:51-52 08/21/90 1365
83
6.1
2.1
72
3? 0.31 0.55 7?
0.51
0 00 0.00 0.00
111
21158
6806-039
Cone 049:19-50 09/05/90 1400
141 10.1
3.2
76
31 0.27
0.71 50
0.00
0,00
0 00 0.00
0.00
257
8.2
32
28 0.23
0.50
67
0.00
0,00
0 00 0.00
0.00
278
3.8
16
28 0.23
0,73
49
0.00 0.00
0 00 0.00
0.00
252
0.59 59
0.00
0.00
0 00 0.00
0.00
353
0.00
0.00
0 00 0.00
0.00
362
0
21159
6818-013
Cone 010:51-52 09/06/90 1100
54
3.9
21160
6901-140
Cone 051:49-50 03/05/90 2000
64
3.2
21161
6903-226
Cone 039:51-52 09/07/90 1000
20
2.0
5.0
28
30 0.28
21162
6903-263
Cone 040:51-52 09/07/90 1800
?6
4.2
1.1
19
23 0.29 0.47
70
0.00
0.00
0 00
0.00
0.00
261
0.00
0 00 0.00
0.00
731
0 00 0.00 0.00
770
0.00 0.00
0.00
Cone 052:19-50 09/05/90 1800
96
5.1
7.?
11
33 0.26 0.15
6907-077
Cone 055:13-50 09/05/90 1800
91
5.2
8.3
39
11
21167
Hybrid 2, India Cone 011:01-01 09/17/90 600
lardif d Bourg Bale 024:01-04 09/14/90 896
53
8.8
5.4
62
37 0.23
0.12
36
1.0
4.6
17
20 0.29
0.78 48
21169
0 00 0.00
267
73
6907-058
21164
0.11
0.00
72
21)63
0.22
0.00 0,00
75
0.00
1.3? 0.00
3.82 111 05 4.69 10.15
166
0 00 0.00
0.00
772
0.54
3.75 315. 16 61.17 19.33
887
0.00
0.00
21170
Elsasser
Bale 025:01-01 08/29/90 373
16
1.2
5.8
12
23 0.2?
0.13
79
0.08
21173
Strisselspalte -Bale 031:01-04 09/14/90 352
16
4.4
2,7
62
28 0.35
0.76
52
1.14 0.00
21179.
Hersbrucker Eng Bale 006:01-01 09/17/90 100
Hersbrucker Eng Cone 006:01-01 09/17/30 100
10
2.6
4.9
31
30 0.31
0.56 62
21179
14
3.4
7.1
33
29 0.23
0.51
66
0 00 0.00 0.00
730
21180
7003-113
Bale 034:51-52 03/10/90 2709
228
8.4
6.1
58
32 0.26
0.85 12
1.71
1.59 523 77 57.09 15.71
562
5
1.9
4.5
51
54 0.25 0.66 53
0.00 0.00
0 00 0.00 0.00
346
202 11.3
7.2
61
42 0,28
0.39 85
0.97 0,00
0 00 0.00 0.00
174
0.38
2.20 238 25 61.42 7.62
144
21181
. 7003-213
Cone 035:51052 09/07/90 100
21182
Galena (13-16) Bale 008:05-08 03/29/90 1786
83
1.39
21182
Galena (43-16) Bale 239:01-05 08/28/90 2560
373 11.6
9.1
61
41 0.25
21183
Eroica (31-5)
Bale 013:05-08 09/14/30 1653
191 11.7
1.7
71
13 0.29 0,55 53
0.61 0.00
0 00 0.00 0.00
773
21185
Hersbrucker Ger Bale 004:01-04 09/17/90 2B0
2.8
5.0
35
24 0.28 0.80 45
0.38 3.61 65 17 41.76 29.52
888
21185
Hersbrucker Ger Cone 001:01-04 09/17/90 200
6
I
2,3
1.1
37
27 0.21 0.51 66
0.00 0.00
0 00 0.00 0.00
736
21186
Spalter
7
3.1
55
22 0.31 0.55 65
0.51 3,64
1 25 65.83
73
40 0.29 0.36 31
0.81
21187
Bale 022:01-04 03/20/90 192
Southern Brewer 8ale 028:01-01 08/29/90 1562
128
3.9
8.2
3.0
0.00
9.97
17
0 00 0.00 0.00
168
-3-
95
*Bgricultural Chenistry Departflent»*Oregon State l)niversity**Agricultural Research Service**U S Oept Agriculture**Corvallis, Oregon*
1990 Bale
and 5-Cone Analyses at 8X Moisture Content(Bale) 3r As Is Ba5is(5-Cone) as of Novenber 7, 1991
Oil
Accession
or Nurser y
Nunber
Harvest
Identificatio i Ivpe Location Date
6 Mo 7M
nil
Yield Alpha Alpha Beta Alpha
I
Lb/Ac Lb/ac I
Ratio Co) HSI HSI Retrain 100o H/C
1.9
3.4
53
33 0.25
Bale 036:01-04 08/29/90 1275
155 12.2
1.1
?1
26 0.28 0,40 82
21188
S.Af. HP2/55
Cone 029:01-04 09/17/90 1600
21193
Nugget
79
0.84 12
0.00
0.00
0.88 0.00
Hyr
Hun
Serial
H/F ii)
it)
Nunber
0.00 0.00
729
0.00 0.00 0.00
177
0.00
21193
Hugget
Bale 237;01-05 09/07/90 2201
316 14.4
5.3
73
31 0.26
0.52 67
1.37 2.28 127.69 59.01 14.56
418
21194
7006-311
Bale 032:51-52 03/21/90 610
71 11.5
5.5
68
25 0.28
0.65 56
1,63 0.00
0.00
0.00 0,00
109
133
21194
7006-311
Bale 233:01-05 08/28/90 1152
164 14.3
7.0
6?
30 0.25 1.14 24
1.80 0.00
0.00 0.00 0.00
21195
7006-408
Cone 036:51-52 09/07/90 1600
171 10.7
3.8
71
30 0.26 0.39 79
0.00 0.08
0.00
0.00 0.00
345
2)195
7006-108
Bale 210:28-32 09/13/90 538
53 10.9
6.1
64
34 0.30 0.43
0.84 0.00
0.00 0.00 0.08
858
21196
Bullion 6A
Bale 807:05-08 08/29/90 3152
312
9.9
1.3
67
43 0.29
1.05 32
2.33 0.00
0.00
169
2119?
Bale 032:05-08 08/20/90 1B0
13
1.0
1.8
63
25 0.36
0.43
83
0.59 0.00
0.00 0.00 0.00
21
Bale 232:28-32 08/29/90 631
32
5.1
2.6
66
26 0.31
0.56
68
0.96
3.03
1 25 65.19 13.08
157
2119?
lettnang? OF
lettnang? OF
lettnang? OF
Bale 235:28-32 08/23/30 135
21
4.7
2.7
61
28 0.35
0.6?
60
1.0)
2.97
1 55 62.21 14,35
161
2)193
7003-038
Cone 010:17-18 03/05/30 2000
166
8.3
5.3
59
36 0.21
0.16 71
0.00 0.00
0 00 0.00 0.00
213
21199
7001-003
Bale 212:17-21 08/31/30 1382
135
9.8
5.3
62
38 0.25 0.70 43
2.21 2.10 362 30 56.03 18.8?
211
60
34 0,30 0.15 81
1.11 0.00
2119?
21201
7005-070
Bale 016:17-18 08/23/90 1066
103 10.2
6.8
84
860
882
?1
0.20 0.00
0 00 0.00 0.00
392
11
25 0.32 0.15 80
0.11 0.16
62 11.76 3.48
877
876
101
6.5
6.8
19
31 0.26
0.13
Bale 017:17-18 09/18/90 1066
33
3.7
3.0
55
18 0.25
0.18 75
Bale 018:47-18 09/18/90 1301
38
3.0
8.2
26
32 0.25 0.51
Bale 013:17-18 09/18/30 1834
38
2.1
2.6
21213
21215
21207
21209
21209
21210
21211
96
0.00 0.00
Bale 208:28-32 09/13/30 1613
Yugo 20P14
Yugo 21P01
Yugo 21P07
Yugo 27P01
Yugo 32P02
Yugo 33P13
Yugo 33P!3
Yugo 33P4
Yugo 10P19
flronat, Yugo
21208
0 00 0.00 0.00
0 00 0.00 0.00
6803-107
21203
21205
0,00
0.38 0.00
21202
21204
0.00
77
1.07
0.00
0.00
Bale 051:17-48 09/18/90 1130
31
3.0
3.2
48
25 0.32 0.59 68
0.65 2.20 13 54 42.36 27.58
Bale 052:47-18 09/18/30 1280
61
5.0
3.3
68
22 0.25
0.14
69
0.16 0.00
0 00 0.00 0.00
872
Bale 053:47-48 03/18/90 512
14
2.7
1.3
59
13 0.31
0.53 75
0.33 0.00
0 00 0.00 0.00
893
Bale 105:01-02 08/21/90 1600
61
3.8
2.0
66
28 0.36
0.54
78
0.80 2.88
7 11 18.11 23.73
1?
Bale 054:47-48 09/18/90 459
10
2.1
2.6
45
25 0,32 0.53 70
0.20 0.00
0 00 0.00 0.00
890
Bale 055:17-18 09/18/90 2301
130
5.6
3.6
61
17 0.25
0.11 78
881
Bale 035:05-08 08/20/90 405
14
3.4
2.3
60
21 0.32 0.08
Norgard 1478, Y Bale 027:05-08 08/20/90 139
10
7.5
3.1
71
29 0.29
0.20 2.57
1 0121.63 20.52
0
0.35 8.00
0 00 0.00 0,00
27
0.40 84
0.80 0.00
0 00 0.00 0.00
29
1.31
165
21216
Groene Bel
Bale 028:05-08 08/29/90 885
52
5.9
3.6
62
26 0.28
0.67
0.00
0 00 0.00 0.00
2121?
Star, Belg
Bale 023:05-08 08/20/30 331
9
2,7
1.3
67
21 0.36
0.46 81
0.39 0.00
0 00 0.00 0,00
19
2)2)8
7005-143
Cone 045:47-48 03/05/30 2000 ' 62
3,1
0.9
78
41 0.25
0.43 71
0.00 0.08
0 00 0.00 0.00
258
21219
65003 OF
Cone 003:19-50 09/06/30 2100
269 12,0
7.9
61
34 0.21
0.81 12
0.00 0.00
0 00 0,00 0.00
285
826
55
21220
Eroica OF
Bale 031:05-03 08/17/30 1035
107 10,4
1.4
70
44 0.26
0.69 54
0.93 0.00
0 00 0.00 0.00
21220
Eroica vf
Bale 229:12-16 09/11/90 1168
19? 13.1
5.8
70
11 0.27
0.61
56
1.11 0.00
0 00 0.00 0.00
611
21222
8.2
5.1
62
19 0.27
0.92
36
1.94 0,30
6 83 65.18
855
21225
fkruila, Id 33-6 Bale 234:28-32 03/13/90 717
Olynpic
Bale 037:01-01 08/29/90 ?25
99 13.7
5.3
72
32 0.29 1.28 21
21226
Chinook
Bale 038:01-01 09/11/90 ?25
104 14.3
3.3
79
35 0.28
0.51
69
2.15 0.00
0.00
758
21226
Chinook
Bale 226:28-32 09/13/90 828
115 13.8
4.2
77
37 0.28 0.60
60
1.83 2.31 56 02 51.20 11.19
863
2122?
Perle
Bale 032:01-04 08/20/90 74?
72
9.6
3.3
75
28 0.27
0.16
86
1.18 2.82 113 33 40.49 31.00
18
21227
Perle
Bale 220:01-05 08/28/90 731
82 11.2
1.1
72
30 0.2?
0.13 76
1.18 3.12 609.83 55.33 21.31
113
59
.79
1.92 1.06 92 56 83.20 2.50
0 00 0,00
171
21228
Ha (IF? W
Bale 218:12-16 08/30/90 1224
56
4.6
2.6
64
27 0.32
0.78 52
1.33 2.94
4 58 61.12 15.19
323
21229
H. Bitter OF
Bale 031:09-12 09/17/90 1138
86
7.5
1,5
63
1? 0.26
0.13
0.63 2.51 57. 30 75.84 5.27
817
21232
Jap 69K-SH66
Jap 70K-SH6
Cone 035:47-48 09/05/90 1100
21233
Bale 034:47-48 08/23/90 836
93 10.3
1.1
71
39 0.23
0.52 71
1.23 2.55
1 59 70.70 7.17
84
9.8
6.2
61
11 0.30
0.83
43
0.00 0,00
0 00 0.00 0.80
263
13?
21240
Blisk, Yugo
Blisk, Yugo
Bobek, Yugo
Bobek, Yugo
Buket, Yugo
Buket, Yugo
21211
Pol Klon 12
Bale 036:47-18 08/23/90 183
7
3.7
1.7
Pol. Kiwi 18
Bale 037:17-18 08/23/90
1
1.1
2.5
21238
21238
21233
21233
21240
21212
73
Bale 022:05-08 08/29/90 2358
244 10,3
3.3
76
3? 0.32
1.25 23
1.54 0.00
0 00 0.00 0.00
173
Rale 231:01-05 08/28/90 18B6
210 12.?
1.0
76
31 0.26 1.13 25
2.11 2.33
66 64.83 7.61
137
Bale 017:09-12 08/21/90 1440
104
7.2
1.0
64
26 0.32
0.53 74
1.09 2.55
4 82 59.30 15.47
59
Cone 208:23-27 09/14/90 100
31
7.8
2.9
73
23 0.31
0.76 1?
0.00 0.00
0. 00 0.00 0.00
692
Bale 022:09-12 08/21/30 960
96 10.0
1.3
70
22 0.27 0.70 52
1.47 0.00
0 00 0.00 0.00
58
Cone 212:23-2? 09/14/90 300
29
6,3
61
23 0.31
0.85 11
0.00 0.00
0. 00 0.80 0.08
680
58
27 0.35
0.00
0
0.85 2.71
7. 55 50.00 23.39
101
63
23 0.29 0.00
0
0.12 2,96
1. 38 52.5112.96
102
96
9.8
-4-
96
»figricultural Chenistry Departnent**Oregon State University**AgriculturaI Research Service**!! S Dept Bgriculture**Corvallis, Oregon*
1990 Bale and 5-Cone Analyses at 8!! Moisture Content(Bale) or As Is Basis(5-Cone) as of Hovenber 7, 1991
Oil
Accession
Harvest
or Hurser V
Nunber Identification
Type Location
21243
Pol Klon 30
Bale 038:47-48 08/23/30
21216
73)1-032
21246
21217
Bate
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac 'J!
96
I
Ratio
6 Mo
CoH HSI
HSI
rfl*B
tlyr
Hun
Serial
H/F tt)
«)
Nunber
nL/
Renain 100cl1/C
6.5
2.2
75
26 0.34
0.53 71
0.33 0.00
0.00
0.00
0.00
Cone 023:17-48 03/05/30 1800
253 11.1
3.7
79
36 0.30
0.51
66
0.00 0.00
0.00
0.00
0.00
262
7311-032
Bale 241:28-32 03/14/90 1043
146 13.3
3.3
78
40 0,30
0.52
72
1.80
1.06 178.00 65.99
9.61
834
7311-068
Cone 024:47-48 03/05/90 1400
216 15,1
5.1
75
37 0.23 0.18
69
0.00
0.00
0.00
260
6
0.00
0.08
105
2121?
731!-068
Bale 215:17-21 08/31/90 1519
217 11.3
4.7
75
40 0.2?
83
1,03 0.00
0.00
0.00 O.flO
383
21218
73)1-095
Cone 027:47-18 03/05/30 1200
17? 11.8
3.3
82
38 0.23 0.45 72
0.00 0.00
0.00
0.00 0.00
254
21218
7311-095
Bale 218:17-21 08/31/30 870
158 18.1
6.9
72
35 0.25 0.50 69
21250
7311-152'
Bale 029:17-18 08/23/90 1322
139 10.5
2.5
81
24 0.31
0.13 89
210 12.6
0.10
2.35 0.00
0.00 0,00 0.00
207
0.92
0.00
0,00 0,00 0.00
104
1.36 172.38 60.22 13.83
313
3.7
77
23 0.29
0.17
88
2.10
9.1
2.7
77
38 0.27
0.11
76
0.00 8.00
0,00 fl.OO
0.00
283
Bale 225:12-16 09/11/90 123?
181 11.6
6.1
70
40 0.31 0.52 73
2.51
4.29 54.55 1.30
610
7312-036
Bale 040:17-18 08/23/90 1066
126 11.8
2.3
81
23 0.23 0.38 89
0.70 0.00
o.eo
o.oo
fl.OO
31
7312-041
Cone 041:47-48 09/05/90 800
129 16.2
5.8
71
37 0.28 0.13 75
0.00 0.00
0,00
0,00 0.00
255
21253
73t2-041
Bale 213:23-27 09/04/30 1023
135 13.2
21254
7312-083
Cone 214:23-27 09/14/30 1000
21255
21250
73)1-152
Bale 226:17-21 08/30/90 1664
21251
7312-003
Cone 028:49-50 09/06/90 1000
21251
7312-009
21252
21253
91
0.08
3.6
78
38 0.23 0.71
0.00
o.oo
o.eo
0.00
301
6.1
2,4
72
31
0.49 0.47 70
0,00 0.00
0.08
0.00
O.flO
683
218 13,8
0.00
5)
57
1.83
3,1
82
3? 0.30 0,42 75
0.00 0.00
0,00
0.00
268
9.5
3.3
75
39 0.30 0.17 70
0.00 0.00
o.oo o.eo 0.30
361
Bale 219:23-27 03/04/30 725
108 11.9
6.2
70
12 0.27 0.6?
2.49 1.37 130.35 69.16 6.26
336
7313-083
Bale 224:23-2? 03/05/90 2033
384 18.8
7.0
73
38 0.21 0.61 58
2.49
1.48 117.88 72.3? 4.72
433
21261
7003-075
Cone 055:51-52 03/07/90 600
62 10.1
6.?
61
20 0.26
0.50 66
0.00
0.00
0.00
0.00
367
21261
7003-075
Bale 230:12-16 09/11/90 1450
126
8.7
6.7
56
23 0.25 0.73 S3
1.54 1.36 93.31 43.13
8.21
615
21276
Bale 023:09-12 08/21/90 418
18
4,0
1.9
68
23 0.32
0.55 73
0.58 2.68
1.65 10.96 19.0?
42
Bale 024:09-12 08/21/90 181
9
5.0
1.3
80
25 0.34 0.42 90
0.43 0.00
0.00
0.00
55
Bale 025:09-12 08/30/90 59?
52
8.8
3.1
72
3) 0.2?
0.00
0.00
0.00 0.00
326
21275
Early Prolific
Early Pronise
Ceyworths Early
Keywcrths Mids
Bale 026:09-12 08/21/90 2133
159
7.1
3.0
71
45 0.30 0.56
69
0.48 0.00
0,00
0.00
fl.OO
52
21280
Pride of Kent
Bale 027:09-12 08/21/90 1280
112
8.8
5.3
60
39 0.29 1.08
31
2.48 0.00
fl.OO 0.00 0.00
48
7312-134
Cone 042:47-18 09/05/90 1800
21256
7312-032
Cone 054:51-52 03/07/90 400
21256
7312-032
21257
2127?
21278
38
56
0.44 78
1.21
0,00
0,00
21281
Sunshine
Bale 028:09-12 08/21/90 320
26
8.1
2.6
75
28 0.34
0.48
76
1.03 0.00
0.00
0.00
0,08
43
21282
Uye Saxon
Uye Hiking
Brawling
Bale 029:03-12 08/21/90 213
16
7.7
3,5
63
!?
fl.OO
0
0,47 0.00
O.OO 0.00
0.00
16
75
1.10 2.51
1.33 53.33 12.13
44
0.44 80
0,81 0.00
0.00
0.00
I67
21283
21284
0.27
Bale 030:03-12 08/21/90 311
24
7.2
3.4
68
22 0.28 0.50
Bale 030:01-01 08/29/90 277
11
5.0
1.3
72
27 0.31
28
21285
Id sel B0R ?04 Cone 002:51-52 09/06/90 1600
21287
21287
Banner, Id13-11 Bale 213:01-05 09/06/90 1766
Banner, W43-I1 Bale 241:06-10 09/10/90 1305
21289
7312-053
0.00
1.7
2.8
38
15 0.27 0.66 54
0.00
0.00
0.00 fl.OO fl.OO
273
201 11.4
6.0
66
35 0.26
1.92
2.13 311.52 76.26 7.1?
477
148 11.4
6.1
65
36 0.26 1.18 25
2,30 2.50 254.23 75.03 7.88
603
2.0
79
0.00 0.00
274
0.00 0.00
0.08 0.00
0.00 0.00 0.00
fl.OO 0.00
0.00
0.00
0.00
292
1.02 31
152
8.9
2.2
80
25 0.34 0.53 64
37 0.28 0.41 76
129
9,2
2.3
80
29 0.36
0.60 58
21230
7312-057
Cone 012:19-50 09/06/90 800
Cone 015:19-50 09/06/90 1700
21292
7312-081
Cone 020:19-50 09/06/90 1400
21293
7312-034
Cone 021:19-50 09/06/90 1400
184 13.2
3.3
80
26 0.31
0.44 73
0.00
8.00
0,00
0.00 fl.OO
283
21234
7312-106
Cone 022:19-50 89/06/90 2000
215 10.8
3.3
77
40 0.28
0.19
68
0.00
0.00
0.00
0.00
0.00
288
0.45
85
0.95
2.1
30
26 0.33
0.00
0.00
0.00
0.00
131
80
36 0.29 0.37 81
0.00 0.00
0.00
0.00 0.00
291
Cone 038:43-50 09/05/30 800
112 14.1
3.?
73
25 0,2? 0.48 77
0.00 fl.OO
0.00
0.00
Bale 031:17-18 08/23/90 1813
178
3.3
72
34 0.28
).38 0.00
0.00
0.00 0.00
88
7,83
428
Cone 032:49-50 03/06/30 1400
21298
7315-035
21368
Yugo
Yugo
Yugo
Yugo
21369
235
2.3
Bale 023:13-50 08/24/30 640
7312-128
21368
0.00
8.3
73)2-115
21369
7.6
160 11.1
21235
21236
88/150
88/150
88/187
88/187
61
53
3.8
0.87 11
fl.OO
243
4.4
73
37 0.25 1.20 21
0.48 2.26
Bale 032:17-18 03/07/38 781
57
8.1
4.1
65
35 0.28 0.72 50
0.98 0.00
0.00 0.00 0.00
111
Bale 202:01-05 03/06/90 1288
123
9.6
1.8
66
33 0.23 1.31 19
2.19 2.60
1.42 69.73 8.03
474
523
Bale 201:01-05 09/05/90 152?
183 12.0
.33 65.13
21370
Yugo 88/201
Bale 033:17-18 09/07/90 1150
151 10.6
3.8
71
31 0.29 1.19 23
2.20 0.00
0.00 8.00 0.00
21370
Yugo 88/201
Bale 201:01-05 09/06/90 1220
129 10.6
3.6
74
34 0.28 1.56 12
2.06 3.11
.84 70.32 6.53
472
21371
7003-066
Cone 011:17-18 09/05/90 2100
2.3
54
32 8.25 0.51 63
8.00 0.00
0.00
0.00 O.flO
235
0.00
81
3.4
21372
7006-061
Cone 020:47-18 09/05/90 1000
25
2.5
1.3
65
31
0.62 0.49 68
0,00 0.00
0.00
0.00
233
21373
7006-398
Cone 026:17-18 09/05/90 800
96 12.0
7.1
63
13 0.23 0.18 69
0.00 0.00
0.00 0.00 8.00
266
-5-
97
*Bgricultural Chenistry Departnent**Oregon State Oniversity**Agricultural Research Seruice**y SDept flgricult.ure**Corvallis, Oregon*
1990 Bale
and 5-Cone Analyses at 8!! Moisture Ccntent(Bale) v As Is Basis(S-Cone) as of Novenber 7,
Oil
Accession
Harvest
or Nurser )
Nunber
Identification Ivne Location
Date
Yield Alpha Blpha
Lb/flc Lb/ac
7504-113
Bale 224:12-16 09/11/30 1103
21386
6929-012
2138?
7013-003
21382
1991
I
146 10.4
Beta
V
h
Alpha
Ratio
6 Mo
m
Myr
nU
CoH HSI HSI Renain 100cL_H,'C
H/F tt)
M
Serial
tt)
Nunber
3.7
54
21 0.24 0.58
59
1.10 0.00
0.00
O.OO O.Ofl
613
0.00 0.00 0.00
508
Cone 102:03-0103/11/90)000
37
3.7
2.8
5?
31 0.33 0.85 11
0.00 0.00
Bale )04:03-04 03/21/90 1152
1?
1.4
5.2
22
36 0.33
0.84 58
0.83 O.Ofl
O.flO O.Ofl 0.00
3?
1.15
0.00
0.00
0.00 0.00
53
1,09
0,08
0.00 O.Ofl 0.00
45
0.00
0.00
50
21389
6715-019
Bale 106:05-06 08/21/90 1056
73
3.3
3.6
52
10 0.32
0.84 17
21390
6747-017
Bale 107:05-06 08/21/90 597
3)
5.1
1.0
56
10 0.30
0.89 12
21391
6751-022
Bale 108:05-06 08/21/90 836
34
3.8
1.3
17
12 0.33
0.79 50
1.20
21393
6751-121
Bale 111:05-06 08/22/30 1173
67
5.7
4.5
56
41
0.29
0.83 50
1.39 fl.OO
0.00 0.00 O.flO
71
21391
6751-136
Bale 112:05-06 08/22/90 1190
43
2.3
3.7
11
37 0.31
0.75 52
0.98 O.flO
0.00 O.Ofl fl.OO
63
21396
lolhurst Uye
Bale 032:09-12 08/21/90 228
2139?
Hallertau MF 14 Cone 109:01-02 09/11/90 200
0.00
O.Ofl
3
1.5
2.8
35
27 0.36 0.64 53
0.37
O.Ofl
0.00
O.flO 0.00
36
7
3.6
1.0
18
21 0.25
61
0.00
0.00
O.flO
O.flO
0.00
515
0.00 0.00
509
0.53
21397
Hallertau MF 14 Cone 1tfl:01
09/11/90 201)
7
3.7
3,3
49
24 0.26
0.64 55
0.00
0.00
0.00
2139?
Hallertau MF 14 Bale 110:02
08/21/90 200
11
5.3
1.1
55
33 0.28
0.92 36
1.06
0.00
0.00 0.00 0.00
13
21397
Hallertau MF 14 Cone 245=01-05 09/07/90 200
3
1.7
3.1
36
30 0.54 0.88 10
0.00
0.00
O.Ofl O.Ofl
O.flfl
378
21103
Sticklebract
Cone 002:01-01 09/17/90 2200
172
7.8
1.6
63
18 0.26 0.56 62
0.00
O.Ofl
fl.OO
0.00 0.00
733
21403
Sticklebract
Bale 229:01-05 09/11/90 2483
249 10.3
5.3
65
17 0.29
fl.55 67
1.21
2.39
2.24 76.37 4.11
813
21401
Green Bullet
Cone 003:01-04 09/17/90 1900
11!
5.8
2.3
66
15 0.21
0.45
72
0.00 0.00
0.00
0.00
o.eo
735
21104
Green Bullet
Cone 231:01-05 09/13/90 200
8
4.1
2.2
65
14 0.29
0.12
75
fl.OO 0.00
0.00
0.00 O.flO
623
21405
Cone 033:01-04 09/17/90 1800
9?
5.1
3.5
61
39 0.29
0.15
72
0.00
0.00
0.00
0.00
0.00
72?
Bale 240:01-05 09/14/90 1212
137 11.3
6.6
63
33 0.25
0.19
69
0,80
3.54130.12 76.88 6.38
815
Cone 026:01-04 09/17/90 2200
12?
3.1
65
23 0.27 0.53
61
0.00 fl.OO
0.00
O.Ofl fl.OO
722
847
21406
Superalpha
Superalpha
AlphaArona
AlphaArona
Bale 241:01-05 09/14/90 2193
218 10.0
1.1
71
3!
0.27
0.57
19
1.29
3.56
3.83 65.25 12.22
21107
Id 51-8A
Bale 245:06-10 09/10/90 2073
211 11.6
5.1
69
11 0.26
1.16
25
1.90
O.Ofl
0.00
O.flO 0.00
586
21408
U402-19
Cone 247:08-10 09/13/90 1600
179 11.2
5.9
65
56 0.26
1.16 27
0.00
0.00
0.00
0.00 O.flO
632
21109
7003-081
Cone 012:17-18 09/05/90 1180
125
8,3
7.9
53
27 0.23
0.00
0
21409
7003-081
Bale 233:12-16 09/11/90 1011
72
6.3
7.3
48
28 0.24
0.71
48
21405
21406
5.8
0.00 0,00 0.00
234
0.33
0.00
0.00
0.00 o.eo
614
511
0,00 O.flO
21412
7013-051
Cone 106:03-01 09/11/90 1000
33
3,3
3.)
51
2? 0.34
0.92
33
0.00
0.00
0.00
0,00 0.00
21142
7713-021
Cone 053:49-50 09/05/90 600
51
9.0
3.5
72
31 0.2?
0.61
55
0.00 0.00
O.flO
0.00
0.00
265
21113
7727-011
Cone 017:51-52 09/07/90 1400
82
5,9
2.7
68
23 0.31
0.56 61
O.flO 0.00
0.00
0.00 O.Ofl
317
26
3.6
1.6
41
34 0.30
0.81 48
0.89
2.06 161.83 64.41 12.73
115
156 11.1
2.9
80
23 0.30
0.86 41
0.00
0,00
0.00
O.flO 0,00
361
366
21444
7302-016M
Bale 043:19-50 08/24/90 725
21450
7301-107
Cone 023:51-52 03/07/90 1100
87 10.8
5.7
65
29 0.26
0.48
63
0.00 O.Ofl
0.00
fl.OO O.Ofl
12.2
1.1
75
40 0.30
0.54
73
1,31 O.flO
0.00
0.00 0.00
113
Bale 027:51-52 08/21/90 619
68 11.0
1.4
71
32 0.28
0.48
77
1.25 0.00
0.00
0.00
O.Ofl
1)2
7007-339
Bale 033:51-52 08/21/98 960
11? 12.2
5.?
68
10 0.29
0,68 54
2,48
0.00
0.00
O.Ofl
0.00
121
Mt Hood
Bale 017:62-66 09/12/90
7.4
17
Z5 0.27
0.35
31
0.68
0.00
0.00
0.00
0.00
794
1.7
43
26 0,21
0.91
38
0,00
0.00
0.00 0.00 0.00
690
3,5
33
28 0.24 1.10
23
0.00 0.00
O.Ofl fl.OO 0.00
703
3.6
51
2? 0.30
0.00
0.00 0.00 0.00
360
21451
7306-193
Cone 025:51-52 09/07/90 800
21152
7311-028
Bale 026:51-52 08/24/90 1813
21153
73)4-033
21151
21455
683
44
6.5
21155
Mt Hood
Cone 215:23-27 09/11/90 100
11
3.5
21156
8303-016
Cone 218:23-27 09/11/30 400
3
2.2
8303-11?
Cone 013:62-66 05/07/90 1000
38
3.B
21157
221
0.78 46
0.00
2145?
8383-117
Bale 220:23-2? 03/04/30 2)3
11
5.0
3.9
55
24 0.29
1.06
28
1.28
3.55 356.66 53.33 18.80
339
21459
8308-066
Cone 135:01-51 09/12/90 1000
38
3.8
2.8
58
26 0.28
0.54
63
0.00
fl.OO
0.00
538
682
0.00
0.00
21459
8308-066
Cone 207:23-32 03/14/90
300
7
2.3
3,3
41
29 0.38
0.73
43
0.00
0.00
O.Ofl
O.Ofl O.Ofl
21460
S Afr HP1/36
Cone 041:51-52 09/07/90 1600
89
5.6
1,3
57
25 0.27
0.37
8)
0.00
O.flO
0.00
0,00 0.00
356
21460
S fifr HP1/88
Sale 211:23-2? 09/12/90 1194
74
6.2
5.7
52
34 8,24 Q.45 6?
0.84 2.12 187.30 33.30 24.31
79?
21469
8301-011
Bale 229:23-27 09/12/90 731
31
1.2
6.5
39
26 0.25
0.71 50
1.17
36
26 0.3)
0.88 40
1.05 0.00
21170
21470
8301-018
Bale 002:62-66 09/10/90 1150
8301-018
Bale 238:23-2? 09/12/90 100?
39
28
2.7
2.7
4.9
6.3
31
29 0.27
0.87
38
1.11
2.77 277.03 58.21 20.22
801
0.00 fl.OO O.flO
595
2.13 267.67 17.61 25.13
792
21471
8301-062
Bale 003:62-66 09/10/90 994
73
7.3
5.3
58
23 0.26 0.72 49
1.37 2.41 299.27 31.91 31.12
589
21471
8301-062
Bale 211:23-27 09/05/90 152
28
6.2
6.)
50
24 0.22
0.68 46
0.62 0.00
0.00 0.00 0.00
117
21472
8302-004
Bale 004:62-67 08/24/90 1109
27
2.5
4.2
3?
28 0.30
0.78
21473
8303-001
Bale 005:62-66 09/10/90 120?
35
2.9
5.1
36
28 0.30 0.92 33
50
0.75 3.55 614.07 49,06 28.34
128
1.22 2.31216.38 57.53 19.31
59?
- 6-
98
•Agricultural Chenistry Oepartnent**0regon State University**Agricultural Research Service*»0 SDept flgriculture**Corvallis, Oregon*
1390 Bal e
and 5-Cone Analyses at 81 Moisture Content(Bale) or As Is Basis(5-Cone) as )f Novenber 7, 1991
Accession
on
or Nursery
' ,
Hunber
Harvest
Identification luge Location
flak
Yield Alpha Alpha Beta Alpha
LJ>/Jc
Lb/ac
I
I
21173
8303-001
Bale 005:62-66 09/10/90 1207
3fl
2.5
4.3
j
2)173
8303-00!
Bale 212:23-27 09/05/90 381
"j
9
2.5
21475
8303-047
Bale 007:62-66 09/10/30 845
39
•
30 0.23 1.24 23
25 0.26 1.12 18
4.6
4.7
50
2? 0.27 0.81 44
21176
3303-053
Bale 003:62-66 09/12/90 930
38
4.1
3.5
54
23 0.38 0.76 19
21478
8303-075
Bale 010:65-58 08/24/90 1103
28
2.5
4.1
38
26 0.32 0.6? 60
2H79
8303-084
Bale 011:62-66 09/12/90 785
38
4.8
1.1
54
21 0,27 1.00 31
21480
8303-09!
Bale 012:62-67 09/12/90 614
32
5.1
5.2
50
21 0.26 0.8? 40
I
>
.
1.4
37
36
I
i
nL/
Ratio CoH HSI HSI Renain JOflq H/C
'•
;
k
5 Mo %M
Ryr
Hun
Serial
M tt)
tt)
Nunber
1.13 3.24 12.11 55.Q5 21.43
0.08 0.00 fl.flfl fl.Ofl
0.00 0.00 0.00 0.00
O.Ofl 0.00 0.00 fl.OO
0.08 0.00 0.00 O.flO
8.08 fl.Ofl 0.00 0.00
3.47 183.73 60.12 18.37
674
804
21181
8303-116
Bale 013:62-66 09/12/90 751
33
5.1
3.5
60
23 0.31 0.83 43
1.6)
fl.OO
21482
8301-068
Sale 107:23-30 08/31/30 717
15
2.1
4.7
21181
8305-017
13
3,6
1.0
21181
8305-01?
21185
S.Af. RF5/51
Bale 0)6:62-66 09/12/90 367
Cone 204:23-27 09/14/90 30Q
Cone 019:17-18 03/05/90 1800
Bale 112:39-40 09/06/90 1713
Bale 216:06-10 09/17/90 123?
Bale 239:23-27 09/05/90 1928
Bale 210:23-27 09/17/90 563
30 0.29 1.25 23
26 0.2? 0.60 61
30 0.28 0.72 50
0.70
1.00
O.flfl
0.00
0.86
0.83
2.02
1.7?
0.77
2.01
2.20
0.00 O.Ofl fl.OO O.flO
fl.Ofl O.flO fl.flfl fl.OO
0,00 O.flO O.Ofl 0.00
0.00 0.00 0.00 0,00
O.Ofl O.flfl 0.00 0.00
2,11 128.16 63.76 7.32
0.00 0.00 fl.OO O.flfl
3.63 52.19 58.50 13.11
3.55 118.69 72.90 10.7!
2.30 390,78 63.14 16.02
O.flO fl.Ofl fl.flfl fl.flfl
21185
S.Af. RF5/51
21185
S.Af. RF5/51
21186
7507-103
21190
8303-03?
21490
8303-03?
2119!
8105-026
3
3.0
3.3
31
17
14
I65
9.1
1.0
63
13 0.21 0.17 70
153
8.3
4.1
133 10.8
5.5
68
66
20 0.28 0.87 42
23 0.28 0,79 16
228 11.8
6,9
54
6.3
5.9
63 33 0.25
31 30 0.21
39 21 0.25
53 23 0.25
52 26 0.2?
35
2
1.3
1.3
1?
13
3.4
7.5
Bale 229:28-32 09/13/90 1322
Bale 230:23-27 09/05/90 572
62
4.7
7.4
37
6.1
1.1
21492
8108-022
Bale 109:29-30 08/31/90 853
21492
8108-022
Bale 215:28-32 09/13/90
0.71
1.32
1.24
1.33
1.53
49
18
23
18
12
23 0.32 0.00
0
598
1.6!
1.33
1.36
0.51
1.18
1.80
fl.OO
0.00 0.00
0.79 0.00
0.00 O.flfl 0.00
416
588
?93
120
805
302
?98
685
230
481
867
435
825
857
115
303
901
21493
8108-896
Bale 110:29-30 08/22/90 13H-
120
3.9
1.5
86
22 0.28 0.63 60
1.29 fl.OO
fl.Ofl 0.00 0.00
6!
21493
8108-096
Bale 233:28-32 08/29/90 610
18
7.6
1,8
61
22 0.2? 0.80 13
1.58 3.52 15.66 62.77 15.57
162
2)494
7506-123
Sale 231:17-21 09/01/90 1024
66
6.4
6.3
21195
7506-131
Bale 236:17-21 09/04/30 981
93
9,1
6,2
5)
60
26 3.23 1.18 26
33 0.31 0.63 61
1.35 O.flfl
1.22 0,00
O.flO O.flO 0,00
0.00 0.00 0,00
310
4
4.4
5.7
44-
0.00 0.00 0,00
£94
6,8
6,6
51
29 (1.25 0.79 15
25 0.27 O.Ofl 0
0.00 fl.Ofl
3
1.04 3.79
.85 52.62 11.81
821
76
75
25 0.30 0.4D 74
26 0.30 0.48 78
112
80
76
1.10 2.58 326.41 33.16 24.15
2.38 2.68 258.75 60.)! 11.23
0.83 0.00 0.00 0.00 0.00
25 0.29 0,00
21496
Tettnanger A
2119?
lettnanger B
Cone 236:23-2? 09/14/90 100
Bale 237:23-27 09/17/90 11)
21198
Yeonan
Bale 034:01-04 08/28/90 180
52 10.8
3,5
21198
Yeonan
Bale 203:01-05 08/28/90 316
1) 12.9
1,3
21499
Zenith
Bale 035:01-01 08/20/90 373
34
3.1
2,3
21199
Zenith
Bale 209:01-05 08/28/90 It?
12 10.0
3.1
22 0.29 0.38 85
0
21500
7501-026
Bale 205:12-15 09/10/30 1817
133 10.9
6.4
21502
7501-11)
135
8.1
8.5
63
50
29 0.25 0.67 4?
33 0.27 0.81 43
21503
7501-13?
Bale 223:12-16 09/10/90 1601
Bale 234:12-16 09/11/90 1681
34
5.6
8,7
39
21505
8036-039
Bale 231:23-2? 09/12/90 1186
^
7.1
2.7
73
56
1.99 3.19 160.12 57.21 15.72
2.01 4.45 1.36 63.75 4.33
339
!3
24
156
585
32 0.24 0.91 33
2.19 fl.OO
1.16 2.32
0.00 fl.Ofl O.flO
3.20 73.23 6.15
669
31 0,29 0.71 52
1.19 1.33 135.88 78.62 5.11
673
678
590
21506
7507-062
7.6
54
3? 0,23 0.65 50
I.15
Centennial
Bale 235:23-27 09/12/90 731
Sale 216:28-32 09/11/90 452
9.0
21507
5? 12.6
4.2
75
29 0.29 1,3? 18
2.68 2.12 227.93 80.69 3.13
764
21509
8037-030
Bale 220:28-32 09/17/90 555
3?
4.4
60
38 0.28 0.64 58
1.33 fl.flfl
821
21511
7610-101
2.9
8)
29 0.28 fl.38 85
0.67 fl.OO
0.00 0.00 O.flO
92
7610-104
Bale 015:17-18 08/23/90 1173
Bale 238:28-32 09/13/90 589
150 12.8
2)5)1
73 12.4
5,3
70
35 0.32 0.48 79
1.62 0.00
0.00 fl.flfl 0.00
833
21512
7611-025
Bale 018:17-18 08/23/90 1021
61
6,2
1.1
82
fl.OO 0.00 0.00
85
7611-025
Bale 239:28-32 03/14/30 687
60
8.7
2.1
80
28 0.32 0.44 84
33 0.35 0,50 79
0.72 0.00
21512
1.01 0.00
0.00 0.00 0.00
?69
21513
7501-001
Bale 202:12-16 03/10/90 2261
270 12.0
21514
Hersbrucker-6
Bale 034:05-08 09/17/90 171
21511
Hersbrucker-6
21514
Hersbrucker-6
21515
Hersbrucker-8
08/31/90 242
09/06/90 1166
09/17/90 405
08/31/90 389
6.7
0.00
0.00 0.00 0.00
fl.OO 0.00 fl.OO
5.8
6?
32 0.25 0.63 56
0.7? 2.82
2.14 82.65 2.20
587
6
3.4
4.7
42
21
0.30 0.00
0.00 O.Ofl 0.00
822
50
12
22 0,28 0.58 65
19 0.23 0.76 51
223
18 0.25 0.80 16
19 0.24 0.62 55
0.83 O.Ofl 0.00 fl.OO 0.00
0.77 2.22 52.38 60.77 3.43
1.37 2.05 18,13 63.36 6.38
20 0.28 1.15 2?
21515
Hersbrucker-8
Bale 034:09-12
Bale 207:01-05
Bale 035:05-08
Bale 035:03-12
13
4.5
5.4
14
46
21515
Hersbrucker-8
Bale 216:01-05 09/06/90 1237
45
3.6
6.0
38
21516
Hersbrucker-9
1.3
5,5
44
Hersbrucker-9
Bale 036:05-08 09/14/90 321
Bale 217:06-10 09/17/90 74?
35
21516
10
5.3
6.7
11
3
3.6
3,7
12
3,6
4.3
17
1.2
5.3
0.28 0.65 62
1.14 O.Ofl
478
820
0.08 0.00 0.00
224
176
17 0.25 0.57 63
1.51 2.02 49.26 62.88 7.19
1.19 fl.OO fl.flO 0,00 fl.Ofl
849
19 0.25 0.78 15
0.79 2.57 16.53 18.11 9.45
8)6
-7-
99
*Agricultural Chenistry Bepartnent**Oregon State Dniver5ity**flgricuitural Research Servict**8 S Dept Agriculture**Corvallis, Oregon*
1990 Bale and 5-Cone Analyses at 32 Moisti jre Content(Bale) Dr As Is Basis(5-Cone) as o; Novenber 7, 1991
Accession
0ii_
Harvest
or Hurser y
Nunber
Identification Type Location
Date
21517
Hersb red sten
299
15
1.8
5.0
50
21
2151?
Hersb red sten Bale 218:06-10 09/17/90 1203
75
6.2
7.3
16
20 0.23 0.6? 53
21518
Hersb alpha
Hersb alpha
Ap?1/74-2a Yug o
Ap71/71-2a Yugo
Bale 038:05-08 03/14/90 331
16
4.7
5.1
48
16 0.25
21518
21519
21519
Bale 037:05-08 09/17/90
Yield Alpha Alpha Beta Alpha
6 Mo 7M
(U
Lb/fe Lb/ac I
I
Ratio CoH HSI HSI Renaln IflOo H/C
0.25
0.72
0.73
13
51
Serial
(I)
Nunber
830
846
850
0.00
0.00
Bale 219:06-10 09/11/90 853
60
7.0
5.2
58
22 0.25 0.70 51
1.51 2.21 66.1! 56.23 8.83
Bale 039:05-08 09/11/90 128
9
6.7
2.2
75
21 0.33 fl.flO
0
1.21
0.00
Bale 222:01-05 09/07/90 623
19
7.8
3.5
69
23 0.32 0.61 61
0.99
2.23
Ba 11/72-19(1 Yu Bale 039:09-12 09/17/90 213
12
5,5
4.0
58
34 0.32 fl.OO
fl
0.99 O.flfl
Ba 11/72-1SAY u Bale 228:01-05 09/07/90 960
31
3.6
3.2
53
36 0.35 0.78 51
0.31 0.53
21521
Saazer-36
Bale 208:06-10 09/07/90 200
8
4.1
3.8
52
24 0.33 0.00
21521
Saazer-36
Cone 208:06-10 09/07/90 200
11
5.3
1.6
54
22 0.31 fl.55 62
5aazer-38
Hun
tt)
1.12 2.32 59.89 66.95 6.95
0.37 0.00 fl.Ofl 0.00 O.flfl
O.flO
21520
21521/522 Saazer-36
Myr
0.00
1.38
21520
21522
M
Cone 221:06-10 09/07/90
0
0.07 3.25
368
0,00
814
.93 51.37 13.1?
151
0.00
O.flO
O.flO
818
.08 31,86 2.12
526
fl.BO
fl.OO
.97 57.25 10.3!
43!
0.00
0.00
0.00 0.00
0,0!)
0.00
0.00
O.flfl
Q.OO
332
0.00 fl.OO
0.00
7?1
200
8
4.8
3.3
51
23 0.30
0.57
61
0.00
Cone 209:06-10 09/07/9(1 100
5
5.2
1.7
52
31 0.31
0.51
63
O.flfl O.Ofl
369
21523
vf 21113
Bale 222:06-10 08/28/30
282
18
6.5
1.9
5?
21 0.29 0.77 15
1.07
3.54
1.03 53.37 11.75
140
21524
of 21111
Bale 223:06-10 08/28/90
69
3
5.Q
1,5
53
21 0.28
0.89 3.66
1.17 61.83 3.25
115
21534
14 Saazer
Cone 103:03-04 09/! 1/90 200
5
2.7
2,2
55
31
21536
7003-154
Bale 231:28-32 09/13/90 2256
215 10.9
8.9
55
15 0.21
0.00
0,29 0.31
0.63
0
44
0.00 O.Ofl
O.Ofl 0.00
0.00
512
56
1.98
5.16 55.60
.9?
865
0.2?
23 0.25 OJjJ^..0.00 0.00
~0.22 0.00
2153?
7006-370
Cone 025:47-16 09/05/30 1200
109
9.1
8.3
52
2)551
U An Hun 191
Bale 022:11-14 09/18/90 437
15
3.5
3.2
53
21552
U fin Hun 192
Bale 006:39-10 09/18/30 610
32
5.0
2.5
67
62 0.31 0.57 66
21554
U An Hun 191
Bale 023:41-11 09/18/90 216
6
2.5
2.1
5!
53 0.33 0.17 82'
0.00
0.00 0.00
26)
O.Ofl
0.00 0.00
874
0.19 0.00
0.00
0.00
O.flO
879
0.17 fl.flfl
0.00 0.00 0,00
883
0.1!
62 0.27 0.36 87-
21556
U An Hun 49?
Bale 024:41-11 09/18/90
701
16
2.3
1.7
58
61 0.36
O.Ofl
0.00
0.00 0,00
875
21557
U An Hun 198
Bale 009:39-10 09/18/90 610
21
3.7
2.1
61
59 0.31 0.38 89^" fl.11 fl.flfl
O.Ofl
0.00 0.00
871
21559
U An Hun 500 ""—Cone 025:41-11 09/17/90 230
2
0.9
2.2
28
53 0.39
O.Ofl
0.00 0.03
21562
U An Hun 501
Bale 012:39-10 09/18/30 853
12
1.4
1.1
50
64 0,38 0.7? 5252 0.63 O.flfl
0.51
0.13
76
74.
0.00
O.Ofl
775
0.20 0.06
3.33 50.23
.86
0.2!
0.00
0.00
fl.Ofl
3.00
834
fl.OO
0.00
fl.OO
0.00
889
831
21563
U An Hun 505
Bale 027:11-11 03/18/90 192
2
1.0
1.1
48
2)561
U An Hun 506
Bale 013:39-10 09/18/90 896
26
2.9
1,5
33
69 0.34 0.73 57-
0.31
2)565
U An Hun 507
Cone 014:39-10 09/17/90 100
1
0.7
1.6
29
6? 0.31 0.47 70
0.00 0.00
0.00
0.00
0.00
786
21566
U An Hun 509
Bale 028:11-11 09/18/90
300
12
4.0
1.1
43
66 0.29 0.00
0.12
0.00
0,00
0.00
903
21567
U An Hun 5)0
Cone G29:1H4 09/17/90
150
4
2,5
3.2
44
76 0.38 0.57 61-
0.00 0.00
O.flO
O.flfl
0.00
781
21568
UAn Hun 513
Bale 030:41-14 09/18/90 203
3
1.5
5.7
41
68 0.21 0.57 62-
0.16
O.Ofl
fl.flfl
fl.OO
8S6
0
0
0.00
0.00
21576
U An Hun 523
Cone 033:41-11 08/21/90 100
5
4.6
1.2
53
58 0.24 0.43 63'
O.flO O.flO
0.00
O.flO fl.OO
9
21578
U An Hun 525
Cone 021:39-40 08/21/91) 100
?
2.1
2.3
51
59 0.33 0.63 56-
O.flO 0.00
0.00
0.00
0.00
11
21573
U An Hun 526
Cone 031:41-11 08/21/90
100
4
1.4
4.0
52
58 0.27 0.68 52-
O.flO fl.OO
fl.OO
0.00 0.00
7
21581
U An Hun 528
Cone 035:11-14 08/21/50 100
3
3.2
2.8
53
77 0.23 0.62 57-
O.Ofl 0.00
O.Ofl 0.08 Q.OO
6
21583
U fin Hun 536
Cone 024:39-10 09/05/90
100
5
5.3
2.3
69
73
21586
U An Hun 511
Cone 025:39-40 09/05/90 100
5
5.2
5.3
13
67 0,26 0.6? 53
21590
U An Hun 515
Cone 011:11-11 08/21/90 100
1
1.0
1.7
36
66 0.28 0.56 61
fl.OO O.flO
0.00
0.00 0.00
12
21591
U An Hun 516
Cone 012:41-11-09/17/90 100
1
1.5
1.2
56
61
fl.OO
O.flO
0.00
0.00
778
0.30
0.92
0.31 0.3!
38
90-
0,00
0.00
0.00 0.00
0.00
O.Ofl
245
O.flO O.flO O.flfl
217
O.Ofl
0.00
21592
U An Hun 51?
Cone 043:41-41 09/05/90
100
5
5.2
4.4
51
64 (1.23 0.77 464-
O.Ofl fl.OO
0.00
0.00
0.00
238
21591
U An Hun 519
Cone 027:39-40 09/05/90 100
4
3.8
2.9
57
66 0.28 0.57 61*
O.OB 0,00
O.Ofl
0.00
O.flO
216
21591
U An Hun 519
Cone 027:39-10 09/17/90 100
5
5.4
3.9
58
57 0.27 0.63 56'
0.00 O.Ofl
0.00
O.flO fl.OO
7?6
21596
U An Hun 552
Bale 002:39-10 09/18/90 81!
15
1.9
2.3
15
3d 0,4!) 0.00
0.11
O.flO
0.00
0.00
O.flO
8?8
0
21599
U An Hun 555
Bale 003:39-18 09/18/90 1386
36
2.6
2.8
43
76 0.40 0.78 57'
0.16
fl.OO
O.flO fl.OO fl.OO
880
21600
U An Hun 555
Cone 001:39-10 09/17/90
0
0
1.7
1.4
55
75 0.37 0.53 59
O.flfl fl.OO
0.08 0.00 0.00
785
21602-
U An Hun 5?fl
Cone 030:39-10 09/05/90
100
5
4.7
4.6
50
6? 0.2? 0.78 45* 0.00 Q.OO
O.flO 0.00
0.00
244
21602
U An Hun 570
Cone 030:39-40 09/17/90 100
1
3.9
3.3
50
6? 0.28 0.60 58-
O.flfl fl.flfl
0.00 0.00 0.00
77?
Uye 571
Dye 572
Fuggle H
Fuggle H
Cone 005:47-48 09/05/90
0
0
5.2
5.6
53
50 0.25 0.65 55
fl.OO O.Ofl
0.00
O.flO 0.00
237
Con?. 007:17-18 09/05/90
0
232
^21686^
21607
18203
48209
0 12.5
7.5
62
65 0.23 0.38 81
0.00
0.00
O.Ofl
0.00
0.00
Bale 010:01-04 08/20/90 1067
52
4.9
2.1
70
25 0.32 0.42 82
0.90 fl.OO
0.00
O.Ofl
fl.OO
23
Bale 045:03-0? 08/21/90 178
2)
1.1
2.0
69
30 0.3!
0.81 2.60
7.35 12.81 27.2?
51
0.59 64
100
•Agricultural Chenistry Departnent**Oregon State University**flgricultural Research Service**U SDept Agriculture**Corvallis, flregorr*
1990 Bale and 5-Cone Analyses at 32 Moisture Content(Bale) jr As s Basi5(5-Cone) as ol
Novenber 7, 1991
Oil
Accession
Harvest
or Nurser V
nL/
6 Mo
Yield Alpha Alpha Beta Alpha
Retiai
t
Lb/Re Lb/ac 3!
CoH
HSI
HSI
n
100g H/C
Mia.
Myr
Hun
Serial
it)
if.)
Nunber
Identification
Type Location . Date
50024
EB 301-2
Cone 011 .49-50 09/06/90 1800
124
6.9
3.1
68
44 0.25
0.35
84
fl.OO
0.00
0.00
294
60010
SB 301-1
Bale 016 49-52 09/07/90 640
20
3,1
5.0
38
37 0.31 0.97
38
1.10
2.23 201.72 54.13 16.79
147
5flfl?5
8B 101-2
Cone 017.49-50 09/05/90 1000
63
6.3
4.3
59
42 0.26
0.71 50
O.flO 9.00
0 .00
O.flO O.flO
250
520)3
81-S 00 2)5-2
Cone. 050 19-50 09/05/90 16G0
81
5.1
1.1
55
35 0,21
Q.10 78
O.Ofl O.flfl
fl 09 0.00
fl.Ofl
253
54003
B8 504-2
Cone 031 .51-52 09/07/50 2008
104
5.2
2.7
66
63 0.27
0.77
46
0.00
fl.flO
0 .00
fl.OO
348
56001
Hallertauer
Bale 011 01-04 03/20/90
405
1?
1.3
1.0
52
20 0.30
0.55 68
0,69
0.00
0 oa fl.ofl fl.Ofl
56002
Sacka
Bale 012•01-01 08/23/90
608
20
3,2
4.3
10
25 0.31 0.55
70
0.4?
0.00
0 .00
57
1.56
Nunber
a '?
0 .00
fl.OO
fl.Ofl
fl.OO
28
O.flO
170
129
56008
OB 926
Bale 013 13-50 08/21/90 12e0
78
6.1
1.7
56
10 0.30
0.65
0.00
0 00 0.00
0.00
56012
73-S
Cone 014 43-50 09/06/90 2000
93
4.7
2,5
65
32 0.29
0.46 71
O.Ofl fl.flfl
0 00 O.flfl
0.00
279
56013
Cascade
Bale 013 01-04 08/29/90 1061
65
6.1
5.1
55
38 0.32
0,89 42
1.32
0 00 0.00
0.00
!72
58016
Utah 526-5
Bale 001 11-11 09/07/90
939
23
2.1
1.4
63
27 0.12
0.73 55
0.80
2.56
74 56 40.49 22.67
452
58016
Utah 526-5
Bale 013 19-50 09/07/90
10?
4
3.1
1.6
68
26 0.35
O.flfl
0
0.30
2.16
46 11 33.51 28.64
52Q
58112
08 835
Cone 018.49-50 09/06/90 1700
123
7,2
2.7
72
40 0.28
0.48
63
O.flO O.Ofl
0 00 0.00
O.flO
286
60015
Ariz 1-3
Bale 015 11-11 09/18/90 381
12
3,1
3.1
13
73 0.26
0.45 78
0.22 0.13
7 01 57.46 1.18
873
60016
NH 1-3
Cone 016 11-44 08/21/90 300
8
2.6
2.2
54
67 0.25
0.34
86
O.Ofl O.flfl
0 00 0.00 0.00
)
60020
KM 2-1
Cone 003 11-11 08/21/90
100
6
1.6
3.)
33
11 0.12
0.35
84
0.00
0 00
0,00
2
60020
Nil 2-1
Cone 025 19-50 09/06/90
800
21
2.7
4.2
33
50 0.3fl 0.53 64
O.flfl
0.00
fl Ofl
O.Ofl 0.00
236
60021
NM3-!
Cone 004 11-11 09/05/90 100
3
2.8
1.7
62
6? 0.31
0.56
fl.OO
fl.Ofl
O 00
0.00
O.Ofl
241
60021
Colo 1-2
COne 006 41-11 03/21/50
200
11
5.3
3.8
58
58 0.28
0.45 72
60021
Colo 1-2
Cone 027 19-50 09/06/90 100
21
5.9
1.3
58
57 0.26 0.56 61
60025
Colo 1-3
Cone 0!7 41 -44- 09/05/90
200
13
6.3
2.2
74
53 0.24 0.42
75
0.00
fl.OO
60027
Colo 2-2
Bale 008 11-11 09/07/90
565
7
1.3
2.6
33
65 0.37
0.82
13
0.16
1.15
23 92 30.11
1.88
524
60027
Colo 2-2
Bale 023 49-50 09/07/90
491
9
1.8
3.2
35
55 0.36
0.86
43
0.31
1.53
6 88 51.53
6.07
5)8
80029
Colo 3-1
Bale 010 11-11 09/18/90 100
1
3.8
3.0
55
65 Q.34 0.00
61
O.Ofl
fl.OO
0.00
0,00 fl.OO
fl 00 fl.OO
O.flfl
3
0.00
0 Ofl
0.00
fl.Ofl
287
0 Ofl
Q.flfl O.flfl
0.08
223
fl
0.60 1.14 106 27 76.29 2.31
902
53 48 23.70 10.21
534
0.00
8
60032
Colo 5-1
Bale 001 51-52 09/10/93
85
3
3.3
2.2
63
17 0.28
0.00
0
0.21
0.35
60032
Colo 5-1
Cone 011 11-41 08/21/90
600
11
2.1
1.7
58
17 0.23
0.38
80
fl.OO
O.Ofl
0 flfl
0.00
60033
Colo 6-1
Cone 0!9 41-11 08/21/90
200
4
1.3
2.5
42
68 0.28 fl.43 74
fl.OO
0.00
0 CO
0.00 0.00
4
60035
Colo 7-2
Bale 020 41-4109/18/90
200
10
1.9
6.9
12
50 0.28
1.56
2.60 115 3! 62.12 14.72
885
60035
Colo 7-2
Cone 020 41-14 08/21/90
200
6
3.1
5.0
38
13 0.23 0.31
86
fl.OO
0.00
0.00
10
60037
Bale 005 51-52 09/10/90 1)09
70
6.3
1.2
60
16 0.26
0.12
82
0.63
2.16 186 50 61.32 10.82
602
Bale 012 4)-11 09/07/90 1290
52
4.0
3.4
54
44 0.31
0.18
74
0.48 2.23 90 Ofl 53.08 15.84
453
2
2.1
3.3
39
58 0.31 fl.flfl
0
3.19
600
.58
529
0
0 00 0.00
60038
Uyo
ilyo
Uyo
Uyo
224
3
1.3
2.3
3?
56 0.33
0.83 52
0.44
0,11
0 00 81.35
60038
Uyo 3-1
Cone 013 11-11 08/21/90 224
1
1.6
3.0
35
60 0.32
0.53
59
O.flfl
0.00
fl flfl
fl.OO
0.00
5
6004Z
Shinshiwase
Cone 016 01-0103/17/90 2200
85
3.9
2.3
5?
57
0,26
0.59
53
O.Ofl
0.00
0 00
0,00
0.00
726
61008
Pol C2/65
Bale 03? 51-52 08/21/90
149
n
f
4.8
3.3
59
21 0.31
fl.Ofl
0
1.07
0.00
0 00
0.00 0.00
118
61011
Pol P/K1
Bale 038 51-52 08/24/90
213
9
4.1
3,1
5?
23 0.30 0.78 46
0.86 O.flO
0 00 0,00
0.00
125
6101?
U5SR HI 8
Bale 042 51-52 88/21/90 10?
1
3.6
3.2
53
21 0.32
0.00
0.72 0.00
0 00 O.Ofl 0.00
117
610)3
Bale 017 01-01 08/20/30 569
23
4.0
2.1
66
25 0.35
0.49 77
0,50
0.00
0 BO
0.00
O.Ofl
16
61020
Yugo Golding
Sav Golding
Bale 018 01-01 08/20/30 1035
11
4.0
1.3
68
27 0.37
0.43 89
0,30
O.flfl
fl 00 0.00
O.flO
22
61021
Tettnanger
Bale 019 01-04 08/20/90
•J
4.4
3.5
56
22 0.29
fl.OO
0.31
3.65
52013
Conet
Bale 020 01-01 09/11/90 1237
113 11.6
4.0
71
42 0.30
0.83 46
62052
Density
Cone 801 05-08 09/17/90 2000
37
4.4
2.2
67
4fl 0.26 fl.43 75
62053
Defender
Bale 002 05-08 08/24/90 169
17
3.7
1.2
?6
26 0.36
0.58 76
63008
H +8-8
Cone 01! 51-52 09/06/90 1400
74
5.3
5.6
49
41
0.94 3?
fl.OO fl.OO
6003?
60038
2-1
2-1
3-1
3-1
0.00
Bale 006 51-52 09/10/90
85
Bale 013 41-11 09/07/90
149
I
0.2?
0
0
0.14
0.52
90 34 22.64
1. 30 34.90 21.31
25
753
58 90 65.96
1.21
0.00 0,00
a 00 0.00
0.00
720
0.78 0.00
0 00 0.00
fl.OO
130
0 00 0.00
O.flfl
275
O.Ofl
276
1.57 0.19
63018
N17-35
Cone 012 51-52 09/06/90 1700
69
4.0
1.2
19
26 0.30
0.79 45
fl.flO 0.00
0 00 0.00
63019
H 17-10
Cone 013 51-52 09/06/90 1500
111
7.4
1.8
61
34 0.27 0.55 82
0.03 fl.flO
0 00 O.flO 0.00
269
63020
N 17-12
Cone 011 51-52 09/06/90 1600
105
6.5
3.3
63
33 0.29
O.Ofl 0.00
fl Ofl
O.Ofl 0,00
270
63021
N48-!
Cone 015 51-52 09/07/90 1400
35
2.5
3,7
18
74 0.29 B.62 5?
O.flfl 0.00
0 00 0.00
0.00
351
6302?
B6 x 180191
Cone 016 51-52 09/07/90 1600
88
5.5
6.1
18
19 0.21 0.71
fl.flO 0.00
0 00 fl.OO
0,00
349
0.83 43
50
101
•Agricultural Chenistry Departnent**Oregon State ljniversity**flgricultural Research Service**!! S Dept Agriculture**Corvallis, Oregon*
1390 Bale <ind 5-Cone Analyses at 81! Moisture Content(Bale) <)r As Is 8asis(5-Cone)
as of Novenber 7,
or Nurseri
Nunber
1991
Oil
Accession
Harvest
Identification Type Location Date
Myr
5 Mo m
nL/
Yield Alpha Blpha Beta Alpha
Ratio Cod HSI HSI Renain ICOq
Lb/Ac Lb/ac h
I
0 80 45
63032
BG x 58015M
Cone 035:49-50 09/06/90 1200
1Q6
8.9
4.3
68
62 0.26
61003
19105 x 19173M Cone 018:51-52 09/07/90 2000
28
1.1
3.8
2?
11 0.33 0 95 36
6480?
19105 x 19058M Cone 317:49-50 09/06/90 2200
91
4.!
8.1
34
31 0.24
6100?
)3105 x 13058M Bale 232:01-05 09/11/90 1108
27
1.9
6.9
22
29 0.26 (1 38 36
64003
Zattler 2L118flP Bale 013:51-52 08/24/90 610
36
5,6
3.5
62
25 0.27
64009
Zattler 7K4310P Cone 020:51-52 09/07/90 100
12
3.0
1.9
61
21
0 66 54
0 46 75
fl.36 0 52 65
Hun
Serial
Nunber
H/F
0.09 fl.OO
O.Ofl
0.00
0.08
290
o.eo
O.Ofl
0.00
0.00 fl.Ofl
35?
fl.OO
0.00
O.Ofl O.flfl 0.00
0.83 2,74 122.83 68.31
0.39
8.60
280
812
2.91 370.23 53.17 15.62
no
27.32 39.00 18.09
359
0.00 3.11
64010
Zattler 7K1910P Bale 021:51-52 09/10/90 311
14
4.0
4.1
50
25 0.23 0 51 75
1.02 3.16 117.75 51.58 23.05
606
64020
Backa x 19062M Bale 011:51-52 03/10/90 683
30
4.1
2.4
65
29 0.32 0 57 68
1.05 2.11 316.19 58.54 18.35
583
0,00 0.00 0.00
350
1.49 197.13 64.38 10.25
176
51026
BG x 19182M
Cone 015:51-52 03/07/50 1200
101
8.5
6.9
55
26 0.26
0 48 69
O.flO 0.00
61100
Bullion
Bale 003:05-08 08/29/90 2581
205
8.0
4.1
66
16 0.30
1 01 36
1.36
61106
Uye 22/56/2
Bale 046:51-52 08/24/93 107
8
7.3
4.3
6fl
23 0.31
0 00
fl
1.74 O.flO
O.flO 0,00 O.flfl
6110?
Northern Brewer- Bale 004:05-08 08/20/50 137
31
7.8
3.0
72
24 0.31
a 12 85
0.77 0.00
0.00
O.flfl 0.00
15
60
35 0.24 1 Ofl
34
O.Ofl 0.00
fl.OO 0.00 0.00
355
58
42 0.24 1 23 19
2.78 0.00
0.00
O.Ofl 0.00
130
833
65009
88x19058M
Cone 028:51-52 09/07/90 2000
226 11,3
7.5
65009
B6 x 19058M
Bale 228:23-27 09/05/90 1553
166 10.7
7.8
122
65101
lalisnan
Bale 005:05-08 09/14/90
757
48
5.3
2.6
67
54 0.31 0 66 61
0.5?
O.flO
0.00 0,00 0.00
65102
Cluster (Lt)
Bale 006:05-08 09/14/90 569
35
6.2
3.9
61
11 0.27
0 3? 81
0.61
0.00
O.Ofl 0.00 fl.OO
754
65104
Cluster (L8)
Bale 033:03-12 09/17/90 1024
58
5.6
4.2
5?
46 0.26
0 38 83
0.75
fl.OO
0.00 0.00 O.flfl
8?fl
66050
Alliance
Bale 012:05-08 08/20/30 1081
66
6.1
1.3
76
30 0.38
0 11 83
0.81
0.00
0.flfl O.flfl 0.00
30
66051
49
6.3
2.3
75
30 0.30 0 37 86
0.75 0.00
0.00
0.00 fl.Ofl
34
66052
Bale 003:05-08 08/20/90 715
Progress
Pride Ringwood Bale 010:05-08 03/11/30 1083
91
8.1
6.2
5?
34 0.28
1.52 O.Ofl
0.00
fl.flO 0.00
771
732
0 62 56
66051
Calicross
Cone 011:05-08 03/17/30 2200
161
7.3
4.9
60
40 0.24
0 53 64
0.00 0.00
0.00 O.flO 0.00
66055
First Choice
Cone 015:05-08 08/17/30 1700
132
7.8
7,8
50
40 0.30
0 58 60
0.00 0.00
fl.OO
O.flO
0.00
723
66056
Snoothcone
Cone 015:05-08 03/17/90 2000
172
3.6
4.5
66
30 0.26 0 61 58
0.00 0.00
0.00
O.flfl fl.Ofl
728
80
6751-103
Bale 103:07-08 08/22/30 1109
51
1.6
3.7
55
11 0.33
0 Ofl
0
0.00 fl.flfl
0.00
0.00 O.Ofl
6751-113
Bale 106:07-08 08/22/30 1237
55
4.4
3.5
56
39 0.36
0 Ofl
fl
O.flfl fl.OO
0.00
0.00 fl.Ofl
67
6763-010
Bale 1)0:05-06 08/21/90 2815
101
3.6
3.3
52
13 0.29
0 00
0
0.63
3,97 13.16 24.15
10
Pethan Golding Bale 017:05-08 09/17/90 1098
0.29 fl 85 44
72
6.6
2.2
75
31
Bale 215:01-05 09/06/90 1271
65
5.1
3.3
57
37 0.10
8020-032
Bale 221:01-05 09/07/90 1869
119
6.4
2.7
70
12 0.4fl 0 74 58
8021-01!
Cone 225:01-05 09/07/90 1100
66
4.7
2.1
70
21 0.30
8021-fl1fl
Bale 230:06-10 08/29/30 1318
3.7
62
63052
3019-003
80
5.3
0 94 45
170
374
34 0,35 0 51 73
0.15 0.00
0.00
O.flO 0,00
160
1.23 0.00
O.flfl
O.flO Q.OO
322
0.72 0.00
0.00
O.flfl 0.09
670
0.00 O.Ofl O.Ofl
105
85
6.2
2.1
75
25 0.33
44
5.2
3.2
62
31 0.36
0 53 78
913
323
0.00
154
Bale 222:12-16 09/11/90
Bale 216:23-27 09/12/90
fl.flfl
O.flO
Bale. 219:12-16 08/30/30 1361
Bale 222:17-21 08/31/90 1092
fl.OO
0.00 fl.OO 0.00
3026-152
3033-031
O.flO
0.00
fl
8025-057
8031-002
1.37 1.88 24.72 61.55 13.62
1.06
0.00
0 Ofl
fl 70 5?
845
2.75
Q.80 0.00
fl.flfl
fl.flO
101
5.2
4.6
6?
30 0,28 0 57 64
1.50 fl.OO
54
5.9
1.2
59
29 0,33
0 50 78
1.17 0.00
0.00
0.00 0.00
676
1.29 0.00
fl.OO
O.Ofl fl.OO
121
1.21 3.55 111.16 61.45 15.90
125
386
8036-083
Bale 231:23-27 09/05/90 583
47
7.5
4.5
64
37 0.30
0 79 14
8036-084
51
4.2
2.5
62
25 0.38
0 00
8154-2)2
Bale 232:23-27 09/05/90 1212
Bale 111:29-30 0-9/04/90 191
27
5.1
2.5
68
20 A.32 0 00
0
1.33
2.26 296.27 55.89 19.55
8)54-230
Bale 112:29-33 09/01/90 1728
115
6.7
4.0
62
16 Q.32 0 00
0
0.00
fl.OO
fl
O.OO
O.flfl O.Ofl
8151-274
Bale 103:31-32 08/23/90 1856
139
7.5
3.3
66
22 Q.28 0 flfl
0
fl.flO O.flO
0.0(1 fl.flfl
8252-115
Bale 104:31-32 08/23/90 1066
64
6.8
4.Z
59
23 0.30
0 00
0
0,00
fl.OO
0.00 O.Ofl fl.OO
39
8254-112
Bale 106:31-32 03/04/90 1173
33
2.8
6.5
30
24 0.29 0 00
0
1.06
3.53 527.00 55.98 23.19
365
3.96 320.43 36.43 29.80
802
10.08 41.61 28.35
134
3254-16?
Bale 225:23-27 09/12/90 964
73
7.5
7.9
49
19 0.26 0 54 65
1.15
8254-211
Bale 227:23-27 09/07/90 495
2?
5.5
7.7
42
23 0.25 0 00
0
1.07 3.58
O.Ofl
343
103
8254-253
Bale 109:31-32 08/23/90 896
27
3. A
5.6
35
19 11,28 0 00
0
O.Ofl 0.00
0.00 o.oo a,ofl
89
8254-267
Bale t10:3)-32 08/23/90 938
36
3.8
5.9
10
20 0.29 0 00
0
0.00 (1.00
0.00
O.Ofl 0.00
86
8301-001
Bale 205:06-10 09/07/90 1638
69
4.2
4.7
18
33 0.42 0 93 45
0.91 0.00
0.00 O.Ofl O.flO
523
8301-021
Bale 102:29-30 09/01/90 155?
103
7.0
4.4
61
23 0.33
0 00
0
0.00 O.Ofl
fl.OO
0,00 0.00
305
8301-025
Bale 103:29-30 08/22/90 2176
126
5,3
4.2
58
29 0.28 0 00
8
O.flfl 0.00
0.00
0.00 O.Ofl
60
8301-047
Bale 208:01-05 09/06/90 751
29
3.9
4.5
16
25 8,41 1 70 10
0.00 0.0(1
0.00 0.00 0.00
492
102
"IU-
*Agricultural Chenistry Oepartnent**0regon State University**flgricultural Research Service**!! SDept Agriculture**Corvallis, Oregon*
1398 Bale and 5-Cone Analyses at 61 Moisture Content(Bale) )r As !s Basi5(5-Cone) as of Novenber 7, 1351
Oi1
Accession
Harvest
or Nursery
Nunber
Identification Ivpe Location
Bate
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
I
I
Ratio
6 Mo
CoA HSI
HSI
ZA*B
Myr
Hun
Serial
H/F «)
it)
Nunber
fiL/
Rfcnain 100a H/C
8301-057
Bale 211:96-10 09/11/30 1105
47
1.3
1.8
4?
32 0.39
0.83
43
0.61
fl.OO
0.00
fl.Ofl
0.93
815
8303-017
Bale 217:01-05 03/36/90 712
28
3,7
3.1
53
26 fl,35 1.16
30
1.02
O.Ofl
0.00
fl.flfl 0.09
18?
8303-03?
Cone 221:01-05 03/07/50 1000
39
3.3
4.3
45
13 0.31
8303-066
Bale 236:01-05 09/14/90 1152
39
3.4
4.3
41
26 0.31 1.13 17
fl.OO
0
0.00 0.00
0.70
0 .Ofl fl.flfl 0.00
370
3.34 509.08 72.20 12.22
810
8303-07?
Cone 244:01-95 09/07/90 Iflflfl
43
4.8
3,1
61
27 0.33
fl.flfl
0
0.00 O.Ofl
3 .00
0.0(1 O.flfl
363
B303-03t
Bale 106:29-30 09/04/90 896
11
1.6
3.2
53
26 0.34 0.03
0
O.flO
O.flO
0.00
0.00
307
8333-088
Cone 246:01-05 09/07/90 200
5
2.6
3.9
18
22 0.23
fl.Ofl
0
fl.Ofl fl.OO
fl.00
O.Ofl O.Ofl
8303-121
Cone 201:06-10 09/07/90 1000
31
3.1
3.9
11
22 0.32 fl.OO
0
O.flfl O.flO
0 00 0.00
8303-122
Cone 215:06-10 09/07/90 1100
78
5.6
3.Q
65
23 0.28
O.flfl
a
0.00 0.00
0 .00
8303-121
Bale 233:Q6-tO 09/10/90 992
36
3,6
3.4
52
25 0.32 0.77 50
8303-112
Bale 235:06-10 09/10/90 864
63
8.8
5.5
53
30 0.33
1.06
23
0
O.flO
0.00
373
3?2
9,00
fl.flfl
3?9
605
0.62 O.Ofl
0.00
0.00
(1.00
1.49
0 .00
O.Ofl
fl.OO
601
625
fl.flfl
8301-023
Cone 209:12-16 09/13/90 800
30
3.8
5.3
12
21 (1.26 0.00
0.30 O.Ofl
0 GO
0.00
O.Ofl
8304-067
Bale 241:86-10 09/10/90 043
34
4.0
5.8
11
27 0.32
1.53 15
1.75
O.Ofl
0 00 0.00
0.00
596
8301-090
Bale 236:12-16 08/30/90 282
6
2.1
1.9
30
26 0.33 1.30 23
0.80
O.Ofl
0 00 O.Ofl
0.00
133
1.03
0.00
o 00 0.00
0.00
313
0.80
0.00
633
1.33 21
8301-120
Bale 237:12-16 08/38/98 555
16
2.8
5.4
31
24 0.32
8308-820
Cone 215:28-32 09/14/50 1000
72
7,2
3.8
66
26 0.28 0.00
0
0.00 O.flO
0 00
8308-014
Bale 217:17-21 09/12/90 512
28
5.5
4.0
58
24 0,32 0.91 42
1.39 O.flO
0 00 fl.flO
O.Ofl
791
8308-016
Bale 219:17-21 08/31/9B 611
41
6.7
1.5
60
28 0.28 0.61 59
1.38 0.00
0 flfl
0.00
fl.OO
214
3309-001
Bale 227:17-2! 09/12/90 319
20
2.4
4.6
35
3!
0.33
1.33
23
1.14 fl.Ofl
0 CO
0.00
0.00
?95
8303-005
Bale 227:28-32 08/23/50 123?
63
5.1
6.5
11
23 0.29
0.92
39
1.12
O.Ofl
B 00 0.93
O.flO
158
8303-005
Bale 232:17-21 08/31/90 1399
83
5.3
7.2
15
23 0.24
0.90 38
2.24
3.56
8303-00?
Bale 235:17-21 09/01/90 512
37
7.1
5.9
55
26 0.28
1.18
25
1.57
O.flO
8309-008
Bale 237:17-21 09/04/90 1092
77
7,1
6,1
54
24 0.32 O.Ofl
0
8309-010
Bale 239:17-2! 09/04/90 572
31
5.1
1.3
56
24 0.35
1.12 16
0,03
8389-022
Cone 222:28-32 09/14/90 600
19
3.2
4.0
15
24 0.30
fl.OO
(1
0,00
O.Ofl
0 00
0.00
O.Ofl
63?
56
8
1.3? 0.00
fl BO
fl.flO
O.Ofl
391
21
1.15
0 CO
fl.OO
8.00
335
636
8309-021
Bale 211:17-2) 09/01/90
896
19
5.5
1.4
27 0.36
1.7?
8309-034
Bale 209:23-27 09/04/90 606
3)
5.1
4.3
54
26 0.34
1.33
10 96 59.3) 18.86
295
0 00 0.00
0.00
338
1,72 0.00
0 00 0.00
0.00
344
1.71
0 09 0.00
fl.OO
312
fl.OO
8309-036
Cone 242:28-32 09/11/90 300
13
1.2
3.3
52
25 0.3!
O.Ofl
0
0.00 O.Ofl
0 00 O.flO
0.00
3401-004
Bale 205=01-05 09/06/90 1504
71
4.7
4.9
49
30 0.34
1.15
28
1.84 0.00
0 00 0.90
O.Ofl
465
810)-011
Bale 212:01-05 09/14/90 1803
53
3.3
4.9
10
26 0.35
1.10
31
0.62
O.flfl
0 oo O.flfl
0.00
809
0.95
525
8101-068
Bale 230:01-05 03/07/90 1587
73
1.5
3,8
55
29 0.38
41
1.12
9.00
0 00 0.00
fl.OO
8101-070
Bale 233:01-05 09/07/90 1617
51
3,3
5.0
39
23 0.33 1.33 23
1.65
O.flO
0 Ofl
0.00
0.00
115
3401-076
Bale 213:01-05 09/07/90 1792
14
2.1
3.3
12
31 0,13
45
0.63
0.Q0
0 Ofl
O.flO
0.00
149
521
0.91
8401-132
Bale 202:06-10 09/07/90 1021
33
3.8
1.6
15
23 0.19
1.53 15
2.10 fl.OO
0 Ofl
0.00 fl.OO
8401-115
Bale 210:06-10 03/14/90 793
11
5.5
1.6
55
30 0.32
0.78
51
1.17 0,00
fl Ofl
0.00
fl.OO
33?
8101-158
Cone 212:06-10 09/07/90 1200
5?
1.8
3.0
61
27 0.28 0.00
0
0.00
0.00
0 00
0.00
fl.flO
381
8401-163
Cone 213:06-10 09/07/98 1200
34
2.3
2,0
53
27 0.28
0.00
0
O.flO
0.00
0 flfl
0.00
0.00
3??
3101-175
Bale 220:06-10 09/11/90 336
53
6.3
4.8
57
32 0.28
1.08 31
1.40
0.00
fl 00 0.00
0,00
818
81(1! -192
Bale 224:06-10 03/29/98 1450
80
5.5
3.6
60
23 0.36
1.08 33
1.3!
0.09
9 00
0.00
fl.OO
153
8101-136
Bale 225:06-10 08/23/50 135?
66
1.3
3.3
56
21 0.36
0.9?
37
1.22
9.00
0 00
fl.OO
0,00
180
8102-036
Bale 102:15-16 08/22/50
853
39
4.6
3.2
59
25 0.31 0,00
0
0.00
fl.flO
0 00
0.00
O.Ofl
81
8102-015
Bale 103:15-16 08/22/50 1173
55
1.7
2.6
61
23 0.31
O.flO
0
O.OO 0.00
0 Ofl
fl.OO
0.00
82
8182-030
Bale 105:15-16 08/22/30 1322
50
3.7
2.4
61
22 0.31 0.00
0
0.00 0.0Q
0 00 O.flfl
fl.OO
65
8102-039
Bale 107:15-16 08/31/30
384
18
1.6
3.1
60
28 0.28
fl.flfl
0
0.00
0.00
0 00 O.flO
fl.flO
330
8102-106
Bale 108:15-16 08/31/30 1130
49
4.3
3.1
58
25 0.30 0.90
fl
0.00
Q.OO
0 00 0.00
0.00
423
8103-003
Cone 110:15-16 09/11/90 1600
18
3.0
5.8
3?
29 0.26 fl.OO
0
0.00
O.flO
0 00 0.00
fl.OO
505
0103-007
Cone 111:15-16 09/11/90 1500
32 '2.1
3.2
40
18 0,31 fl.OO
0
fl.Ofl fl.flO
0 00 O.flO
O.flO
5(30
8403-041
Cone 112:15-16 09/11/90 1200
36
3.0
4.0
43
21 0.27 0.00
0
0. 00 0.00
fl.OO
459
8403-086
Cone 102:17-18 09/11/90 1200
33
2.8
3.1
47
2! 0.28 O.flfl
0
0.00 fl.OO
O.flO O.flO
0 00 O.flfl 0.00
504
8403-111
Bale 103:17-18 08/31/90 155?
38
2.4
4.7
34
25 0.26 0.00
0
fl.OO
Q.00 fl.flfl
0.00
217
0.00
103
'Agricultural Chenistry Departnent**Oregon State University**Rgricultural Research Service**0 S Dept Agri.culture**Corvallis, Oregon*
1990 Bale and 5-Cone Analyses at it Moisture Content(Bale) or As Is Ba5is(5-Cone) as of Novenber 7, 1851
Accession
Oil
Harvest
or Nursery
Huftber_ Identification Type Location Date
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
i
I
6 Mo
Ratio CoH
HSI
HSI
M
nU
Renain 100a H/C
Myr
H/F iH
Hun
Serial
tt)
Nunber
8103-1)2
Cone 104:17-18 09/11/90 1600
53
3.3
3.9
46
2!
0.25
0.00
fl
0.00
O.Ofl
fl.OO
0.00
0.30
8103-123
Bale 105:17-18 08/31/90 875
26
3.-0
3.4
1?
21
0.27
0.00
0
0.00 0.00
0.00
O.OO
0.00
316
31O1-096
Bale 107:17-13 08/31/90 1642
58
3.1
3.7
16
22 0.31
0.00
0
0.00
fl.OO 0.00 fl.OO
132
8101-023
Cone 109:17-18 83/11/90 1600
34
2.1
2.9
12
21
O.flfl
0
0.00 0,00
O.Ofl O.Ofl
198
8101-063
Cone 110:17-28 09/11/901830
64
3.5
4.0
47
29 0.26 0.00
fl
0.0Q fl.Ofl
0.00 O.flO 0.00
133
8101-072
Cone 111:17-18 03/11/90 1800
51
2.8
4.0
41
18 0.29 O.Ofl
0
O.Ofl 0.00
0,00
0,00 0,00
503
0.29
0,00
O.flO
510
8104-079
Bale 112:17-13 09/04/99 1600
33
2.1
2,7
43
20 0.35 fl.Ofl
0
O.Ofl O.flO
fl.OO
0.00 O.flO
312
8105-013
Bale 106:19-20 08/22/90 1119
60
5.2
3,5
60
25 0.2?
fl.OO
fl
O.flO 0.00
O.OO
0.00 0.00
63
2,7
60
21 0.29 0.00
0
O.Ofl fl.flO
O.flfl 0.00 0.00
71
3,4
58
22 0.30 O.flO
0
O.flO 0.00
0.00
O.flfl
0.00
311
O.QQ
591
8105-024
Bale 107:13-2(1 08/22/30 1045
12
4.0
8105-027
Bale 108:15-20 09/04/90 725
34
4.?
8485-038
Bale 228:06-10 05/10/90 503
26
5.1
3.6
53
26 0.35
1.B3 37
1.34
0.00
0.00
0.00
8105-039
Bale 231:06-10 08/23/90 1058
63
6.1
1.1
61
29 0.31
0.00
0
1.13
0.00
O.Ofl
O.Ofl O.OO
179
8405-05?
Bale 112:19-20 08/31/90 875
32
3.6
2.7
57
28 0.28 0.00
0
0.00 0.00
fl.OO
0.00 0.00
297
8105-081
Cone 236:06-10 09/13/90 608
37
6,2
3.6
63
24 0.26 0.00
0
O.flO 0.00
0.00 fl.OO O.flO
631
8105-101
Bale 239:96-10 09/10/90 717
39
5.4
1.0
57
23 0.31
0.78
48
1.11 0,00
0.00 0.00 fl.flO
604
8105-101
Bale 101:21-22 08/31/90 610
27
4.3
1.1
19
26 0.25
0.00
fl
0.00 0.00
O.flO
fl.OO
0.00
332
84(16-004
Bale 243:06-10 09/10/90 687
56
6.3
3.3
55
26 0.34 0.54 65
1.63 O.flfl
0.00
O.flfl
O.Ofl
534
8406-016
Bale 102:21-22 08/22/30 1365
81
6.0
1.6
56
22 0.30
0.00
0
fl.Ofl fl.OO
0.00
O.Ofl
0.00
70
8106-026
Sale 103:21-22 08/31/30 836
45
5.0
3,3
60
28 0.29
O.flfl
0
O.flO 0.00
fl.flO
0.00
9.00
317
8106-030
Bale 104:21-22 08/22/93 1706
104
6.1
3.1
61
29 0,28 O.OB
0
O.flfl O.Ofl
0.00
0.00
fl.Ofl
75
8106-038
Bale 246:06-10 08/23/50
42
4.4
3,1
56
23 0.38 1.16 28
1.21
fl.OO
O.flO
0.00 fl.OO
175
O.Ofl 0.00
0.00
0.00 O.Ofl
337
O.Ofl
0.00
334
964
8105-015
Bale 106:21-22 08/31/80 1024
63
6.2
3.5
61
2? 0.26 0,00
8106-043
Bale 107:21-22 08/31/50 538
54
5.8
2.7
68
24 0.28 O.Ofl
0
fl
fl.Ofl
0.00
O.Ofl
8406-054
Bah 108:21-22 08/31/90 1386
40
2.9
1.5
39
26 0.28 O.flO
0
0.53 3.67 11,81 38,1? 32,51
218
8406-058
Bale 103:21-22 08/22/30 1365
12
3.1
3.1
19
23 0.37 0.00
fl
0.00
0.00
0.00
0.00
0.00
83
8106-062
Bale 110:21-22 08/22/90 1193
10?
7.2
3.5
65
22 0,23
O.flfl
0
O.flfl fl.flO
0.00
fl.flO
fl.OO
72
8406-084
Bale 210:12-18 08/31/30 785
52
6.6
4.2
61
23 0.23
0.38 83
0.36 fl.OO
O.Ofl
0.00
0.0(1
222
12.31 57.17 18.73
220
8106-988
Bale 21!:12-16 08/31/90 135
2?
6.3
5.3
51
23 0.27
0.00
fl
1.37
3.63
8106-090
Bale 212:12-16 08/31/90
853
23
2.8
5,3
34
24 0.2?
O.Ofl
0
0.37
0,00
0.00
0,00
0.00
225
8107-001
Cone 102:23-21 09/11/99 1100
52
3.7
1.2
17
30 0.27 0.00
0
0.00
fl.Ofl
0.00
fl.OO
0.00
502
8107-008
Bale 213:12-16 03/30/80 1013
60
6.0
5.6
52
24 0.26
0.00
0
0.73 fl.OO
0.99
0.00 0.00
311
8107-008
Bale 103:23-21 03/01/90 832
34
1.1
1.3
18
30 0.26 fl.OO
fl
O.flO 0.00
0.90
9.00 O.flO
310
8487-020
Bale 214:12-16 08/30/50 790
52
7.4
1.0
65
24 0,28 0.76 16
1.55 2.73
6.03 52,37 20.35
325
8107-023
Cone 106:23-21 09/11/50 1100
79
5,6
1.0
53
23 0.25
0.00 0.00
0.00
fl.OO
0.00
501
1.55
0.00
0
8407-026
Bale 216:12-16 09/11/30
59?
10
6,?
1.3
61
32 0.29
0.85
13
8107-035
Cone 213:28-32 09/11/90 500
28
5.6
1.5
55
28 0,28
0.00
0
O.flfl
0.00
0.00
0,00
593
O.flO 0.00
fl.OO
O.OO O.flfl
681
1.75
O.Ofl
0.09
8107-035
Bale 217:12-16 09/11/90 597
14
7,3
4.3
63
27 0.27
0.89
41
0,00
612
8107-038
Bale 107:23-24 08/31/90 783
56
7.1
4.1
63
23 0.25 0.00
0
1.23 3.21 128.23 41.79 31.26
215
8187-012
Bale 103:23-24 08/31/90
704
4?
5.7
3.2
68
27 0.28
0.00
0
O.OO 0.00
0.00
O.flfl 0,03
315
8107-013
Cone 214:28-32 09/14/90 500
20
1.1
5,9
11
30 0.28 0.00
0
0.00
0.00
0.00
0,00
0.00
681
fl.OO
fl.OO
O.flO
O.Ofl
8107-043
Bale 228:12-16 08/31/90 631
33
5.2
5.3
43
2? 0.27 0.72 47
1.12
fl.Ofl
228
8408-001
Bale 235:12-16 08/31/90 290
18
6,2
5.3
54
29 fl.25 0,(10
0.80 3.26 26.02 50.15 21.85
226
0
8408-006
Bale 109:23-24 08/31/50 1139
66
5,8
4.1
59
27 0.27 0.00
fl
1.63 3.27 13.20 53.72 20.55
113
8408-006
Bale 110:23-24 08/31/90 1002
59
5.9
6.2
43
24 0.26 0.00
6
0.00 O.flO
O.Ofl O.Ofl fl.OO
210
8408-012
Bale 111:23-24 08/22/90 1450
74
5.1
3.8
57
21
0.32 O.flfl
9
0.00
0,00 O.flfl 0.00
68
79
0.00
8408-018
Bale 112:23-24 08/22/90 1770
74
1.2
5.1
45
24 0.30 O.Ofl
0
O.OO 0.03
O.flfl
8438-030
Bale 102:25-26 08/22/90 2304 104
4.5
5.4
46
22 0.28
0.80
0
1.41
O.flfl
0.00 O.Ofl 0.00
77
8108-031
Bale 103:25-26 08/31/90 1612
5.7
7.6
13
25 0.25 O.flfl
0
0.00 0.138
0.(10 0.00 0.00
209
8108-016
Bale 104:25-28 08/31/90 1002
52
5.2
4.8
52
28 0.27
fl.OO
0
0.0(1 O.flfl
0.80
fl.flfl
213
8108-051
Bale 106:25-26 08/31/90 1568
9?
6.2
4.0
61
25 0.28
0.00
0
0.00 0.00
0.00 O.flO fl.OO
238
93
0.00 O.Ofl
0.80
-12-
104
•Agricultural Chenistry 0epartnent**0regon State Oniversi ty**flgricull ural Research Service*»0 S Dept Agriculture**Corvallis, Oregon*
1930 Bale and 5-Cone Analyses at 81 Moistt re Content(Bale) t r As 1s 8asis(5-Cone) 35 of Novenber 7,
Harvest
or Nursery
_JyakL„ Identification Type Location
3408-063
991
Oil
Accession
Date
Yield Alpha Alpha
Lb/Ac
Sale 107:25-26 08/31/93 996
Lb/ac
50
I
5.5
Beta
1
4.6
Alpha
Ratio
54
6 Mo
CoH HSI
25 0.2?
HSI
0.00
(fl>B
?enai n 1C9q bvc_
0
Myr
Kun
Serial
H/F it)
tt)
Nunber
rU
0,00 O.flfl
O.flO
fl.flfl
0.00
216
0,90 0.00
205
3108-066
Bale 206:17-21 03/31/90 111
28
6,3
6,?
18
23 9.25 O.Ofl
0
1.51 0.00
0 Ofl
8403-070
Bale 209:17-21 03/17/80 1374
66
4,8
5,6
46
32 0.31
1.09
31
1.68 0.0(1
0 00 9. BO
0.00
827
8408-070
Cone 209:17-21 03/11/50 1371
29
2.1
2.2
43
30 0,28 0.90
0
0 00
0.30
0.09
699
8408-074
Cone 214:17-21 03/14/30 800
25
3.!
2.5
56
31 9.31 O.Ofl
0
0,00 O.Ofl
0 Ofl
0.09 O.flO
656
8408-074
Bale 228:28-32 03/11/90 611
30
1.9
3.5
56
28 (1.37 1.13 18
1.01 0,00
0 00 9,00
o.eo
851
0.00
O.flfl
8408-080
Bale 103:25-26 03/22/30 1706
80
4.7
5.9
18
22 9,28 O.Ofl
0
0.00
O.flfl
0 00
9.09
fl.OO
76
8408-082
Bale 110:25-26 08/22/30 2090
10?
5.1
3.1
50
23 9.31
0
0.00
fl.OO
0 00 O.Ofl
0.G0
73
3408-083
Bale 111:25-26 08/22/90 2133
102
4.8
4.3
52
23 0.23 0.00
a
0.00 0.00
0 GO
O.Ofl
0.00
73
8408-092
Cone 112:25-26 03/11/90 1100
34
5.7
3.3
6?
21 0.28
0.00
0
0.00
fl flfl
0.00
0.00
517
Bale 102:27-28 08/22/90 2026
67
3.3
6.2
35
27 0.23 0.00
0
O.Ofl 0.00
0 00 0.09
fl.OO
n
84A8-106
8108-108
Bale 216:17-21 08/31/90 110
21
5,9
5.2
53
2? 0.29 0.00
0
0.86
8408-114
Bale 103:27-28 08/22/30 1600
57
3.5
6.3
36
0.00
2? 0.23 0.00
0
O.OB
fl.Ofl
fl OB
0,C0 0.00
121
O.flfl 0.00
fl Ofl 0.00
0.00
66
o.eo
fl 00 O.Ofl
0.00
311
O.flfl
0.00
496
fl.OO
50b
8108-115
Bale 101:27-28 08/31/80 1838
108
5.7
1.8
51
22 0.26
fl.Ofl
0
fl.OO
8408-113
Cone 105:27-28 03/11/50 1480
76
5.5
1.5
55
2? 0.21
O.flO
0
0.00 0.00
0 Ofl
O.flO
8108-125
Cone 106:27-28 05/11/50 1200
80
6.7
8.1
15
26 0.21 0.00
0
0.09 fl.OO
0 so
8403-126
Bale 221:17-21 05/12/50 1416
87
6.3
5.9
53
27 0.23 1.28 23
2.12 3.82
9 5? 67.51 12.55
672
8409-018
Cone 224:17-21 09/14/90 1000
64
6.4
1.1
61
26 0.28 0.00
0.00 fl.OO
fl 00 O.flfl
0.00
691
0
8410-052
Bale 109:27-28 03/31/30 338
15
2.1
5.2
23
28 0,27
0.00
0
fl.OO fl.OO
0 00
O.Ofl
0,00
333
8110-069
Cone 110:27-28 03/11/30 1100
30
2.2
1.5
33
30 0.27
0.00
0
0.00
O.flfl
0 00 0.00
fl.Ofl
495
8110-036
Cone 112:27-28 03/11/50 1200
33
3.3
1.3
13
23 0.23 O.flfl
0
0,00
0.00
0 00 fl.Ofl
0,99
197
81)1-915
Bale 111:31-32 05/01/50 1621
138
8.5
3.7
70
26 0.29
fl.OO
0
0.00
O.flfl
9.90
334
8111-025
Bale 112:31-32 05/01/50 1311
96
7.1
3.0
70
25 0.30
0.90
0
fl.OO
fl.flfl
0 00 0.00
9 00 0.99
0,00
306
8411-92?
Bale 101:31-32 08/23/90
723
52
7.2
3.6
66
17 0.23
0.00
fl
0.00 0.00
0 00
9.00
0.09
91
8411-027
Bale 101:33-31 08/23/90 155?
122
7.8
2.9
73
23 0.28
fl.flfl
0
O.flfl
0.09
0 Ofl
0.00
0.98
130
8111-029
Bale 102:33-31 03/01/50 1706
11?
6.9
2.8
71
25 0.3!
0.00
0
0.00
0.00
0 00
fl.OO
0.09
309
8111-010
Bale 103:33-31 05/01/50 1557
53
6.0
3.7
62
26 0.32
9.09
fl
O.flfl
0.00
8 00 0.00
9.99
308
8111-012
Bale 101:33-31 08/23/30 2171
198
8.0
3.2
72
26 0.2?
O.Ofl
0
O.flO O.flO
fl.OO
9.09
107
65
26 0.33
fl.OO
0
fl.flO
0.00
0 00 O.Ofl
0.09
95
fl.OO
0.00
0 00 0.09
9,00
38?
1.75
2.80
388
9.00
143
110
84)1-019
Bale 105:33-31 08/23/30 1732
93
5.2
2,7
841)-061
Bale 106:33-31 03/01/50 1536
113
7.8
3.6
68
33 0.23
0.00
fl
84)1-075
Bale 107:33-34 05/01/50 811
52
6.4
3.1
6?
24 0.31
0.00
0
0 flfl
73 25 68.42 13.31
390
8111-135
Bale 188:33-31 09/04/90 1856
1)5
6.2
3.8
61
2? 0.31 O.Ofl
0
1.61
2.39 151 25 67.54 13.11
8111-150
Bale 109:33-34 09/05/90 1612
103
6.6
1.1
52
28 0.29
0.00
0
fl.OO
0.00
0 flfl
8111-157
Bale 110:33-31 09/05/90 1193
7)
4.7
3.3
59
2? 0.35 O.Ofl
0
fl.OO
O.Ofl
0 00 fl.OO
0.00
8111-170
Bale 111:33-34 08/23/90 960
60
6.2
4.0
61
18 0.29
0
0.00
fl.OO
0 00
0.00
fl.flO
90
0.00
138
9.00
fl.Ofl
8111-201
Bale 101:35-36 09/05/90 1706
118
6.3
3.1
67
24 9.32
0.09
0
fl.Ofl 0.00
0 00 0.00
8411-223
139
5.5
2.5
63
32 9.31 9.00
fl
0.00 0.00
fl BO
8411-262
Bale 102:35-36 03/23/90 2468
Bale 103:35-36.09/05/30 1749
107
6.1
3.3
65
31 9.31
9.03
0
0.00
0.00
3412-002
Bale 104:35-36 09/05/90 1045
100
3.6
5.4
64
41 0.28
fl.Ofl
fl
1.37
0,00
0.90 0.00
93
0 00 O.flO
0,00
129
0 00 O.flfl
0.09
141
410
8412-010
Bale 105:35-36 09/05/90 1621
122
7.5
5.6
57
12 0.25
fl.flfl
0
0.00
0.00
fl 00 O.Ofl
9.99
8412-012
Bale 106:35-36 09/05/90 1386
79
5.0
5.1
50
22 0.25 fl.flfl
8
1.23 2.00
8 37 56.83
3,46
42?
8112-016
Bale 107:35-36 03/05/30 2176
155
7.1
3.3
68
32 0.33
a. 90
0
0.00
9.00
0 00
O.flO
0,00
137
8112-013
Bale 108:35-36 03/05/30 1664 168 10.1
4.0
71
21
0.28 O.flfl
0
0.00
0.00
0 00
0.90
0.30
142
8112-922
Bale 109:35-26 09/05/90 1770
110
6.2
3,0
67
29 0.31 0.55
71
0.00 0.00
0 00
O.Ofl
0.00
109
3112-025
Bale 110:35-36 09/05/90 1237
65
5.3
4.4
55
33 0.30 fl.flO
0
0.Q0 O.flfl
0 00 O.flO
O.flO
412
8112-031
Bale 111:35-36 09/05/90 1237
107
8.7
3.5
69
31
0.28 0.00
0
O.flfl
fl.Cfl
0 00 (1.00
0,00
413
62
8.4
3.0
73
23 0.3!
0,00
0
0.00 0,00
fl 00 0.00
0.00
414
0
0.00 O.Ofl
0 00 fl.OO
0.00
511
0
0.00
O.flO
0 00 0,00 0.00
98
0.00
O.Ofl
0 00 0.08
0.00
191
8112-016
Bale 112:35-36 09/05/90 747
3112-058
Cone 102:37-38 09/11/90 2000
2)3 10.6
5.5
66
25 0.21 0.00
8412-075
Bale 103:37-38 08/23/90 2100
172
8.2
3.5
70
22 0.29 0.00
8112-077
Cone 104:37-38 09/11/90 1800
77
1.3
3.2
57
20 0.27 0.00
0
-13-
105
*Agricultural Chenistry Departnent**Gregon State 0niver5ity*»flgricultural Research Service**fl 5Dept Agriculture**Corvallis, Oregon*
1390 Sale and 5-Cone Analyses at 3* Moisture Content(Bale) sr As Is Basis(5- Cone) as of Novenber 7,
Oil
Accession
Harvest
or Nursery
Nunber. .Identification Tuge Location Date
3412-073
1951
Yield Alpha Alpha Seta Alpha
Lb/Ac Lb/ac
Bale 105:37-39 08/23/90 2560
182
I
7.1
X
5.8
6 Mo
tH
Patio Cod HSI HSI genai p lOOq
55
32 0,26
0.99
0
ttyr
Hun
Serial
H/F tt)
it)
Nunber
nU
H/C
O.flfl
fl.flfl
106
o.eo
111
fl.OO
O.flO
0.30
0.G0 9.00
84)2-088
Bale 106:37-38 03/05/59 1609
131
3.2
3.2
72
23 0.30
0.00
0
0.00
fl.OO
81)2-101
Bale 197:37-38 83/06/90 1752
161
9.0
1.7
66
22 0.30
0.00
fl
0.00
0.00
9.90
O.flfl O.Ofl
488
8412-125
Bale 105:37-38 05/06/90 )856
126
5.8
5.2
57
23 0.29
0.00
fl
0.00 O.Ofl
fl.GO
9.00
O.OO
430
96
8412-135
Bale 110:37-38 03/06/50 1877
5.1
4.4
54
46 0.31
0.00
0
0.00
0.00
0.00
O.flO
0.09
482
8112-138
Bale 111:37-38 03/06/50 2304
238 10.3
1.6
65
25 0.30
O.Ofl
0
0.00
0.00
0.00
0.00 0.00
185
8112-139
Bale 112:37-38 05/06/90 1188
126
9.3
1.5
66
27 0.29
0.00
0
O.flO 0.90
0.00
0,00
0,00
434
8112-150
Bale 101:33-10 09/06/30 1856
73
3.9
1.8
15
36 (1.31
0.00
0
8.00
9.00
0.00
fl.GO
fl.flfl
190
8112-166
Bale 102:35-10 09/06/50 1728
104
6.0
5.3
53
23 0.38
0.00
0
0.00
0.90
0.90
0.80 O.Ofl
479
8112-183
Bale 103:35-10 05/06/50 2111
221
9,3
4.2
65
28 9.39
0.08
0
0.00
O.flO
0,00
G.00 0,00
473
8112-188
Bale 104:35-40 05/06/90 2368
208
8.3
5.4
62
31
0.29
O.flO
fl
0.00
O.Ofl
0.09 9.09
9.90
8112-136
Bale 105:39-40 08/23/90 2005
171
8.5
4.2
67
32 0.33
O.flO
0
fl.GO 0.00
O.Ofl
0,09
O.Ofl
97
8112-199
Bale 106:39-10 09/06/90 1685
138
8.2
4.7
64
23 0.29
O.Ofl
fl
0.00 0,00
O.flO
O.Ofl 0,00
471
8112-20?
Bale 107:39-10 09/06/90 2410
202
8.1
3.2
73
21 0.30
0.00
fl
0.00
0.00
0.00 0.00 fl.OO
483
8112-214
Bale 108:39-10 09/06/90 1856
1SI-
8,3
3.3
63
25 0.29
8.76
52
0.00 0.00
O.flO O.flfl fl.OO
486
8112-225
Bale 110:33-10 09/06/50 2018
ISO
7.3
3,9
65
26 0.33
O.flO
0
0.00 O.flfl
0.00
156
8601-025
Cone 223:01-05 05/07/50 1000
86
8.6
3.7
70
25 0.26
O.Ofl
0
0.00
0.00 0.00 O.flO
376
8601-058
Cone 226:06-10 09/07/90 700
40
5.6
2.6
68
0.29
O.Ofl
0
O.Ofl 0.00
0.00
375
8602-035
Cone 231:06-10 09/13/90 600
8.0
3.0
72
28 0.23
O.flO
fl
fl.OO
O.Ofl 0.00 0.00
635
3.1
1.1
6?
2? 0.28
O.flO
0
0.00 0,00
O.Ofl
0.00 0.00
630
21
0.00
O.Ofl
O.flO
(1.00
0.00
0.09
483
8602-055
Cone 232:06-10 09/13/90 100
18
3
8602-113
Cone 238:06-10 09/13/90 100
3
2.7
2.1
5?
30 9.33
fl.flfl
fl
0.00 0.00
0.00
O.flfl
0.00
633
8602-162
Cone 212:05-10 09/13/90 100
36
8.9
3.9
69
27 0.27
O.Ofl
0
0.00 0,00
0.00
fl.OO
0.00
628
8602-183
Cone 203:12-16 09/14/90 360
38
9.9
3.7
73
21
9.25
fl.OO
0
0.00
0.00
3.00
0,00
9.00
701
8602-207
Cone 204:12-16 05/11/90 400
25
6.3
7.9
11
27 9.26
0,00
0
0.90 0.00
0.00
O.flfl
0.00
698
8602-274
Cone 207:12-16 09/14/50
400
13 12.3
3.6
7?
38 0.25 0.00
0
O.flO
O.flO
0,00 fl.OO fl.OO
704
3602-278
Cone 208:12-16 09/13/30 1200
123 10.3
3.8
73
28 0.28
0
0.09
0.00
0.00
621
O.Ofl
0.00 0.00
8602-300
Cone 226:12-16 09/13/90 600
1?
7.8
4.2
65
31 0.26
fl.flfl
fl
9.90
O.Ofl
0.00
O.Ofl O.Ofl
631
8602-305
Cone 227:12-16 09/13/90 600
51
9.1
3.4
73
23 9.30
8.00
fl
0.00
O.Ofl
0.00
0.00 0.00
622
fl.OO
8602-111
Cone 231:12-16 09/13/90
400
29
7.2
5.3
58
31 0.28
fl.flO
0
0,00
O.flO 0.00 fl.Ofl
620
8602-578
Cone 232:)2-16 09/13/90 100
26
6.6
3.7
61
•j J
0.30
0.00
0
O.Ofl fl.flfl
O.flO
619
8603-073
Cone 239:12-16 09/13/90 600
37
6,2
5.3
54
31 0.23
0.00
fl
0.00 fl.OO
0.00 fl.OO 0.00
623
8603-077
Cone 210:12-16 09/13/90 600
33
5.5
5.8
19
26 0.26
0.00
0
0.00 fl.OO
o.oo o.eo fl.flo
624
8603-037
Cone 242:12-16 09/13/90 300
15
1.8
3,9
55
23 0.29
0.00
9
0.00
fl.flfl
0.00 O.flO 0.00
62?
8603-232
Cone 243:12-16 09/13/90 200
11
6.9
5.3
5?
28 0.30
0.90
D
fl.Ofl
fl.flfl
0,00 0.00 0.00
626
637
0.00
0.00
861)3-283
Cone 202:17-21 09/14/90
203
5
2,6
4.6
37
23 Q.25 0.00
0
0.90
9.00
O.Ofl 0.00 0.00
8603-314
Cone 204:17-21 09/14/90 200
12
6.9
5.3
53
23 0.21
0.00
0
0.00
fl.Ofl
0.00
0.00 0.00
702
8603-346
Cone 208:17-21 03/14/30
37 12.3
3.5
78
22 0.25
fl.flfl
0
0.00
9.99
0.00
O.flO O.flfl
695
300
8603-481
Cone 228:17-21 03/11/90 1100
7.6
1.2
61
21 0.22
O.Ofl
0
O.Ofl
0.9fl
0.00
O.flfl
O.Ofl
700
8603-561
Cone 238:17-21 09/14/90 700
75 10.7
3.2
7?
25 0.21 0.00
0
O.Ofl
0,00
0.00
O.Ofl
0.00
688
8801-006
Bale 136:06
08/24/90 1237
71
5,7
3.5
59
28 0.30
0.56
65
1.18
3.59
1.88 57.23 15.56
126
28
3.4
5.5
62
23 0.23
0.59
59
O.flfl
O.flfl
O.flO 0.00 fl.OO
711
6.7
4.5
58
23
0.3!
0.80
13
1.32
3.56 179.06 11.79 29.70
108
10?
8802-002
Cone 007:17-20 03/17/90 30Q
8802-002
Bale 136:16
08/21/90 3370
227
8802-004
Cone 001:21-24 09/17/93 100
5
5.3
4.1
56
30 0.23
0.49 68
0.09
0.00
0,00 0.00 fl.OO
706
3.1
62
23 0.27
0.46 71
9.90 0.00
0.00 0.00 0.00
712
4.9
60
29 0.24
0.54 63
0.90 fl.OO
O.flO 0.00 fl.OO
713
1.67 3.58 27.60 49.18 25.33
0.00 0.00 0,00 fl.OO
127
197
8802-006
Cone 011:17-20 09/17/90 100
5
5.0
8802-011
Cone 016:17-28 09/17/99 300
22
7.3
8802-fill
Bale 136:25
8802-012
Cone 017:17-20 09/17/90 200
8802-012
Bale 136:26
08/24/90 1706
08/27/30 2133
95
5.6
4.5
53
29 9.27 0.73 53
16
3.9
4.3
65
23 0.23 8.43
63
0.00
128
6,0
4.1
60
26 9.27 0.69 55
1.67
3.11 166.99 16,65 28.56
0.00
0.00
0.0(1 0.00 0.00
?14
1.72 fl.OO
0.00 0.00 0.00
194
8302-015
Cone 020:17-20 03/17/50 200
16
8.2
4.5
65
23 0.24 0.50 6?
8802-015
Bale 136:25
77
7.8
4.7
63
23 0.25
08/27/50 98)
0.78 17
7(18
-14-
♦Agricultural
1330 Bale
and 5-Cone Analyses at it Moisture Content(Bale) cr
As 1s Basis(5-Cone)
as of Novenber 7, 991
Accession
or Nursery
Nunber
106
Chenistry Departnent**Oregon State Oniversi ty**Agricultural Research Service**!! S Dept flgriculture**Corvallis, Oregon*
_
Harvest
Idfntificatio i Type Location .Pate...
8832-918 \
Cone 023:17-20 09/17/90
8892-018-.:
Bale 136:32
,„
6 Mo IM
nU
Yield Alpha Alpha Beta Alpha
I
Raiio. CoH JSI HSI ?enai1 Iflflq H/C
Lb/Ac Lb/ac
Oil.
tlyr
H/F tt)
Hun
Serial
it)
Nunber
300
20
6.7
5,9
53
25 0.22
0.76
47
O.Ofl fl.Ofl
0,00
O.flfl O.flO
725
08/27/90 2132
193
8.2
5.4
611
22 (1,26 1.02
34
1.5C 3.53
1.17 58.30 11.56
184
5882-013'
Cone 021:17-20 09/17/90 300
15
1.9
4.0
55
23 0.23 3.57 60
9.00
fl.flO
0.09 0.00 0.00
713
8802-019
Bale 136:33
97
5.6
1.2
5?
23 0.29
40
1.22 3.36
2.5? 18.88 21.22
201
08/27/90 1719
0.88
3802-021
Cone 026:17-20 09/17/90 200
13
6.4
4.3
57
28 0.25 0.18
63
0.00
fl.flfl
0.00 O.Ofl
716
9802-021
Bale 136:35
57
1.9
6.4
43
21 0,26
1.22
22
1.11
3.47 408.07 66.10 15,30
201
8892-022
Cone 027:17-20 09/17/90 100
9
8,7
5.4
61
24 0.24
0.15 72
0.00 0.03
0.00
O.flfl 0.00
7)8
11
6.9
7.5
48
23 0.23
0.51
63
0.00 0.00
fl.OO
0.00 0.(10
7)7
135
7.9
6.6
55
21
0.24
0.00
0
f\.lS
3.52
1.85 14.41 20.23
66
0.00
0.00
O.flfl
08/27/50 1152
8802-021\
Cone 028:17-20 03/17/50 200
8802-02-4,'
Bale 136:38
8902-926
8392-026
08/31/30 1706
Cone 030:17-20 05/17/90 ZOO
Bale 136:10
08/27/50 538
23 11.6
78
3.4
5.3
4,6
66
65
28 0.26
26 0.25
0.51
0.61
58
8802-02?" ;
Cone 031:17-20 09/17/90 200
15
7.7
1.9
61
26 0.23
0.16
8802-0277
Bale 136:41
08/27/90 2602
173
6.6
3.3
63
24 0.28
0,36 36
70
1.31
3.42
0.00
fl.Ofl
O.flfl
17.13 13.05 25.02
133
715
1.15 3.20
2.25 13.56 22.36
182
50.23 28.50 32.03
185
0.00
O.Ofl
721 "
0.00
8.00
O.flO
_486_
8802-023
Bale 136:13
08/27/90 1920
110
7,3
1.1
63
27 A.28 0.82
42
1.51
3.36
8802-030
Bale 136:44
08/31/30 725
68
9,3
5.5
63
25 0.23
0.00
0
1.26
3.09 378.62 58,23 20.07
8802-035
Cone 109:07-08 09/11/90 200
7
3.5
3.0
51
21 0.30
9.66
53
0.00 0.00
0.00
O.Ofl
O.Ofl
404
513
8802-035
Cone 136:49
09/12/90 300
13
4.4
3.5
56
28 0.31
0.71
48
fl.OO
0.00
O.flO 0.00 0.00
537
8802-037-"fe=-
Bale 136:51
08/27/90 1719
116
8.3
1.3
63
25 0.26
0.08
JU
1.99 3.43
2.00 55.25 15.15
186
8802-033
Cone 110:07-08 09/11/90 200
18
4.8
2.3
67
25 0.28
0.7!
5fl
0.00
O.flO
O.flO 0.00 0.00
f\T
8802-011
Bale 137:03
08/31/30 853
16
5.1
1.5
55
26 0.26
0,82 14
0.00
0.00
O.Ofl 0.00 0.00
118
8802-Oiy—
Bale 137:04
08/27/90 2474
215
8.7
4.8
61
23 0.27
0.00
J^. 1.68
3.34
2.70 10,20 21.86
I5JL
8802-011
Cone 003:21-21 99/17/59 290
12
6.1
6.0
51
23 0.26
0.58 60
12?
8.3
5.2
61
23 0.2? 0.88
1,3
63
22 0.25
1.4
58
8802-015^"
Bale 137:07
08/27/90 1536
8802-016
Cone 005:21-21 03/17/90 300
22
7.4
8802-Q46
Sale 137:03
89
6.9
08/27/90 1322
8802-048
Cone 007:21-21 08/17/50 100
8832-01i-;
Bale 137:10
8802-051
3802-057
08/27/90 2688
Cone 013:21-21 03/17/90 100
Cone 016:21-24 03/17/50 200
0.00 O.Ofl
fl.Ofl
37
1.35
3.62
1.7143.82 19.15
183
0.67 53
0.00
0.00
0.00
?nr
24 0.28
1.0?
30
1.71
3,15 126.05 52.85 20,17
188
0.58
60
0.00
O.Ofl
0.00 fl.OC 0.00
709
3.83
36
1,18 3.49
1.71 15,61 17.25
18?
6!
O.Ofl 0.00 1.00 8.00 9.00 " ?05
35
8.8
5.8
68
26 9.22
256
9.5
5.4
61
26 0.26
10
9,8
4.5
63
28 0.23
0.5?
11
5.7
6,8
16
26 0.24
0.62 57
8602-057
Bale 137:19
08/31/90 1365
31
6.9
6.3
52
23 0.24
1.81
2?
8802-059V '•
Cone 918:21-24 09/17/90 400
29
7.3
4.6
62
21 0.25 9.52
65
8802-055
Bale 137:21
92
9.8
5.3
61
22 0,26
0.89 38
0.36
08/27/90 1021
fl.Ofl
0.00
0.00 fl.flO
707
0.00
0.00
0.00 0.00 0.09
715
1.81
3.26 16.77 51.51 29.63
122
0.00 0.00
0.00 0.90 9,00
718
1.70
3.11
2.16 52.6? 18,10
191
8802-061
Cone 020:21-2403/17/50 100
14
3.4
7.9
30
22 0.23
83
0.00
0.00
0.09
9.99 9.99
719
8802-061
91
9,3
3.1
75
24 0.25 fl.16 70
1.36
3.1?
2.08 28.16 28.55
300
SS02-06i"c~
Bale 137:23
Bale 137:26
08/31/90 581
08/31/50 2218
121
5.6
3.3
59
25 0.2?
1.04 30
1.37
3.27
1.70 54.32 17.16
301
8802-968
Cone 025:21-21 08/17/50 300
!?
5.7
6.0
13
21 0.21
0.57
0.00 0.00
0.00 0.00 fl.OO
717
3.34
1.82 25.32 26.05
131
0.00 fl.OO
120
60
8802-068..'
Bale 137:30
08/27/90 1661
135
8.1
5.3
60
22 0.25 0.83
42
1.56
8801-G02
Bale 137:32
08/31/90 725
32
1.1
4.3
50
31
0.23
1.04
32
fl.OO 0.00
0.27
0.09
8304-003
Bale 137:33
09/07/90 1322
88
6,0
2.9
67
25
0.54 65
0.65
3.60
1.14 38.26 21.13
408
8801-001
Bale 137:31
08/27/90 169
17
3.7
2.9
55
28 0.36
0.00
0
0.00
0.00
0.00
192
8801-005
Bale 137:35
08/27/30 1152
58
5.0
3.0
62
31 0.31
1.00
37
0.48
3.52
1.48 33.28 21.41
136
8801-012
Bale 137:12
08/31/30 1831
62
3.4
2.5
58
26 0.31
0.00
0
0,8!
3.61
1.24 56.18 13.06
4(1?
0.00
O.Ofl
8804-014
Bale 137:44
08/31/90 341
20
6.0
2.3
72
20 0.28 O.Ofl
0
fl.OO 0.00
11.00 0.00 O.Ofl
426
8804-022
Bale 137:52
09/06/30 1322
1?
3.6
3.0
51
23 0.31
0.55
35
0.55
3.56
1.30 44.16 20.60
167
8884-025
Bale 138:03
08/27/90 683
31
4.6
2.2
63
25 0.33
0.5? 74
fl.Ofl
0.00
0.00
0.00 0.00
200
21
fl
1.04 2.62
1.74 41.58 19.11
198
0.30
0.00
8801-926
Bale 138:04
08/27/30 768
4?
6.1
2.8
63
880S-006\
Cone 033:21-24 09/17/30 208
12
5.8
4.2
58
26 0.23 0.52 65
0.00 0,00
0.00 0.00 O.flfl
744
8BD5-006J
Bale 138:11
08/31/90 2218
133
6.0
5.1
51
24 0.21
0.85 37
1.35 3.31
2.1? 12.6? 23,81
208
8805-007
Bale 138:12
08/31/90 1877
117
6.2
2.6
71
25 0.2? 0.61
8805-011
Cone 834:21-24 09/17/90 100
9
9.1
5.5
62
23 0.23
63
0.46 70
1.11
3.36 292.33 44.11 31.86
213
fl.flfl 8.00 O.Ofl
741
O.Ofl 0,00
107
-15-
*Agricultural Chenistry De.partnent**Oregon State 0niversity**Agricultural Research Service**fl SDept Agriculture**Corvallis, Oregon*
1950 Bale and 5-Cone Analyses at 8.2 Moisture Content(Bale) cr
As s 835is(5-Cone) as of No jenber
7, 1391
Oil
Accession
Harvest
or Nursery
Nunber
Identification Ivoe Location
8805-011
Bale 138:16
Date
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
38/27/33 2315
8805-013^,
Cone 035:21-24 09/17/50 200
3805-013i
Bale 138:18
8805-015
Cone 036:21-21 05/17/90
8805-015
8805-016
225
I
3.0
t
4.8
Ratio
63
6 Mo
CoH
HSI
25 9.26
rfyr
Hun
Serial
H/F tt)
tt)
JMsc
iL/
HSI Renain Iflflq H/C
0,76 46
1.54 3.35 163.08 41.52 31.72
202
0.52 65
0 Ofl
750
15
7.6
4.5
61
21
0.00
0,00 0.00 0.00
266
5.8
5.8
64
22 0.27
37
1 41
3.5?
1.71 41.25 13.62
195
100
5
5.0
5.2
19
23 0.24 0.55 62
0 GO
O.flfl
0.00 O.Ofl fl.OO
746
Bale 138:23
08/27/33 2432
182
6.7
5.3
56
21
0.27
0,81
44
tele 139:21
08/27/30 1237
59
4.7
3.0
6!
19 8.29
0.00
0
03/27/80 2730
8805-018
Cone 038:21-24 09/17/90 100
8805-018
Bale 138:23
08/27/90 2432
0,26
8.83
4.3
64
25 0.25
0.43
65
0 00 9.00
0,00 0,0(1
742
9.4
3?
21 0.29
1.20
25
1 49 3.47163.77 61.63 16.71
189
fl
0 00 0.09
0.00 0.00 O.flfl
206
0.75
15
0 13 3.34
1.54 33.15 22.39
139
0.31 0.09
0
0 00 9.99
0.00 0.00 O.flfl
141
0
fl 00 9.00
fl.OO
0.00 O.Ofl
151
Bale 138:27
08/31/90 381
11
3.6
2.6
58
25 0.36 O.Ofl
08/28/90 1191
36
3.0
2.6
51
26 0.33
8805-025
Bale 133:30
08/28/30 256
11
5.5
2.2
72
21
8805-026'^-'
Bale 138:31
08/28/50 311
22
6.5
6.6
19
22 0.29
0.00
8805-027
Bale 133:32
08/28/30 256 L
TO""7.3
8805-031
Cone 002:25-38 85/17/50 100
8805-038
Bale 138:44
Cone 008:25-28 09/17/90 200
Bale 138:15
08/28/90 2090
0.00
7.7
5.5
Bale 138:28
8805-033
199
8
8335-022
8805-010^
203
3.39 39.02 29.5?
133
8805-023
08/28/30 610
1 35 3.2? 84.13 41.85 26.43
0 80 3.5?
3.7
51
20 0.29
0.00
fl
0 00 0.90
0.00
O.flO fl.OO
153
4
3.3
6.3
38
24 0.24
0.48
69
0 00 0.00
0.00 0.00 0.00
787
16
7.2
3.7
66
24 0.29
0.66
58
0 00 O.flO
O.Ofl 0.00
0.53 61
0 00 fl.Ofl
0.00
0,81
38
0 33 3.42
1.92 57.64 15.20
115
0.00 O.flO fl.Ofl
783
11
7.1
4.0
61
26 0.26
136
3.4
4.8
66
21
0,25
8805-045
Cone 013:25-28 09/17/90 100
5
5.2
3.7
55
31 0.26
0,11
73
0 00 0.00
8806-001
Cone 014:25-28 83/17/50
7
7.4
5,3
50
28 0.25
0,65
54
fl Ofl
100
0.00
155
0.00 0.00
789
0.00
0.00 O.Ofl O.Ofl
782
0 00 O.Ofl
0.00 0.00 0.00
780
3.53 178.42 44.65 27.83
147
8806-002
Cone 015:25-28 09/17/90 400
21
5.1
5.5
18
23 0.26
0.19
68
8806-002
Bale 138:52
08/28/30 1109
78
7.1
4,3
62
21 0.25
0.55
64
8806-010
Bale 139:08
08/28/90
725
10
5.6
6.4
1?
22 0.31
0.70 52
0 00 0.00
O.flO
fl.flO
0.00
146
8806-911
Cone 023:25-28 03/17/50 100
5
5,4
3.3
58
26 0,25
0.59
55
fl 00 O.flfl
0.00
O.flO 0.00
781
1.05 32
152
1 05
66
5.3
1.9
52
24 0.26
1 65 3.5!
58.93 63.05 17.62
300
20
6.7
6.3
52
26 0.25 0.55
62
0 00 0.00
0.00 O.flfl O.Ofl
783
08/28/50 1752
126
7.0
5.9
51
20 0.28
0.83
43
0 83 3.64
1.26 46.12 14,61
131
200
13
6.5
1.6
59
24 0.25
Q.53 55
0 00 0.00
0.00 0.00 0.89
773
08/28/30 1578
120
7.6
1.8
61
21
0,78
0 13 3.53
2.18 58.52 12.18
151
10
5.2
5.3
51
25 A. 25 0.18 69
0 Ofl
fl.OO
8.00
0,00 0.00
743
88
1.8
5.6
16
20 fl.27 0.86
1 11
3.58
1.66 55.36 15.28
136
2 id
0.00
0.00
0.09 O.flO
138
0 00 3.00
0.00
0.00 0.00
737
8806-011
Bale 139:09
8806-01>\
Cone 024:25-28 03/17/50
08/28/90 123?
8806-012/
Bale 139:10
8306-013
Cone 025:25-28 03/17/50
8806-013
Bale 133:11
8306-01 ?\
Cone 023:25-28 08/17/30 200
3806-01V
Bale 139:15
08/28/38 1834
3806-018
Bale 133:16
08/28/30 427
30
7.1
7.6
48
23 0.23
O.flfl
0
8806-021
Cone 033:25-28 03/17/50 100
7
7.2
6.0
54
28 0.24
0.58
60
8806-022
Cone 031:25-28 09/17/80 190
7
7.2
6.0
55
27 0.23
0,18
65
0 00
31
0.24 0.16 71
48
22
0.27
1.51
13
0 00
O.flO
0.00
0.00
0.00
113
9.1
3.3
70
28 0.27
0,50
67
0 oo 0.00
0.00
0.00 0.00
530
7.4
5,3
56
25 0.27
0.82 45
fl 00 0.G0
0.00 0.00 fl.Ofl
150
3.3
63
26 0.26
0.52 65
0 00 0.00
0.00 O.Ofl 0.00
1.85 31
0 96 0.62
Cone 021:21-24 09/17/90 200
09/07/90
8808-007
Bale 139:36
811
08/31/90 1109
733
53
8806-662
09/07/90 1280
738
0.00
7.3
53
Bale 139:32
O.flO 0.00
fl.OO
5.5
75
Bale 139:34
fl.OO
fl.Ofl
7.3
Bale 139:19
3808-00T~
0.09
fl 00 9.00
6.8
8806-031
8808-005
41
8
8306-Olfl
08/28/90 725
15
49
Cone 036:25-28 09/17/90 100
Bale 139:23
08/28/90 725
Cone 139:29
09/12/90 800
3806-Q25
8806-925
0.25
15
7.4
18
1.4
8.2
15
42 0.29
4
0.5
5.0
3
49 0.33
1.47
16
0 53 0.00
11
57 0.35
1.34 15
0 83 1.85
26 0.29
0.51
8
0.7
5.7
40
16.03 55.36
0.00
0,00
740
1.31
337
O.Ofl
163
80.6? 45.35 18.77
2)2
G 84 2.00 205.12 43.52 21.54
166
8808-008
Bale 139:37
09/07/90 1408
17
1.2
1.6
20
8808-009—
Bale 139:38
09/07/90 1408
6
0.5
8.)
5
53 0.27 1.63 12" 0 99 0.55 18.01 56.88 1.71
393
8808-01 k_
Bale 139:40
09/07/90 1792
6
0.3
7.6
4
Bale 139:43
09/07/90 1280
6
0.5
6.8
7
2? 0.33 1.49 16_ 0 88 1,6? 232,53 38.30 14.92
0 11 0.79 18,56 16.31 4.13
32 0.28 0.55 35
158
8898-014
8808-015
Bale 139:41
09/07/90 512
9
1.8
5.0
26
465
0.00 0.00
101
0.58 65
1 06 2.05 48.39 45.36 9.63
157
0.36 1.02 3?
0 76 0.79 19.16 51.39 2.30
398
0.00 O.Ofl O.flO
533
fl 35 3.21 305.35 65.80 10.38
392
36 0.32 0.00
8808-016
Bale 139:45
09/07/90 1834 118
6.4
4.6
53
34 0.2?
8808-017 —~
09/07/90 1450
09/12/90 2000
15
1.0
4.9
1?
41
8808-018
Bale 139:16
Cone 139:47
8
0.4
6.2
6
8808-020
Bale 139:19
09/07/90 1792
52
2.9
8.3
32
55 0.28. 1.10
0
29
35 0.2? 1.31 20
0 16 O.flO
0 03 9.00
O.flO
108
-!6-
•Agricultural Chenistry Departnent**Oregon State flniuers ty**Agricultural Research Service**!) S Dept Agriculture**! orvallis, Oregon*
1390 Bale
and 5-Cone Analyses at 8!! Moist ire Content(Bale) or As Is Basis(S-Cone) as of Novenber 7, 1991
Accession
Oil
or Nursery
Nunber
Harvest
Identification Type Locator
Date
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
t
t
6 Mo
tH
Ratio
CoH HSI
HSI Renain 100a. H/C
43 0.29
1.81
4
8808-021
Bale 133:50
09/07/50 1153
117
7.9
3.6
63
8888-022-—
Bale 139:51
09/07/90 1792
7
0.1
7.5
5
50 Q.34 1.55
8808-023
Sale 139:52
09/07/90 1661
6
0.4
6.2
5
8808-825
Bale 110:02
09/07/90 2858
85
3.0
8.9
25
Myr
Him
Serial
H/F it)
it)
Nunber
nl./
3.11
394
15
0.71 1.82 71.80 38.22 12.5?
168
53 0.31 1.24 23
0,43 1.01 19.32 52.98 3.??
493
3!
1.33 0.55
155
0.32
1.48
15
0.81
0.98
21.30 50.70
6.78 71.68
.79
8888-026
Cone 140:03
03/12/50 1400
15
1.1
3.8
22
64 0.33
fl.84 42
O.flO 0.00
0.0(1 0.00
0.00
555
8308-023
Cone 110:05
09/12/50 1200
15
1.3
3.3
28
30 0.32
0.61 58
0.00 O.flfl
0.00
0.00
539
fl.Ofl
8308-030
Bale 140:0?
05/07/50 127
3
0.6
3.6
15
43 0.32 0.00
0
0.00 O.flfl
O.flfl fl.Ofl 0.00
400
8808-031
Bale 110:08
09/07/30 1103
10
0.9
5.7
14
14 0.30 1.53 16
0.81 0.89
0.00
396
O.Ofl
0,00
8808-032
Bale 140:09
05/07/90 1749
28
1.6
5.0
24
34 0.3(1 0.93
42
0.53 1.42 137.34 41.53 14.70
333
8808-033
Bale 110:10
09/07/90 1280
35
2.?
6.1
30
35 0.31 1.06
36
0.51 2.01 78.17 15.32 16.16
102
8808-D34
Bale 110:11
03/07/50 1962
12
0.6
7.7
7
8808-038
Bale 110:15
05/07/50 1152
12
1.1
5.0
18
33 0.32
1.54
15
49 fl.35 2,07
8
0.57
0.16
6.80 72.50
.97
461
0.95 1.88 178.4? 10.15 21 .60
395
8808-333
Bale 110:16
09/07/90 938
7
0.7
5,7
11
51 0.27 1.48
15
0.89 0.00
0,00
fl.00
462
8808-010
Cone 110:1?
03/12/90 1000
10
1.0
1.8
17
33 0.32
0.31 38
0.00 0.00
0.00 O.Ofl 0.00
550
8808-042
Bale 110:19
09/07/90
811
1
0.5
6.5
7
12 0.25
1.51
8608-C43
Cone 110:20
09/12/90 1200
17
1.1
3.3
2?
53 0.29
1.05 31
3808-045--
Bale 140:22
09/07/50 1150
1?
1.2
8.2
16
8808-046—-
Bale 110:23
09/11/50 1191
fl
0.0
8.8
0
14
13 0.34 1.81
11 0.37
0.37
0.00
0.00 0,00
0.00
0,00
O.Ofl 0.00
451
O.flO O.Ofl 0.00
540
3
1.13 0,00
fl.Ofl
0.00 0.00
453
1.93
10
1.39 0.00
0,00
0.00 fl 00
661
0.45 0,00
O.flO
0.00
8808-047
Bale !40:24
05/11/90
811
12
1.5
6.7
18
14 0.28
1.15
25
8808-043—
Bale 140:26
03/11/50 2018
5
0.2
5.7
4
64 8.12
1.80
3
8808-053
Bale 14fl:30
09/11/90 1706
31
5.3
3.7
59
56 0.2?
1.24 20
0,73 1.71 189.48 44.84 12 13
663
8838-054 —
Bale 110:31
09/11/50 1066
8
0.7
5.3
12
8? 8.35
1.26
0.12 G.09
671
26
0 00
668
0.31 1,75 31,71 67.45 2 92
667
O.Ofl
0.09 0 00
8808-055
Sale 140:32
09/11/90 1066
18
1.7
7.6
13
38 0.30 1.54 13
9.57
14.78 50.26 3 27
61?
8808-956
Bale 110:33
09/11/90 1237
1
0.3
6.1
5
52 0.32 1.6? 14
1.59 1.51 235.96 51.63 7 23
609
1.1?
8808-95?
Bale 110:34
09/11/90 1536
7
0.1
6.1
i
52 0.12
1.85
11
9.55
9.00
0.00
fl 00
666
8808-058
Cone 110:35
09/12/90 1200
6
0.5
5.8
8
1? 0.27
0.73 49
0.00
O.flO
0.00 0.00 0 00
513
8833-053
Cone 148:36
09/12/90 1100
3
0.2
3.5
6
18 0.35
0.91
38
O.flO O.flO
0,09 9.09 0 00
551
8888-060
Bale 110:37
09/11/90 155?
12
0.7
5.5
12
38 0,23 1.15
28
0.86 O.flO
0.00
0 00
662
O.flfl
0.00
8308-962 —
Bale 140:33
09/11/90 1706
30
1.8
5.4
25
32 0.31
1.24 26
1.15 0.77 46.00 16.59 2 33
618
8808-063
Cone 140:10
09/12/90 1100
16
1.1
4.5
20
3? 0.31
1.10
28
0.00
0.00
0.00
512
1.70
1.75 86.24 33.23 5 35
8808-865---
Bale 140:42
99/10/90 2560
33
1.2
8.7
12
38 0,32 1.70
11
8888-067
Cone 110:11
09/12/90 1600
8
0.5
7.0
7
52 0,31 1.75
7
O.flO O.flO
0.00
0,00
fl.OO
0 Ofl
0 00
608
551
8808-068
Cone 140:15
09/12/90 800
1
3.1
4,4
3
40 0,27 1.22
24
O.flO 0.00
O.flfl
0.00 0 Ofl
552
8808-070
Bale 110:1?
09/11/90 1150
19
1.3
5.9
18
13 0,30 1.28
27
0.93 O.Ofl
0.00
0.00
9 00
592
fl.flO
O.Ofl
0 00
616
54.76 66.51 6, 96
665
8898-072
Bale 140:19
09/11/90 1109
22
2.0
5.6
23
37 9,31
1.20
26
1.02
0.00
8808-074
Bale 140:51
09/11/90 1109
5
0.5
?.?
6
57 0,32
1.31
9
0.83
2.1)
fl.OO
O.flO
8808-075
Cone 110:52
09/12/30
800
8
1.0
5,3
15
35 0.29 9.54 63
8808-076
Bale 111:01
09/12/90 1877
18
1.0
5.6
15
71 0,32
1.31
22
1.12
8808-875
Bale 111:04
03/12/90 633
8
1.1
2.3
28
43 3.40
1.17
36
0.75 0.00
fl.flfl 0.00
0. 00
796
88O8-08£k—
Bale 141:05
03/12/50 1706
13
0.8
6.3
10
44 0.33
1.48 1?
1.3)
0.00
0.00
fl.OO
0. 00
679
0.91
0.00
0.00 O.flO 0. flfl
750
0.61 2.06 26B.0D 77.10 5. 63
799
8808-08)
Bale 141:05
05/12/50 1280
28
2.2
7.3
23
28 0.28
1.11
8808-081
Bale 141:09
09/12/90 1193
37
6.5
4.1
61
11 0.30
0.48 72
29
0.7?
O.flO 0. 00
534
33.28 68.09 1. 81
0.00
675
8808-036
Cone 141:11
09/12/90 1200
9
0.8
3.4
18
10 0.37 0.83
10
O.OO fl.82
3.65 43.35 1. 07
547
8888-888
Bale 141:13
09/12/90 1150
1
0.1
6.5
1
53 D.17 1.67
13
0.80 0.00
O.flfl fl.Ofl
803
fl.00
8803-889
Cone 141:14
09/12/90 1200
6
0.5
5.5
9
55 0.30 0.75 17
O.Ofl O.flO
0.00 O.flfl 0. 00
541
8808-09)
Bale 111:16
09/12/90 1365
30
2.2
4.7
32
31 0.31 1.25 27
1.11 0.00
0.00 0,00 0.00
677
0.00 8.00
0.00
8808-095
Cone 141:20
09/12/90 1100
1
0.3
3.1
8
41
8808-096
Bale 111:21
09/12/90 1621
8
0.5
5.9
8
18 0.44
8808-099
Cone 111:21
09/12/901600
27
1.7
5.7
8808-100
Bale 111:25
09/13/90 896
6
0.6
5.5
0.37 0.96 36
0.00 0. 00
515
0.91 2.15 78.10 61.69 6. 95
800
1.36
11
22
18 0.27 0.75
18
0.00 fl.flO
fl.OO
O.Ofl 0, 00
531
10
58 0.40 1.65 12
8.6? 0.00
9.00 O.flO 0. DO
859
109
-17-
*Agricultural Chenistry Departnent**Oregon State yniversity**flgricultural Research Serviced S Dept Agriculture**Corvallis, Oregon*
1590 Bale and 5-Cone final yses at 87. Moisture Content(Bale) or As Is Basis(5-Cone> as of Novenber 7, 1391
Accession
Oil
or Nursery
Nunber
1
Harvest
Identificatio i Type Location
Date
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/ac
I
t
Ratio
6 Mo
CoH
HSI
tH
nL/
HSI Renain 100a H/C
H/F
Myr
Hun
Serial
tt)
it)
Nunber
.78
553
0.00
516
3808-103
Cone 141:23
08/12/90 1200
!
8.1
2.4
4
55 0.37
9.97
35
0.00 0.55
1.81 38.83
8308-101
Cone 111:29
05/12/50 ?90
4
0.6
5.0
11
33 0.37
0,5?
60
0.00 0.00
0.00
0.(10 O.flfl
fl.OO
O.flO 0.00
518
O.Ofl
0.00
0.00
0,00
811
!
3803-109
Cone 141:34
05/12/50 1200
5
0.1
6.2
7
51 0.32
0,52
65
1
8808-113
Bale 111:38
05/13/50 1752
5
9.3
6.0
5
5? 0.57
1.85
3
0.43
O.flO
j»
8808-115 -
Cone 141:40
09/12/50 1200
18
1.5
5.9
20
23 0.30 1.10 29
fl.OO fl.OO
0.00
0.00
0.00
514
|
8808-116
Cone 111:11
05/12/50 1600
23
1,1
6.0
13
41
0.75 18
O.flfl O.Ofl
fl.OO
O.flO
9.09
532
8808-120
Cone 141:15
05/12/90
0,3
6,3
5
53 0.28
1.35 19
fl.OO 0.00
0.00
O.flO 0,00
8B08-121
Cone 111:16
05/12/90 1200
2
0,1
4.1
3
51 8.36
0.89
0.00
0.00 0.00
i
|
•
>
!20
0.26
39
0.00
0,09
519
536
8808-125 —
Cone 141:50
05/12/90 1800
12
0,6
5.7
10
48 0.35
1.29 22
0.00 0.00
O.flO O.Ofl 9.09
535
8808-128
Bale 112:01
09/13/90 1706
?
0.1
3.9
10
55 0.48
1.63
15
0,34 0.00
0.00
0.00 9.90
836
21
1.8
7.6
13
40 0.26
0.81 42
0.00 0.00
O.flO
0.00 9,90
576
L
0.1
6.3
2
11 0.5?
1.91
8
0.50
0.00
0.00
0.00 0,0(1
831
11
0.9
7.5
11
37 0.23
1.14
27
0.00 0.00
0.00
fl.OO
O.Ofl
565
5.8
13
38 0.26 0.63 56
fl.OO O.flO
O.Ofl 0.00
O.OO
571
8808-130
Cone 112:03
09/12/90 12Q0
8808-134—
Bale 112:0?
09/13/90 1621
8308-136 —
Cone 142:09
09/12/90 1200
8808-138
Cone 112:11
09/12/90 1600
11
0.5
3808-142—'
Cone 112:15
09/12/90 1400
6
0.4
9.?
4
13 0.21 1.44 16
8808-115
Cone 112:18
09/12/90 1200
0
0.0
3.5
0
58 0.52
1.15
27
8808-115-
Cone 142:19
09/12/90 1000
11
1,1
6,3
15
15 9.29
1.63
13
8808-11?
Cone 142:20
09/12/90 1100
21
1.5
1.6
25
28 9.30 9.81 11
.39
579
fl.Ofl
O.Ofl
571
O.flO 0.00
0.00 0.00
O.flO
573
0.00
fl.OO
0.00
0.09
530
0.00 1.23
2.40 25.23
0.00 0.00
9.00
O.flfl
8803-150
Cone 142:23
09/12/90 1180
13
1.3
5.5
13
33 0.28
9.62
56
0.89 0.90
0.00
0.00
0.00
577
8808-151
Bale 142:21
09/13/90 1193
8
0.6
6.1
S
13 0.10
I.64
13
0.12 O.Ofl
0.00
0.00
0.00
808
3808-153
Cone 142:26
09/12/90 1200
25
2.1
7.1
23
28 0.25
1.09
25
0.00
0.00
0.00
O.flfl 0.00
564
8808-151
Cone 112:2?
09/12/90 1000
8
0.8
3,3
20
50 0.37
1.22
21
0.00
0.00
O.flO
0.00
0.00
557
8898-155
Cone 112:23
09/12/90 1000
3
0.0
7
C
•j.
J
0
60 0.18
1,14 23
0,00
coo
0.00
fl.Ofl
fl.OO
575
to-15?
Cone 112:30
09/12/90 1300
6
0.5
4.6
9
5? 0.30
0.98 35
0.00 0.00
O.Ofl
0.00 fl.OO
568
8808-160
Bale 142:33
09/13/901493
7
0.4
5.7
7
8809-093
Bale 142:36
09/13/90 853
19
2.2
3.8
3?
33 0,40 1.69
10
0.15 1.52 186.85 45.02 6,35
841
0.00
898
**
'
V-
.
»
*
31 0.38
fl.Ofl
0.09
9,00
9
0.73 0.00
13
0.51 1.30
fl.Ofl 45.15 1.08
S64
0.52
0.00 3.00 0.09
891
862
3899-994
Bale 142:37
03/13/50 1154
11
1.1
1.3
21
58 0.55 1.68
8809-908
Bale 142:11
03/13/30 381
18
1.8
5.5
25
28 0.37 1,21 29
O.Ofl
8803-005
Bale 142:42
03/13/50 317
19
1.9
1.7
29
28 0.36 1.12
34
1,33 fl.Ofl
0,00 0.90 9,99
8809-010
Cone 142:43
05/12/90 1800
19
1.1
3.1
21
18 0.36
8.98
35
0.00 0.00
O.flfl
coo
0.00
573
8809-011
Bale 142:44
09/13/90
683
2
0.3
4.6
?
34 0.61 1.33
15
0,41 0.00
O.flO
O.Ofl 0.00
836
8809-918
Bale 112:51
09/13/90 1322
6
0.5
3,0
13
0.59
0,08
0.00
0.00
fl.OO
854
2.15
.80 33.1?
9.13
852
0.00 0.00 0.00
570
51 0,83
1.99 19
8889-922
Bale 113:83
09/13/90 1706
25
1.5
7.3
1?
35 0.35 1.15 29
0.31
8899-026
Cone 113:07
53
6.3
6.0
5)
43 0.26 9.62 5?
0.00 0.00
12
0.7
1.5
14
3
0.3
6.7
1
8809-027-—
Bale 113:08
09/12/90 845
09/13/90 1661
8809-028
Cone 113:09
09/12/90 1000
67 0.45 1.75
13
57 0.29 0.37 35
0.55
1.03
0.00 0,26
17.79 45.51 2.76
0.08 14.05
.36
366
553
8883-034
Bale 143:15
09/13/90 1706
67
3.9
7.8
33
25 0.28
0.7?
51
0.21
3.47
54.72 73.93
7.06
361
8805-035
Cone 143:16
09/12/90 1000
23
2.3
7.0
25
27 0.21
0.86 11
0.00
1.81
28.1? 27.61 8.13
572
8893-036
Bale 143:1?
09/13/90 384
7
1.9
6.5
22
28 0.37
O.flO
0
0.00
fl.OO
8803-038
Bale 113:19
09/13/90 1365
3
0.2
1.1
5
11 0,63
1.35
11
0.83
1.58
8805-013
Bale 143:24
09/13/30 981
IS
1.9
3.2
38
25 0.36 fl.85 17
0.62
0,00
0.00
0.00
0,00
356
8303-011
Cone 143:25
09/12/90 1200
12
1.0
1.3
18
18 0.13
fl.flO
fl.Ofl
O.flO
coo
fl.OO
560
O.flO 0.00
1.61
10
0.00
39?
31.22 32.10 3.18
835
fl.OO
0.00
8803-017
Bale 143:28
09/13/90 811
50
6.2
4.3
56
30 0.43 1.36 24
0.86 O.flfl
0.00
8803-051
Bale 113:32
09/13/90 938
11
1.2
1.6
2)
13 0.33 1.27 25
0.6?
0.00 o.eo
8803-052
Cone 143:33
09/12/90 1000
46
4.6
2.7
63
8805-056 —
Bale 143:37
09/13/90 1021
4
0.4
7.5
5
0.00
0.00
500
853
52
0.00 O.flfl
0.09 O.Ofl 0.00
562
35 0,13 1.85 10
1.21 fl.OO
fl.OO
0.00 0.00
807
50 0.31 0.68
8809-057
Bale 143:38
09/13/90 1024
2
0.1
5.0
3
48 0.47 1.67 15
0.45 fl.Ofl
0.80 0.00 0.00
833
8809-058
Bale 113:39
09/13/90 896
1
0.5
4.9
9
48 0.44 1.67 15
1.02 0.00
0.00 0.00 0.00
813
8309-060
Bale 143:41
09/13/90 1007
7
0.7
5.0
12
39 0.38 1.44 20
0.57 0.00
0,00 0.00 0.00
835
8809-061
Cone 143:42
09/12/90 1000
2
0.2
5.6
3
33 0.12 1.27 22
0.00 fl.flO
0.00 0.80 0.00
563
-19-
110
Hgn cultural Chenistry Departnent**Oregon State yniuersity»»Agricultural Research Service**!! SOept Agriculture*»Corvalli5, Oregon*
1890 Bale
and 5-Ccne Analyses at 8* Moisture Content(Bale) ir As Is 8asis(5-Cone) as o Novenber 7,
Oil
Accession
or Nursery
Hunber Jdentificatior
8809-063^
1951
Harvest
Tyjie Location date
Cone 143:14
6 Mo IH
Yield Alpha Alpha Beta Alpha
Ratio CoH HSI HSI Renain t00n
t
ib/fic Lb/ac I
Myr
Hun
Serial
H/F it)
tt)
Hunber
nL/
09/13/33 1300
10
0.8
7.1
10
H/C
53 0.31 1.66 10
0.00
fl.flfl
661
811
0.00
0.00
fl.Ofl
8809-966
Bale 113:1?
09/13/90 1365
70
5.1
3.6
58
29 0.31 0.58 68
1.10 2.13 168.87 17.13 19.76
9399-068
Cone 143:43
05/12/50 1608
51
3.2
3.1
50
33 0.30 0.58 62
0.00 0.GO
0.00
0.00 fl.OO
567
6.93 55.70 3,25
569
810
8803-071—
Cone 143:52
05/12/90 1200
2
0.1
6.3
2
52- 0.28 1.41 17
COO 1.10
8809-073
Bale 144:02
05/13/50 1152
70
6.1
4.3
55
39 0.32 1.27 23
1.24 3.51 404.41 63.88 10.92
8803-878
Cone 141:07
05/12/90 1600
2
0.1
3.8
3
59 0.32 1.15 27
O.Ofl fl.00
fl.flfl 0.00 O.Ofl
556
8809-079
Bale 141:08
09/13/50
22
2.5
4.2
3?
33 0.34 0.65 65
0.88 0.00
0.00 0.00 0.00
806
6803-080
Cone 111:09
09/12/50 1600
9
0.6
2.2
21
58 0.39 0.85 11
COO 0.00
O.Ofl
COO 0.00
558
88Q3-081
Cone 111:10
09/12/90 12A0
51
1.2
2.0
68
32 0.29 0.67 53
0.00 0.00
0.00 0.00 0.00
566
8803-084
Bale 111:13
09/14/90 2560
85
3.3
3.0
52
11 3.31 0.51 82
0.61 0.00
COO COO COO
766
8809-086
Cone 114:15
09/12/90 1200
61
5.1
3.9
57
27 0.28 0.53 85
O.flO 0.00
COO
0.G0 O.Ofl
56!
8809-092—
Cone 141:21
05/13/90 1200
25
2.1
8.0
21
32 0.24 0.51 56
0.00 2.95 51.11 35.94 5.21
656
8309-094
Cone 144:23
05/13/50 1800
53
3.2
7.1
3!
23 0.28 0.54 64
O.Ofl 0.09
0.00 0.00 0.00
654
11
41 0.16 1.51 13
0.19 0,00
0.00 COO 0.00
765
26
38 0.40 3.67 53
O.flO 0.00
O.flO
0.00 0.00
655
COO 0.00
O.flO COO 0.00
651
0.74
0.00
0.00
0.00 O.flO
761
0.00
0.00 O.flO O.OO
653
0.00
9.86 31.77 2.26
COO 0.00 O.Ofl
771
0.00 fl.00
0.00 0.00 0.00
659
856
8809-035
Bale 141:24
05/14/50 1021
6
0.6
3.1
8809-096
Cone 144:25
05/13/50 1200
27
2.3
6.5
8809-098
Cone 141:27
05/13/50 1200
11
3.1
5.5
38
41
0.30 0.63 56
88Q9-039
Bale 144:23
05/14/50 1706
19
1.0
5.7
16
43 0.35 0.34 49
8803-100
Cone 141:23
09/13/90 1100
39
2.8
3.2
47
10 0.31 0.51 63
COO
8309-105 -
Cone 114:34
09/13/80 1200
0
CO
8.3
0
13 0.26 1.28 22
0,00 1.55
8803-108
Bale 144:37
09/11/90
8803-111
Cone 144:10
09/13/90 1000
981
50
5.1
3.5
53
19 0.35
33
3.3
8.4
23
34 0.23 0.60 58
I.17
29
1.38
658
8803-115
Cone 111:41
09/13/90 1200
19
1.5
8.3
16
39 0.22 0.59 59
fl.OO
3.11
O.flfl 52.58 6.11
657
8803-12!
Cone 144:50
08/13/58 1000
6
0.6
5.3
10
35 0.32 1.19 26
fl.OO
0.00
0.00 0.00 O.Ofl
660
8809-126
Bale 145:03
05/11/30 1365
21
1.8
5.9
23
31 0.36 0.86 19
0.78 0.00
Bale 145:04
05/14/50
465
2
0.4
6.2
6
53 0.42 fl.OO
fl
fl.OO
fl.00
0.00 0.00 0.00
O.Ofl O.flO 0.00
812
3809-127
8809-130
Bale 115:07
05/11/90 1493
5
0.1
1.5
7
15 0.66 1.89 15
0.70
2.26 137.53 57.19 6.19
767
76D
8809-132*-
Cone 115:03
09/13/90 1300
3
0.3
3.0
3
53 0.26 1.25 23
0.00 1 12
8.41 38.81 3.33
648
8803-115
Bale 115:22
39/14/90 931
3
0.3
3.5
8
51 0.59
9.72 9 00
O.flO fl.flfl 0.00
759
1.90
I!
45 fl.30 !.!3 28
fl.Ofl
0 Ofl
O.flO 0.08 0.00
617
34 0.38 O.Ofl
0
0.76 0 00
0.00 Q.OO 0.00
762
40 0.26 0.35 36
0.00 0.00
0.00 0.00 0.00
613
11
0.63
O.flO
756
8809-146
Cone 115:23
09/13/90 1000
3
0.3
8.6
3
8809-147
Bale 115:21
09/11/90 512
n
1
1.1
5.4
21
Cone 115:27
09/13/80 1100
1
0.1
5.6
2
8303-162
Bale 115:33
09/11/90 1191
12
1.0
2.6
28
3810-001
Bale 145:16
05/14/90 1322
13
t.fl
3.3
23
35 0.37 1.1? 32
0.6?
fl 03
0.00 O.flO O.flfl
751
5,0
21
3? 0.32 0.85 12
0.00
0 00
fl.OO
0.00 0.00
619
0.00
0 OO
0.00
0.00
8809-150
0.12 C36 17
0 00
0.00 0.00
8810-002
Cone 115:1?
09/13/50 1200
16
1.3
8810-006
Cone 145:51
09/13/90 1500
23
1.5
5.5
2)
36 0.29 0.68
23
12 0.31 0.93 37
27
54 0.34 0.70 51
fl.OO 0 00
0.00
9.90 0.00
612
0.00
0 00
9.00
9.90 fl.flO
638
0 00
8810-011
Cone 116:01
09/13/90 1100
17
1.2
1.0
8310-012
Cone 146:05
09/13/90 1300
15
1.1
3.1
52
0.00 0 00
8810-015
Cone 116:08 -
03/13/90 1300
1!
0.8
3.4
20
52 0.36 0.66 53
38)0-016
Bale 146:03
09/14/90 1322
11
1.0
5.0
1?
37 0.46 1.60 14
0.74
0.00
652
0.00 coo 0.00
610
O.flO O.Ofl fl.OO
757
O.Ofl 0.00
639
O.flO
8810-0)8
Cone 146:11
09/13/90 1400
12
0.8
4.0
17
55 0.30 0.6? 53
0.00 0 00
8810-013
Cone 146:12
09/13/50 1480
16
1.1
5.4
17
71
0.00 0 00
O.Ofl 0.00 O.QO
650
fl.OO
0.00
0.00
611
0.34 0.76 4?
88)0-022
Cone 116:15
09/13/50 1400
15
1.0
3.5
23
31
3310-023
Cone 116:21
09/13/90 1600
67
4.2
1.5
43
24 0.2? 0.64 55
0.28 0.57 69
0.33 1.65 14
0 03
0.00 fl 00
1.30
O.flfl
0.00 fl.OO 0.00
1 96 252.1169.59
5.30
63?
752
8810-029
Bale 116:22
09/11/90 2316
30
1.3
6.6
16
41
8810-031
Cone 116:27
09/13/90 1200
13
1.1
3.0
25
37 0.29 0.44 73
0.00 0 00
O.QO fl.Ofl O.Ofl
615
8810-011
Cone 116:31
09/13/90 1600
26
1,6
5.1
23
23 0.29 0.63 56
fl.Ofl 0 00
0.00 0.00 0.90
611
B81B0S&.
r Bale 146:33
09/14/90 1280
36
2.8
8.2
25
36 0.27 1.18 27
1.62 1 83 685.00 65.2? 13.02
763
8811-006
"Tale 146:40
09/14/90 1280
76
6.0
4.3
58
101.30 0.70 5?
832
0.00 0.00 0.00
833
8811-01(1
Bale 145:14
09/14/90 1578
29
1.9
4.8
32
40 0.35 0.93 43
0.79 1 12 148.73 51.30 11.75
0.80 1 76 137.89 51.87 8.11
8811-013
Bale 116:47
09/11/90 1877
31
1.6
5.0
25
32 0.37 1.05 3?
0.96 0 00
53
38 0.31 0.71 50
0,00 0.00
62
28 0.32 0.81 42
0.00
8811-014
Cone 116:18
09/13/90 1480
8811-016"
Cone 116:50
09/13/90 1300
56
4.0
3.5
66
5.1
3.2
0.00
' fl.OO O.Ofl
0.00
755
0.00
646
0.00 O.OO
636
Ill
<Q0\
*-^-^ rr\ r
•ith
filphaRatio ,< 40 and Yield >I000 lb/ac
- I-
<to
f990 Sale anal -Cone finalyss s at 8i Moisture Content (Bale) or As Is i asis (5-Cone? as oF January 25, 199I ( n -
Harvest
or Nursery
Nunber
52)
Oil
fifrpc^ion
ill. viLviJ L Ui <
Identification Ivoe Location
Oate
Yield Alpha Alpha Beta Alpha
Lb/Ac Lb/Ac
I
ii
6 Mo IM
Ratio Col HSI
HSI
Myr
rU
Renain lOfla
H/C
H/F il)
Hun
tt)
S'ericj
Hunber
8301-018
Bale .'38:23-2 7 05/12/50 1007
28
1.1
6.3
51
23 0.27 fl.OO
0
I.II
Z.43
0.03 47.6! Z5.43
792
2)150
3309-037
Bale :29;28-3Z 09/!3/30 1322
52
1.7
7.1
59
21 0.25
0.00
0
0.77
3.55
O.flfl ?2.5fl 10.71
85?
2)503
7501-137
Bale*'31:12-15 09/11/90 1681
91
5.6
8.7
59
32 0.24
0.00
0
1.16 2.32
3.23 73.25 6.15
665
Hersbrucker-8
Bale 216=01-05 09/06/50 123?
Bale 01:03-01 08/21/90 1152
15
3.6
6.0
38
20 0.Z3 fl.OO
0
1.51
Z.flZ 45.25 62.83
17
1.1
5. Z
ZZ
36 0.55 0.00
9
0.85
Cflfl
0.03
19105 x 505811 Bale 32:01-05 09/11/90 1108
Z?
1.3
8.3
11
23 0.26
fl.flO
0
3.83
Z.71
0.00 68.5!
Bale t'33:01-05 09/07/90 1617
54
3.5
5.0
59
Z3 0.33 Cflfl
3
2.9
1.5
59
26 0.28
COO
fl
3.53
5.5
9.1
37.?Z1
0.29 0.90
fl
21170
Z15I5
21387
61007
8101-070
8-406-051
8805-018
7013-993
Bale
Bale
08:ZI-22 08/31/90 1386
38:23 • 08/27/90 2432
8808-003
gale 39:32
8808-097
Bale
8308-008
Bale
39:36
35:37
10
133
05/07/93 1280
18
1.1
8.Z
15
08/31/30 !!09
8
0.7
5.7
II
09/07/90 1498
17
!.Z
4.6
Z0
fl.Ofl 0.03 0.00
145
3.6?
11.81 38.17 32.5!
218
1.49
3.47
3.03 61.65 16.7!
133
42 0.23
9.93
0
3.96
0.62
16.05 55.96 1.81
55?
5? 0.35 O.flO
0
0.83
1.85 83.67 15.95 18.77
212
3
0.81 2. flfl
Cflfl 15.52 ZI.51
168
18.01 56.88 l.?i
395
Z6 0.Z5 0.00
09/07/50 1408
6
0.5
8.1
5
53 0.27
9.09
0
0.39 0.55
Bale
3?: 10
09/07/90 !?9Z
6
0.3
7.5
1
27 0.53
CflO
0
3.88
1,1 3,28
0.03
0
0.3b
0.93
0
39:43
Bale
S312 39:46
09/07/90 izsq
6
0.5
6.8
09/07/90 1450
15
I.O
1.9
57
0.33 0.00
Bale 39:38
8808-017
176
BIZ
8338-011
8803-014
COO fl.Ofl
3.60
8808-009
7
7.19
11
1.67
3.00 38.33 11.52
458
0.4!
0.79
18.56 16.81 1.18
465
0.75
0.73
15.16 54.35 Z.30
358
O.Ofl 65.80 10.38
592
8808-020
Bale
39:49
09/07/50 1792
52
2.9
6,3
!?
J7
35 0.2? 0.03
9
0.95
3.Z1
3808-022
$212 39:5 i
09/07/50 1752
7
3.1
7,5
5
53 0.31
0.03
0
0.71
I.SZ 71.83 38.ZZ 12.57
463
8808-823
Bale 35:52
05/07/50 1561
k
0.4
6.Z
5
53 3.31
0.90
fl
0.19
1.01
19.32 5Z.53 5.77
195
3.99
8808-025
Bale
10:02
05/07/50 2858
55
5.0
8.9
Z5
31 0.32
0.09
0
1.93
.75
155
8808-03!
Bale
10:93
09/07/59 1109
10
0.3
5.?
11
11 0.30
COO
0
COO Cflfl
O.flfl fl.Ofl 0.09
39b
3808-032
Sale
40:09
09/07/90 1719
28
1.6
5.0
21
31 0.30 0.00
a
3.93 1.12
COB 11.55 11.70
393
8303-031
Sale
10:11
09/07/90 1962
12
0.6
7.7
7
0.39
0
8.97 0.16
6.S3 72.50
8898-038
Bale
40:15
09/07/59 1152
12
!.!
5.0
18
33 0.5Z 0.00
0
C95
8808-015
Bale
10:22
99/07/50 1450
!?
i.Z
6.Z
15
13 0.54 CflO
0.2
5.7
15 0.35
4^64
0.12
1.88
5.73 71.68
.5?
lb1!
fl.flfl 43.15 ZI.63
395
0
Cflfl fl.flfl
3.(19 fl.Ofl fl.OO
455
COO
9
9.91
1.79
31.71 67.15 2.92
667
fl.flfl O.Ofl COO
67!
3308-019
Bale
10:26
09/11/39 2Q18
5
8808-054
Bale
10:31
09/11/90 1966
8
0.7
5.3
12
87 0.55 0.00
0
0.00
0.08
18
1.7
7.6
18
38 0.30
CflO
0
0.37
I.I? 11.78 50.26 5.2?
617
5
52 0.32
fl.BO
0
1.50 1.51
0.00 51.65 7.25
609
O.flO O.Ofl O.flfl
66Z
8808-055
Bale
10:32
09/11/50 !066
8508-055
Bale 10:53
09/11/90 1257
1
0,3
6.1
S808-06Q
bale
10:37
05/11/90 1557
12
0.7
5.5
IZ
33 0.29
COO
fl
Cflfl 0.09
5.1
75
3Z 8.3!
0.G9
5
1,15
16. flfl 46.59 Z.39
615
0.32 0.00
fl
1.73 1.75 86.21 55.25 5.55
608
0.00
0
1.02 O.Ofl
O.flfl O.flfl O.flfl
616
57 0.3Z coo
0
0.83
Z.11 51.76 66.51 6.96
565
0.32 COO
0
675
O.Ofl
0
1.12 0.7? 55.28 68.35 I.St
3.03 O.Ofl 0.33 9.08 3.08
2.15
78.13 61.63 6.95
800
O.flfl
O.flO O.flfl Cflfl
3803-062
Bale
10:59
09/11/99 !?06
30
1.8
S80S-065
5ale 19:12
09/10/90 2560
30
1.2
8.7
12 / 38
3808-07Z
Bale
4fl:49
09/11/50 1!09
ZZ
Z.fl
6.6
23
57
0.31
8308-071
Bale 10:5!
05/11/50 1109
5
0.5
7.7
6
8803-076
Bale 141:01
05/12/50 !87?
!8
1.0
5.6
15
7!
09/12/50 1565
30
7.7
4.7
5Z
54 0.31
0.5
5.9
8
48 9.41
COO
0
0.51
I.I
1.3
2!
58 0.55
fl.flO
0
fl.OO
8808-09!
Bale
41:16
8808-036
Bale 14!:2!
09/12/90 162!
3
8809-001
Sale 12:3?
09/13/50 1191
11
0.77
.80 33.1?
9.45
67?
864
85Z
8809-0ZZ
Bale 143:03
09/13/99 1706
25
1.5
7.5
17
55 0.55
CflO
0
0.81
Z.15
8809-027
Sale 13:03
05/13/50 1661
IZ
0.7
1.5
11
67 0.45
fl.Ofl
3
0.55
1.03
17.79 45.51 2.76
366
0.24 3.17 51.7Z 73.93 7.06
0.83 1.58 31.ZZ 32.40 3.18
Cflfl Cflfl 0.08 3.03 3.03
861
8809-031
6809-038
Bale 113:15
09/13/59 1706
67
3.9
7.8
55
0.99
3
Bale 15: i 5
09/13/90 1365
3
0.2
1.1
5
11 0.63 0.09
3
8810-00!
Balel 15:46
09/11/90 1322
13
1.0
5.5
Z5
55 0.37 O.flfl
3
58iO-OZ9
Bale' 46: ZZ
09/11/50 Z316
30
1.3
6.6
lb/'il
8811-005
Bale' 16:39
05/11/50 I280 " 56
Z.8
8.Z
Z5
3811-010
Bale 16:11
09/11/90 1578
29
1.9
1.0
32
10 0.55 0.09
8251-112
Bale 108:31-32 09/01/90 1173
55
2.8
6.5
50
21 0.29
O.flfl
8103-111
Bale 03:17-18 08/31/50 1557
38
Z.1
1.7
31
25 0.Z6 0.03
0
3.5
6.5
35
27 0.29 0.00
0
8
48 0.48
O.Ofl
0
7
53 0.40 O.flfl
0
8108-111
3808-15!
Bale ! 05:27-28 08/22/90 1600
12:24
09/15/90 1193
8
0.6
6.1
8808-160
Bale 12:33
09/13/90 1153
7
CI
5.7
8809-130
Bale
Bale 15:07
09/11/50 1193
57
5
0.1
1.5
7
Z5 3.28
855
751
0.55 Cflfl
3
1.30 1.96
0.00 69.59 5.39
75Z
36 0.Z7 fl.flfl
0
1.62 1.83
0.00 65.27 15.02
763
0
3.80 1.76
9.00 51.87 8.11
755
0
1.35 3.53
0.00 55.98 23.19
535
3. Ofl CflO
3.00 Q.BO 3.08
217
Cflfl fl.flfl
fl.OO 0.00
3.00 0.30 COO
fl.OO fl.OO O.flfl
8138
0.19 1.92
0.0015.02 6.55
841
0.70 Z.Z6
COO 57.19 6.19
767
15 0.65 O.flO
0
66
112
Possible Tettnanger Type:
Farnesene>Caryophy1lene
yyi>
1990 Bale and 5-Cone finalises at SX Moisture Content (Bale) or Ss Is Basis <5-Cone) as of Hovenber 11 1990 (
Secession
Oil
or Nursery
Hwber
Harvest
19027
fu x Fu-S
21050
Bhil.Vugo
Sale 001:09-12 08/30/90
0
0
10.8
21092
Cascade OF
Haduislanska
Bale 011:09-12 08/30/90
Bale 019:09-12 08/21/90
0
0
0
0
7.6
5.7
0.0
0.0
Yugo 83/150
Yugo 88/187
Bale 201:01-05 09/05/90 1527
Bale 202:01-05 09/06/90 1283
183 12.0
123 9.6
1.1
73
©0.25
(33J0.29
21500
Yugo 88/201
Sticklebract
7501-026
Bale 201:01-05 09/06/90 1220
Bale 229:01-05 09/11/90 2183
Bale 205:12-16 09/10/90 1817
129 10.6
219 10.0
159 10.9
21513
7501-001
Bale 202:12-16 09/10/90 2261
270 12.0
5.8
21363
21369
21370
21103
'•21521?
Date
6 flo H)*B
Lb/ftc Lb/flc J
Sale 033:19-50 09/07/90
0
0 1.3
21111
Identification Type location
Yield Blpr filpha Beta Alpha
I
Ratio CoH
2.9
30 (3jJ
1.3
72
5^'' 38
HSI
nV
flyr
HSI Serein 100a
0.33 0.00
K/C
0,18 3.01
21 0.27.
2.62
2.11-
H/F «)
Hun
Serial
Hufiber
«)
7.32
329 —
2.51-
2.39"7Q.S1 |jV
0.00
3.16
i.10 26.15 28.69
0
0.00
2.26
.93 65.13 7.83
0.00
0
0.00
2.60
1.12 69.79
31 0.28 0.00
0
0.00
3.11
.81 70.32
0.21
0.00
ill
327 ^
57-
128
1.8
66
3.6
71
5.3
65
17 0.29 0.00
0
1.21
2.39
2.21 76.37 1.11- 813
6.1
63
29 0.25
0.00
0
2.01
1.15
1.36 69.79 1.93- 585-
67
32 0.25 0.00
fe^3fc^ffifel£208:Q6r1Q- 09/07/90^ ZQth^.V-• 8, ffiffi&gafrS?
0
0.7?
2.82
2.11 82.65
21 0.33 0.00
0.07
3.2S :
8802-018
Bale 136=32
08/27/90 2132
198
8.2
5.1
22 0.26
60
c
522 S
2.87 3M^2U0,
.73 67.19
F
yi-
171
6.53- 172
2.20— 537
SfrM 3<33
SSi'
0 ' trsfrxsr 1.17 58.3011.56"
0
1.22?3.3S r 2J7 18.88 21.22
8802-019
Bale 136:33
08/27/90 1719
97
5.6
1.2
57
23 0.29
8802-021
Bale 135:38
08/31/90 1706
135
7.9
6.6
55
21
0.21
0
1.75 '3.52
K85 11.11 20.29
8802-027
Bale 136:11
08/27/90 2602
173
6.6
3.9
63
21 0.28
0
1.15 '3.20
2.25 13.56 22.36-
132-W tto
8802-037
Bale 136:51
08/27/90 1719
116
8.3
1.9
63
25 0.26
0
1.99
2.00 59.29 15.15-
186 Ittf *HJlf
190 U\ 1,W
3.19
8S02-012
Bale 137:01
08/27/90 2171
215
8.7
1.8
61
23 0.27
0.00
0
1.68 3.31
3802-015
Bale 137:07
03/27/90 1536
127
8.3
5.2
61
23 0.27
0.00
0
1.35
3.62
1.71 13.82 13.IS
9802-018
Bale 137:10
08/27/90 2688
256
9.5
5.1
61
26 0.26 0.00
0
1.18
3.19
1.71 19.61 17,29-
92
9.0
5.9
61
22 0.26
0
1.70 3,11
2.16 52.67 18.10 -
i9i1,ff MX
0
0.00
3.1?
2.08 23.16 283T-
300 |3,73. M)
3.27
1.70 51.32 17,16-
301 (0,6*1 ^/5T
8802-059
Bale 137:21
08/27/50 1021
8802-061
Bale 137:23
03/31/90
98!
0
8802-061
Bale 137:26
08/31/90 2218
121
5.6
3.8
59
26 0.27
0
1.37
8802-068
Bale 137:30
08/27/90 1661
135
8.1 _ 5.3
60
22 0.25
0.00
0
1.56 3.31
0.65 3.60
IF*
IS
0.00
0.00
8801-003
Bale 137:33
09/07/90 1322
80
6.0
2.9
67
26
0.27
0.00
0
8801-005
Bale 137:35
08/27/90 1152
58
5.0
3.0
62
31 0.31
0.00
0
8301-022
Bale 137:52
09/06/90 1322
17
3.6
3.0
51
23 0.31 0.00
0.55 3.56
1.01
8801-026
Bale 138:01
08/27/90
768
17
6.1
2.8
63
21 0.30
0.00
8805-005
Bale 138:11
08/31/90 2218
133
6.0
5.1
51
21 0.21
0.00
0.00
3.52
mill's} Wf
187 li'll Wl
1.82^32)26.05. mlt,11 7/ft?
1.11 38.25 21.13- 108 |g/ff 5-^7
1.18,33^21.11- '96 1^7, Let
1.30 iTlT 20.60- 167 \54b 5,~)<]
198|ftitf 7,lf
2.62
1.71 11.58 19.11 -*
2.17 12.67 23.81-
208 I0f?7 7,11
3.57
1.71 11.25 19.62-
l9S///*7 Slf0
119 7,?1 lf,W~
8805-013
Bale 138:18
08/27/90 2730
266
9.8
5.6
61
22 0.2?
0.00
1.11
Bale 138:15
08/28/90 2090
196
9.1
1.8
66
21 0.25
0.00
0.83 3.12
4,0 U <ff if
-
3.31
8805-010
KB
2.70 10.20 21.86-
1.92 57.61 15.20——
I.S7 l.X~, ififUt Mi
ft-/
~liti
F
r
* 1S3f#* ll-n
c~ 4h
is*
VO
•Agricultural Chenistry Departnent**Dregon State University»*figricultural Research Service**!! SOept figriculture**Corvallis, Oregon"
1550 Lupulin Sumary as of Hovenber 7, 1551
0
<
Accession
Harvest
or
Nursery Ho Identification Location
1500511
LCx OP
Bate
001:53-54 07/21/90
I
t
Alpha Beta
7.5
62.)
t Alpha Rlplki
* Beta
69.6
Crush
Safe
Pernea -
Calculated
Serial
Ratio Co_H HSI (3 hr) Period bilitv HSI&no Renain H/C Hunber
11
31 0.20 0.52
0.00
O.Ofl
fl.Ofl
fl
0,00
227
0
0.00
323
175
1300611
Hybrid 3 or 4
002;53-51 07/31/90
50.2
70.1
29
38 0.22 0.00
O.flfl
fl.OO
Cflfl
1900711
Br Fav x OP
003:53-51 07/17/50 12.8 41,5
51.5
21
12 0.26 0.00
O.OO
O.flfl
fl.Ofl
0
0.00
1SBA8H
SeMsch x OP
004:53-51
07/27/50
38.0
20,5
58.4
65
25 0.24 0.00
fl.flfl
O.flO
COO
0
0.00
249
1500911
Fu x Fu-S
005:53-51 07/17/50
13.5
55.2
71.7
26
28 0.22 fl.OO
0.00
0.00
0.03
fl
O.Ofl
177
20,2
1531 OH
RedU x Fu-S
006:53-51 07/31/50 50.7
25.9
76.5
68
36 0.24 Cflfl
0.88
0.0(3
O.QO
0
0.00
325
1S036H
LC x Fu-S
007:53-51 07/21/90 23.5
53.7
77.2
30
23 0.20 O.OO
fl.OO
Cflfl
0.80
0
COO
223
1503711
Fu-S x RedU-S
008:53-51 87/12/90 17.3 55.3
73.2
25
25 0.21 COO
0.00
0,00
0.00
0
fl.OO
92
1503911
Fu-S x RedU-S
005:53-51 07/26/90 11,3
31.9
73.7
5?
25 0.24 0.00
0.00
0.00
0.00
0
0.00
245
32,8
1934911
Fu-S x Fu-S
010:53-51
32,8
65.7
50
22 0.21 COO
0.00
O.flO
O.flfl
0
CflO
210
1901111
EGr x OP
011:53-51 07/23/50 17,8 58.1
75.3
23
50 0.20 0.09
0.00
fl.flfl
0.00
0
0.00
206
1901311
BelgBur x Fu-S 012:53-54
07/23/90
43.2
65.8
33-
1? 9.26 O.Ofl
0.00
Cflfl
0.03
0
O.Ofl
174
73.5
55
15 0.24 CflO
0.80
0.00
COO
0
O.Ofl
209
62.9
73.3
15
41
0.13 0.86
fl.OO
0.00
0.00
0
0.00
125
33.5 31.5
74.0
53
41 0.24 O.Ofl
Q.OO
fl.Ofl
O.Ofl
0
0.00
205
016:53-54 07/27/50 37.3 26,9
64.2
53
26 fl.25 0.00
O.flfl
fl.OO
0.00
0
O.flfl
251
0.00
O.flfl
fl
0.00
329
coo
0.00
0
O.Ofl
110
07/17/50
26,6
1501111
Fu x Fu-S
013:53-51 07/23/90 39,0 31.5
13046T1
LC-S x Fu-S
011:53-54 07/13/50 11.0
1504711
Elsasser x Fu-S 015:53-51 07/23/50
1501811
Fu-S x RedU-S
19058M
[a 6r x OP
018;53-54 07/31/50 25.2 15.3
71.1
37
20 0.21 8.28
3.10
19569(1
EKS x Bav-S
015:53-51
07/13/50 33.5 17.3
80.3
41
23 8.21 Cflfl
0.00
150601!
flG x Bav-S
019:53-51 07/17/90 33.1
12.1
75.5
11
32 0.22 G.OO
0.00
0.00
fl.OO
0
0.00
170
19061ft
LGp x Fu-S
020:53-54 07/27/90 22.1
55.3
77.3
28
22 0.20 O.flO
0.00
0.00
0.00
0
0.00
254
1506211
IK x Bav-S
021:53-51 07/27/90 38.1 28.1
66.5
58
22 0.21 COO
0.00
0.00
0.00
0
CflO
258
1908511
Land x(GCxFu-S) 022:53-54 07/16/50 32.3 13.8
023:53-51 07/13/90 33.1 15.3
9P x 51-1?
81.1
40
26 0.20 0.00
0.00
O.flO
O.flfl
fl
0.00
157
73,1
12
31 0.21 0.33
1.00
0.90
0.00
0
0.00
129
I9170M
1517211
Catsfailx13S0SH 024:53-54 07/13/50
30.0
67.2
55
23 0.25 0.34
1.50
0,90
O.QO
0
O.Ofl
111
1517311
Striessx?3-28
025:53-51 07/13/90 31.3 18.3
80.2
39
19 (1.20 fl.31
1.10
9.90
O.Ofl
0
9.00
109
37.2
1S183H
Fux 118
(327:53-54 07/12/50 42.8
38.3
73.1
54
23 0.23 0.00
9.00
fl.OO
0,00
3
0.39
88
210051)
6735-002H
028:53-54 07/17/90 15.8 25.5
71.3
61
19 0.27 COO
0.99
9.99
O.Ofl
fl
0,00
164
2101711
6220-OOSt)
023:53-54 07/16/90 36.?
31.3
68.0
54
33 0.26 0.00
9.90
9.00
0.00
0
0.0(3
150
21018(1
6321 -091M
330:53-51 07/31/50 25.7 17.3
73.0
35
21
0.22 0.00
9,00
0.00
0,09
0
fl.OO
323
21053H
6305-00811
011:57-58 07/26/50 32.5 44.4
76.3
12
25 0.20 O.Ofl
9.90
0.90
fl.OO
0
coo
243
21059M
6321-01 on
012:57-58 07/23/50 18.8 61.6
80.1
23
15 0.19 0.30
3.10
O.OO
0.00
0
0.00
215
21060H
6321-01 in
013:57-58 07/23/50 16.3
52.5
55.4
21
21 0.20 1.01
9.90
0.00
0.00
a
0.00
218
2)0611)
6322-01OH
011:57-58 87/31/50 10.5 58.?
65,3
15
2? 0.20 1.20
0,00
0.00
O.Ofl
0
O.flO
321
2106411
66)1-00211
023:57-58 07/16/50 22.1 55.2
21065*1
07/30/90
2106711
77.6
23
14 0.22 0.09
9.99
0.00
0.00
(3
0.00
143
6616-013(1
012:57-58
56.7
19.3
76.0
75
34
9.99
0.00
0.00
0
fl.OO
308
6616-05111
010:57-58 07/31/50 30.9
32.6
63,5
49
21 0.26 fl.OO
0.00
0.00
0.00
0
coo
326
0.09
fl.OO
coo
0
0.00
275
2106911
6618-0371!
2107211
6620-0281)
2107611
6805-11511
2108711
Yugo 3/3
Yugo 5/9
210881)
0.26 0.31
016:57-58 07/27/50 17.9 21.3
07/16/50 37.9 36.6
020:57-58 07/21/90 16.1 29.8
69.2
63
15 0.31 0,10
74,5
51
43 0.25 COO
0.00
O.flfl
fl.OO
fl
fl.OO
161
75.5
61
31
0.21 0.00
O.Ofl
coo
0.00
0
0.00
225
015:57-58 07/16/90 17.3
68.4
63
15 0.27 9.32
9.99
0.00
0.00
0
fl.OO
144
coo
G
2.78
242
O.Ofl
0
0.00
244
313
043:57-58
21.2
016:57-58 07/26/90 37.2 27,2
61.4
58
11 0.28 0.30
O.flO
0.00
017:57-53 07/26/90 14.6 25.2
65.5
64
14 0.25 Q.35
COO
fl.OO
2109011
Yugo 5/10
Yugo 12/1?
53
11 0.25 9.31
5,59
fl.flfl
coo
0
2.26
7006-0301)
018:57-56 07/31/90 38.5 33.5
017:53-54 07/26/90 47.9 28.5
72.0
2110811
76.4
53
IS 0.25 0.34
6.50
coo
CflO
0
1.35
240
21103)1
7006-09111
008:55-56 07/21/90 50.8 21.3
72.1
70
15 0.26 0.31
9.39
coo
0.00
0
1.22
220
124
2108911
2111011
7007-01811
010:55-56 07/13/9Q 46,6 23.1
75.7
52
23 0.25 0.00
fl.flO
0,00
O.Ofl
fl
2,50
2111111
7007-556H
012:55-56 07/12/90 27.1 12.0
69.1
39
20 0.21 COO
0.00
fl.Ofl
coo
0
2.76
37
211I7H
Nat Uisconsin
014:11-44 07/25/90 Z9.9 36.3
66.2
45
32 0.25 0.37
O.flO
0.00
fl.Ofl
0
0.00
231
21117M
Nat Uisconsin
011:11-11 07/27/90 30.3 32.1
62.1
19
32 0.25 0.11
Cflfl
0.00
a.flo
0
coo
250
Nat Uisconsin
019:57-58 07/21/90
75.8
46
23 0.24 0.33
7.25
coo
O.Ofl
0
(3.05
222
211)711
35.0 48.8
113
-2-
*Agricultural Chenistry Bepartnent**Bregon State University**Agricultural Research Service**!) S Dept Agriculture**Corvalli5, Oregon*
1950 Lupulin Sumary as of Novenber ?, 1551
Accession
Harvest
or
Nursery Ho Identification Location
Date
t
*
I Alpha Rlph 3
Crush
Safe
Pernea -
Calculated
Serial
Alpha, Beta ♦Jeta Ratio CoH HSI (3 hr) Peric* bjlity HSI6no Renain H/C Nunber
2111811
6667-02511
020:55-56
07/26/30 36.2
21)1911
7001-oscn
021:57-58
07/26/90
31.9
68.1
53
18 0.25 fl.38
0 .00
0.00
0.00
0
O.flfl
216
3.4 68.3
72.3
5
95 0.13 0.00
0.00
0.00
0.00
0
0.00
24?
2112911
6803-030H
022:57-58 07/30/90
21130)1
6903-02W
33.5
71.5
53
36 0.25 O.flO
0.00
O.flO
0.00
a
0.00
316
030:57-58 07/16/90 20.2 58.5
78.7
26
15 0.26 fl.GO
fl .00
0.00
fl.Ofl
0
fl.flO
211321!
6903-2311!
032:57-58 07/30/50 27.4
154
69,7
39
2? 0.22 0.00
0.00
fl.OO
0.00
0
0.00
312
36.1
12.3
2113311
6906-09811
045:57-58 03/01/50
49.9
28.1
78,0
64
41
0.23 0.00
fl•OD
O.flO
0,00
fl
0.00
351
2113411
7005-12111
013:55-56
16.2
19.2
65.4
71
23 0.25 0.31
9 99
0.00
0,00
0
0.00
317
121
07/30/50
2113511
7006-43011
033:57-53 07/13/50
39.3
36.0
75.2
52
20 0.26 0.00
0.00
O.QO
O.flfl
0
CflO
2113611
7006-32311
011:57-58
07/15/90
33.3
33.5
72,8
46
1? 0.25 0.00
fl 00
0.00
0.00
0
0.00
119
2113711
7006-3481
813:57-58
07/13/50
32.2 15.1
77.3
42
19 0.22 0.50
fl.00
O.Ofl
0.00
0
0.00
107
2113711
7006-34(81
013:57-58
07/18/90
30.7
16.7
77.1
10, 1? 0.22 0.00
fl 00
O.Ofl
fl.Ofl
0
0.00
179
2114111
6222-001H
014:57-58
07/30/90
27.1
14.4
?1.6
33
27 0.23 fl.flO
fl GO
0,00
fl.OO
fl
fl.Ofl
313
2114111
6222-001H
G11;5?-58 07/31/90 27.5
43.5
71.0
39
25 0.23 COO
0 00
0.00
fl.flO
fl
0.00
318
2117311
7fl09-05?n
101:13-14 07/10/90
41.4
40.2
81.6
51
20 0.23 fl.Ofl
0 00
0.00
0.00
0
0,00
58
2)181)1
Male Conet?
016:55-56 07/16/59
48.1
23.7
78.1
62
33 fl. 25 0,31
5 99
coo
0.00
fl
2.55
142
21)8911
7003-006n
105:11-12 07/19/99
38.1 32.7
70.8
54
29 0.26 0.00
0 Ofl
Cflfl
O.Ofl
fl
O.flfl
57
2119011
7008-01?n
107:11-12
07/10/90
45.1
31.0
77.1
60
45 9.22 fl.flfl
fl 00
O.flO
O.Ofl
0
0.0(3
52
21231ft
S. Afr. HP2/55
026:57-58
08/06/913
36.8
36.5
73.3
50
18 0.24 0.36
0 00
fl.flfl
0.09
0
0.00
359
350
2123611
S Af PH 2/155
028:57-53
08/01/90
21.2
35.8
60.0
10
15 0.26 5.47
0 00
O.flfl
9.90
fl
0.00
2126211
7302-09511
833:53-51
07/30/90
53.2
15.7
74.8
75
2? 0.23 0.15
0 00
0.00
0.0(3
fl
0.00
309
212631
7302-105(1
933:53-51
07/18/90
52,6
20.7
73.3
72
2? 0,25 9.10
0 GO
fl.flfl
0.00
0
0.00
178
2126411
7302-18811
951:53-54 07/27/90
50.1 15.3
65.4
77
22 0.26 0.15
0 00
0.09
0.00
0
CflO
255
2)26511
7303-18511
931:55-56
57.1
21.1
78.5
73
29 0.25 0.35
7 50
9.99
Cflfl
0
fl.flO
130
07/13/90
21266(1
7303-13SM
032:55-56 07/17/9(3 56.7
21.4
78.1
73
29 0.2? 8.35
9 99
9.99
0.00
9
O.QO
165
2126711
7303-13811
033:55-56 07/27/50
15.8
71.1
75
26 0.26 0.35
0 00
0,09
0.00
9
COB
25?
58.6
2) 2681!
7306-013H
048:55-56
07/16/50 54.8
15.4
74.2
71
18 0.26 0.00
0 flfl
0.09
O.Ofl
0
0.00
13?
2126911
7307-02111
051:55-56
07/27/90
13.7
54.5
75
16 0.2? 0.36
0 00
9.99
0.00
0
0.00
256
10.8
2127911
7307-03511
052:55-56
07/31/33
45,5
13.5
65.3
70
13 0.27 0.38
fl 00
9.99
0.00
0
0.00
330
21271(1
7308-099(1
053:55-56
97/30/90
16.1
15,8
62.1
75
20 0.30 O.OB
0 00
0,99
0.00
0
O.Ofl
315
2127211
mum
092:59-69
07/27/99
51.4 22.4
73,8
70
13 fl.25fl.32
0 00
9.90
0.00
0
0.00
266
21273ft
7311-12211
913:59-69
97/30/90
60.6
15.2
75.8
80
25 0.26 0.00
fl 00
0.00
0.00
0
O.OO
30?
54.3
20.4
74.7
73
31
0.25 0.00
fl 00
COO
O.Ofl
0
O.flO
169
07/27/90 17.5 15.1
62.5
76
25 0.30 C10
fl 00
0.00
0.00
0
0.00
270
21271M
7311-1WI
015:59-69 07/17/50
21275ft
7313-01711
923:59-60
21380(1
7006-081(1
115:13-14 07/10/3(3 41.4 36.5
77.3
53
15 0.23 0.35
3 flfl
O.Ofl
O.Ofl
fl
O.flO
47
2130211
7006-18711
117:13-11
07/05/90
10.2
30.1
70.2
57
21
0 00
0,00
fl.OO
0
0,00
11
31.5
43.8
75.3
42
1? 0.23 0.00
0 00
fl.flO
o.eo
0
coo
102
07/05/9(3 38.8 31,5
70,3
55
22 0.23 0.4!
0 00
O.Ofl
0.00
0
0.00
5
75.6
54
16 0.23 0.03
0 00
fl.OO
0.00
0
0.00
216
195
0.24 0.72
2130311
7997-02111
118:13-11 07/12/50
21301ft
7097-25211
119:13-11
21395ft
7007-278M
121:13-14 07/23/50
4fl.9 34.7
21396ft
7613-02511
118:15-16
07/19/50
53.0
17.6
70.5
75
25 0.27 0.45
0 Ofl
0.00
0.00
fl
0.00
21307ft
7613-01211
113:15-16
07/15/50
49.5
15.1
68,6
72
23 0.38 0,44
0 Ofl
0.09
0.00
0
fl.Ofl
194
21308N
7613-0! 4ft
123:15-16
07/19/30 33.0
5.3
42.3
78
1? 0.27 0.38
fl 00
COO
O.Ofl
0
coo
193
213Q9H
7613-105.1
124:15-16
07/31/90
48.9
21.7
70.5
63
19 0.23 0.41
0 00
O.Ofl
0.08
0
0.00
349
2)31)11
7611-10811
118:17-18 07/10/90
53.4 21.0
77.5
69
28 0.25 0.11
0 00
0.00
3.00
0
0.00
40
2131 in
7614-108H
113:17-18 07/11/90
42.4 11.7
57.1
74
28 0.27 0,00
0 00
0.00
0.80
0
fl.OO
60
21313J1
7302-036H
834:53-54 07/16/90 53.2 20.8
73.0
74
23 0.25 0,10
0. 00
0.00
0.00
0
0.00
155
2131111
7302-0631
036:53-54 07/13/50
59.5
22.5
82.8
73
20 0.210,43
0 00
0.00
0.00
0
O.flO
185
21315f1
7302-12511
040:53-54 07/13/90
51.8
21.5
76.3
68
30 0.25 0.36
fl.00
Cflfl
0.00
0
0.00
108
115
21316H
7302-127H
041:53-54 07/13/90 46.5 26.8
73,3
63
25 0.28 Q.43
0 00
0,00
0.00
fl
0.00
2131711
7302-153M
013:53-51 07/17/50
52.2
20.0
72.2
72
26 0.27 0.00
0.00
O.Ofl
0.00
fl
coo
176
2131811
7302-155ft
044:53-54 07/16/90 57.6
21.4
79.0
73
27 0.26 O.flO
0 00
0.08
O.flfl
0
0.00
133
114
115
*flgricultural Chenistry Departnent**Oregon State Oniversity**Agricultural Research Service**0 S Dept Agriculture**Corvallis, Oregon*
1990 Lupulin Sunnary as of Novenber 7, 1551
Accession
Haruest
or
Nursery He
Identification Location
2131 Sit
7302-166tl
045:53-51
tote
07/16/50
I
I
I ffiphc Alpha
Crush
Safe
Pernea -
Calculate d
Serial
Alpha Beta ♦ Beta Rati o CoH HSI (3 hr) Perio 1 bility HSISno Renain H/C Hunber
53.6
19.8
78.5
75
28 9.26 9.99
0.00
0.09
0.00
0
0.00
153
2132011
7302-171(1
046:53-54 07/27/90 13.7
12.3
56.0
73
25 0.23 9.00
O.Ofl
0.00
O.flfl
fl
0.00
260
21321n
7302-171ft
047;53-54 07/30/50 S3.8 23.S
77.3
70
28 0.25 0.00
0.00
0.00
0.00
fl
0.00
311
21323H
7302-131(1
019:53-54 07/17/50
25.7
75.3
66
1? 0.25 fl.Ofl
O.flO
0.00
fl.flfl
0
O.Ofl
166
21324ft
7302-186(1
050:53-51 07/27/50 11.3 17.2
61.1
72
22 0.31 0.00
0.00
0.00
COO
0
0.00
252
13.6
21325ft
7303-009(1
052:53-51
07/13/50 15.6
22.7
72.1
65
22 0.29 0.08
fl.OO
fl.OO
0.00
0
0.00
119
21326ft
7303-11911
031:55-56 07/27/90 13.3
12.1
55.7
73
29 0.28 0.39
O.flO
0,00
0.00
0
0.00
259
123
2) 327ft
7303-159(1
036:55-56 07/13/90 53.1 13.3
77.0
76
32 0.25 0.35
0.00
O.Ofl
fl.OO
0
O.Ofl
2!326tt
7303-16511
037:55-56 07/13/90 55.2
25.2
80.1
69
3B 0.21 0,32
O.flO
O.flO
0.00
0
0.00
120
2132SM
7301-08511
038:55-56
20.5
71.1
72
20 0.25 0.63
O.Ofl
Cflfl
0.00
0
0.00
134
11?
07/16/90
53.6
21330ft
7301-105(1
010:55-56 07/13/90
55.0 22.5
77.6
71
28 0.25 0.35
0,00
O.flO
0.00
0
coo
21331N
7301-123(1
011:55-56 07/16/90 48.4 22.3
70.?
63
23 0.28 8.74
0.00
Cflfl
0.00
fl
O.Ofl
143
21332(1
7301-118(1
012:55-56 07/18/50 50.1 22.5
72.8
65
23 0.25 fl.13
0.00
coo
0.00
fl
0.00
133
21333M
7301-137(1
046:55-56 07/13/50 18.0 21.8
69.3
65
27 fl.26fl.39
0.00
0.00
0.00
0
0.90
126
2133511
730S-Q23M
055:55-56 07/13/90 51.3 23.5
77.7
70
23 9,23 9.35
0.00
coo
0,00
0
9.00
113
2133611
7309-001(1
003:59-60 07/12/90
21337H
7339-031(1
004:59-60
21337(1
7389-331M
004:59-60 07/13/90 54.5
26.0
30.5
68
16 0.23 0,30
2133911
7311-012(1
008:59-60
24.1
70,1
66
30 0,29 COO
2134AM
7311-070(1
009:59-60 07/23/90 6B.2 19.0
78.3
76
29 0.26 0.39
O.flO
2I311H
7311-016(1
01(3:59-60 07/27/90 38.3
12.3
51.8
75
26 0.28 0.88
0.99
O.Ofl
0,80
21312(1
7311-111ft
012:59-60 07/23/90 45.5 18.5
64.0
71
20 0.31 0,00
0.00
COG
0.00
21313ft
7311-135(1
011:59-60
57.3
76
32 0.28 0.00
0.09
0.00
0.03
9
57.8 20.5
78.3
73
23 9.26 O.flO
0.00
O.Ofl
0,00
fl
3.00
131
07/13/50 50.7 21.1
71.8
71
23 0.2? 0,43
fl.Ofl
fl.OO
0.00
0
0.00
116
O.flO
O.flfl
0.00
0
fl.OO
132
fl.OO
3.00
O.flfl
fl
fl.OO
111
0.00
fl.OO
0
O.Ofl
2)2
0
coo
268
9
O.flO
2)3
0.00
265
07/13/90 46.3
07/27/90 13.7
13.5
21311(1
7311-112(1
016:59-60 07/16/90 47.1 21.1
71.1
66
24 fl.28 fl.OO
9.00
0.00
0.00
0
3.09
ISO
213191
7312-017(1
017:59-60
07/27/90
65,3
73
18 9,23 0.90
O.Ofl
0.00
0.00
0
0.9fl
272
18.3
17.5
21347(1
7312-033M
020:59-60
07/12/98
W.5
26.0
70.5
63
25 0.23 0.00
fl.flO
0,00
0.0(3
0
0.00
89
2131Bf1
7312-013(1
021:59-60
07/16/90
52.2 25.1
77.3
68
23 0.25 0.3?
0.00
0.09
0,00
0
CflO
159
21315ft
53.3
9,00
O.Ofl
fl
0.08
263
156
7312-079(1
022:59-60 07/27/90
63.3
.73
25 0.27 0.43
O.Ofl
213S0M
7312-088(1
023:59-60 07/16/90 46.4 13.2
65.6
71
22 0.29 0,09
0.00
fl.OO
0.09
0
0.00
21351M
7313-OISn
026:59-60
48.6 26.3
74.9
65
29 8.23 9,09
O.flfl
O.flfl
fl.OO
0
0.00
172
21352ft
7311-001(1
(330:59-60 07/16/90 17.8 28.3
68.7
73
21 9.28 3.00
0.00
0.00
0.00
0
0.00
115
07/17/90
14.4
21352(1
731H01H
030:59-60
07/16/90
21352H
7311-004(1
030:59-60
07/18/30 13.0
21351(1
7314-023(1
032:59-60
07/16/30 51.3 21,5
21351(1
7311-023(1
032:59-60
07/17/90
50.5 18.9
18,8
21.1
23,8
63.4
73
2? 0.23 O.flfl
fl.OO
O.Ofl
o.eo
0
fl.OO
153
73.3
6?
24 0.2? 8.GG
0.00
9.00
0.00
0
ceo
180
76,8
63
26 0.25 0.09
0.00
O.flfl
9.90
0
coo
138
72.6
67
2? 0.23 0.99
fl.OO
0,00
0.09
0
0.00
171
21355ft
7311-018(1
033:55-60 07/18/50 18.5 22.9
71.4
68
Z6 9.27 9.00
O.flO
0,00
coo
0
O.Ofl
131
21356ft
7311-086(1
031:55-60
07/17/90
53.7 22.3
76.0
71
32 0.26 9.00
fl.Ofl
CflO
coo
0
fl.OO
168
2T357M
7311-109(1
036:55-60
07/13/90
53.7
20.3
74.6
72
33 9.25 0.00
0.05
fl.flfl
O.Ofl
0
Q.OO
128
21358N
7315-031(1
037:55-60
07/27/90 38.0
20.2
58.1
65
23 0.35 COO
0.00
O.flO
0.00
fl
o.oo
2?8
21355ft
7315-051(1
038:59-60
07/27/90
56.1
18.7
74.8
75
30 0.29 0.3?
0.00
O.Ofl
0.00
fl
fl.GO
263
2136011
7506-085(1
011:53-60
07/18/50 18,1
32.5
80.9
60
14 0.22 0.00
0.00
fl.OO
0.09
fl
0.00
186
237
21361n
7506-207M
050:53-60 07/26/50 45.2
24.5
68,7
65
13 0.26 0.38
0.00
0.00
0.09
fl
0.09
21362M
7506-235M
051:53-60
07/17/50 34.3 31.2
65.2
50
19 0.25 0.38
8.00
0.00
9.99
0
fl.Ofl
163
21363ft
7507-107H
052:53-60 07/26/50 50.6 26.6
77.2
66
24 0.23 0.31
O.Ofl
O.flO
COO
0
0.00
231
21361(1
7507-117(1
018:53-80
07/27/50 46,5 17,3
64.5
72
26 0,27 0.00
fl.OO
o.oo
fl.flfl
0
O.flO
261
21364ft
7507-117(1
053:59-60 07/13/90 35.0 18.8
83.7
12
20 0.20 COO
0.00
O.flfl
0.00
0
0.00
131
0.00
0.00
fl
fl.OO
310
271
21375H
7S01-fl1flM
050:57-58 07/30/50 33.3 43.1
76.4
11
22 0.21 0.00
0.00
2137611
7504-104«
052:57-58 07/27/50
25.7 43.8
65.4
37
21
0.25 0.80
0.00
fl.OO
fl.OO
fl
0.00
21377N
7501-124(1
053:57-58 07/27/50 18.3 23.3
42.2
45
21
0.29 0.00
0.00
O.flO
0.00
0
0,00
276
2137811
7506-011ft
055:57-58 07/27/30
75.7
81
26 0.26 0.3?
0.00
COO
0.00
fl
0.00
279
61.0 11.7
116
•Agricultural Chenistry Bepartnent**Oregon State t)niversity*»Agricultural Research Service**0 S Dept Rgriculture«*Coryallis, flregon*
1950 Lupulin Sunnary as of Novenber 7, 1931
Accession
Harvest
or
Nursej^i Ho Identification Location
Date
V
Crush Safe Pernea - Calculated
Serial
I
t Alpha Alpha
HSI
(3
hr)
Period
bility
♦
Beta
Ratio
Cor
HSI6«o
Renain
H/C
Nunber
Beta
JIM
k
21375(1
7506-057(1
011 .-59-60 07/16/30
29.8
33.5
63.3
4?
23 0,21 0,00
CflO
0.00
0.00
0
0.00
135
21380ft
?5Q6-10fltt
046:55-60
07/27/30
47.2
24.1
71,4
66
16 0,26 0.38
0.09
0.00
O.Ofl
fl
O.flfl
26?
21381(1
7506-18211
019:59-60
07/16/30 25.1
51.3
76.7
33
13 0.21 0.31
9.90
O.QO
COO
0
0.00
162
21392(1
6751-098M
109:05-06
07/10/90
25.3
65.7
61
39 0.25 O.flfl
9.99
fl.Ofl
O.Ofl
0
0.00
55
2133811
Yugo
Yugo
Yugo
Yugo
Yugo
021;57-58 07/31/90 12.8 51.3
67,0
19
34 0.20 0.00
0.00
0.00
0.00
0
0.09
324
925:57-58 07/27/50 37.6 15.6
53,2
71
13 0.28 fl.flO
0.90
O.flfl
0.00
0
2.56
277
331
21335(1
2110fln
21181(1
21102M
01P01
07P14
20P03
35P01
10P15
35.5
035:57-58 07/31/90 39.0
35.2
71.2
53
17 0.21 0.36
O.flfl
O.QO
0.00
0
0.31
836:57-58 07/31/90
32.3
28.5
60.3
53
13 0.27 0,38
O.flO
0.00
0.00
0
0.31
332
051:57-58 08/06/50 11.2
21.1
63.2
65
19 0.27 fl.10
0.00
O.flO
0.00
0
0.8O
355
2111511
7(103-86611
113:13-11 97/10/50 15.0
23.3
78.4
63
21
0.24 0,33
0.00
O.flfl
O.flO
0
Cflfl
44
21416(1
7007-275(1
120:13-11
07/11/90
33.2 11.5
74.7
14
20 0.22 O.flO
0.00
0.00
O.flO
0
0.00
62
21417ft
76!fl-112n
113:15-16
07/19/90
57.3
20.5
77.8
74
35 0,25 0.31
fl.OO
0.00
O.Ofl
fl
0.00
4!
2141511
7613-004(1
117:15-16 07/31/90 52.5
20.1
72.5
72
25 0.26 0.35
O.flO
0.00
fl.flfl
0
0.00
344
21420(1
7611-026(1
111:17-18 07/12/90
21421H
7611-017(1
115:17-18 07/19/90 13.5
51.6 25.8
18.7
77.3
6?
29 0.25 fl.34
fl.flO
0.00
CflO
0
O.flO
84
62.5
78
21 0.25 0.42
o.oo
0.90
COO
0
0.00
201
21422(1
7614-05211
116:17-18 07/10/90
58.3
18.7
77.0
76
29 0.24 0.31
O.flO
fl.OO
Q.OO
0
0.00
51
21123(1
?615-154n
122:17-18 07/31/90
46.2
21.0
70.2
66
23 0.26 0.39
0.00
0.00
0.00
0
coo
31?
21424(1
7701-03211
113:19-20 07/09/90
31.6
38.3
70.5
45
32 0.23 fl.OO
CflO
0.00
O.Ofl
0
O.Ofl
12
21124(1
7701-032H
113:19-20
07/12/90
31.2
10,1
74,6
46
33 0.23 O.Ofl
O.flfl
COD
0.00
0
0.00
83
2142511
7702-005(1
111:19-20
07/19/90 20.5
52.3
72.7
28
12 0.23 0.31
Cflfl
o.eo
fl.flO
0
O.flO
137
21126H
7703-031(1
12G:19-20 07/09/90 11.2
37.1
78.3
53
18 0.22 0.3!
O.Ofl
0.00
0.00
0
0.00
25
13.2
26.6
50
21
0.25 1.52
fl.flO
O.Ofl
O.Ofl
fl
coo
10
0.00
3?
2142?n
7704-012(1
122:19-20
07/05/90
13.4
21128,1
7706-040(1
115:21-22 07/10/90 38.3
38.3
77.6
50
31 0.23 0,00
0.0(1
COO
0.00
0
21429ft
7710-033K
119:21-22
07/10/50
27.7
55.0
82.7
33
19 0.20 fl.flfl
0.90
fl.Ofl
0.00
a
0.00
39
21132(1
7715-015(1
115:23-21
87/19/50
28.3
11.1
73.0
10
21
0.22 0.32
fl.Ofl
coo
coo
0
0.00
353
21433(1
7717-013(1
117:23-24 07/10/90
42.2
32.2
74.4
57
23 0.24 0.34
0.99
0.00
CflO
0
fl.Ofl
18
2113111
7717-022(1
118:23-21
07/10/90
37.5
10.7
78.2
18
17 0.22 0.27
O.Ofl
O.Ofl
0.00
0
0.00
31
21435(1
7721-015(1
123:23-24 07/05/50 51.8
23.2
80.3
64
15 0.23 0.30
O.QO
O.flfl
0.00
0
0.00
9
21436(1
7722-015(1
113:25-26 07/05/90
52.8
21,5
77.3
68
11 0.21 COO
O.Ofl
coo
coo
0
coo
13
2143?n
7727-00K1
115:25-26
07/05/50
48.5
28.1
77.6
64
31
0.24 Cflfl
0.90
0,00
O.flfl
0
0.00
14
21438(1
7727-036(1
117:25-26
07/09/90
12.0
21.8
66.8
63
23 0.24 0.35
O.flO
coo
O.Ofl
0
fl.Ofl
1?
21444(1
7302-016(1
033:53-54 07/13/90
51.5
24.6
76.1
68
27 8.25 0.33
O.flO
0.00
fl.OO
0
0.00
105
21116ft
7310-087(1
007:59-60
07/12/90
15.7
26.3
72.5
63
29 0.25 0.00
0.00
fl.OO
O.Ofl
0
fl.Ofl
100
23.7
88.7
71
28 0.23 0.41
0.30
O.QO
O.Ofl
0
O.QO
147
19.2 32.5
81.7
60
23 0,23 COO
0.09
COG
coo
0
coo
182
140
21147(1
7313-098H
029:59-60
07/16/90 57.0
21118M
7506-081(1
043:53-66
07/18/90
21119(1
7506-0961!
045:53-80 07/16/30 44.0
32.0
76.0
58
26 0.23 COO
0.00
0.00
0.00
0
O.QO
21161(1
7613-085(1
122:15-16
07/05/90
18.1
24.0
72.1
67
11 0.2? COO
0.00
O.flO
fl.OO
0
0.00
1
21162H
7703-005(1
113:13-20 07/10/90
45.7
33.9
73.5
57
33 0.23 O.QO
fl.OO
0.00
fl.OO
0
0.00
45
21163M
7717-007(1
116:23-24
07/12/90 17.1
31.1
78.5
60
22 0.24 0.31
O.Ofl
9.00
coo
fl
0.00
85
21161(1
7727-033(1
116:25-26 07/09/90 22.9
54.6
77.5
30
14 CIS COO
fl.OO
0.00
0.00
0
0.00
16
21165n
7301-181(1
032:53-54
21.3
74.1
71
25 0.25 0.36
O.flO
O.Ofl
O.flO
fl
0.00
322
21466H
7302-052(1
035:53-51- 07/18/50 53.3 23.3
77.1
69
20 0.25 0.33
O.flO
Q.OO
Cflfl
fl
0.00
187
21167(1
7302-11*1
012:53-51 07/27/90 33.2 13.3
17.0
71
25 0.3(10.00
0.00
coo
O.OB
0
coo
253
21168(1
7302-02811
053:53-51 07/13/50 52.8 26.5
79.3
67
30 0.25 fl.OO
fl.OO
O.flfl
0.00
0
0.00
1(36
7711-032(1
121:21-22 07/05/90 35.1
31.3
63.5
50
21 C23 0.00
O.Ofl
0.00
fl.Ofl
0
0.00
26
21187ft
07/31/90
53.1
21488(1
7506-16111
047:59-60 07/27/50 41.8
31.4
73.2
5?
18 0.26 O.QO
fl.flfl
0,(10
coo
fl
0.00
273
21189(1
7611-108M
054:53-60 07/27/50 33.6
23.3
63.0
63
13 0.27 0.00
Q.OO
0.00
coo
0
coo
274
21539(1
8303-018(1
123:01-02 07/27/50 33.4 28.3
61.7
54
17 0.27 COO
COO
coo
0.00
0
fl.OO
291
21510(1
8303-106(1
114:03-04
07/27/90
38.3 22.5
52.8
5?
11 0.29 COO
O.Ofl
0.00
O.Ofl
0
coo
290
21sun
8309-027M
120:05-06
07/11/90 32.3 31.1
63.4
51
25 0.26 0.00
0.00
O.flO
Q.OO
fl
0.00
103
117
- 5-
•Agricultural Chenistry Oepartnent**0regon State University**Agricultural Research Service**0 5 Oept Agriculture**CorvalHs, Oregon*
1590 Lupulin Sumary as of Novenber 7, 1991
Accession
t
122:05-06
07/11/90
22.3
Nursery No Identification Location .
21542(1
8308-0-11(1
Crush
Safe Pernea Calculated
Serial
t
XBlpha Alph i
_Pjta_
HSI6no
Renain
H/C
Nunber
Date. JlfiBJ
.iJik .fetioloj HSI (3 hr) Period bility
Harvest
or
28.0
53.3
14
19 0.27 3.09
0.00
0.00
0.90
fl
O.Ofl
77
21513(1
8308-04-7(1
123:05-06
07/19/90
37.8
27.3
65.7
58
18 8,23 8.99
fl.Ofl
fl.00
Q.CO
fl
O.Ofl
204
21541(1
83B8-057f1
125:05-06
07/09/90
33.?
31.4
65.1
52
23 9.25 9.99
fl.Ofl
0.00
CflO
8
0.00
13
21515(1
8308-067(1
126:05-06
07/12/93
37.2
27.3
65.1
5?
13 9.26 0.00
0.00
0.00
0,00
fl
0.00
93
21516(1
8309-003f1
111:09-10 07/05/50 20.7 16.5
67,2
31
15 0.22 0.00
O.Ofl
0.00
0.90
0
O.flfl
8
21517M
8309-001(1
1(5:09-1(1 07/05/50 17.5 44.4
62.0
28
15 0.24 O.flO
0.00
0.00
O.Ofl
0
fl.OO
6
21518(1
3305-918tt
1)6:09-10 07/10/90
41.7
72.3
38
21
0.22 O.flO
O.flfl
0.00
O.flfl
0
0.00
49
21513ft
U An Hun. 135
021:11-41
08/23/90
33.5 45.8
79.4
42
53 0.22 0.00
0.00
fl.00
0.00
fl
0.05
367
21555(1
U An Hun 456
008:39-10
08/20/58
32.7 36. fl
68,8
%
53
0.24 3.00
0.00
0 09
0.00
0
0.19
363
21558ft
U An Hun 159
010:39-48
08/23/30
37.8 33.6
77.3
49
51
0.24 0.00
0.00
9 99
0.00
9
0.02
365
21560(1
U An Hun 501
026:41-44
08/23/30
31.5
48.0
82.5
42
if
0.22 0.00
O.flO
9 00
0.G3
0
1.22
365
21561(1
y An Hun 503
011:39-10
08/20/30
23.5
51.7
73.2
30
61
0.21 0.00
9.90
9 00
0.09
fl
0,02
364
2156311
U An Hun 511
015:39-10
08/15/30
10.9
36.7
77.6
53
13 0.24 0.C0
9.00
0 Ofl
0.00
0
0.59
360
27.6
21571(1
y An Hun 516
031:11-44
07/27/30
39.5 28.5
68.8
58
13 0.26 0.00
O.Ofl
0 00
0.00
0
0.06
261
215?3rt
U An Aim 518
018:39-43
08/15/30
42.1 37.7
73.8
53
11 0.25 0.00
0.00
0 CO
0,00
0
0.02
361
21582M
U An Hun 531
023:33-40
08/23/30
32,4 48.9
81.3
18
46 0.23 O.flfl
O.Ofl
0 GO
COO
0
0.00
368
21567(1
U An Hun 512
038:41-11
08/23/30
30.5 11.3
75,4
10
13 0.23 0.00
CflO
0 00
0.00
0
0.05
366
2158611
y An Hun 513
033:41-11 07/31/30 24.3 53.9
78.2
31
41 0.22 0,90
O.flO
fl 00
0.00
0
0.03
333
21589(1
0 An Hun 511
010:11-11 07/31/33 25.7 19.3
75.8
31
12 9.24 0.09
fl.OO
0 00
0.00
0
0.00
334
21595K
U An Hun 550
001:39-48
63.4
42
43 9.25 O.OO
fl.OO
0 9(1
O.flfl
fl
O.Ofl
356
3.09
9 flfl
0.00
0
0.(1
362
0.23 Cflfl
O.QO
0 00
0.00
0
O.Ofl
15
27
08/06/3(3 26.3 36.7
08/20/30
21601(1
Ii An Hun 565
029:39-10
21603ft
7702-023(1
116:19-20 07/09/90
35.3 38.2
73.5
18
17 0.26 0.00
37.3
75.6
49
30
33,3
21601ft
7722-011,1
121:23-21
07/09/90
31.2
33,2
73.3
1?
31 fl.23 O.flO
CflO
fl Ofl
0.00
0
0,00
21615ft
7303-052(1
055:53-51
07/13/90
51.2 23.1
71.6
68
32 0.26 0.00
fl.Ofl
fl 00
coo
0
CflO
122
51060(1
215-5
002:55-56
07/21/90
10.0
63.3
73.3
11
31 0.20 O.flO
COO
0 08
O.flO
0
O.Ofl
223
07/21/90
51060(1
219-5
003:55-56
30.7 19.5
88.2
38
21
0,20 0.00
fl.OO
0 flfl
0.00
0
0.99
226
5110111
221-2
001:55-56 08/01/90 13,5 61.1
71.5
18
28 0.20 COO
fl.OO
fl 00
0.00
0
9.09
35?
51114ft
221-1
005:55-56
07/13/90
22.0
49.9
71.3
31
18 0.23 O.Ofl
0.00
0 00
0,99
fl
0.00
12?
52010(1
19160 x 8P
006:55-56
07/30/90
7.6
70.1
??.?
10
36 0.18 0.09
0,00
0 00
0.00
fl
0.99
311
97/16/9Q 19.1
31.1
50.1
38
29 9.25 9.00
0.00
0 90
0.00
0
fl.OO
151
97/23/90
50.7
61.8
16
1?
0.26 0.00
0.09
0 00
O.Ofl
9
fl.OO
213
52042(1
15922 x 19315n 007:55-56
52015(1
19063 x QP
009:55-56
11.1
52017ft
19127 x 1317311 011:55-56
97/13/99
32.5
44.7
11.1
12
29 0.22 0.00
9,00
0 Ofl
0,00
0
Cflfl
112
58111ft
BB 321-1,5
97/23/90
21.1
55.5
76.6
28
21 0.20 0.30
0.00
0 flfl
o.oo
0
O.flO
21?
011:55-56
600)3(1
Ariz 1-2
002:11-14
07/25/90
38.5
22.8
61.3
63
58
0.31 0.00
O.Ofl
9 flfl
0.00
0
0.28
233
60013(1
Ariz 1-2
015:55-56
07/26/90 18.1
23.8
71.9
6?
S3 fl.29 0,3?
CflO
0 00
O.Ofl
0
0.00
236
60023(1
Colo 1-1
005:41-14 07/11/90
60023(1
Colo H
017:55-56
07/12/90
26.5 40,1
66.6
10
38 0.26 9.00
0.00
9 00
fl.OO
0
0.30
78
26.2
58.4
15
13 fl.23 0.00
0.00
fl 00
O.Ofl
0
0,90
82
32.2
60026ft
Colo 2-1
007:11-14
06/25/9Q 27.1
40.3
67.4
4fl
5?
0.25 0.80
0.00
9 00
O.flO
0
9,00
3
60026(1
Colo 2-1
007:11-11
07/11/90
21.5
21.2
42.8
50
58 C28 COO
9.90
0. 90
O.flfl
0
1.30
79
60026M
Colo 2-1
018:55-56
06/25/90
29.7
40.3
70.6
42
56 0.24 O.Ofl
0.90
9 00
fl.OO
0
0.00
2
60028(1
Colo 2-3
009:11-11 06/25/90 25.8
37.5
63.7
11
13
0.26 9.00
0.09
9. 00
0.09
fl
fl.flO
1
60028(1
Colo 2-3
009:41-11
07/11/90
35.8
30.3
70.1
5?
49 0.26 O.flO
9.00
0. 00
9.00
fl
0.13
80
60028(1
Colo 2-3
019:55-56
07/12/90
39.9 29.1
69,0
58
13 0.26 0.00
0.99
0. 00
O.flO
0
O.OO
86
60031N
Colo 4-1
018:11-41 08/06/90 35,7 42.5
78.2
46
36 0.23 CflO
0.09
9. flfl
0.00
0
0.00
357
63011M
15012 x 19011(1 022:55-56 07/16/90 25.0 19.0
74.0
31
16 0.22 O.Ofl
9.09
0. 00
coo
fl
COO
11b
63012M
BG x 58015ft
023:55-58
71.0
71
50 0.2? 0.00
fl.OO
0. 00
O.QO
0
0.00
133
63013M
BG x 5801Srt
021:55-56 07/17/90
76.0
58
15 0.25 O.Ofl
Cflfl
fl.00
0.00
fl
0.00
173
63011ft
BG x 58015M
025:55-56 07/13/90 42.8
73.9
58
45 0.24 0.00
fl.OO
fl.00
0.00
0
O.QO
131
Q.OO
0
0.00
211
0,00
0
O.Ofl
07/16/90
50.5 20.5
11.3 31.7
31.1
58.8 21.2
80.0
73
23 0.25 0.30
COO
0. 00
027:55-56 07/12/90 46.0 22.4
68.1
67
53 0.27 0.00
fl.OO
0. 00
63015(1
BG(BB x 19062(1) 026:55-56 07/26/90
63016(1
BS x 58015(1
38
-6-
*Agricultural Chenistry Oepartnent**0regon State yniversity**flgricultural Research Service**U SDept Agriculture**Corvallis, Oregon*
135Q Lupulin Sunnary as of Novenber 7, 1531
Accession
Harvest
>r
Nursery_Np__Uentjf ication Location
'
Bate
I
t
Alphe Beta
t Alpha Alph i
Crush
♦ Beta Ratio CoH
Safe
Pernea -
Calculated
Serial
HSI (3 hr ) Period bility HSI6no Renain H/C Nunber
63017ft
BS<BG x 190621) 028:55-56
07/12/90
37.0
23.8
66.0
56
22 0.27 0.36
0.00
O.flO
0.00
0
O.QO
81
61027(1
BG(BG x 13fl62M) 033:57-58 07/16/90
54.8
14.3
63.1
79
36 0.28 0.00
COO
0.09
0.00
0
O.flfl
152
6102711
BG(B6 x 198621) 833:57-58 07/18/3!) 15.2 27.8
73.0
62
35 0.25 O.Ofl
COO
0.00
coo
0
0.00
184
61028(1
BG(BG x 190621) 034:57-58 07/16/50
34.7 22.0
56.6
61
20 0.28 COO
0.00
0.00
0.00
0
0.00
136
45.0 33,7
78.7
5?
24 0.25 0.00
fl.OO
fl.OO
0.00
0
coo
235
7.6
23.7
31.3
24
33 0,38 fl.OO
O.flfl
O.flfl
O.Ofl
fl
0.00
232
07/26/50 23.5
44.1
67.6
35
21
0.08
O.flO
0,00
0
2.96
23B
61031ft
BS(B6 x 190621) 037:57-53 07/26/50
51932ft
Zattler 2L1180P 029:55-56 07/26/50
61933(1
Zattler 2L1180P 030:55-56
61931(1
Zattler 2L1160P 001:57-58 07/26/50 34.3 21,3
56.2
61
16 0.31 0.00
0.00
0.00
fl.flO
9
0.00
233
61935ft
Zattler 7K1910P 002:57-58 07/21/50
71.6
55
1? 0.23 0,80
COO
O.flfl
0.00
0
3.19
229
35,3
32.2
0.22 0.38
61036(1
Zattler 7K1910P 003:57-58 07/26/50 22.0
53,1
75.2
23
21
64037ft
Zattler 7K1910P 001:57-58
27.!
17.3
71.9
36
23 0.21 1.20
611311
Uye
Uye
Uye
Uye
Uye
Uye
611021
'
61103(1
|
6110111
|
61105(1
61105)1
No. 15
Ho. 321
9B 73
(1/56/288
15/56/118
15/56/113
07/21/50
0.19 1.48
fl.Ofl
Cflfl
O.Ofl
8
2.83
218
fl.flfl
0.00
0.00
fl
3.24
221
005:57-58 07/24/90
40.7
22.4
63.1
64
13 0.26 0.41
0.00
Q.OO
0.00
0
3.19
221
806:57-58
35.1
32.7
71.8
54
40 0.21 fl.flfl
fl.OO
0.00
0.90
0
1.85
113
007:57-58 07/12/90 36.3
33.5
71.8
48
11 0.22 0.90
O.Ofl
COO
0.99
0
2.34
93
53.6
64
26 9.31 9,99
0.00
0.00
0.09
9
2.53
327
07/13/90
008:57-58 07/31/90
009:57-58
31.1
07/16/90 33.5
009:57-58 07/17/90
39.7
19.2
34.4
72.8
53
46 0,23 0.00
O.GO
O.Ofl
9.90
0
2.11
HI
35.1
75.0
53
4? 0.23 0.00
fl.flfl
0,00
O.Ofl
0
0.00
167
i
65031ft
Ha(Ha x 13010ft) 033:57-58
07/26/50
14.1
35.6
43.?
28
22 9.28 8.87
0.00
9.90
O.Ofl
fl
O.flO
239
|
i
!
|
65037(1
6752-0701
6755-0151
7314-106(1
Ha(Ha x 190101/ 010;57-58
08/06/30
27.8
11.6
72.5
38
22 0.26 0.32
0.00
0,00
0.00
0
COO
351
)0?:07:08
07/19/98
14.6
15.7
60.3
74
31 0.27 0.00
0.00
0.00
fl.OO
0
0.00
53
108:07-08
97/10/99 31.?
37.2
68.9
16
19 0.23 0.00
Cflfl
0,00
0.00
0
0.00
56
8301-0111
113:01-02
8301-9311
113;3?-08 07/31/99 35.5 4-3.3
8391-0731
116:01-02
035;53-60 97/31/99
13,5
21,3
64,8
6?
19 0.25 0.00
fl.OO
O.flO
fl.Ofl
0
0.00
328
98/06/90
31.2
50.5
81.7
38
20 0.20 0.80
O.flfl
O.flO
O.flO
fl
0.00
358
97/27/90 25.0
37,3
73.2
45
17 0.22 Q.OO
O.flO
0.00
0.00
0
O.Ofl
310
66,3
44
1? 0.23 O.Ofl
Cflfl
0.00
O.flO
0
0.00
291
3302-0031
118:01-02
07/27/90 16,3
36.3
52,6
31
22 0.25 0.00
0,00
0.00
coo
0
3.00
258
8302-9971
118:07-08
07/31/90
21.3
13.8
65,1
33
25 0.24 COO
COB
0.00
0.00
0
COO
338
8392-0951
113:01-02 07/27/90
27.8
31.4
53.2
47
18 0.25 0.00
O.flO
coo
O.Ofl
fl
fl.OO
288
8302-9171
120:01-02
07/19/90 18.5 11.6
63.1
23
14 0.25 COD
fl.Ofl
0.00
0.00
fl
0.00
138
8393-9921
121:01-02
07/15/50
25.4 15.6
71.0
36
13 0.22 fl.Ofl
O.Ofl
coo
O.QO
0
Cflfl
189
8393-9141
122:01-02
07/27/58
24.7
30.2
54.9
15
17 0.27 0.00
fl.OO
0.00
O.flO
0
fl.OO
296
|
8393-0211
124:01-02
07/27/50 23,7 11.2
64.9
37
17 0.25 0.00
0.03
0.00
O.flO
fl
0.00
297
1
3303-0311
125:01-02
07/15/90
70.?
36
15 0.23 0,0(1
0.00
0.00
0.00
fl
coo
190
25.3
15.1
8303-048(1
121:07-08
07/19/33
31,8 27.5
58.5
53
14 0.27 COO
0.00
0.00
0.00
fl
fl.OO
283
8303-0791
128:01-02
07/27/90
33.3
59.2
57
20 0.29 0.00
0.00
coo
fl.OO
a
0.00
295
1
8383-0801
113:03-04
07/27/30
26.5
20.1
46.9
56
20 0.32 0.00
O.flO
0.00
0.00
0
0.00
282
;
8301-0011
115:03-01
07/11/90
20.8
10,8
61.6
31
17 0.26 fl.OO
0.09
Cflfl
0.00
0
Q.OO
70
8301-01OH
116:03-34 07/27/30 27.8
26.7
54.5
51
20 0.30 0.00
O.flO
CflO
0.00
fl
fl.OO
281
1
8381-0131
117:03-01 07/27/90 17.5
39.8
57.7
31
23 0.26 0.00
O.Ofl
Cflfl
0.00
fl
COO
233
I
8384-02W
118:03-01
07/27/90
24.1
39.5
63.6
38
1? 0.25 0.00
0.00
Cflfl
0.00
0
0.00
292
'
8301-03.31
120:03-01
07/31/50
30.8
38.3
65.2
15
15 0.24 0.00
fl.OO
O.flO
O.flO
0
0.00
335
\
8301-0361
121:03-91 07/31/50 35.8
36.7
72.5
43
16 0.25 COO
fl.flfl
O.Ofl
O.Ofl
fl
O.Ofl
336
8301-0761
123:93-01 07/11/50
25.5 33.8
59.3
13 0.28 0.00
O.Ofl
COO
0,00
0
o.eo
71
I
25.3
43
8301-088(1
121:07-08
07/12/50 23.8
33.1
57,2
42
18 0.26 0.00
O.flfl
coo
O.flfl
0
0.00
95
8305-0061
121:03-01
07/27/90
12.1
80.1
47
17 0.27 0.00
0.00
0.00
COO
fl
0.00
287
3?.?
8306-0051
126:07-03 97/11/90 23.3 30.2
B307-002ft
111:05-06 07/12/90
31.9
35.0
59.5
49
13 0.28 0.00
0.00
0.00
0.00
fl
coo
59
66.3
48
16 0.26 0.00
0.00
coo
O.flO
0
0,00
90
8307-004n
115:05-06 07/19/90 33.6 27.1
65.7
59
13 0.27 0.00
coo
0.00
O.flfl
0
O.flfl
199
8308-01 on
117:05-06 07/27/90
41.7
23.1
64.8
64
16 0.23 0.00
coo
coo
0.00
0
coo
303
8303-0111
118:05-06 07/27/50
31.8
26.3
58.0
55
20 0.31 0.00
0.00
coo
O.Ofl
fl
O.Ofl
302
118
- 7-
119
*Agricultural Chenistry Departnent**Oregon State Univer5ity**Agricultural Research Service**!) SDept Agriculture**Cnrvalli5, flregon*
1550 Lupulin Sunnary as of Novenber 7, 1951
Harvest
Accession or
Nursery No Identification Location
Date.
t
I
t Alpha filphti
Crush
Safe
Pernea -
Serial
Caki lated
Alpha Beta * Beta Rati ! CoH HSI (3 hr). Period bility HSI6no Rena ,n H/C Nunber
8308-0111
119:05-96 07/11/99
28.1
57.8
50
23 0.26 COO
O.GO
0.00
fl.OO
0
o.eo
6?
8308-9511
127:97-03 97/11/99 30.1 31.6
61.8
49
23 0.24 0.00
0,00
0.00
fl.OO
0
Cflfl
65
8398-0511
128:07-08 07/11/90 33.3 30.1
63.7
52
19 0.21 0.00
Cflfl
COO
0.09
9
0.00
71
8308-051(1
128:07-98
32.0
71.2
55
19 0,25 O.QO
O.flfl
0,00
O.Ofl
9
Q.OO
306
8308-0561
121;05-06 07/31/90 38.4 28.2
66.6
53
14 0,27 0.00
Cflfl
O.flO
0.00
9
CflO
33?
8308-11681
127:05-06 07/27/99 37.7 30.2
67.3
55
13 0.26 0.00
0.00
O.flfl
O.Ofl
fl
O.flO
301
8309-020(1
113:07-03
97/12/99
28.1 25.7
53.8
52
18 fl.27 COO
fl.OO
0.00
COO
0
fl.OO
96
3305-0251
111:87-08
97/27/99
20.5 25.1
45.6
45
16 0,29 0.00
0.00
fl.flfl
O.Ofl
0
fl.OO
300
51
07/27/90
23.6
39.2
8305-026(1
105:03-01 97/19/90
13.5 35.6
55.1
35
20
0.26 0,00
0.00
0.00
0.00
0
0.00
8305-0261
115:07-03 97/95/90
24.0
42.0
66.1
36
21
0.25 fl.Ofl
0.00
coo
fl.OO
9
O.Ofl
7
8305-0281
116:07-08
97/10/90 18.6
32.0
50,7
3?
13 0.25 fl.OO
O.flO
coo
COO
9
COO
50
8309-9321
117:07-08 07/11/50
27.8 42.3
70,1
1fl
23 0.23 COO
Cflfl
O.flO
0.00
9
fl.flO
64
8181-3371
117:09-10 07/31/90
25.0
42.0
67.0
37
15 0.25 COO
0.80
0.00
coo
9
O.Ofl
316
8401-0931
118:09-10
07/10/90
16.3
35.8
56.7
3(3
17 0.23 0.00
0.00
O.flO
0.00
9
O.flO
13
8101-1051
119:09-10
07/31/90 28,7
35.0
63.7
15
1? 0.29 COO
COO
coo
CflO
9
fl.OO
343
310!-1901
120:09-10
07/13/90
28,6
33.3
62.3
16
16 0.25 O.QO
0.80
O.flO
O.Ofl
0
O.flO
202
0.00
19?
8102-0891
121:09-10
07/19/90
67.6
53
16 0.26 0.00
COO
0.00
0.00
9
8192-1021
123:09-10
07/31/90 14.1
25.7
63.7
63
16 0.27 O.flO
O.Ofl
0.00
fl.flfl
0
O.Ofl
339
8102-1211
121:09-10
07/23/90
31.3
71.3
56
18 0.2? COO
0.00
0.00
coo
0
0.00
208
8102-1721
125:09-10
07/23/90
38.8 25.0
63.8
61
13 0,27 CflO
fl.OO
o.oo
0.00
fl
O.flO
214
8183-015(1
126:09-10
07/31/90
36.3
68.3
51
12 0,26 O.flfl
0.00
COD
O.flO
0
O.flO
311
10.0 27.6
10.1
31.1
3103-8271
127:09-10
07/23/90
33.5 35.5
73,1
16
13 0.24 fl.OO
0.00
coo
O.Ofl
9
COO
207
8103-0281
128:09-10
07/27/90
3?,? 31.3
72.0
52
16 0.25 0.00
0.0Q
0.00
0.00
9
0.00
301
33.4
71,7
53
15 0.27 0.00
0.00
coo
0.00
9
O.GO
138
30.3 27.4
57.?
53
16 0.30 0.00
CflO
Cflfl
O.flfl
9
0.00
312
8103-072(1
113:11-12
07/19/90 38.3
8103-1151
111:11-12
07/31/90
8104-0331
115:11-12
07/19/90 37.6
28.6
66.2
57
15 0.26 Q.OO
0.00
fl.OO
0.00
0
fl.OO
200
8101-0171
116:11-12
07/27/90 13.1
31.7
51.1
36
19 0.24 0.00
O.Ofl
fl.OO
coo
0
O.Ofl
235
9101-0751
117:11-12
07/19/90
25.3
39.4
65.4
'18
15 0.26 0.00
0.00
O.Ofl
0.00
fl
O.Ofl
191
8104-0921
118:11-12
07/19/90
21.3 13.4
64.6
33
11 8.22 0.00
fl.OO
0.00
O.flfl
0
0.00
196
8131-1281
119:11-12
07/12/90
26.1
25,3
51.9
50
15 0.31 fl.Ofl
COO
fl.flO
0.00
9
fl.OO
91
8105-0091
123:11-12 07/27/50 36.1
28.8
65.2
56
19 0.28 0.00
O.flfl
fl.OO
O.flO
9
fl.OO
284
3195-0131
120:11-12
07/10/50
32.1
35.0
67.1
48
20 0.26 O.flO
0.00
fl.OO
0.00
0
0.00
46
8105-0621
121:11-12
07/23/50
38.8
31.3
70.2
55
15 0.28 fl.flO
O.Ofl
O.QO
0.00
9
o.oo
211
8106-0061
122:11-12
07/11/50
41.6
28.3
70.5
53
20 0.24 0.00
fl.Ofl
O.Ofl
fl.OO
0
coo
65
8106-0091
123:11-12
07/31/50
38.1
28.3
66.3
57
18 0.26 0.00
O.flO
Q.OO
coo
0
0.00
315
8436-0231
121:11-12
07/27/50
36.8
23.4
60.2
61
17 0.27 0.00
fl.OO
coo
Cflfl
0
fl.flfl
236
8106-0321
125:11-12
07/27/50 36.1
22.9
59.0
61
18 0.32 0.00
coo
coo
0.00
9
0.00
283
3106-0371
126:11-12
07/12/50
36.1
27.4
63.6
57
13 0.25 0.00
O.flO
O.flfl
O.Ofl
fl
0.99
54
8406-0601
127:11-12
07/12/50
23.3
35.8
55.)
33
13 0,25 COO
0.00
0.00
COO
0
9.00
8?
8196-6731
128:11-12
07/11/50
37.6 31.2
71.8
52
18 0.24 0.00
coo
O.Ofl
O.Ofl
0
9.99
66
68.3
18
20 0.24 0.00
O.flO
0.00
O.Ofl
0
9.00
72
60.7
43
18 0.25 O.QO
fl.flO
O.Ofl
O.flfl
0
COO
63
O.Ofl
0
COO
61
8108-0351
125:13-11
07/11/90
33.1 35,3
8108-05*1
126:13-14 07/11/50
26.3 34.4
8108-110(1
127:13-11 07/11/50 33.9
28.3
62.2
55
19 0.26 0.00
0.00
coo
8108-1231
128:13-14 07/31/SO 26.5
36.7
63.2
42
1?
0.27 0.00
O.Ofl
fl.GO
0.00
0
0.00
318
3109-011(1
125:15-16 07/27/90 23.5 38.1
61.7
38
13 0.26 0.00
0.00
0.00
O.Ofl
0
0.00
289
8403-0171
126:15-16 07/27/90 24.3 36.1
60.4
40
18 0.27 0.00
COO
O.flfl
coo
0
0.00
280
8189-0611
127:15-16 07/27/90 32.9 23.4
56.3
58
16 C27 0.00
0.00
0.00
O.flO
fl
0.00
299
8410-0901
126:17-18 07/11/90 16.5 33.0
55.6
38
18 0.27 O.DO
0.00
O.flO
0.00
0
fl.OO
68
8111-0041
128:17-18
36.1 10,6
77.1
47
2? 0.23 CflO
0.00
fl.OO
0.00
0
0,00
28
8111-0211
125:13-28 07/05/50 20.9 52.3
73.2
29
14 0.21 0.00
O.flO
fl.OO
O.Ofl
0
0.00
19
07/05/50
120
Agricultural Chenistry Bepartnent**Oregon State flniversity»*Bgricultural Research Service**ll SDept Agriculture**Corvallis, Oregon*
1350 Lupulin Sunnary as of Novenber 7, 1551
Harvest
Accession or
Nurserv No Identification Location
Date
*/
Crush Safe PerneaCalculated
Serial
3! Alpha Alphc
I
Alpha Beta t Beta Rath CoH HSI (3hr) Period bility H5I6m> Renain H/C Nunber
35,5
75.5
53
13 0,24 COO
0.00
0.00
0 Ofl
B
O.flfl
33.9 lfl.9
74.3
45
18 0.22 0.00
0.00
fl 00
0 00
0
0 00
75
8411-9831
128:15-28 07/11/90 38.8
43.2
82,0
47
20 0.21 0.00
0.00
fl 00
fl flfl
fl
0 00
73
8411-0991
72.3
52
22 0.24 0.35
fl.OO
8 flfl
0 03
fl
0 00
20
8411-1841
125:21-22 07/09/50 37.5 31.7
126:21-22 07/05/50 11.2 36.2
77.4
53
22 0,24 0.00
0.00
0 00
0 00
0
0 00
23
8111-1711
127:21-22 07/27/90 37.9 29.0
66.8
57
18 0.30 0.39
9.00
0 00
0 00
fl
0 00
305
31
07/09/80
8411-0691
126:13-28
8411-0861
127:13-29 07/11/90
39.9
22
8411-2031
128:21-22
07/09/90
11.2
30.6
74.7
59
19
0.24 0.00
COO
9 GO
0 00
B
0 00
8411-2151
125:23-21 07/09/90
12.3
37.3
79,6
53
21 0.22 0.39
fl.flfl
0 Ofl
fl GO
0
0 00
21
8111-2171
126:23-21
07/09/50 19.2
31.8
80.9
61
2? 0.23 0.20
0.00
0 00
0 00
0
0 00
24
40.5
39.6
80.1
51
21 0.22 0.4(3
0.00
0 00
0 00
0
13 00
30
07/11/50 12.0
31.7
76.7
55
18 0.24 0.33
0.00
0 00
0 00
fl
0 Ofl
76
8411-2361
127:23-24 07/05/50
8111-2691
128:23-24
8411-2631
118:25-26
07/lfl/SO 42.2
31.8
77.0
55
17 0.22 0.34
0.00
0 00
0 Ofl
a
o 00
42
8112-6971
119:25-26
07/10/90 31.0
29.6
60.8
51
24 0.25 0.10
coo
0 00
0 00
0
0 00
33
8412-0141
120:25-26
07/10/90 38.2
10.1
78.3
43
22 0.22 0.03
O.Ofl
fl 00
g 00
0
0 00
32
8412-8571
121:25-26
07/10/90 38.3
11.2
79.6
48
17 0.22 fl. 30
COO
0 00
0 00
0
0 00
36
3112-1181
122:25-26 07/10/90
13.6
74.8
42
26 0.22 O.QO
fl.OO
0 Ofl
fl 00
fl
0 00
38
8112-1191
123:25-26 07/10/90 29.3 13.9
73.2
10
20 0.22 COO
fl.OO
fl flfl
0 00
0
0 00
35
3112-1931
124:25-26 07/09/90 36.0 413.5
?6.5
47
18
0.00
0 flfl
0 00
0
0 00
23
31,2
0.23 0.33
121
ft CUA/Vvooid
03/05/91
PAGE:
ANNUSE^I^SEHRCaiPRbG^'ssSREPORT4
Accession:
0141065
Mode Code:
5358-05-00
Title:
Year: 90
STP Codes:
Project Number: 5-3^8.-?260ff£^i^0^
2.2.04.1.n
100%
IMPROVED HOP GERMPLASM, VARIETIES, AND
PRODUCTION PRACTICES
Period Covered
From:
""''
'
-----
-. ..
by: Alfred Hauno d
Res. Geneticist and proj.leader
01/90
To:
12/90
Corvallis,OR.97331
Progress Report
The Hallertauer-type triploid aroma selection USDA 21456 was eliminated
from commercial testing because of disappointing trial brewing results.
Trial brews were satisfactory for Mt. Hood (USDA 21455), 21457, and
21459. All 5 remaining triploid selections (21457, 21459, 21490, 21491,
and the recently planted 21484) were harvested. Commercial brewing trials
are planned for early 1991. Ten early flowering triploid hop pollinators
with Hallertauer background were released as yield stimulators.
The
special aroma hop USDA 21120 was harvested from a 2-acre commercial plot.
An additional 4 acres of USDA 21120 was planted near St. Paul, OR.
Single
plants from the "89-Nursery" (diploid x tetraploid Tettnanger-type
crosses) and low alpha/high beta genotypes (backup for 21120) were
harvested. Tettnanger A and B (21496, 21497) had disappointing yields in
commercial Oregon plots. Crosses between tetraploid or diploid Saazer,
respectively, and selected males were made.
Native North American hops
collected since 1933 were evaluated for agronomic and quality traits.
A
new nursery of 328 Wild (native) American seedlings from 1989 collection
trip to North Dakota and Saskatchewan and Manitoba, Canada was
established.
Over 700 females, 350 males, and 140 essential oil samples
were analyzed to support the hop breeding and genetics program.
Publications:
01. HAUNOLD, A. and NICKERSON, G.B. 1990. Registration of Mt. Hood hop. Crop
Science 30:423.
02. HAUNOLD, A. and NICKERSON, G.B. 1990. Mt. Hood, a new American noble aroma
hop. Journal American Society of Brewing Chemists 48:115-113.
03. HAUNOLD, A. 1990. Development of hop varieties. Zymurgy 13:15-23.
Approved:
W. RALPH NAVE
Title:
ASSISTANT AREA DIRECTOR
Date:
02/91
122
DATE (Day. Mo
U.S. DEPARTMENT OP" AGRICULTURE
RESEARCH WORK UNIT/PROJECT DESCRIPTION • PROGRESS REPORT
03
U.S. OEPT. OF AGRICULTURE. STATE AGRICULTURAL EXPERIMENT STATIONS AND OTHER INSTITUTIONS
I . ACCESSION NO.
0025152
CSRS
ORE
0000
OCT
90
TYPE/GRANT NO.
i. WORK UNIT/PROJECT NO.
AGENCY IDENTIFICATION NO.
HATCH
ORE00036
.Statp
£P.I? report I Drpqnn)
BREEDING, GENETICS, PATHOLOGY, CHEMISTRY AND CULTURE OF HOPS
12. INVESTIGATOR NAME(S(
8. PERFORMING ORGANIZATION
CROP
1. HAUNOLD
SCIENCE
AGRICULTURAL EXPER.
OREGON STATE UNIV
CORVALLIS
OREGON
2, NICKERSON
STATIQN
G
8
3.
30. EST MATED TERMINATION 8*. PERIOD COVERED (A/o.. Yr.i
97331
e
a
FROM
D^30 JUN 92
01 90
THRU:
12 90
S5. PROGRESS REPORT
USDA 21456, a Hallertauer-type triploid selection was discarded. The remaining 5 triploid
selections (21457, 21459, 21490, 21491 and the recently planted 21484) were harvested.
All except 21491 produced very good yields. Commercial brewing trials are scheduled. Ten
early flowering triploid hop pollinators with Hallertauer background were released as yield
."Stimulators. The special aroma hop USDA 21120 was harvested from a 2-acre plot.
Another
4-acre plot of 21120 was established near St. Paul, OR. Single plants from the '89-Nursery
(diploid x tetraploid Tettnanger-type crosses) and low alpha/high beta genotypes (backup
for 21120) were harvested. Tettnanger A and B (21496, 21497) had disappointing yields 1n
commercial Oregon plots. Crosses between tetraploid or diploid Saazer,respectively, and
selected males were made.
Native North American hops collected since 1983 were evaluated
for agronomic and quality traits.
Anew nursery of 328 Wild (native) American seedlings
frcm a 1989 collection triplto North Dakota and Saskatchewan and Manitoba, Canada was
established. Over 700 females, 350 males and 140 essential oil samples were analyzed to
support the hop breeding and genetics program.
HAuffoLD, A., and G. B. NICKERSCN. 1990. Registration of Kt.Hood Hop.
57. PUBLICATIONS
HAUNOLD, A.,
HAUNOLD, A.
Crop Science 30: 423 j
and ?i. 8. Nickerson. 1990. Mt.Hood, a new American noble arena hop.
Journal American Society of Brewing Chemists 48: 115 - 118.
1990.
Development of hop varieties.
Zymurgy 13:
15 - 23.
Q$L)\ axm^Xft pjjqi i Aaoo.
123
Posted: Thu, Aug 16, 1990
12:47 PM PDT
From:
HJBROOKS
To:
AD.PWA, LC.CORVALLIS
CC:
HJBROOKS
Msg: KGJA-3021-4907
/
t\ ^, ^/'Z^^fO
Subj : Termination of CWU 5358-22000-001-00D
August 16, 1990
SUBJECT:
Termination of CWU 5358-22000-001-00D entitled
"Improved hop germplasm, varieties, and production practices"
TO:
W. G. Chace, Director, PWA
Ronald Welty, RL, National Forage Seed Production
Research Center, Corvallis, OR
A. Haunold, Corvallis, OR
FROM:
Howard J. Brooks /s/
National Program Leader
Horticultural and Sugar Crops
The subject CWU is scheduled to terminate March 31, 1991. Inasmuch as a CWU
cannot exceed 5 years in duration, we need to decide if the research is to be
modified, redirected, or terminated.
At the beginning of this review process,
we would like to have your views on how these funds could be used if the
decision is made to continue with this research.
It would be desirable to
have a single response representing the views of the scientist(s) and the
research leader. In your response, please consider the following:
1.
2.
Specific problem(s) to be addressed.
Specific research objectives.
3.
4.
Source of level of funds available.
Number of SY's to be committed to this research.
5.
6.
Proposed commodity code.
Proposed strategic plan code.
Call me if you wish so we can discuss your proposed research but I will still
need a written reply. Since we are required to have your reply sent by
telemail, please reply to HJBROOKS by September 7, 1990.
Action?
Vuj
/^ _^^
" / tf&*t.
.s . £&£*
/p,a. <^
^J *&*+e&~*~
^Jk^ - *>f k~~ ^<- 4^^^"'
t ^
s*~~ ^^~
/^
5M k^titfr* Utfx-
CiZPrX
^ ~kh^^ 124
1- :u-<?<j
A. Haunold
FROM:
THROUGH:
R. E.Welty, RL
TO:
Howard J. Brooks
CC:
ADPWA, NFSPRC
3oi
o
MM •
1:H2
h\.ci,K>^-<f'>
SUBJECT- Termination of CWU 5358-22000-001-00D entitled IMPROVED HOP
GERMPLASM, VARIETIES, AND PRODUCTION PRACTICES
The following information is provided in response to your telemail message
dated August 17 1990, concerning the subject CWU. We recommend the
present CWU be terminated and be'replaced with two different and updated
objectives.
RESEARCH OBJECTIVES AND PROBLEMS TO BE ADDRESSED
1
Evaluate, expand, and upgrade the existing USDA clonal hop germplasm
collection with special emphasis on native North American (wild) hops
collected during the past five years in the Rocky Mountain states,
the U.S. Midwest, and in Saskatchewan and Manitoba, Canada.
2
Continue the present work with aroma hops using the polyploidy
3
Serve as curator of USDA hop germplasm for the National Clonal
approach to develop noble aroma hop cultivars and to reduce imports.
" Germplasm Respository at Corvallis, Oregon. Supply hop germp a, and
plant material to scientists and cooperators in the United States and
abroad.
4
Identify specific aroma components in the essential oil of hops.
Develop screening methods for experimental male and female
selections.
5.
Provide certified hop analyses in behalf of the State of Oregon for
the U.S. hop industry.
6
Cooperate with state and industry scientists in evaluating promising
7
Cooperate with state chemists in identifying sources for mite and
aphid resistance that could be useful for integrated pest management
' herbicides and pesticides to obtain registration for use on hops.
in hops.
8
Describe and characterize hop genotypes in the existing USDA hop
' germplasm collection and enter the data into the National GRIN
system.
9.
In behalf of the USDA serve as source of information on all aspects
of hops and hop culture.
125
"SOURCE OF LEVEL OF FUNDS AVAILABLE
CWU 5358-22000-001-OOD $202,703.
Note that $69,643 is taken yearly from
this project for Specific Cooperative Agreement 5358-22000-001-02S.
NUMBER OF SY'S COMMITTED TO THIS RESEARCH
1.0
PROPOSED COMMODITY CODE
2831
hops
PROPOSED STRATEGIC PLAN CODE
2.2.04.1.n
100%
126
page 3.
CWU
5358-22000-001-OOD
Source of funds available:
a)
USDA appropriation
about $ 200.000.00 per year.
One third of these funds (about $ 70.000.-) goes to Prosser, WA$I
under a congressionally mandated memorandum of cooperation.
USDA also pays 1/3 salary of hop chemist at OR. State University.
f
b) Hop Research Council, funding assists hop genetics and breeding ($ 26,500.-)
and hop chemistry
c) Miller Brewing Co.
( 49.000.-J_
'
hop genetics and breeding ( $.5,000.-)
hop chemistry ' (11,000.-)
d)
Oregon Hop Commission:
Hop Breeding and evaluation
e) Anheuser Busch Ag. Resources
--
work on
3-year grant of
$ 7,500.-
Native North American hops:
30,000.- per year
expires May 1992.
f). Cooperative research,
USDA/ARS -- Anheuser Busch Inc-- Oregon Hop Commission
about 25,000.- per year
pesticide testing and evaluation, residue analyses,
funds channelled directly to
g).
cooperator.
Coopearative work-- OR. State Dept. of Ag. Chemistry
Chemical fact ors responsible for insect resistance.
(about40,000.- total)
funds go directly to Ag.
Chemistry department
Number of SY's involved:
federal funding: 1 full time (geneticist) ( no specific funding for hop curator work)
1/3 t ime
(hop chemist)
Mfhtos appe^sRSi'c^Sngtfid OTrSisirWfs* help}
under direction of the superintendent at the
Industry funds:
Prosser, R£s. Station.
2/3 hop chemist at Or. State University
1 SY research assistant (hop breeding, genetics, native North
1 SY
American hops)
research assistant,
hop chemistry
2 student Mjepp helpers, 90 days during the summer and fall
for
field work and harvest.
1 parttime student helper (up to 20 hrs per weeft), hop chemistry lab
TOTAL NO. OF SY DURING THE YEAR (Prorated where appropriate): £)
Proposed commodity code:
same as before
Proposed strategic plan code:
same as before
ccuJxui/cl- t
127
Agricultural Research Service
Research Management Information System
ARS Project System
08/29/90
Executive Summary Sheet
For ARS Project No.
5358-22000-001-OOD
Accession Number 0141065
Mode Code 5358-05-00
Appropriated
IMPROVED HOP GERMPLASM, VARIETIES, AND.
PRODUCTION PRACTICES
PACIFIC WEST AREA
CORVALLIS, OREGON
FORAGE SEED AND CEREAL RESEARCH
Project Status:
Start: 04/30/86
ACTIVE
Term: 03/31/91
Current Official Funding Levels:
FY
FY
FY
FY
FY
FY
86
87
88
89
90
91
$
$
$
$
$
$
******
Temporary
Pe rmanent
Net to Location:
171,987
171,987
173,871
172,132
202,703
202,703
Official Strategic Plan Codes
2.2.04.1.n
Reason Project was Initiated:
$
$
$
$
$
$
0
0
0
2,500
0
0
******
100%:
Normal Progression
Comments:
Request F/T for FY90 from 5358-23000-002-00D to support Haunold's work
on hops per J. Miksche & C. Murphy memo dtd. 5/10/89.
APPROVED:
Area Director: on 06/05/89 by Daniel A Niffenegger
Assoc Depty Admin: on 06/19/89 by Robert R. Oltjen
Created: on 02/28/86 By SRR
Last Modified: on 06/23/89 By DFC
128
Form AD-416
Document Printed 08/29/90
USDA
*****0FFICIAL PROJECT*****
Date Modified: 06/23/89
RESEARCH PROJECT DESC.-RES. RESUME
1. Accession:
2-4. Agency ID:
0141065
7. Title:
5. Project Number:
ARS 5358-05-00
6. Status:
5358-22000-001-OOD
A=ACTIVE
IMPROVED HOP GERMPLASM, VARIETIES, AND
PRODUCTION PRACTICES
8. Performing Organization:
0000 1185
Responsible Organization:
0358 6556
PACIFIC WEST
AREA OFFICE
AGRICULTURAL RESEARCH SERVICE
AGRICULTURAL RESEARCH SERVICE
City/State/County/Zi p/Cong. Di st.
CORVALLIS
OREGON
City/State/Zip
ALBANY
CALIFORNIA
97331 01
94710
12. Investigator(s):
HAUNOLD
16. Research Location on Campus:
A
A = YES
Project Type:
17-1. D=Appropriated
17-2.
21. Facilities:
=
18-4.
19-1.
$202,703
19-2.
1.00 20. 90
D = STATE
22. Regional Project Number:
A:
24. OBJECTIVES:
B:
-
-
Develop improved hop germplasm with high-yield potential, disease
resistance and a range of flavor and aroma characteristics for domestic
industry needs and for exports. Maintain the USDA World Hop Cv. & Germplasm
Collect, in cooperation with USDA NW Germplasm Repository, Corvallis,
Oregon.
25. APPROACH:
Obtain new hop germplasm through introduction from abroad, collection of
indigenous hops, and by hybridization. Evaluate progency of tetraploid X
diploid crosses and select triploid females with European flavor and aroma
characteristics. Use GC, HPLC, and high-resolution mass spectrometry to
identfy hops with desirable aroma characteristics. Evaluate new aphicides,
acaricides, and herbicides for use on hops. Function as curator for hops
and maintain the USDA World Hop Collection in 4-hill field plots and the
USDA Male and Female Hop Germplasm Collection in 2-hill field plots near
Corvallis. Cooperate with State hop scientists at Prosser, WA, and Parma,
ID.
27. KEYWORDS:
HUMULUS
FLAVOR
HOP
GERMPLASM
BREEDING
GENETIC IMPROVEMENT
QUALITY
AROMA
BREWING
Recommended
Siqnature
RL:
LD:
A/D Date
00/00/00
00/00/00
AD: Daniel A Niffenegger
PAO:
A 06/05/89
00/00/00
Approved
Siqnature
00/00/00
29. Start Date:
04/30/86
A/D
Date
NPL3:
Edwin L. Civerolo
A 06/07/89
A 06/08/89
06/19/89
BPMS:
Joseph S. Garbarino
A 0
NPLl:
Jerome P. Miksche
NPL2:
Charles F. Murphy
! ADA:
28. Award Date:
Concurred
6/20/89
A 06/19/89
Robert R. Oltjen
30. Termination Date:
03/31/91
Duration: (months)
059
129
Form AD-417
Document Printed 08/29/90
1. Accession:
0141065
5.
2-4. Mode Cod e:
ARS 5358 -05 -00
*****OFFICIAL PROJECT*****
Project Number:
5358-22000-001-OOD
Date Last Modified:
06/23/89
Net to Location
STP(s) 2.2.04.1 .n
Minor Ho rt
32.
Basic Re search:
33.
34.
Applied Research:
Development Effort ;
Commodity
36.
37.
38.
39.
Activity
Code
Code
2800
2800
2800
2800
4500
4600
5000
5100
Class.
Code
Commodity 2831
Crops Germpl
100%
202,703
Total Net to Location:
$202,703
20%
80%
0%
Total Net to Location:
Research Problem
Field of
Prime
Area Cod e
Science Code
%
207
208
307
405
0512
10
0512
30
0512
50
0512
10
Total Net to Location:
Description
HOPS
4564
4612
4615
5011
5100
INSECT/HOST INTERACTIONS
NON-GENETIC DISEASE CNTRL
BREED DISEASE RESIST PLNT
IMPR BREEDS & VARIET
CONSUMER ACCEPT PRODUCTS
10
10
20
50
10
Total
Special
Special
Note:
PST2
SAGP
NONPESTICIDAL CONTROL
GERMPLASM
0
$202,703
Net to
Location
20,270
60,811
101,352
20,270
$202,703
Net to Location
100
al Net to Location:
Activity
Activity
Activity
Activity
Activity
40,541
162,162
20
20
Net to Location:
202,703
$202,703
20,270
20,270
40,541
101,352
20,270
$202,703
40,541
40,541
Rounding may cause minor differences in calculated value compared to
the actual
Net to Location.
130
'•^•t^v United States
k Department of
Agriculture
Agricultural
Pacific West Area
National Forage Seed Production
Research
Service
Research Center
3450 S. W. Campus Way
Oregon State University
Corvallis, Oregon 97331-7102
503 757-4824; FTS: 420-4824
FAX:
503 757-4370
FTS: 420-4370
September 28, 1990
SUBJECT:
TO:
Research Goals and Mission
S. C. Alderman, G. M. Banowetz, R. E. Barker, D. B. Churchill,
S. M. Griffith, A. Haunold, J. A. Kamm^G. W. Mueller-Warrant,
J. J. Steiner, and R. E. Welty
FROM:
Lloyd F. Elliott, Research Leader
I would like to thank each of you and the people working with you for your
warm welcome and offers of assistance. They are deeply appreciated. It is a
pleasure to be here, and I look forward to working with you.
•
/
I need to be better acquainted with your goals, program, and mission. Would
you please provide me, by October 9, with a brief outline of your program and
objectives, your publication record for the past two years, your view of the
mission of the Unit, your part in the mission of the Unit, and how individuals
and the Unit should be cooperating. I personally plan on focusing my initial
research efforts on grass residue utilization and rhizosphere biology
(improving plant root-microbial relations for more economic production).
If
you have questions and suggestions, do not hesitate to discuss them with me.
icUWvUd - K,c(f
131
Agricultural
United States
i Department of
Agriculture
Pacific West Area
Research
Service
National Forage Seed Production
Research Center
3450 S. W. Campus Way
Oregon State University
Corvallis, Oregon 97331-7102
503 757-4424; FTS: 420-4424
FAX: 757-4370; FTS: 420-4370
October 3, 1990
SUBJECT:
TO:
FROM:
Outline of Research Goals and Mission
Lloyd F. Elliott, Research Leader
Alfred Haunold, Research Geneticist
Program Mission:
Hop breeding, genetics, chemistry, germplasm preservation and development
I am the only USDA scientist responsible for hop research in the U.S.
I
cooperate with state scientists at Oregon State University (chemistry Dr. Deinzer, Gail Nickerson), Washington State University (agronomy Dr. Steve Kenny, plant pathology - Dr. Bob Klein, entomology - Dr. Wyatt
Cone), all at Prosser; and the University of Idaho, Parma (entomology Dr. Keith Dorschner). All of these people work on hops.
I have developed 7 new hop cultivars in my 25 years with USDA at Corvallis,
and over 30 germplasm genetic lines. Hop cultivars I have developed and have
cooperated with development of now account for over 75 percent of all hops
grown in the U.S.
I am the USDA curator for hops and cooperate with the Pacific Northwest Clonal
Germplasm Repository near Corvallis. No funds, however, are allocated for
that task.
I act as official spokesperson for the USDA in matters of hops, as a source of
information for all aspects of hop production and utilization, and as a source
of hop germplasm on behalf of the USDA worldwide. Our germplasm collection
comprises about 400 female and 300 male selections and is constantly being
upgraded and evaluated.
am presently concentrating on development of European-type noble aroma hop
Itivars (the first, Mt. Hood, was released last year). I expect to rel ease
at least one, perhaps two additional aroma cultivars in the near future.
I
cu
I cooperate with the Hop Research Council; Hop Growers of America; the Hop
Commissions of Oregon, Washington, and Idaho; the Miller Brewing Company; and
most international hop trading firms (copy of two sample letters of
appreciation of cooperative work this summer are enclosed).
132
Lloyd F. Elliott
^
Source of Funding:
USDA - gross (approximately)
USDA cooperative agreement with Prosser, Washington
Industry funds (approximately)
$130,000
70,000
100,000
My interaction with the Forage Seed and Cereal Research Unit is very little.
Prior to reorganization, we had a separate hop and mint investigations unit
with five scientists.
My research interests are just too different to find
any common ground with forage research.
Administratively, my association with
the Unit has been great, I have received all the help, support and
encouragement in my work, even though I am an outsider.
If future plans to develop a small fruit research center at Corvallis
materialize, I would hope to join that group and cover both hops and mint (as
I had done earlier).
Publications, 1989-1990:
1.
Haunold, A., and G. B. Nickerson.
1989.
Mt. Hood, a new American noble-
aroma hop. Amer. Soc. Brewing Chemists Newsletter 49 (2):17. (Abstr.)
2.
Haunold, A.
1989.
Unprecedented changes in hops.
The New Brewer
6 (4):14-17.
3.
Haunold, A., and G. B. Nickerson.
1990.
Registration of Mt. Hood hop.
Crop Sci. 30:423.
4.
Haunold, A., and G. B. Nickerson. 1990. Mt. Hood, a new American noble
aroma hop. Amer. Soc. of Brewing Chemists J. 48:115-118.
5.
Haunold, A. 1990. Development of new hop varieties: How and why they are
being developed; how they differ from each other; future trends. Zymurgy.
(accepted)
One additional publication, a book chapter first accepted in late 1987, has
now appeared in print: Cytology and Cytogenetics of Hops, Elsevier Publishing
Company, Amsterdam, Holland.
Variety release by USDA:
Mt Hood, a new hop cultivar; signed by M. E. Carter
March 3, 1989.
Release of an early flowering triploid hop
pollinator composite; signed by M. E. Carter
May 18, 1990.
1 am currently on the Board of Directors of the American Society of Brewing
Chemists serving as Chairman of the Publications Committee and Chairman of the
Editorial Board of our Journal.
2 Enclosures
ARS:PWA:AHaunold:ca:X4824:10/03/90
133
S'
TERRY E.BRANSTAD. GOVERNOR
DEPARTMENT OF PUBLIC SAFETY
PAUL H. WIECK II. COMMISSIONER
August 29, 1990
Dr.
Alfred Haunold
USDA ARS
PWA
National Forage Seed Protection Center
Crop Science Department
Room
4 51-B
Corvallis, Oregon
Dear Dr.
97331-7102
Haunold:
Thank you so much for the wonderful dried hops plants you sent
recently. I will keep them to be used by students in the future.
Thank you also for the publication which has helped me understand
how hops grow.
Enclosed you will find an official Iowa Division of Criminal
Investigation cup as a symbol of my appreciation for the time you
must have spent preparing and sending the hops specimens.
Respectfully,
MICHAEL L. REHBERG, Laboratory Administrator
B.S., M.S., D.A.B.F.T.
SANDRA J. STOLTENOW, Criminalist
Division of Criminal Investigation
SJS:cam
DIVISION OF CRIMINAL INVESTIGATION
WALLACE STATE OFFICE BUILDING / DES MOINES, IOWA 50319/51 5-281-51 38
134
Hop Growers of America, inc.
P.O.Box 9218 • Yakima, WA 98909 • 509/248-7043
September 28,
Dr.
1990
Alfred Haunold
Department Crop Science
Oregon State University
Corvallis, OR 97331
SUBJECT:
Letter of Appreciation
Dear Dr.
Haunold,
On behalf of the Board of Directors of Hop Growers of America, I
would like to thank you very much for your participation and assistance
during our recent Japanese Brewers' Trade Visit from August 18-25,
1990.
Your briefings and discussions were both interesting and
enlightening.
The very participation of a scientist of your stature
in the academic community, and from within the international hop
industry itself gave credibility to our objectives and encouragement to
everyone involved. Through your participation, our guests had the
unigue opportunity to gain valuable knowledge and guality technological
information on U.S. hops directly from a leading scientific authority.
The development of this kind of awareness of our product was the
fundamental objective of the trade visit.
Your outstanding support and
the time and effort you gave was very important to us and directly
related to the successful achievement of our purpose. This is another
of many examples, extending over many years of your dedication,
commitment, and friendship for the U.S. Hop industry and concern for
the interests and welfare of the grower community.
We thank you and
wish you continued success and the best of good fortune in the future.
Sincerely yours,
Wa]r r e n
H.
Lee,
Jr.
Manager
Hop Growers of America, Inc.
WHL/cmc
cc:file
E.
Annen,
OHC
135
SUBJECT:
TECHNOLOGY TRANSFER,
TO:
Project Leaders
From:
REW
ARMP-1991
/?
In our ARMP reports,
we have been asked to list by CRIS,
examples of technology transfer. The information required has been
greatly reduced this year. We have been asked to provide:
1.
A
successfully
short,
one-sentence
transferred
and
used
statement
by
of
clientele
each
technology
(i.e what
was
transferred to whom?).
2.
Formal technology transfer meetings held with groups of
several industry firm/commodity organizations/action or regulatory
agencies.
i)
release of the new aroma hop cultivar Mt. Hood.
imported European aroma hops and most likely will.
Japanese) has been favorable.
2)
A total of
It is intended to replace
BRewery acceptance (US, Canadian,
560 acres Mt. Hood was planted in 1990.
Release of a triploid hop pollinator composite:
This composite, made up of 10
different genotypes was released to Oregon growers (Washington and Idaho forbid the
use of male heps in their fields).
Pollinators were planted in various commercial
Oregon hop yards co help increase cone yields by stimulation due to pollination
wirhcut production of unwanted seeds, since the pollinators (being triploids) are largely
5teri le).
Beneficiaries:
US hop growing industry and various commercial breweries.
7 -1M0
136
/.*£s>:\
•ZgTc
United States
Agricultural
Department of
Agriculture
Research'
DEPT. OF CRC"
Service
OREGON 3i"iVii.-
Pacific West Area
CORVALLIS, OR
G7331
Nay 16, 1990.
To:
Dr. Darwin Davidson, President
Hop Research Council
Adolph Coors Brewing Co.
Golden, CO 80401
From:
Dr. Al Haunold
USDA-ARS, Research Geneticist
Research Coordinator,
Corvallis, OR.
97331
Subject:
Extension of existing Memorandum of Understanding.
The Hop Research Council currently has three (3) Memoranda of Understanding
with the Agricultural Research Foundation to conduct various phases of
hop research at Oregon State University:
This letter provides for an automatic extension of the three memoranda
as stated in item No.
7.
The following budget requests, subject tio approval by the Hop Research
Council are for Calendar Year
1990
(Jan.l to Dec. 31, 1990).
ARF project No. 36.18 (Hop Breeding and Geneti cs--Haunold)
26,500.-
ARF project No. 45.22 (Hop Chemistry— Nickerson-Haunold)
49,000.-
ARF project No. 45.09 (Hop Industry-- Sam T. Likens)
13,000.-
Your signature below will assure continuation of our present arrangement.
Thank you.
Hop Research Council, D.Davidson, president
distribution:
ARF, Haunold, Nickerson, Likens
137
-QS9-90 ANNUAL REPORT FORM
ACCOUNT:
3618
Agricultural Research Foundation
US Hop Research Council
PROJECT LEADER: Haunold
DEPARTMENT: Crop Science
ACCOUNTING INFORMATION:
33,532.19
71,000.00
(83,973.72)
Beginning Balan:e (July 1, 1989)
Contributions (C:cck donor list below.)
Disbursements
(1,500.00)
Transfers (from one ARF account to another)
15,508.47
Ending Balance (June 30, 1990)
(3^550.00)
Bookkeeping
Contributions:
S45.000.00
526,000.00
Anheuser-Busch Companies
nop Research Council
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
3.
4.
'.
spent, describe the purpose of the account.
Our office is required to report to the Board of Directors on all accounts for the 1989-90 Fiscal Year,
including those accounts with low balances and no activity.
Return to: AGRICULTURAL RESEARCH FOUNDATION, Snell Hall 537, before November 14, 1990.
If you have any questions, please call x7-3223.
DESCRIPTION OF PROJECT (Please type):
Busch Agricultural Resources Inc: (3ARI)
a)
Study of Native North American hops ( $ 30,000.- work at OR. State University)
All of the 78 native North American hop genotypes which had been maintained in
large plastic pots at the USDA National Clonal Germplasm Repository near Corvallis
have now been established in 2-hill or 4-hill field plots, respectively.
About 1/3
of the plants flowered and they were sampled for chemical analysis. A total of 323
seedlings obtained frcm
21 of the 52 seed collections of Native North American heps
obtained in late 1989 are now established in an evaluation nursery in our main hop yard.
b)
Pesticide testing and evaluation in Oregon ( $ 15,000.- direct grant from BARI,
10,000.- from Hop Res. Council).
Six GLP
(good laboratory practices according to
FIFRA regulations) aphicide trials were conducted under a contract with Western
Biochemical Consulting (Dave Anderson) of Beaverton, CR.
The following aphicides
were evaluated: Cyfluthrin, Fluvalinate (Spur), Methyl-parathion, Ethyl-parathion,
Phorate (Rampart), and Haled (Dibrcm).
Hop Research Council :
Four mature (USDA 21457, 21459, 21490, 21491) and one new (USDA 21484) triploid
female Hallertauer seedling selections were harvested from 3-acre commercial plots.
USDA 21455 was discarded.
Ten early flowering triploid hop pollinators with
Hallertauer mittelfrueh background were released to the public for use as yield
stimulators. Single plants from the '89 Nursery (diploid Tettnanger x selected
tetraploid males) were harvested and await laboratory evaluation.
Tettnanger A and
Tettnanger B (USDA 21496, 21497) were harvested frcm commercial off-statixn plots.
Crosses between tetraploid Saazer and selected diploid males were made in the greenhouse.
Diploid Saazer was crossed to selected tetraploid males in the field.
Use of funds:
Salary of Research Associate, hourly help, supplies
138
United States
Agricultural
Department of
Agriculture
Research
Pacific West Area
Service
Of;
...TY
cc
' _\
Or.;
May 1, 1990.
To:
James P.
Wolf
Chairman, Oregon Hop Commission
From:
Dr. Al Haunold, USDA-ARS
Hop Project Leader
Subject:
Extension of Existing Memorandum of Understanding.
As provided in item No. 8 of the latest Memorandum of Understandig
dated June 12, 1986, between the Agricultural Research Foundation,
Oregon State University
and
THE OREGON HOP COMMISSION
I propose to extend this memorandum for another year until June 30, 1991.
The proposed funding request for FY 1991 (July 1, 199o to
June 30, 1991)
subject to approval by the Oregon Hop Commission is as follows:
$ 6,000.
Hop Breeding and Genetics (Haunold)
2,000.
Hop Chemistry (Nickerson)
Total:
signed
8,000.-
date: S~+ l£~- ?f)
r331
139
1989-90 ANNUAL REPORT FORM
ACCOUNT: 3625
Agricultural Research Foundation
Oregon Hop Commission
PROJECT LEADER: Haunold
DEPARTMENT: Crop Science
ACCOUNTING INFORMATION:
1 631.66
6,000.00
(1 '333.82)
0.00
0.00
6,297.84
Beginning Balance (July i, 1989)
Contributions (Check donor list below.)
Disbursements
Transfers (from one ARF account to another)
Bookkeeping
Ending Balance (June 30, 1990)
Contributions;
S 6,000.00
Oregon Hop Commission
INSTRUCTIONS:
Limit your report to no more than 100 words.
„ r„nrf< were
2.1 Kibe
the account highlighting accomplishments and explain how funds were spent., ,If, no
funds »ere
spent, describe the purpose of the account.
nveal Year
3. Our office is required to report to the Board of Directors on all accounts for the 1989-90 Fiscal Year,
inrliiriine those accounts with low balances and no activity.
,
.. ,oon
4. Return to: AGRICULTURAL RESEARCH FOUNDATION, Snell Hall 537, before November 14. 1990.
5.
If you have any questions, please call x7-3223.
DESCRIPTION OF PROJECT (Please type):
The triploid female Hallertauer seedling selections USDA 21457, 21459, 21484, 214S0
and 21491 averaged frcm 8 to over 11 bales per acre in 3-acre canmercial off-stati cn
plots. USDA 21456 was discarded. Tettnanger A (USDA 21495) and Tettnanger^
(USDA 21497) again performed below expectations. Ten.early flowering triploid
pollinators with Hallertauer background were released for public use as yield
stimulators. Crosses between tetraploid or diploid Saazer, respectively, and
selected males were made to provide a new seedling nursery for selection of Saazer
quality types.
Tettnanger seedling selections frcm the '89-Nursery were harvested
for the first time in 1990.
Use of funds:
hourly student help,
supplies, equipment repair and maintenance
140
United States
Agricultural
Department of
Research
Agriculture
Service
Pacific West Area
DEPT. OF CROP 5C!~i\!CE
Oregon stat^ !jr-;;vr;:rM!TY
CORVALLIS, GREGQti 9733 1
March 14, 1990.
To:
A.J. Rehberger, Vice President
Brewing Research
Mil ler Brewing Co.
3939 W. Highland Blvd.
Milwaukee, WI
From:
A:J- Merger
53201-0482
.'••W,v
/ W
wo
• p- Bwg. &Ro:
Al Haunold
Research Geneticist, USDA-ARS
Hop Breeding ang Genetics
Research Coordinator
Subject:
Extension- of existing Memorandum of Understanding.
As provided in item No. 8 of the current Memorandum of Understanding
dated March 6, 1984 between the Agricultural Research Foundation at
Oregon State University and,
Miller Brewing Company,
I propose to extend the memorandum for another year until December 31, 1990.
The proposed funding request for four research projects at Oregon
State University for 1990, subject to approval by Miller Brewing Company
is as f ol lows :
Hop Breeding and Genetics (Haunold)
Hop Chemistry
6 ,000.-
(Nickerson-Haunold)
12 ,000.-
Hop Flavor Chemistry (Deinzer)
6
,500.-
Noble Hop Aroma-humulene epoxides (Deinzer)
5
,000.-
Total
29,500.
Thank you.
4/4/90
Approved:
J
A.J. Rehbergeri
V.P. Brewing & Resedich
Date
141
1989-90 ANNUAL REPORT FORM
ACCOUNT:
3634
Agricultural Research Foundation
Miller Brewing Company
PROJECT LEADER: Haunold • DEPARTMENT: Crop Science
ACCOUNTING INFORMATION:
841.S1
6,000.00
(219.65)
0.00
(300.00)
6,322.16
Beginning Balancs (July 1, 1989)
Contributions (Check donor list below.)
Disbursements
Transfers (from one ARF account to another)
Bookkeeping
Ending Balance (June 30, 1990)
Contributions:
S 6,000.00
Miller Brewing •
INSTRUCTIONS:
1
2.
Limit your report to no more than 100 words.
Describe the account highlighting accomplishments and. explain how funds were spent. If no funds were
spent, describe the purpose of the account.
3. Our office is required to report to the Board of Directors on all accounts for the 1989-90 Fiscal Year,
including those accounts with low balances and no activity.
. .. ,Mn
4. Return to: AGRICULTURAL RESEARCH FOUNDATION, Snell Hall 537. before November 14, 1990.
5.
If you have any questions, please call x7-3228.
DESCRIPTION OF PROJECT (Please type):
The special aroma hop USDA 21120 produced somewhat better yields in 1990 (6*5 bales
per acre) but was still below expectations. An additional 4-acre plot of USDA 21120
was established at a different location in Oregon frcm soft-wood cuttings. Mt. Hood
(USDA 21455), evaluated in commercial brewing trials,was. found to be an acceptable
replacement for imported arcma hops in premium beers. Atotal of 159 female single
plant selections from four special aroma crosses (low alpha/high beta) as a backup
for USDA 21120 were harvested and await laboratory evaluation .
Use of funds:
student hourly help, supplies.
142
1989-90 ANNUAL REPORT FORM
ACCOUNT: 4522
Agricultural Research Foundation
Hop Research Council
PROJECT LEADER: Haunold/Nickerson
DEPARTMENT: Agricultural Chemistry
ACCOUNTING INFORMATION:
2.27C.29
32*50()'
.U0
(2s'o29.08)
1,500.00
(1550 00)
6691-21
Beginning Balance (July 1, 1989)
Contributions (Check donor list below.)
Disbursements
Transfers (from one ARF account to another)
Bookkeeping
Ending Balance (June 30, 1990)
Contributions:
S31,000.00
S 1*500.00
Hop Research Council
Oregon Hop Commission
INSTRUCTIONS:
2" SUiKe^u" ^ntln^ci^ments and explain how funds were span, If no fun.s were
3 r ^^refuTdr™^ r Board of Directors on a., accounts for the ,989-90 Fiscal Year,
4;5. Ifktsa^^^
you have any questions, please call x7-3228.
sneii Ha»537- bef°re N°vember i4-199°-
DESCRIPTION OF PROJECT (Please type):
This grant supports the chemical evaluation of hop germplasm.
Gas
chromatographic, UV spectrophotometry, HPLC and GC/MS methods.were used to
quantitatively measure characteristics important to brewers and useful in vaneu
identification. Several hop genotypes were identified trom the hop breeding program tha
have the potential to replace imponed Tettnanger" hops. Funds were used to pay part of
research assistant and chemist salaries.
143
1989-90 ANNUAL REPORT FORM
ACCOUNT:
4520
Agricultural Research Foundation
Miller Brewing
PROJECT LEADER: Haunold/Nickerson
DEPARTMENT: Agricultural Chemistry
ACCOUNTING INFORMATION:
0.00
12,000.00
Beginning Balance (July 1, 1989)
Contributions (Check donor list below.)
0.00
Disbursements
0.00
Transfers (from one ARF account to another)
(600.00)
11,400.00
Bookkeeping
Ending Balance (June 30, 1990)
Contributions:
512,000.00
Miller Brewing
INSTRUCTIONS:
1.
2.
Limit your report to no more than 100 words.
Describe the account highlighting accomplishments and explain how funds were spent. If no funds were
spent, describe the purpose of the account.
3.
Our office is required to report to the Board of Directors on all accounts for the 1989-90 Fiscal Year,
including those accounts with low balances and no activitv.
4.
5.
Return to: AGRICULTURAL RESEARCH FOUNDATION, Snell Hall 537, before November 14, 1990.
If you have any questions, please call X7-3228.
DESCRIPTION OF PROJECT (Please type):
This grant supports the chemical evaluation of hop germplasm.
UV
spectrophotometry, HPLC, gas chromatography and GC/MS methods were used to
quantitatively measure characteristics important to brewers and useful in varietal
identification. Severalgenotypes with characteristicsof particular interest to Miller Brewing
Companv were selected for further evaluation. Funds were used to supplement research
assistant and chemist salaries.
144
PAGE:
1
03/05/91 :
ANNUAL RESEARCH PROGRESS REPORT
1
Report of Progress (AD-421)
i
Accession: 0142752
Year: 90
|
Mode Code: 5358-05-00
STP Codes:
Title:
Project Number: 5358-22000-001-02 S
2.2.04.l.n
100%
DEVELOPMENT AND CULTURE OF HIGH QUALITY HOPS
»
i
from:
Dr. Steve Kenny
WSU Prosser, WA. 99350-9687
Period Covered
From:
01/90
To:
12/90
Progress Report
USDA selections 21457, 21459, 21484, 21490 and 21491, Tettnanger clones
USDA 21496 and 21497, and WSU selections 8254-167 and 8254-244 were tested
in large trials in Washington. Yield and alpha acid content were 1115
kg/ha and 3.7%, 1350 and 3.0, 335 and 2.7, 1624 and 1.9, 1160 and 2.2,
1140 and 2.2, 1060 and 3.0, 900 and 5.0, 588 and 3.3, respectively. WSU
selection 415-90 was released as Centennial in September.
Its five-year
average yield was 1995 kg/ha, alpha acid content averaged 11.5%, and the
hops have a citrus-floral aroma. Seedlings from new aroma crosses and
crosses to measure inheritance of hop resistance to aphid were
established. After hoo identification publication listed below was
prepared, several new hop cultivars were released.
Using GC/MS analysis
of hop essential oil, a new identification scheme that includes the new
cultivars is in early development. Research to find RFLP markers in hop
was begun, and the progress to date is construction of a nuclear hop DNA
probe library.
Publications:
.
•,
01. KENNY, S.T. 1990. Identification of U.S.-grown hop cultivars by hop acid
and essential oil analyses. J. Amer. Soc. Brew. Chem. 48:3-3.
02
KENNY
S T., FURTER, R., WHELEN, S. and Hall, B.D. 1990. Restriction
fragment length polymorphisms (RFLPs) in hop. Agron. Abstr. Amer. Soc. of
Agron., Madison, WI, p. 199.
Approved:
W. RALPH HAVE
Title:
ASSISTANT AREA DIRECTOR
Date:
02/91
145
United States
Department of
Agriculture
Agricultural
Research
Service
Pacific West Area
800 Buchanan Street
Albany, California
94710
August 27, 1990
Mr. J. J. Wills, Director
Washington"State University
Office"of Grant and Research Development
-Pullman, WA
99164-5045
Dear Mr. Wills:
The amendment listed below is forwarded to you for processing and
signature. After signature completion, please return four signed copies
to this office for final signature and internal distribution. Upon
completion two fully executed copies will be returned to you for your
files.
Agreement No.:
58-91H2-8-136
Amendment No. Two
Title*
Development and culture of high quality
Lindsey <R/" Faulkner f A O-^
-A.
If you should have any questions regarding tHis amendment, contact me at
415/559-6019.
''
L-A^J «
>»
Principal Investigator:
'
t
rerr/cs tepr/fy
RITA ABEYTA
Contract Specialist
Enclosure
cc:
L. R. Faulkner, Principal Investigator
, A. Haunold. Corvallis, OR
B. Messenger, Corvaliis, OR
~'*/u'
«
-Itv. _.
* . *
iftmr, bJ4<
'/£,
("•
^s-fi
7
'/
146
//£ ?>•;'>/? - Z?/6
nlo
TT.COf ACltAACH A6RCCMINT
UNITCD JTATCS DETARTMCWT OF ACHICULTURC
SPECIFIC COOPERATIVE AGREEMENT
RESEARCH AGREEMENT
Tfr-e o r action
aCNCCmCHT n o .
58-91H2-8-136
ACCNCr lH*mt mna •dttnrut
Amendment No. Two
pcrioo or acnciment
AGPJOTLTURAL RESEARCH SERVICE
May 1, 1988
PACIFIC WEST AREA
lh,„ April 30, 1993
CHAf«CC IN fI.DCRA1.0euCAT)ON
fCOCRAl. OaU&ATION
800 Buchanan Street
S 211,620.
Albany, CA 94710
5358-22000-001-02S
rtnroHMirtc ohcanization {jVom«endoddntsji
AccnuAiMtg Coo«
%
8015358136
9015358050
99164
0015358050
.Lindsey R. Faulkner
69,643 —ffj.l
NFC-Accounting Reporting Branch
Reporting Section No. 4, TANO Bldg.
Irrigated Agriculture Research and
Extension Center
P.O. Box 53326
New Orleans, LA
Box 30
Prosser, WA
Amownl
71,345. —//K*'
70,632 ~~JtfP'
rtNANCC orriCC (ComptMlm mailing ao4nu)
fRIMCIPAl. INVCSTICATOfl l/Joffl< and addrcul
P.O.
7 USC 3318
OIUCATION DISTRIBUTION
Washington State University
Agricultural Experiment Station
Pullman, WA
AUTHORITY
CRI3 MO.
70153
99350
AUTHORIZED DEPARTMCHTAl. OmCCf**3 DCSICHATCO
TIT1.C o r PROJECT
RErRCSCNTATIV* (timjnaandtitirnMi
Alfred Haunold
Development and culture of high quality hops.
Forage Seed and Cereal Research Unit
3420'SW Orchard Avenue
Corvallis, OR
97730
BASIS FOR AWARD
This Atreemcnt indudes the followmt:
I 1 5memeni of Work; or
n ProjectSummary;or
f~l Propoul;«Arf
Q General Provisions
• 7CHI WIS. SutMvm U(l>y frlerancct
Q fO«M ADS-tSl
f~l Spcdal Provision*
f~l Submit-
• Technical Reports,
Q Fiscal Reports.
Autno,jIed Departmental Officefj
lo- Designated Representative
L3 Other (Spiclfyl :
1.
Funding is added in the amount of $69,643.
2.
Except as provided above, all other terms and conditions shall remain the same.
FOR THE UNITED STATES DEPARTMENT OF AGRICULTURE
AUTHORIZED OCPA RTMEHT At. o m C E R
TYPCO NAMC
OATC
SEP t 3 19S0
JACK C. NELSON
FOR THE PERFORMING ORGANIZATION
0££
(Stgnmture of pcrton muthoriied by th* governing body of the ptrformtnf orgoniioHon to Incur eon tractumi obligation*.)
TYrCD NAMC ANO TITLE
uT
H'
VINCENT HUTKAK
nHnHCE GFF1CER /SPOHSCRED FF.05R*MS
r v r t O NAMC AMO TITLE
Fo»o%ARS4Sl
UiOA'ARt
/47
/-^SJN United States
vS&)/' Department of
^ ^ Agriculture
Agricultural
Pacific West Area
National Forage Seed Productior
Research Center
Research
Service
3450 S. W. Campus Way
Oregon State University
Corvallis, Oregon 97331-7102
503 757-4824; FTS: 420-4824
FAX: 503 757-4370; FTS: 420-437
August 20, 1990
SUBJECT:
TO:
Specific Cooperative Agreement 58-91H2-8-136 (5358-22000-001-02S)
R. J. Reginato
Associate Director, USDA ARS PWA
800 Buchanan Street
Albany, California
FROM:
94710
Ronald E. Welty, Research Leader
With the pending retirement of Lynn Faulkner as Superintendent of the
Irrigated Agricultural Research and Extension Center, Prosser, Washington,
Dr. Alfred Haunold (ADODR) and I recommend that Dr. Stephen Kenny be appointed
as principal investigator.
cc:
A. Haunold
148
United States
Agricultural
Department of
Research
Agriculture
Service
Pacific West Area
April 26, 1990.
Dr. William
G. Chace jr.
Area Director, USDA-ARS
800 Buchanan street
Albany, CA
From:
94710.
Dr. Al Haunold
Resii Geneticist USDA-ARS
ADODR Proj. No. ^91H2-8-136
r
Subject:
Quarterly Progress Report ,
Jan. 1 through March 31, 1990.
I enclose one original and one copy of the latest progress report.
One copy was also mailed to
Maryland.
Thank you
launold
Dr. Howard Brooks, NPS, Beltsville,
149
Washington State University
Irrigated Agriculture Research and Extension Center
Rt. 2. Box 2953-A
Prosser. WA 99350-9687
509-786-2226
FAX 509-786-3454
MEMORANDUM
DATE:
April 24, 1990
TO:
A. Haunold
THROUGH:
L. R. Faulkner
FROM:
S. T. Kemy
SUBJECT:
QUARTERLY PROGRESS REPORT FOR 1/1/90 TO 3/31/90 FOR COOPERATIVE
AGREEMENT No.
58-91H2-8-136
Essential oil analyses of the 1989 crop year harvest were completed. The
summary of brewing quality data and agronomic data for advanced selections and
commercial cultivars grown in 1989 is attached.
Washington selection 415-90, USDA Accession Number 21507, was proposed for
public release as 'Centennial'. The name was chosen to honor the 1990
Washington State University centennial year. Centennial is characterized by
an average hop acids content of 11.5% alpha acid and 4.3% beta acid.
Cohumulone ratio of the alpha acids is 29%. The essential oil averages 1.5%
of the dried hops and its composition averages 58% myrcene, 11% humulene and
5% caryophyllene. Room temperature alpha acid storage stability is fair.
Commercial trials in Washington had a five-year average yield of 1,996 kg ha'1.
Much of the new hop germplasm acquired by the USDA hop program since 1988 and
grown in the field at Corvallis was collected for transplanting in the Prosser
hop fields.
Seedlings of some of the crosses listed in the January 9, 1990 quarterly
progress report were started in the greenhouse.
L16
HRL
TET
FUN
2ioes
21036
G
S
139
179
95
190
191
188
155
lie
103
126
170
171
166
120
119
21225
21225
21226
21226
21227
21227
21238
21212
21282
21283
21220
21193
21213
21211
21220
005/31-35
011/21-26
Toppcriish
009/03-01
011/16
010/15-16
006/39-11
007/39-10
006/36^33
006/21
006/27-29
006/30-31
026/03-01
027/03-01
OH/18-20
018/30-32
005/30-32
005/27-20
011/12-11
OlB/33-35
010/36-37
010/33-35
011/15-17
019/31-32
019/33-35
033/06-03
012/15-17
1293
1259
100
1379
301
377
2053
2073
9/12/33 1007
9/15/89 1070
371
9/8/89
9/12/89
813
9/12/83
973
311
9/6/83
9/6/89
768
223
9/6/89
9/15/83 1191
9/15/8 3 2669
9/12/89 2319
9/12/89 2111
9/6/89
623
9/6/69
318
9/18/89 1780
9/15/89 1521
566
9/6/83
9/6/89
378
9/21/89 1730
9/21/89 2168
9/15/89 3077
9/15/89 2252
038/33-31 9/11/83
038/25-26 9/ll/e9
012/18-20 9/U/S9
017/39-10 9/12/e9
008/21-25
9/6/e9
007/21-22 9/11/89
9/6/89
010/39-11
011/39-11
9/6/83
010/21-26 9/18/89
016/15-17 9/12/83
1370
H72
190
982
178
829
neo
B99
936
11G7
108
1706
222
810
6Q3
1518
911
303
268
1029
9/6/89
9/21/8 3
1.26
1.88
3.23
1.59
6.60
19
63
37
3.21
1.86
1 .78
1.0S
3.99
l.SS
7.16
1.23
10.82
10.02
1.5G
2.63
12. 89
13.36
2.16
3.09
7. II
8.19
9.09
7.50
9.89
10.33
7. 12
5. 33
5.96
2. 11
6.10
5.31
3.81
1.38
3.57
1.09
1.69
3.70
3.21
3.11
1.79
1.28
3.75
3.69
1.36
3.16
88
5.17
93
90
1.20
6.56
2.36
31
3.82
1.28
1.10
3.61
5:57
19
68
31
75
66
11
71
3.91
1.11
3.28
3.97
2.31
1.30
1.73
3.98
3.71
3.11
5.19
1.10
1.91
7.87
0.89
5. 11
7.02
It! 76
3. 26
5.81
2. 58
2.16
3.79
1.29
7.91
1.98
2.96
9.23
8.26
7.39
1.03
2.61
5.18
8.01
3. 19
3. 15
3.01
3.31
3.58
1.33
5. 10
6.93
3.99
1.65
5.09
1.15
3.57
2.11
5.97
1805
8.93
B 8*
G e;<
C8/R5
9/12/83
9/18/89
9/7/89
DRTE
SIR
ERO
ERO
OLY
OLY
9/15/89 2637
CHI
CHI 019/39-11 9/15/89 2220
538
PER 007/21-26
9/6/83
578
9/8/89
PER 016/21-26
BLI 009/27-28
9/6/89 1736
013/36
9/11/89
182
SR>! 007/18-20 9/11/89
160
007/15-17 9/11/89
115
NUG
RRO
151 21092 CRS
132 21092 CRS
181 21093 N B
189 21097 H B
169 21113 LU3
153 21111 NRD
171 2 l l l 6 B 6
136 2 1 H 6 B G
97 2 U 2 0
98 2U59
193 2H68 P B
186 2 H 6 9 T B
191 2 H 7 0 ELS
19S 21172 LRN
197 2H73 STR
196 2 H 7 9 HEE
107 2 U 8 0
106 2iiei
165 2H82 GRL
127 21ie2 GRL
201 2H85 HER
205 21186 SPR
167 2H93 NUG
100
101
99
177
187
160
159
102
21011
21011
21015
21016
21039
21010
21G10
21011
21011
21015
21019
21050
21051
21052
21053
21077
21077
21079
182
212
203
163
133
152
135
153
I'll
199
162
178
172
173
LOC.
loai-
YLD RLPHR BETR
lyrjy Lrop
HRRVEST
017/31-32
9/6/89
COL 012/21-26
COL 017/10-11 9/12/89
9/6/83
MIL 012/21-23
MIL 016/09-11 9/11/89
9/6/e3
SEP. 006/19
STY 011/28-29
9/6/89
RHI 009/30
9/12/89
RPO O10/30-32 9/12/89
RTL 010/274.29 9/11/89
9/11/89
BUR 007/31
SRR OH/36
9/6/e9
9/6/89
SRR OH/38
9/12/89
038/22
9/6/89
2ioeo BRC 009/35
21081
9/11/89
039/16
RSC8
SN
Liol« hnalysis i>i«.iifjlfs t-<-'r
0.226
0.216
0.218
0.251
0.238
0.217
0.292
0.258
0.252
0. 251
0..233
0. 255
O..213
O..225
O. 211
232
217
. 237*
.218
.217
0.218
0.255
0.239
0.232
0.217
232
218
182
2^0
0.252
0.212
0.229
0.216
0.215
0.21
0.217
0.221
0.229
0.239
0.223
0.212
0.23B
0.273
0.226
0.228
0.233
0.232
0.258
0.239
0.237
0.239
0.217
0.291
0.232
0.262
13
51
15
11
15
51
51
13
11
56
10
56
66
61
61
11
12
51
51
13
11
35
32 55
33 55
39
26
21
21
58
5e
35
11 67
12 66
36 59
33 59
30
28
30
27
37
29
11
11
35
27
31
35
33
12
28 12
27 31
29 11
11 65
13 61
16 19
29 13
26 11
31
20
26
26
26
36
37
12
52
50
11
62
51
13
10
51
11
58
71
63
61
57
50
13
13
37
39
28
33
26
25
39
25
27
27
29
37
12
52
27
33
0.251
0.251
0.217
COL
66
29 53
0.238
16
COH
0.216
HSI
7.50
7.31
5.91
6.35
15.00
6.91
6.51
8.19
6. 12
7.29
6.83
7.69
5.90
12.21
7. 11
8.37
6. S"1
6.67
1.37
1.25
1.57
7.30
5.67
6.61
7.08
1.22
5. 29
9.15
5.95
6. £.5
6. 91
7.01
7.07
7. 67
1.53
8.60
8.21
7.7s
7.25
5.87
6.70
7.87
e.se
7.01
8.02
7. 66
7.88
5.50
5.70
7.13
6.50
5.11
6.88
7.78
7.09
7.37
5.03
8.95
5.89
5. 38
MC
rjRiY
31 .0
27.9
28.7
33.9
28.1
22. I
23.1
29.7
39.6
28.3
23.9
25.0
21.0
25. I
25.5
13.5
25.7
27.0
25.9
30. I
23.5
2e.9
26.5
27.8
28.3
33.3
25. 1
28.7
21.3
28.0
28.9
2C..5
27.7
29.8
26.5
29.9
25.5
32.1
31.6
21. 1
31.7
25.0
33.3
28.7
29.9
30.3
28.5
31.5
25. 1
21. I
22.8
21.2
25.1
21.6
25.0
27.0
26.5
20.5
MRTTER
j<
56.7
,93
.17
1.17
. 17
9. 72
5.83
10.76
8.77
13.82
11.91
9.61
6.30
7.17
10.68
12.58
13.78
1 1.20
13. 10
6.05
8.96
7.23
, 15
.06
.12
,15
16.39
6.16
6.56
17.77
18.51
7.10
8.12
5.80
10 23
0.81
132
121
185
162
183
185
171
197
3
1
23 6
23
10
112 9
251, l
211, 8
12 9
I
229 1
203 6
13, 9
11 7
123 O
181 0
279 6
168 9
260 .7
230i.5
38 .3
30 8
103 5
111,
15,
17,
12,
30,
3,
101,
115,
6,
25,
12,
16,
31,
80.
51.
19.
21.
•
112
193
193
206
aLf
31.
12.
115
15.
1.
no.
16.
82.
7"7",
91.
8
6. 8
26.
182
30 0.69
76 0.79 155
28 i.oi 111
12 0.52 139
83 0.76
21 1.06 131
31 0.33 111
13 1.83 179
81 0.61
li.il
63 1.29 189
57 1.03 192
32 0.50 H 7
67 0.75 206
2.61 2.73 151
2.58 2. 10 253
0.61 0.72 161
0.70 0.75 116
1.99 0.58 H I
2.08 0.00 119
1.91 0.00 196
2.03 1. 15 173
3.08 1.96 189
3.02 1.61 117
1.19 1.65 183
1.25 1.11 117
1.59 1.87 168
0.5S 0.B6 179
1 .17 0.9S lee
1.51 1.20 222
18
6 .66 0.12 0.50
6 .28 0.90 0.62
6.33 0.69 0.58
6. 12 0 .67 0.66
9.20 0 .70 0.83
10.01 0 .75 0.93
12.27 l .03 2.08
9.66 l .53 1.72
7.51 0.76 0.82
7. 16 0.63 0.86
8.75 1:10 1.31
12.58
26 1.71
212
156
H3
135
170
166
I2l
I3l
?i
HUM
19.
1
59.5
15.1
61.2
9
10
10.1
16.1
16
20.1
17.5
15.3
5.1
17.1
0.0 15
6.7 22
5.3 19
7 5 22
7 .6 21
22 .2 21
1 .8 18
13.0
7
17. 1
5.1
0.0 20.
0.2 31
FRRN
8
7
11
11
23. 9 25.2 26.
57.0
0.2 20.
17.7 - 0.3 32.
52.9 15.8 11.
50.3 19.0 11.
53.6 17. 1 13.
7.6 11.
62 .1
63 .9
7.5 13. 9
61 .1
0.0 18.
e.
0.2
62.2
61.3 16. 1 12.
51.5 16.3
.3 l"
0 .1 17.
62.5
61.3
0 .0 15.
18.5 18.3 15
15.9
0.3
3
57
15.7 11
0.2 17
15
51
0.1 29
51
16.8 15
50
0.5 23
26.1
1.0 15
19.6
0.0 26
13.8
0.0 25
53.3
0.6 18
50.6
0.0 19
15.9
0.2 31
60.7 12.7 11
59.2
0.0 19
57.1
0.0 20
60.8 16.5 12
56.9 15.7 16
56. I
0.0
1
52.5
1
0.0
55.7 . O. 0 19
o. 1 11
63.9
13
o. 0 20
0. 0
19
12
0. 8 28
50
16
o. 1 32
53
23. 1
1
61. 1
67.9
61.3
61.3
66.6
57.0
55.1
52.3
50.6
11.7
11. 8
HO
136
132
11
Ol
5
18. 1
111
f.O
51.2
11.
117
107
97
76
01
.26
. 16
.93
13. 1
51.5
59.7
107. 8
o. 0
10. 3
9. 6
02
131
.01
. 17
MYR
/flCRE
P.flT lOOg Ut.
FREiHHvfc.
lb.
ml/ ConeRLPHfl
6.13 0.96 1.10
7.02 0.77 0.71
5.50 1.38 0.83
12.31 1.86 2.30
13.95 1.95 2.67
12.23 2.08 2. 16
11.10 2.00. 1. 06
8.15 0.91 0.81
6. 55 0.67 0.58
1.57 1.51
e
7.10
12.12
13.38
6.91
6.02
8.99
9.50
11. 86
R+P
R/D
2.88
0.61
0.00
0.79
3.72
0.13
0.61
0.79
0.71
2. 21
2. 89
3. 15
68
2. 71
2. 10
o_ 12
2. 71
2. 89
2.01
11
O.19
57 O.19
.11 0.00
. 11 O. 13
52 0.33
93
77 0.16
0.66
0.51
1.25
1.30
2.33
0.00
0.00
0.68
0.00
1.17
l. 18
3.67
1.00
0.12
0.11
1.98
1.91
0.00
0.15
0.00
0.08
0.00
0.00
1.05
1.31
0.18
0.55
0.99
11
16
08
08
72
33
16
39
19
37
36
.68
13
22
,98
•15
20
39
19
36
25
07
15
12
97
81
72
90
2. 75 0.53
36 0.80
3. 16 0.00
2. 16 l. , 18
3, 11 0., 11
3. 12 o..00
3. 18 o..00
3. 18 0.00
2. 70 0.38
3. 16 0.00
2. 10 O.13
2. 07 1.71
3. 09 0.71
2. 71 0.77
1. 81 0-27
3. 12 0.00
*
2MEB
H/C
RRT
O
RSC8
LOC.
for
YLD RLPHR
CIt/R) G BY.
1989 Crop Year
HRRVEST
DRTE
TER
TER
TEB
TEB
YEO
21199 ZEN
101-006
107-57
115-090
115-090
115-090
115-90
1S209 FUH
21191
21191
21196
21196
21197
21197
21138
21190
21190
21159
21181
21190
*
Topp^nish
Gannon
Topp«*rii sli
Gannon
Topp&rii si i
Morfcrd
Toppirti sh
Morford
9/7/89
9/7/B9
9/7/89
9/ii/e3
GoodingCId)
Dixon CId
023/16
111
108
122
1638
906
1100
681
2U9
111
105
10BR
005/15-16
005/12-11
022/25-26
028/25
025/21
825/26
9/7/e9
9/12/89 2219
501
9/12/89
9/15/39 2296
9/15/e9 1581
9/11/89 2155
ioe
9/15/89 1503
236
Hop Union
1621
156
012/12-11 9/18/89 2U9
161
011/21-23
179
9/6/89
131 13209 FUH 018/03-05
9/8/89
528
202 56001 HRL 005/38
9/6/89
825
137 56013 CRS 016/39-11 9/12/89 1230
78 53106
018/13-11 9/15/89
802
151 59008
015/12
9/18/89 1517
82 60020
017/25-26 9/15/89
710
.93 60021
016/05
89
92 60021
016/09
9/11/89
178
83 60025
017/07
617
9/15/89
150 60032
015/19-20 9/12/89
160
81 60032
017/05
9/1l/e9
267
119 60033
015/21-22 9/15/89
573
118 60035
015/23
56
91 60035
016/15
9/15/89 1896
117 60037
015/25-26 9/12/89 2593
90 60037
016/21-22 9/11/89 3031
116 60038
015/27
89 60038
016/25
115 60039
oi5/:>9-3ri 9/12/89 2719
231
113
235
225
218
226
219
1327*
210
228
211
20S
1.69
3.62
6.23
1.97
6.73
1.66
1.62
3.79
5.82
5.07
0.59
0.81
8.86
9.56
9.95
3.51
3.07
2.68
3.91
2.05
5.92
5.77
1.83
10.36
5.76
7.72
2.53
3.61
3. 67
3.02
1.15
3.30
10.17
7. 11
2.05
1. II
2. 17
2.08
2.69
13
T?
85
82
10
15
10
20
31
20
OS
79
93
10
17
72
77
58
16
01
05
81
90
2, 72
2 91
1. 63
2. 23
5. 58
1. 78
1
12
l 62
2
13
1 39
1. 28
I. 11
3. 08
5. 15
5. 10
52
5. 83
2. 11
1
2. 25
2
3
2
1
3
5
5
3
2
1
• 5. 2e
3
1
3
e
3
6
5
1
3
0.236
0.253
0.217
0.222
0.23
15
23
90
13
39
33
28
27
97
05
ee
29
09
0.23
0.232
0.229
0.275
0.228
0.26
0.291
0.261
0.219
0.275
0.253
0.289
0.213
0.261
0.229
0.232
0.39
0.361
0.216
0.392
0.26
0.261
0.311
0.231
0.239
0.25
0.271
0.213
0.21
0.275
0.271
0.11
0.31
0. J97
0.282
0.235
0.251
0.237
0.211
0.211
0.306
0.318
0.277
0.299
0.237
0.12
0.253
0.251
0.231
0.285
0. 311
.o.2e
0.315
0.228
11
HSI
91
07
Bin R
Q o:-:
2I285
O16/O3-05
9/8/89 1223
l.2l
l.
21373
013/16
9/15/89 1817
7.73
7.
21382
011/15-16 9/12/89.
801
7.53
7.
21397 H1X 005/22-23 COMBINED WITH SUB 130
130 21397 H1X 018/08
216
9/8/89
3.01
3
101 21397 H1X 030/35
356
9/8/89
2.96
3
201 21105 STK O05/39
9/12/33 2167
8.31
1
125 21155
019/07-08 9/1l/e9 use
3.72
6
111 21155
023/33-31 9/15/e9 1201
3.67
5
221 21155
Ccrpcnter
1988
1.23
6
231 21155
Dixon CId i
1162
3.82
6
121 21156
019/09-H 9/1i/e9
728
2.98
1
110 21156
023/35-36 9/11/89
916
2.62
3
232 21156
Dixon CId i
922
1
1.70
2
222 21156
Haas
1550 .1.21
123 21157
019/12-11 9/12/e9 1031
3.18
3
109 21157
023/37-38 9/11/89 1313
3.27
3
Dixon CId)
233 21157
560
2.83
3
Gamache
223 21157
1025
3. 19
3
122 21159
O19/18-20 9/12/89
699
2.72
3
Brulotto
221 21159
1701
3.01
1
112
96
91
207
SN
bale- Hniilysis Samples
28
COL
1
e
7
15
69
17
17"
20
15
12
10
12
32
31
16
13
38
51
51
51
51
61
70
77
66
13
51
12
15
56
56
16
15
38
62
66
68
73
t2
65
72
12 61
10 65
11 72
17 67
32
33
29
38
28
16
12
62
60
50
29 52
31 51
31
30
28 52
35 53
12 68
28 51
30 11
27 12
27
26
25
27
21
21
26
33
O'"'
9
95
19
81
68
29
16
70
25
10
69
76
52
62
18
91
98
11
91
63
93
76
10
01
09
5
T
OA.
03
Ol
27*
69
17
59
60
50
63
50
21
30
50
?
6
7
1
3
10
9.06
13.20
9. 86
3
—t
er
6
15.91
—t^
"*2
i
0
0
1
28. 1
25. 6
25. 0
23. 0
25. 0
28. 8
28. 2
25. i
28. 7*
25. 0
25. 0
31. 7
~^~*. 5
"'FJ 8
9.03
2.21
2. 91
9. 19
9.38
10.60
3.29
3.85
1.69
9 . 61
10.50
6.70
10.88
3.27
1. 19
1 1.07
1 2.92
13.11
13.86
5.91
5.32
7.20
9.71
10.92
10.76
9.91
11. IS
9.73
7.17
8.1-1
6.11
6.22
6.31
6. 12
7.21
6.00
6. 37
8. 13
7.81
1 3. 01
6.3S
7.13
6.36
1. 12
6.77
5.75
3
29. 3
26. 1
27. 9
26
25
7.25
6.59
?
31. 8
28. 2
28. 2
30
31
32. 1
2-1
23. l
-)CJ
21.
21.
10. 1 1
8. 00
5.
8.
6
7.
6.
7.
6.
5
l
21. 6
~>r-(
16. 9
22. CT
6.20
6.16
11. 91
20. 3
21. 3
"^5 0
3. 16
11.80
28. 6
51. 7
R +B
mc!~-i
9. 01
5 95
8
7
12
8
DRY
10.56
7. 17
7
1
1
5
e
5
e
*»
Y.
MRTTER
01
03
00
1 1
63
70
10 20
T.C9
10 89
7 50
9 0?
5 73
10 52
1
9
29 11
9
(
17
15
8
6
17
9
16
15
3
6
28 16
31 16
30
30
29
29
30
32 19
32 13
9
ll
6
7
28 17
2C 15
25 15
MC
;
6. 93
10. 81
1. 73
31
28
17
20 11
23 13
20
COH
R/8
ml/
1.16
0.52
0.19
1.85 1.22
1. 12 1.68
2.51 3.06
2.19 2.88
2.19 1.16
2.55 3.22
1.18 0.99
1.36 l.OO
0.59 1.51
0.67 0.91
0.96 0.38
l. 15 0.78
1. 13 0.92
1.27
1. 17 0.26
1.16 1.79
0.72 0.30
2.31 l. 17
1.02 0.26
0.72
0.68 1.03
1.22 0.60
1.23 0.51
0.37 0. 11
0.30 0. 17
1.07 0.13
0.16 1.22
0.66 0.83
0.91 1.79
0.77 0.66
0.83 0.13
0.81 0.56
0.79 0.51
2.82 1.63
2.58 1.77
0.35
0.73 0.90
0.81 0.80
0.52 l. 17
0.31 0.79
l. II
0.80 0.87
l.Ol
1.25
0.83 0.91
1.06
l . U6
0.13
0.87 0.88
0.92 l. ID
1.70 l. 15
0.61 1.81
0.63 1.59
0.67 1.32
0.61 1.29
0.70 1.23
0.66 1.10
0.12 0.97
Y.
36.5
36.5
61.6
52.9
50.8
37.8
33.5
15.1
52.3
31.1
IB. I
17.6
37.2
51.3
11.8
31.9
16.3
17.3
61.6
51.7
61.5
52.2
35.8 52.9
237.8 51.9
91. 1 71.7
189.5 83. 1
133.2 82.5
155.0 60.3
30.1
31. 1
18.6
0.0
10.7
0.0
17.9
0.0
18.3
0.0
235.1
31.3
19.0 17.7
51.8 38.5
ie.i 39.2
32. 7
19.3
35.9 50.1
11. I 13.6
15.8 37.2
21.7
21.0
15.7
11.1
61.0
11.2
13. 1
ieo. l
6.5
10.5
112.8 68.5
60.5 51.5
ERR
11.8 28.8
MYR
200 210.9 81.9
133
17.0 63.3
102
16.2 57.1
117
22.1 55.0
193
18.0 63.3
125
16.1 11.2
176
89.8 59.0
12.7 67.6
211
1.6
6.1 51.1
277
38.1 72.8
123
3. 1 35.3
17.9 61.5
91
9.5 38.9
0.9
331
71.9 57.2
169 151.2 56.8
158 156.8 51.5
0.0 60.1
0.0 62. I
203 128.9 55.1
285
285
208
219
170
197
115
162
101
100
HO
123
116
118
lie
ioe
213
123
"^52
/ACRE
Cone RLPHR
lOOg Ut.
0.62 0.52
1.09 1.21
1.02 1.27
RRT
V
Y.
HUM
H/C
RRT
"->
2MEB
3.03
3.12
10.5 2.38
26.2 2.17
27.1 2.13
33.7 2.15
31.8 2.39
33.0 3.13
29.0 3.11
11.5 3.38
18.3 3.67
30. I 3.39
35.0 3.27
35.9 3.37
38.6 3.17
22.6 3.35
38.2
37. 1
0.00
0.50
0.32
0.52
0.21
0.72
0.62
0.11
0.51
0.55
2.08
0.57
0.11
I. 13
3.32
1.30
2.83
1.02
0.69
0.68
0. 66
0.56
0.0
0. 1
0. 1
0.1
0. I
0. I
15.7 1.71
20.6 2. 52
17.7 2.19
2. 1 0. 11
1.7 0.09
22.5 2.57
O.OO
2.52
3.66
2.70
3. 10
0.00
8.0 1.92 0.00
0.0
5.7 2.18 5.71
2.2 22.7 1. 16 0.86
0.0 12.6 2.72 2.73
0.0 19.3 1.21 0.95
0.1
2.58
2.21
2.76
2.76
3. 16
2.71
2.18
2.26
2. 15
17.8 3.29 0.69
23.1 2. 17 I. 61
3.9 1.59 1.82
6.1 2. 19 1.05
6.5 2.25 0.99
0.0
0.0
0.0 H.3
0.0
7.0
1. I 18. 1
1.6 21.1
0. I 25.2
7.1 11. 1
0.8 28.6
O.O 18.7
0.0
8. 1
0.0
0.0
0.6
0.52
0.21
0. IS
27.6 3.31 0.00
7.0 26.3 3.36 0.21
0. I 10.3 3.35 0.31
0.0 36.0 3.79 0.23
0.0 11.7 3.38 0.00
0.0 32.1 3.28 0.00
0.2 36.2 2.68 0. 12
0.0 25. I 2.10 0.17
16.8 17.5 3.32 0.00
13.7 ' 8.1 3.39 0.00
11.9 13.2 3.32 0.00
13. 8
8. 1 3.19 0.00
0.0 19.2 2.99 3.58
0.0
O.l
0. I
7.9
7.5
0.0
0. I
6.0
0.2
0.0
0.0
0.0
0. I
0.0
0.0
0.1
0.0
0. I 15.3 3.16 0.39
2.8
9.7 1.83 1.80
0.0
2.8 2.17 1.17
FRRN
DRTE
HRRVEST
L-l
E-2
E-2
L-8
018/18-20 9/12/89
008/03
9/6/89
Ol7/I8e.20
9/8/89
010/06-08 9/21/89
9/6/89
9/15/89
9/15/89
9/18/69
9/21/89
9/12/89
2375
1806
1219
1811
590.
2171
1310
1000
1673
1967
061/13-11
066/03-01
066/05-06 9/8//B9 1026
73 6253-233
67 8251-133
66 8251-112
8251-328
e251-331
8311-011
8311-011
3.63
1.75
3.11
l. 67
6.06
5.61
3.50
3.31
1.13
3.65
6.61
1.08
3.50
3.96
3.31
1.60
1.98
1.62
5.08
5.81
1.22
1.65
3.61
S. eo
1.36
5.18
5.18
?. 93
1.77
5.39
1.89
1.10
1.91
1.66
6.11
6.61
5.95
5.83
6.19
1.31
3.51
1.79
1.82
3.81
3.76
3. 11
5.20
1. 18
5.15
3.11
0.99
1.16
1.32
5.22
1.. 81
6.73
1.20
2.85
1. 15
6.95
5.19
1.19
1.17
1.12
<. 91
3.19
6.98
7.1B
6.80
3.11
1.08
5.80
5.91
1.18
5.29
1.1c
6.22
3.81
6.27
5.86
6.86
5.07
6.23
7.81
3.13
8.16
5.17
5.63
3.53
2.65
l. 53
6.32
3.12
3.07
2.39
2.69
3.72
1.00
1.60
2.51
3.05
1.65
0.295
0.261
0.221
0.231
0.231
0.231
0.215
0.219
0.229
0.215
0.252
0.21
0.216
0.217
0.216
0.21
0.217
0.257
0.251
0.265
0.238
0.226
0.218
0.308
0.285
0.2-19
0.27
0.252'
0.236
0.2-1?
0.223
0.253
0.221
0.21
0.231
0.211
0.231
0.228
0.217
0.213
0.229
0.26
0.231
0.253
0.239
0.263
0.216
0.267
0.286
0.222
0.261
0.283
0.286
0.309
0.235
0.302
0.239
0.211
HSI
67
65
67
67
35
10
11
13
37
11
22 38
10
37
38
19
21 11
25 12
21
23
20
32
1.12
10.00
11.93
7.12
5.10
5.30
5.80
7.86
6.85
6.60
7.10
7.35
7.80
6.90
6.15
1.95
1.11
6.10
6.80
5.90
6.22
8.19
5.33
6.09
5.61
6.35
6.30
5.71
7.00
1.35
5.55
13 21.99
11
5.80
36
1.80
38
6.10
38
6.10
12 11.60
11
8.15
19 31
22 38
18 35
18 35
22 37
21 12
21 12
23 13
22 13
23
25
21
23
21
21
21
1.79
5.70
5.52
52 10.82
61
7.16
62
e.1l
62 10.19
72
7.15
65
2.61
25". 15
21 13
26
22
26
30
29
23
Y.
MC
11
6.30
11 11.82
11
6.70
50
1.92
50
5.5S
13
8.75
63
6.35
13
8.71
15
6.OS
13
7.55
61
3.19
71
69
71
17 6c
31 52
12 61
16
13
11
17
29
28
30
38
51
11
25
29
33
32
31
11
26
20
30
38
51
13
51
27
COH COL
Y. DRY
7.08
8.39
8.83
5.76
R/B
lb.
n.l/ ConeRLPHR
FRESHRvo.
0.67
0.58
0.62
0.86
1.57
0.79
1.93
8.19 0.78 1.19
5. 16 1.06 0.65
1.63 0.52 0.18
10.97 1.36 1.67
0.55
0.65
0.65
1.39
1.13
0.51
1.73
I8l
151
151
201
223
258
111
131
198
192
2.32 0.38 HI
l. 02 0.80 117
0.96 0.95 120
25.7
25.2
23.7
27.2
25.3
29.3
25.3
27.7
27.3
26.8
28.0
27.3
26. I
27.2
30.1
25.2
25.9
25.3
26.2
27.7
28.9
26.2
27.1
27. I
27.2
21.0
21.8
21.3
21.0
23.6
23.2
21.5
1.50
1.11
1.55
1.05
0.77 0.71
l. 23 1.70
0.83 1.30
0.80 1.02
0.81 0.91
0.72 1.10
0.75 1.10
8.98
8.50
7.79
5.28
11.86
9.97
0.68
0.16
0.69
1.29
0.61
0.61
116
159
217
217
233
212
126
115
197
ie2
196
1.11 251
0.53 115
0.91 237
1.19 229
1.29
l. 39
12.37 0.56 1.00
8.11
12.01
8.97
7.90
B.S7
8.O0
10.75
ll.61 0.75 0.88
10.57 0.78 1.50
10.91 0.87 1.16
12.30 0.89 1.22
8.53 0.98 0.97
7.18 1.03 0.97
9.51 0.99 1.05
108
136
1.31 1.61 315
0.92 l. 05 219
0.29 0.60 160
O.eO 1.31 180
1.03 1.16 131
10.01 1.08 1.63
8.99
7.20
1.10
9.35.
8.50
10.61 1.20 1.59 139
12.67 0.6e 1.02
5.39 0.28 0.81 ISO
9.11 l. 38 1.36 116
112
121
111
Y.
Y.
H/C
HUM RRT
Y.
2ME8
53.1 0.0
6.7 1.28 1.17
51.2
0.0 16.0 2.81 2.98
51.6
0.0 18.2 2.79 3. lO
52.9 16.1 IS. I 3.16 0.00
58.6
63. I
62.3
58.9
61.3
60.9
37.8
51.6
39. I
52.0
10.1
26.0
16.6
11.2
0.0
22.1
35.6
25.2
27.1
15.0
29.2
19.2
65.5
26.7
36.7
66.0
25. I
23.5
30.0
32.3
32.8
33.3
62.8
26.9
13.7
29.8
13.1
35.8
35.0
11.7
38.1
30.8
0.0 28.2
25.7 12.1
81.7 31.9
31.6 27.1
13.2 31.0
30.1 50.1
55.9 30.1
0.0 51.2
79.3
55.3
15.9
57.0
12.B 15.3
60.2
0.0
16.8
63. B
90.1 62.2
52.2 50. I
18.3 58.7
0.0
0.61 200 113.9 61.3
0.15 155 105.9 62.9
0.62 151
83.7 61.0
0.53 187
93.3 58.5
8.63 1. oe 0.00
13.16 0.89 0.99
9.32 0.70 0.73
10.16
10.03
11.2.9
9.91
Y.
MYR FRRN
20.1
15.9
15.6
15.0
7.1
18.7
2.61
1.65
1.57
1.58
1.18
2.13
1.21
1.66
1.89
2.36
l. 96
2.69
33.3
22.7
16.1
21.7
35.9
11.8
3.38
2.28
3.22
3.12
3.52
3.15
1.63
1.79
1.03
38.2
30.6
36.5
37.5
31.2
31.1
38.3
3.18
3.18
3.10
3.50
3.51
3.39
3.17
0.51
l.2l
1.19
0.62
1.92
0.57
0.11
0.0
2.5
0.0
0.0
39.9
19.6
31.5
21.8
3.12
3.56
2.36
1.91
0.87
0.30
0.17
0.78
0.0 10.8 3.11 0.65
0.0 11.3 3.37 0.78
3.9 39.3 3.36 0.00
1.0
0.0
0.0
0.0
2.8
1.5
1.2
0.0 38.8 3.38 0.29
0.0 33.2 3.12 0.16
0.1 39.0 3.10 0.51
0.2 10.8 3.15 0.15
0.2 37.8 3.'12
0.0 27.1 3.38
3.1 3e.6 3.39
0.0 27.0 3.36 1.18
1.33
0.70
0.55
0.57
2.80
0.75
l.ll
28.1 3.36 0.63
30.0 3.31 0.11
16.0 2.65 1.08
3.6 0.18 O. 13
1.3 1.75 0.11
0.0
0.0
0.0
0.0
0. I 31.0 3.11
2.7
2.5
0.1
0.0
0.0
0.0
13.1
0.0 11.7 2.11 3.26
0.2 18.6 2.51 1.10
0. I 15.8 2.19 2.27
0.0 19.9 2.72 3.53
0.1
0.0
0.0
0.1
0.0
0.2
15.9 50.8 16.8 16.0 3.39 0.00
9.2 52.0 15.9 11.1 3.31 0.20
6.9 51.6
6.1 23.5 2.82 0.66
13.0 59.2
1.3 21.9 2.S9 0.63
13.1 58.0 16.3 11.7 3.10 0.00
86.5 5e.5
0.0
1.7 0.11 0.52
11.7 51.3
0. I 21.5 3.05 0.19
3.533.0
0.0 36.0 3.39 0.67
3.5 36.9
1.5 36.2 3.62 0.19
126.1 61.5
1.6 17.5 1.89 0.32
53.1
19.8
11.5
9.3
RRT lOOg WL. /RCRE
30.2
9.72 1.78 1.82 198
36.7
29.8 11.79 1.12 2.5e 190 169.8
23.0 15.65 1.18 2.70 151 113.6
25.0 11.99 l. 20 2.59 127
81.8
21.8
8.61 1.50 0.56 113
86.5
23.7
9.71 1.33 0.51 121 110.8
35.0
25.0
30.8
38.3
26.5
35.2
5.15
37.1
5.06
26.2
5.70
21.3
6.52
26.9
5.73
23.2 10.92
21.2
27.1
30.0
MRTTER R+D
9/5/89 826 5.31 7.92 0.211 27 16 5.85 21.5 13.23 0.67 1.29 226 13.9 65.6 0.0 12.9 1.59 0.00
9/7/89
066/39-10
9/8/89
639
066/12
9/8/89 1075
067/37-38
9/8/89
802
067/33-31
9/8/89 1613
069/03-01 9/13/89
217
207/018
9/5/83
521
Toppenish
3 8311-130 207/131
52
53
11
2
57 8251-265
56 8251-267
215 8251-211
9/7/89
Toppe-nish
066/17-18 9/11/89 1350
066/21-22
9/8/89
985
066/27-28
9/8/89
651
066/23-30
9/8/89 1019
066/31-32
9/8/89 1667
066/33-31 9/H/89
751
Gomache
51 1
63
62
61
60
59
58
230
8251-181
8251-196
8251-222
8251-239
8251-211
8251-211
8251-211
211 8251-167
556
1668
511
066/10
9/11/89
066/15-16 9/11/89
Gamache
829
1176
65 8251-116
61 8251-167
229 e251-l67
9/8/89
9/8/B9
991
Topps-nish
9/7/89
9/8/89
061/03-01
71 8253-138
220 8253-138
1119
1205
1510
1606
1607
1372
9/8/89
9/8/89
9/8/89
9/8/89
9/6/83
9/8/89
8153-127
B151-237
e252-H5
8253-028
8253-080
8253-133
9/8/89 1039
9/7/e9
065/066.10
065/15-16
067/21-22
065/35-36
065/39-10
065/17-18
72
71
51
70
69
68
9/H/89
156
9/11/89
783
9/H/89
165
9/6/89
209
9/8/89 H2l
9/6/89
669
9/l8/e9 1250
65101 L-e 019/21-26 9/21/89 2017
66052 PRI 006/15-17 9/21/89
e39
66055 F C O08/15-16 9/18/89
176
7501-127
818/19
MO FLRMT
65102
65103
65103
65101
005/21S.26
015/38
023/19-20
019/03-01
011/06-07
009/06-08
55 8153-020
067/07-08
213 8153-020 'Toppenish
121
192
183
77
128
ie5
• 131
175
61107 N B
65009
65009
(=5009
65101 TRL
65102 L-l
206
113
112
75
163
181
016/33-31
016/11-12
018/09
011/31-32
016/15-17
006/33-31
006/06-08
016/37-38 9/15/89 1215
017/10
133
017/33-31 9/H/89
219
BUL 009/26
9/12/e9 1995
86
80
81
180
SRV
SOW
STE
COM
61008
610H
61017
61020
61020
61021
62013
63018
61009
61010
61100
2. 13
1. 15
1.52
3.72
B BY.
YLD RLPHR BETR
CJI/R) e BY.
2.01
2.03
1.99
3.31
3.81
2.01
6.92
.
87
85
79
161
110
195
200
LOC.
1.91
1.25
1.32
RSC8
111 60010
015/31
9/12/89 1075
89 60012
016/26
9/18/89 1171
138 60012 SHI 016/30-32 9/21/89 1030
SN
Bal<> Analysis Samples for 1989 Crop Year
'
£i
r\>
/
(
8312-120
8112-060
8551-051
8552-222
e552-251
e553-067
8553-28l
8553-287
B553-310
8553-323
8657-003
8657-003
8657-013
8657-027
R3C8
B696-025
33
28
18
19
20
76
176
1 17
157
129
116
8697-021
8699-015
8699-016
8699-028
901-013
CRLFCLUST
133-06
113-11BRN
I13-HBRN
113-1IX
115 n s - i i Y
216 SRR2-36
217 SRR2-38
8696-016
17
36 8657-029
15 8657-033
16 8657-035
17 8657-012
35 8657-013
12 8658-030
13 8558-03!
11 8661-027
12 8666-007
10 e667-019
9 8668-027
7 8673-021
e 8G71-001
6 8679-011
1
86es-oio
ii 8685-011
13 8685-017
5 8685-068
15 B636-018
21 8692-026
29 8693-016
16 0695-003
26 8695-003
27 8695-023
30 8696-003
13 8696-011
31 8696-011
32 8696-013
25
50
21
22
23
19
39
11
38
37
1
10
31
51
SN
Topponish
Topp«riisl-i
OIB/27-28
010/03C05
020/15-16
012/06-08
01B/15e.l7
021/15
021/16
215/071
216/110
215/058
215/061
217/126
217/128
068/15-16
217/118
068/13
212/123
211/115
211/117
210/053
210/060
209/115
208/072
068/23
068/27-28
208/131
068/21-22
216/010
2I7/07l
068/IS
216/078
216/112
217/111
211/135
211/137
211/115
069/13
068/35-36
213/112
212/078
9/7/89
38
1
8
1'i'O
BeM
lOl l
7
505
181
56
2
c*
60
29
67
2
1
5
1
5. 10
•
5
(
1
89
32
—*",
56
65
03
98
58
7* 96
8 55
1 77
3. 09
6
11
91
5
96
17
56
19
7°
72
60
75
19
72
11
92
22
90
29
1
6
6
6
—
6
3
5
5
5
3
1
7
a
1
8
89
16
18
15
31
16
25
06
91
65
65
08
33
12
95
31
61
l' 98
1
6
3.
5.
5.
3. 61
6. 80
3
7.
5
6
379
l
7
c-
-7
ll
3
6
o
8
19
5
1
82
63
25
32
26
11
86
30
1
15
O
*7
31
1
5
5
5
8
67
78
50
2 91
7* 08
3 63
3 86
5 92
5 71
1
70
7 62
2
2
?
17
15
20
81
66
21
&e
31
15
31
99
26
21
17
97
1 1
5
1
3
101 1
69
616
518
89
22
1218
619
376
256
955
157
855
5
1
80
115
5
1
111
11
1
5
1
635
119
1
e57
9/5/89
519
715
9/5/89
3/5/89 ll 58
9/18/89
518
9/15/89 1868
9/18/e9 1101
9/11/89 1957
9/12/89 1705
9/15/89 2532
9/15/89 2027
9/18/89 2251
9/7/89
9/13/89
9/5/89
9/12/89
3/5/39
9/13/e9
9/12/89
9/12/89
9/J 3/89
9/12/89
9/13/89
9/12/8'.'
9/1/89
9/1/89
3/1/39
9/12/89
9/13/89
9/13/89
9/1/89
9/1/83
9/5/39
9/5/8';)
NO PLRII1
9/13/89
9/13/e9
9/1/69
9/1/89
1
222
695
115
7
l
1
6
813
511
I00l
01
76
58
78
1
12
911
1
6. 70
6. 69
5. 63
5 33
16
69
63
l
2
11
5
1
1
7. 93
BEn n
e BY.
95
5. 80
1. 18
51
65
BY.
65
1
6
3
G
RLF'HR
717
3ll
1116
267
116
111
9/5/89
9/1/89
9/13/89
ca/R>
YLD
1989 Crop Yeor
HRF:VEST
DRTE
068/03-01 9/13/e9
216/051
9/5/89
068/07
9/13/e9
215/081
9/18/83
215/087
9/5/e9
215/110
9/5/89
068/09
9/13/89
069/19-28 9/13/89
211/103
9/1/89
069/21
9/13/89
069/35-36 9/13/e9
069/39-10 9/13/83
202/121
069/15
218/051
LOC.
Bale Rncilysis Samples for
11
69
62
69
73
61
12
16
13
61
13
55
12
16
10
53
o~r
66
18
39
62
31
16
61
61
36
COL
52
35
0.265
30
28
30
37
37
16
21
62
62
11
36
10
28 16
20 36
17 31
32
16
12
70
se
60
36 53
16
21
26
18
29
27
18
30
19
25
21
10
2^*
39
36
23
27
25
26
22
21
21
29
10
31
38
36
21
23
27
COH
17
16
25 13
32 52
33 53
0.222
33 51
0.228
35 52
0.221
37 59
0.233
15 65
0.235 . 53 73
0.221
35 58
0.239
36 59
0.228
13 70
0.236
39 61
0.235
25 13
0.306
0.229
0.269
0.225
0.238
0.255
0.221
0.218
0.225
0.21
0.236
0.278
0.206
0.237
0.225
0.228
0.239
0.231
0.236
0.201
0.227
0.217
0.355
0.222
0.216
0. 193
0.221
0.217
0.239
0.23
0. I 85
0. I9l
0.219
0.262
0.253
0.228
0.267
0.203
0.229
0.226
0.229
0.233
0.228
0.213
• 0.23
HSI
Y.
5.30
5.81
7.91
8. 16
7.09
5.70
8.69
5.81
10.30
5.81
5.70
1.50
7.70
5.71
5.71
5. 10
l . 60
5.10
5. 10
1.55
5. 60
10.68
5.20
6.55
5.75
1.75
6.70
7.85
5.89
5.95
6. 35
6.30
5.15
5.05
9.75
5.65
5.85
10. 10
5.10
6.85
5.50
5.00
6.10
5.70
5.70
5.65
7.50
5.70
5.30
5.90
1.19
1.90
5.80
1.10
5.91
5.90
MC
3:9
09
62
71
11
50
11
12
92
SI
29
09
c^c-
21
10
12. 37
29
15. 27
16
13. 16
1 1.
1 1
9. 21
13. 21
7. 19
16. Cil
11. 11
15. 71
10. 16
13 25
16. 6l
13.
6.
8.
10.
e. 91
e. 18
10 91
10. 97
10.
5.
9.
8.
11.
8.
12.
8.
19. 21
1 1. 15
12. 17
6. ei
7. 19
10. 62
9. 60
ll. 59
R+B
ml/
r-j—'
0.66
0.93
0.63
0.75
0.67
0.61
2.21
0.57
2.07
1.19
0.61
1.03
2. ll
2.01 1.30
1.06 0.99
0.85
1.69
0.77
0.62
0.53
2.51
0.90
1.87
2.01
0.55 0.60
0.93 1.31
2.05
272
183
170
238
197
115
195
318
191
80
151
215
275
251
315
1.09 321
0.63
0.85 231
0.61 101
0.93
0.16 0.21
0.75
1.23
1. 12
0.81
0.92
0.90
0.72
l. 19
1.23
0.97
->
103
383
278
163
129
tv
MYR
25.0
12.5
ERR
5.3
75.0
38.7
71. 7
16.7
30.7
37. 1
55.8
22.0
7.1
0.7
71.1
16.0
0.0
28.6
17.3
26.0
18.7
58.5
31.7
39.0
66.6
13.5
60.5
66.0
73. I
15.2
36.2
11.5 32.5
11.1
17.9 29.2
ll.6 66.6
37.0 52.5
10.3 36.1
50.3 56.3
20.8 51.1
7.9 59.2
38.2 18. I
27.1 15.7
5.5
2.3 62.6
3.1 55.2
21.3 68. I
ERR
10.6
20.7 36.6
7.5 se.s
19.7 31.3
17.0 68.1
51.7 17.9
121.1 60.0
0.0
17.1 66.6
/RCRE
ConeRLPHR
lOOg Wt.
0.16
1.59 0.51
0.91 0.75
0.29 1. 15
0.63 0.85
0.81 1.81
0.71 1. 16
2.11 1.20
0.90 1.29
0.31 0.60
R/B
RRT
1.29 0.66 162
0.97 1.80 211
15.0
2. 32 1.D7 127
32.3
0.29 0.72 136
67.9
l. 12 l .88 I6l
58.2
13. 89 1. 12 2.06 151
62.5
1 1 51 0.78 I. 26 293
9.3 33.1
11. 85 1. 13 1.59
1.1 16.7
7. 57 0.81 0.68 ies
32.1
ie.o 51.1
23.7 13. 1 1 1.21 0.97 201
51.3 28.7
26. 1 13. 03 0.98 1.85 157
71.7 17.6
26.5 1 1. 27 0.12 1.59 117
17. 1 11. B
23.6 11. 01 0.61 0.91 179 102.0 51.7
22.5 10. 02 l. 10 0.51 111
73.6 53.9
26.8
6. 73 l. 18 0.92 112
71. 1 59.8
26.1 13. 78 1.77 1.89 181 150.0 57.9
25.9 13. 91
1.77 2.70 212 225.0 63.6
29 ** 11. 05 0.96 1.09 161 109.5 61.6
27.5 1 1. 81 1.60 1.83 187 161.0 58.1
9 89 1.31 0.86
0.0 57. I
1
92 l. 12 0. 19
0.0 52.2
25.0
25.0
21.7
30. 6
30.1
31.6
26.7
25. e
25.9
25.0
25.2
26. 5
23. I
30. 7
21.2
29.2
25.0
25.0
21.5
25.0
23.1
28. 3
25.0
°5 "*
23.7
33.0
25.0
26.0
35.7
33.1
29.7
31.8
25.0
25.0
29. 8
23.9
29.1
25.9
25.0
25.0
25.0
31.1
20.7
MRTTER
;: dry
Y.
Yl
HUM
9.0
8.3
10.7
1.95
13.9 1. 39
33. 5 2. 18
22. 5 2.21
11.8 2.71
15. 6 2.35
12. 1 3.59
11.9 1 .92
11.8 2.78
21.9 2.03
26.9 2.11
9. 3
28.2
29.5
21.7
1.0
0.0
1.2
0. 0 20.5
0. 0 15.7
0.0 21.9
0.2
2. 1
0.0 23. 3
0. 0 18.1
0.0 17. 6
0. 0 22.2
11.6 11.3
13.0
9. 1
0.0
0.2
1.2
0.0
0.0
l. 90
2. 06
o
1
1
0
1
0
0
1
0
0
I
1
0.10
2.70
2.61
2.15
2. 61
3.38
3.71
19
33
15
88
97
72
08
85
95
88
11
11
11
15
96
17
15
56
03
76
00
31
00
11
69
10
63
OS
26
71
33
33
26
21
53
26
21
11
65
80
58
0
o
0
o
00
18
99
00
1. 11
0
o
3. 30 o
2. 15 1
0.15 o
0. 29 0
1.59 o
2.68 1
2.30 2
1. 56
1.81
1
1
o
o
o
o
0
o
1
o
1
o
x
o
1
1
1
2.21 0
2.31 1
2.19 0
2. 15 3
3.22
32.0 2.00
0.0 33.9 2. 39
0.0 27. I 2.31
0. 0 30. 2
1 . 72
l .0 16. 8 3.*50
0. 0
1.57
9. 9
0.0
0. I
0. I
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
Y.
2MEB
1.83 O. 61
1. 65
0 63
2.72 1 82
1.81 1 29
2.50
3.21
0. 18
3.51
RRT'
H/C
3.36
1.2 0.08
3.16
33.e 3.33
13.5 3. 16
23. 2 3.10
9.8
22.1 2.11
26.3 2.28
11.3
0.0 13. 2
0.0 19.2
0.0 30.8
0.0
0.0
0. I
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1.7
6.5
0.0
3.9
0.0 ie.1
0.0 11.6
0.0 12.2
0.0 21.2
6.5 ll.O
FRRN
oo
154
Washington State University
irnrjiitt.-c! Anr;cu!ture Research and Exiension Center
?,; ;;. i'cx 29SJ-A
Prosser. WA 1»."50-S687
fax j-,''_'-/ee-3'i:i-:
MEMORANDUM
DATE:
July 9, 1990
TO:
A. Haunold
THROUGH:
FROM:
L. R. Faulkner ^^^
S. T. Ken
SUBJECT:
QUARTERLY PROGRESS REPORT FOR 4/1/90 TO 6/30/90 FOR COOPERATIVE
AGREEMENT No. 58-91H2-8-136
Off-station trials of USDA 21457, 21459, 21484, 21490 and 21491, Washington
selections 8254-167 and 8254-244, and Tettnanger A and B selections were
observed in off-station trials. Except for 21484, established from crowns
taken from a nursery established in 1989, all plantings were trained at the
normal time (unlike last year). Temperatures were cooler than normal from the
last half of May through the first half of June and plant growth and
development was likely delayed by the low temperatures. Recent temperatures
have been normal and the plantings are developing well. Likely due to grower
management practices, selection 21484, is the poorest plot.
Seedlings from some of the crosses listed in the January 9, 1990 quarterly
progress report were planted in the field. Germplasm materials collected
earlier this year were established in the field as well.
Six month storage analysis of 1989 crop year samples was begun, but the
summary is not complete.
155
Washington State University
Irrigated Agriculture Research and Extension Center
Rt. 2, Box 2953-A
Prosser, WA 99350-9687
509-786-2226
MEMORANDUM
fax 509 786-3454
DATE:
January 7, 1991
TO:
A. Haunold
THROUGH:
E. L. Proebsting id
FROM:
S. T. Kenny
SUBJECT:
QUARTERLY PROGRESS REPORT FOR 7/1/90 TO 9/30/90 FOR COOPERATIVE
AGREEMENT No. 58-91H2-8-136 (Resubmitted)
Washington selection 415-90 was released by the Washington Agricultural
Research Center and by USDA-ARS as 'Centennial' in September. Its ancestry
includes Brewer's Gold, Fuggle, East Kent Golding and German germplasm.
During the five years Centennial was grown in a commercial plot, the average
seedless hop cone yield was 1,995 kg ha'' (1,780 lbs acre"1) and the alpha-acid
content averaged 11.5%. It is mid-season in maturity and produces small dense
cones that weigh about 245 mg. The hops have a citrus-floral aroma.
Off-station trials of USDA 21457, 21459, 21484, 21490 and 21491, Washington
selections 8254-167 and 8254-244, and Tettnanger A and B selections were
harvested and cone samples obtained. Yield and brewing quality results will
be available in the next quarterly report.
Crosses between individuals showing possible resistance to American hop latent
virus were made, but the success of these crosses in unknown.
Seed set
appears to be low, perhaps due to the unusually high temperatures during
pol1ination.
Progeny representing crosses for evaluation of hop resistance to aphid were
started in a nursery. About 250 of these were propagated and sent to Dr.
Keith Dorschner at the University of Idaho Parma research center for
evaluation of their resistance to aphids.
Over 300 genotypes were machine harvested from nursery plots. Included in
this number are 17 new aroma hop selections for brewery evaluation.
156
Washington State University
Irrigated Agriculture Research and Extension Center
Ri. 2, Box 2953-A
Prosser, WA 99350-9687
509-786-2226
MEMORANDUM
FAX 509-786-3454
DATE:
January 7, 1991
TO:
A. Haunold
THROUGH:
E. L. Proebsting
FROM:
S. T. Kenny^
SUBJECT:
QUARTERLY PROGRESS REPORT FOR 10/1/90 TO 12/31/90 FOR COOPERATIVE
AGREEMENT No. 58-91H2-8-136
Table 1 summarizes the yield and brewing quality data for experimental hop
selections grown in commercial trials in Washington in 1990. Selections
21457, 21459, 21484, 21490 and 21491 are triploid Hallertauer selections from
the USDA hop breeding program. Selections 21496 and 21497 are Tettnanger
clones imported from Germany.
Selections 8245-167 and 8254-244 are from the
Prosser hop breeding program. All are aroma hop selections. Yields were
lower than in past years perhaps due to the unusually hot summer temperatures.
The yields of the Washington selections are especially disappointing.
Evaluation of bale and cone samples taken from the hop nurseries during the
1990 crop year is in progress.
910
996
1,025
Toppenish 90
89
21457
1,205
1,704
1,740
1,400
NA
948
411
805
544
525
511
Toppenish 90
88
87
Toppenish 90
90
89
Mabton
Mabton
Toppenish 90
89
Harrah
Toppenish 90
89
Harrah
21484
21490
21491
21496 TetA
21497 Tet B
8254-167
488
%
B-acid
3.75
4.60
5.03
5.81
4.66
3.03
3.67
2.24
2.18
2.53
1.86
2.19
2.67
6.00
6.14
6.49
6.53
4.84
5.54
4.05
4.77
3.93
3.85
4.73
6.19
4.30
4.05
3.93
3.59
4.08
4.20
4.27
3.86
3.15
3.03
3.23
6.14
6.33
5.37
5.42
3.00
3.04
3.71
3.19
3.76
3.38
3.23
4.23
2.88
3.27'
(at 8% Moisture)
%
a-acid
0.251
0.247
0.257
0.240
0.261
0.248
0.251
0.311
0.320
0.282
0.310
0.399
0.241
0.243
0.268
0.299
0.247
0.271
0.276
0.318
0.260
0.270
0.239
0.322
0.280
HSI
24
21
18
16
26
27
25
25
27
21
24
21
22
27
26
29
24
28
25
28
24
25
25
26
22
Con'
0.75
0.63
0.89
0.77
0.63
0.84
0.55
0.77
0.55
0.66
0.39
0.35
0.62
0.84
0.97
0.73
0.73
1.05
1.01
1.22
0.97
0.60
0.54
0.67
0.53
Ratio
a/P,
1.40
0.84
1.22
0.95
0.56
0.47
0.66
0.51
0.83
0.64
0.42
0.49
0.54
0.90
1.00
0.79
0.64
0.77
0.96
1.11
0.94
0.91
0.73
0.86
1.32
ml oil/
100 q
21.6
30.8
27.4
22.0
54.7
43.4
47.6
33.2
37.2
25.8
17.3
13.8
14.0
40.3
24.2
38.5
24.2
21.8
34.3
35.7
33.6
24.5
27.9
37.8
25.6
Myr
%
3.7
4.2
0.2
0.3
18.1
14.9
16.8
18.8
0.0
0.2
0.0
0.0
0.1
9.1
6.8
7.5
8.0
0.0
0.1
0.1
0.1
0.1
0.2
0.0
0.0
Fam
%
44.8
38.4
40.8
43.8
18.5
13.2
17.5
23.6
40.8
36.2
44.7
41.1
53.1
32.1
26.0
27.6
33.2
43.6
38.6
34.1
38.9
41.4
38.2
33.7
38.4
Hum
%
3.39
3.47
3.45
3.39
3.35
3.32
3.32
3.22
2.68
2.58
3.38
3.43
3.44
3.14
3.42
3.33
3.34
3.36
3.47
3.35
3.31
2.58
2.43
2.45
2.45
40.0
50.9
55.8
43.5
27.3
16.5
48.9
NA
64.4
73.0
81.2
45.0
19.7
64.8
32.9
0.869
0.671
0.714
0.766
1.136
1.305
0.615
NA
0.511
0.768
0.505
0.490
1.294
0.638
0.874
HSI
0.68
0.65
0.25
0.31
0.33
0.26
0.26
NA
0.43
0.44
0.54
0.37
0.51
0.54
0.45
ml oil/
100 q
3.90
3.85
3.50
3.56
3.52
4.17
4.19
NA
3.75
4.25
3.69
3.63
3.51
2.96
2.92
Ratio
H/C
2 NA - Not Available.
cohumulone from deoxyhumulone. Our previous HPLC method did not separate these components.
8.85
6.49
5.89
8.40
15.86
19.31
15.02
NA
7.60
17.71
6.64
6.77
7.39
6.55
8.22
HMEB
%
After Six Months Room Temperature Storage
H/C
% a-acid
Ratio Remaining
1The 1990 Con values are lower than previous years' because we now use EBC Method 7.4.1 for HPLC determination of a-acids and B-acids The EBC method
seoarates
metnod separates
8254-244
1,018
90
89
422
1,034
906
90
89
1,450
90
89
89
NA
87
21459
NA2
88
1,891
1,988
2,020
88
87
89
90
Granger
(lb/A)
21455 Mt.
Hood
Yr
Location
Selection
Yield
Table 1. Yield and chemical analysis data for experimental hops grown in Washington commercial trials.
CXI
158
fi?"i ^Vi United States
\dfu Department of
u
•5/
Agriculture
^
Agricultural
National
Beltsville, Maryland
Research
Service
Program
20705
Staff
October 2, 1990
Dr. Dennis Oldenstadt
Associate Director
Agricultural Research Center
Washington State University
Pullman, Washington
Dear Dr.
99164
Oldenstadt:
There is returned herewith the signed release notice for Centennial hop
variety W415-90 which is being released by the Agricultural Research Service
in cooperation with Washington State University. As originating office, you
should retain the original release notice in your files and as suggested in
your letter of September 11, we would appreciate your distributing copies to
the enclosed distribution list.
We appreciate this opportunity to join you in furnishing to the public one
more excellent example of ARS/SAES cooperation.
Sincerely,
HOWARD J.
BROOKS
Plant and Natural Resource Sciences Staff
Enclosure
cc:
A. Haunold
Agricultural
cfes
Research
Service
159
UNITED STATES DEPARTMENT OF AGRICULTURE
AGRICULTURAL RESEARCH SERVICE
WASHINGTON, D.C.
and
WASHINGTON AGRICULTURAL EXPERIMENT STATION
WASHINGTON STATE UNIVERSITY
PULLMAN, WASHINGTON
RELEASE OF 'CENTENNIAL', A NEW HOP CULTIVAR
The Agricultural Research Service and the Washington Agricultural Experiment
Station announce the release of hop selection W415-90 (USDA Accession Number
21507) as the cultivar CENTENNIAL.
CENTENNIAL originated from a cross made by C.E. Zimmermann at Prosser, Washington
in 1974 between Oregon selection 6619-04 and USDA male selection 63015M. The
genetic composition is 3/4 'Brewer's Gold', 3/32 'Fuggle', 1/16 'East Kent
Golding', 1/32 'Bavarian' and 1/16 unknown.
CENTENNIAL was tested as selection W415-90 for twelve years in single-hill and
five-hill plots at the Roza unit of the Irrigated Agriculture Research and
Extension Center, Washington State University, Prosser, Washington. During this
time it had a calculated average yield of 1,870 kg ha'', an average alpha acid
content of 11.2%, and an average beta acid content of 4.1%. Selection W415-90
was tested in five hill plots near Corvallis, Oregon for seven years where it
had a calculated average yield of 1,630 kg ha"1, an average alpha acid content of
12.1%, and an average beta acid content of 4.3%. In a three-year nine-hill plot
at Wilder, Idaho it had an average alpha acid content of 11.5%, and an average
beta acid content of 4.2%.
Between 1985 and 1989, selection W415-90 was tested in a 0.8 ha commercial
planting near Prosser, Washington. During this time it had an average seedless
yield of 1,996 kg ha-1, an average alpha acid content of 11.5%, and an average
beta acid content of 4.6%.
During the same period, the average seedless hop
yield in Washington was 2,077 kg ha'1.
CENTENNIAL is an early to mid-season maturing cultivar. It has excellent spring
regrowth and good vigor. The bines generally cling well to the string and climb
rapidly. The lateral branches range between 0.6 and 1.3 m in length and the
plant has a clavate growth form.
CENTENNIAL produces small dense cones that are evenly distributed on the upper
half of the plant. Seedless cones average 33 mm in length and 245 mg in dry
weight. At maturity, the bracts are light green, ovate and average 17 mm in
length; the seedless bracteoles are yellow-green, lanceolate and average 14 mm
in length. The cones are borne in loose clusters on the lateral branches, and
thus are easily picked and cleaned. The abundant lupulin is yellow and has an
average alpha acid homolog composition of 61% humulone, 29% cohumulone and 10%
adhumulone. After six months storage at room temperature, more than 50% of the
original alpha acid content remained in the dried compressed hops, indicating
fair storage stability of the alpha acids. Oil content averages 1.5% of the
160
dried hops. The composition of the major essential oils averages 58% myrcene,
11% humulene and 5% caryophyllene. The hops have a citrus-floral aroma. Brewing
evaluations of CENTENNIAL have been favorable.
CENTENNIAL is moderately resistant to hop downy mildew incited by
Pseudoperonospora humuli Miy. et Tak G. W. Wilson. It is free of Prunus necrotic
ringspot virus and apple mosaic virus, but it carries hop mosaic virus, hop
latent virus and American hop latent virus.
Planting stock of CENTENNIAL will be maintained by the Irrigated Agriculture
Research and Extension Center, Washington State University, Prosser, WA 99350.
l-ll'tyD
Director, Washington Agricultural Experiment Station
Administrator, Agricultural Research Service, USDA
Date
SEP Date
27m
c
Table 1.
c
Comparison of the Yield of Selection W415-90 and Galena, Nugget,
and Chinook grown in Washington.
Yield
Area
Year
(acres)
1985
1986
1987
1988
1989
3,957
3,686
4,050
4,900
5,735
Average
1985
1986
1987
1888
1989
1,047
1,510
1,400
1,800
2,241
Average
Ch inook
ena
1,644
2,098
1,870
1,890
1,920
1,884
Galena
Chinook
1,000
1,269
Average
W415-90
1,458
2,035
1,870
1,620
1,940
1,785
1,580
2,085
1,726
1,900
1,621
1,782
2
2
2
2
2
Average
1985 and 1986 Hop Administrative Committee
1987, 1988 and 1989 Hop Growers of America
Comparison of the Brewing Quality Analysis of Selection W415-90
and Galena, Chinook and Nugget.
Alpha Acid
%
12.4
12.1
Beta Acid A/B Cohumulone
%
Ratio
%
6.9
3.2
Nugget
13.0
4.0
W415-90
11.5
4.6
Source:
1,834
1,843
1,690
1,990
1,880
1,847
109
249
800
Nuqqet
Cultivar
(pourids/acre)
(acres)
Gal
Table 2.
^Meld
Area
Harvested
(pounds/acre)
Harvested
Source:
161
1.79
3.77
3.23
2.50
40
32
25
29
ml Oil/ H/C
100 g
Ratio
1.31
1.53
1.40
1.49
1.98
2.02
2.20
2.45
Storage
Stability
Good
Fair
Fair
Fair
Average analysis of hops grown at IAREC between 1985 and 1989.
A/B ratio measures alpha to beta acid ratio which characterizes the hop soft
resins.
Cohumulone is a component of alpha acid.
H/C ratio measures humulene to caryophyllene ratio which characterizes hop
essential oil.
162
Release of Five Hop Selections for Downy Mildew Research
(Germplasm Release)
Plant Breeder:
Agencies:
S.T. Kenny
Date:
November 15, 1990
Washington State University, Agricultural Research Center, Department
of Agronomy and Soils, Irrigated Agriculture Research and Extension
Center, Prosser.
A.
B.
Identification:
1.
Selection Nos.:
8154-017, 8154-049, 8154-097, 8154-099, 8154-110.
2.
Proposed Names:
Phi, Ph2, Ph3, Ph4, Ph5.
3.
Pedigree:
General
1.
'Hersbrucker' x open pollinated
Situation:
Unique Cultivar Characteristics:
These selections are valuable for maintaining an annual source of
hop downy mildew inoculum. Hop downy mildew is an obligate parasite.
Plants which produce shoots systemically infected with hop downy
mildew reliably and do not die are useful to hop downy mildew
research projects. Other hop genotypes showing systemically infected
shoots either die, or do not regularly produce systemically infected
shoots.
Each year, for eight years, these selections produced
systemically infected shoots.
2.
Use-Type:
The selections are useful to hop downy mildew research projects as
a reservoir of hop downy mildew inoculum.
3.
Description and General Information:
The selections originated from open pollinated seed collected in 1981
from a clone of 'Hersbrucker' grown near Harrah, Washington.
Seedlings were planted at Prosser in spring 1982, and by 1983 many
seedlings were infected with hop downy mildew.
The seedlings
surviving the hop downy mildew infection were observed for two years
and
those
with
the
most
consistent
incidence
of
disease
were
propagated for further field study. The plants were evaluated for
five (1986 to 1990) additional years. They were used by Dr. Cal
Skotland, WSU Plant Pathologist, as a source of hop downy mildew
inoculum for his research.
4.
To Supplant:
To my knowledge, these are the first hop plants to be released as
a source of hop downy mildew inoculum.
163
C.
Performance Evaluations:
1.
Agronomic:
Because of the severe hop downy mildew infection generally shown by
these selections, they were never evaluated in yield trials. They
are not useful commercial types because of their high level of
susceptibility to hop downy mildew.
The selections were grown in
three different locations at the Headquarters Unit of the IAREC at
Prosser, but no where else.
2.
Quality:
The brewing quality of these selections has not been evaluated.
3.
Resistance to Diseases, Insects, Other:
The plants are very susceptible to hop downy mildew caused by
Pseudoperonospora humuli.
Their reaction to Phytophthora root rot
and Verticillium wilt is unknown. The plants are not infected with
prunus necrotic ringspot virus or apple mosaic virus. They are
symptomless carriers of hop mosaic virus, hop latent virus and
American hop latent virus. No unusual resistance or susceptibility
to either hop aphid or twospotted spider mite is apparent.
4.
Winterhardiness (of winter types):
The winterhardiness of the selections is similar to that of other
hop genotypes.
5.
Area of Adaptation:
The selections should be adapted to areas were hop is grown.
6.
Other Important Traits:
None.
7.
Weaknesses?
Because the plants are very susceptible to hop downy mildew, they
are unsuitable as commercial cultivars.
D.
Seed Source, Status and Availability:
After public release of the germplasm, rhizomes will be available to
interested researchers through Stephen Kenny at WSU-Prosser.
E:
Other Comments:
None.
F:
Probable Date for Possible Release:
January 1991.
G:
Any Provisions for PVP?
None.
164
COLLEGE OF AGRICULTURE AND HOME ECONOMICS
Agriculture Research Center
6240
MEMORANDUM
TO:
Interested Hop Researchers/Administrators
FROM
James J. Zuiches, Director
DATE
February 8, 1991
SUBJ
Hop Germplasm Release
^
Attached is the information about 5 germplasm lines of hop selections for Hop
Downy Mildew Research.
K ISHop.var
End.
165
WASHINGTON AGRICULTURAL RESEARCH CENTER
WASHINGTON STATE UNIVERSITY
PULLMAN, WASHINGTON
RELEASE OF FIVE HOP SELECTIONS FOR HOP DOWNY MILDEW RESEARCH
The Washington Agricultural Research Center announces the release of five hop,
(Humulus lupulus L.) selections. The selections are useful as a yearly source
of hop downy mildew inoculum (Pseudoperonospora humuli Miy. et Tak G. W. Wilson).
The selections originated from open pollinated seed collected in 1981 from a
clone of 'Hersbrucker' grown near Harrah, Washington. The seedlings were planted
at the Washington State University Irrigated Agriculture Research and Extension
Center at Prosser in spring 1982. By 1983 many seedlings were infected with hop
downy mildew. The seedlings surviving the infection were observed for two
additional years and those with the most consistent incidence of disease were
selected and propagated for further field study.
Each year these selections produce shoots systemically infected with hop downy
mildew and uninfected shoots. Table 1 lists the five-year (1986 to 1990) average
proportion of systemically infected shoots produced each year.
The selections
do not show crown die-out induced by hop downy mildew infection. Ph2 can produce
systemically infected shoots during the entire growing season. The other
selections usually do not produce systemically infected shoots after mid-July.
Hop downy mildew is an obligate parasite. Usually hop plants that produce shoots
systemically infected with hop downy mildew either die or do not regularly
produce systemically infected shoots. These selections are valuable because they
can produce shoots systemically infected with hop downy mildew every year. They
are also unique in their ability to produce systemically infected shoots until
mid-summer.
Using these selections, a disease cycle can be maintained even
during periods when lesions on infected leaves dry. The five selections provide
a consistent annual source of inoculum for hop downy mildew research.
Planting stock of the selections will be maintained by the Irrigated Agriculture
Research and Extension Center, Washington State University, Prosser, WA 99350.
Table 1.
Proportion of the total shoots produced per year that are
systemically infected with hop downy mildew, five year average (19861990).
Systemica lly
SelectPhi
Ph2
Ph3
Ph4
Ph5
on
Infected Shoots, %
38
26
21
35
14
Dtfector, WasJiingt^n Agricultural Research Center
Idaho Department of Ayriculfure
AjjHop Disease. Control Order'-f
(By Provision of Title" 22,' 'Chapters 7, 19, and 20, Idajio Code)
SECTION 1.
REGULATED PESTS
Verticillium wilt (Verticil!iuin a1bo-atrum keinke and Berth.) a persistent soil
born fungus disease of hops and any species or strains of the genus Verticillium
virulently pathogenic to hops.
, SECTION 2.
REGULATED PRODUCTS
(A) Rootstocks (i.e. rhizomes, strap cuttings, or greenwood cuttings of
all species of the genus Humulus).
(B) Machinery, vehicles, tools, equipment, trellis poles, wire, anchor
irons, and any other appurtenances used in the culture and/or production of
hops.
SECTION 3.
CONTROL AREA
'Bonner, Boundary, and Kootenai CouhtiesTstate of Idaho.*
SECTION 4. REGULATIONS GOVERNING ELIGIBLE R00TSJTOS
(A) Only rootstocks eligible forphytosanitary certification may be
imported into the control area or transported as planting stock within the
area. Eligibility will be established by meeting the following requirements:
1.
Imported rootstocks
a.
A desired clone must-be grown under- observation-at a state
or federal hop research facility in Idaho, Washington, or
Oregon lor two (2) consecutive yea.-, or growing seasons
with no evidence of Ver_tjc il ljjjm wilt.
b. Only rooted-aerial- stem cuttings orapical meristems
derived from clones having undergone the two (2) year
observation period may be imported into the control area.
c. Colonies derived from eligible clones may serve as
sources of eligible rootstocks but only after two (2)
consecutive growing seasons in a commercial yard or
nursery within the control area.
d. Bjlitg-fb.iffinclonaV stocks -must be^ctompanfed by a phytosanitary Acopy
—:
of the certificate must be filed with the Idaho'Department
of Agriculture, Bureau of Plant Services, at least ten (10)
cJUl gnoT t° shipment. • The certificate must affirm freedom
...... Verticillium wiTt and compliance with subparagraphs
^_iiS£fi£tifica(;e-when imported into the control area
a, b, and c ot this section.
2. Eligible rootstocks from within the control
area
3' moved
nnJprV?9
e]Uilb]e stncks within the control area may 'be
freely from field to field by the owner.
167
b. Rootstocks sold, moved, or transferred within the control
area to other than the owners land must be accompanied by
a valid transfer permit issued by the Department
Rootstocks moved without .j transfer permit will riot be
eligible for future sale or transfer.
(B) Inspection procedures to retain eligibility.
1.. Existing plants within the control area will be inspected at
least once every other year except those plantings intended
for sale or transfer in which case Lhey must have been
inspected during the twelve (12) month period immediately
prior to transfer.
J
2. All new plantings of imported rootstocks will be inspected
inn?IW'u^
^ at 'rleast(2) every
executive
yearsthereafter.
^fowfng
initial planting and
24 months
3* iitiJv1lhoenthe «:esP?nsibil.ity of the individual grower to
^i^fnT^ °f Ln0Veilient 0f eh'yible stock into new
in?J?^p? i /0r purchase of rootstocks. He shall also
to
1p!
"k^6^5 °n °r bef0re Jul^ 2 for inspections
to m
maintain
eligibility.
SECTION 5,
MGULATIONS. GOVEKNING THE_MOy_EMFNT OF FARMING EQUIPMENT
SECTION 6. POSTING 0_K_f IE_LDS
access! Sard's" "e ViS'b'e f™ "'i":enl ""Wic ™««^ or points of
SKUfiiU. REGULATIONS GOVERNING DISEASE DfTECTIfM
proced2L^fuff?"',/t"frdel0™tten^ ^'T' "' ° ' L"|U,-ltcd disM". laboratory
Department
AgrJcSciences.
to e r ™'
,,' on^n
""'ity bcof Perfor"d
by the
of
Plant andofSoil
°^,dtu>"
v" "• "l?7™
J"' ""ivers
Idaho, Department
patho^/tTh";: "ll're«n ?„" ?ofsshofPr,S^e,°f ^icllllu. wilt virulently
those rootstocks with n the nflrtid ?,^Heh!l'b"ny for sa,e or E™sfer for
issued
that the infes ed area L
™^h ? , '" addition a directive ™y be
disinfested.
be rc"loved f™" "°l' ."-oduction and the soil be
168
SECTION 8.
EXE_M_PT_I_ON_S
(A) This order does not apply to any governmental agency growing hops in
experimental plots approved by the Director, Idaho Department of Agriculture
and under the supervision of qualified plant scientist:,.
(B) Such experimental plots may servo .is nuarantine areas during the
period that a clone is meeting the eligibility requirements for phytosanitary
certification.
SE-CILQN._9.
AUTHORITY TO ENTER AND INSPECT
(A) The Director, Idaho Department of Agrit tilture, or his designated
agents are authorized to enter and inspect any and all hop plantinqs within
A.
the state of.Idaho.
SECTION 10.
PD^TJES_A_NDJ^
(A) All designated agents of the Idaho Department of Agriculture are
empowered to carry out the provisions of this order.
-i.
(B) Any person violating the provisions of the order may be subject to
the penalty provisions of Title 22, Chapter 7, 19, and ?u. Idaho Code.
SECTION 11.
FEES AND CHARGES
charae^fnr^f" PTiSl°nS ?fjitlc 22' Ch^r 7, Idaho Code, the fees and
as' foHowsT 1,,SpecLl<J"' "'''I-'Meatus. *»<! limits under this order shall be
1. Transfer Permits - for in-state sale of rootstocks$5.00 per certificate.
2. Phytosanitary Certificates lor exporting purposes•$7*5W\)ti.r certif icute. ,
3.
Field Inspection
a. Application for- field inspect, ion:
;>;\00per field.
b. Late Penalty Fees: $20.00 per application on all
application-, received after July 1 0\ each year and '
prior to July ]!>.
C
•1.
Acreage Inspection Fee:
thereof per field.
-.2.00 per „;:,•,,:,„• fraction
Laboratory I ee-,:
a.
$50.00 per sample.
SECTION 12. cFFECTiy^Dm
This control order shall be effective on o:„l after Auuu,t 1, 1980.
169
STATE OF IDAHO
DEPARTMENT OF AGRICULTURE
P 0 BOX 790
BOISE IDAHO 83701
INSPECTION REPORT
Establishment Name .
J-^rJY
Address
tLm
$fan
Date
Innnsn
*#/,
P?>A>-u
Report for:
'_
Feeds
Fertilizer
Nursery
•*-
%/?
(P $1<ZQ t>
Dealer license No.
Sent in license fee
Pesticides
Seeds
Left application
Unregistered products found (list below)
tk*
't
a -ZA -tfg
ik.
Ji{a//l,
r> • '/^-~
Refused to license
fa
ritfTl^
^r
•Tnti -<r/'
44^-
h#j<ys
r<j?7f-G.h.r£ i"tn-h
~7
H/7-Ltry
cltrtc-P
t
Comments:
/
(Inspector)
(Dealer)
Unless otherwise stated, the establishment named above has fourteen (14) days from
the date of this report to obtain the required Idaho dealer license.
LU
Unless otherwise stated, the establishment named above has 30 days from date of
this report to register or cause to be registered all products listed above which
are not registered. At the end of this 30-day period, all products may be subject
to a "Stop Sale" order in accordance with the applicable state law.
Original
- Department of Agriculture
Yellow - Dealer
Pink
Inspector
'•••-•:..:.
J
• r