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SCHOOL OF OCEANOGRAPHY s As et

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As s et
& e se.
4.1
SCHOOL OF OCEANOGRAPHY
WAZP Observations
during MILDEX
October-November 1983
by
Melora M. Park
Michael D. Brown
Thomas M. Dillon
Priscilla A. Newberger
Douglas R. Caldwell
OREGON STATE UNIVERSITY
Office of Naval Research
N00014-79-C-0004
NR 083-103
College of Oceanography
Oregon State University
Reference 84-8
March 1984
DATA REPORT 110
LifirtAF, Y
MARINE SCIENCE CENTEh
OREGON STATE UNIVERSITY
NEWPORT, OREGON 97388
APR 2 6 1984
Reproduction in whole or part is permitted for
any purpose of the United States Government.
Unclassified
SECURI TY CL ASSIFIC A TikON OF T wk IS PAGE (When D•Z• Entered)
READ INSTRUCTIONS
BEFORE COMPLETING FORM
REPORT DOCUMENTATION PAGE
1
REP OR T NUMBER
2. GOVT ACCISGION I.O.
3.
RECIPIENT'S CATALOG NUMBER
84-8
- i 7-E (nnd Subtitte)
S. TYPE OF REPORT & PERIOD COVERED
WAZP OBSERVATIONS DURING MILDEX OCTOBERNOVEMBER 1983
Data Report
6. PERFORMING ORG. REPORT NUMBER
7.
Au T,,OR(3)
a.
CONTRACT OR GRANT NUMBER(.)
Melora M. Park, Michael D. Brown, Thomas M. Dillon,
Priscilla A. Newberger, Douglas R. Caldwell
9.
PERFORMING ORGANIZATION NAME AND ADDRESS
10. PROGRAM ELEMENT, PROJECT, TASK
AREA & WORK UNIT NUMBERS
School of Oceanography
Oregon State University
Corvallis, Oregon 97331
I I
14.
N00014-79-C-0004
NR 083-102
CONTROLLING OFFICE NAME AND ADDRESS
12. REPORT DATE
Office of Naval Research
Ocean Science & Technology Division
Arlington, Virginia 22217
13.
NUMBER OF PAGES
15.
SECURITY CLASS. (of this report)
Oct/Nov 1983
MONITORING AGENCY NAME & ADDRESS(If different front Controlling Office)
250
Unclassified
IS.,
16,
DECLASSIFICATION/ DOWNGRADING
SCHEDULE
DISTRIBUTION STATEMENT (of this Report)
Approved for public release; distribution unlimited
17.
DISTRIBUTION STATEMENT (of the abstract entered In Block 10, if different from Report)
IS. SUPPLEMENTARY NOTES
19. KEY WORDS (Continua ors reverse side lf nece•eary end identify by block number)
20.
ABSTRACT (Continue on re v Ids it nece•eary and identify by block number)
Profiles of shear, temperature and temperature derivative, and selected
profiles of temperature, salinity and sigma-T from WAZP in MILDEX 1983.
--..
D 1 JAN 73 473
EDITION OF 1 NOV 65 IS OBSOLETE
S/19 0102- 014-6601 I
Unclassified
SECURITY CLASSIFICATION OF THIS PAGE (When Data lintoted)
WAZP observations during MILDEX
October-November 1983
Melora M. Park
Michael D. Brown
Thomas M. Dillon
Priscilla A. Newberger
Douglas R. Caldwell
College of Oceanography
Oregon State University
Corvallis OR 97331
ACKNOWLEDGMENTS
The authors wish to thank S. Wilcox, who aided
in some of the WAZP II electronics construction, and
J. Cantey, K. Fischer, and H. Dannelongue, who helped
acquire the data at sea. C. Paulson and R. Baumann
provided the Seabird salinities and temperatures as
well as some shipboard meteorological observations.
Table of Contents
Acknowledgements
I.
Cruise report 1
II . WAZP shear profiles
a. Tape 13
October
25 17
b. Tape 14
October
25 26
c. Tape 16
October
26 34
d. Tape 17
October
26 52
P . Tape 30
October
29 61
f. Tape 31
October
29 73
g. Tape 32
October
29 87
h. Tape 33
October
30 103
i. Tape 34
October
30 120
j. Tape 35
October
30 129
k. Tape 50
November
3 132
1. Tape 51
November
4 143
m. Tape 64 November 10 152
n. Tape 65 November 11
168
o. Tape 67 November 12
179
p. Tape 68 November 12
193
q. Tape 69 November 13
208
III. WAZP temperature,salinity,sigma T profiles
220
1
THE MILDEX EXPERIMENT
MILDEX, a mixed layer dynamics experiment, began
October 21, 1983 and lasted until November 16, 1983.
R.P. Flip, R.V. Wecoma and R.V. Acania rendezvoused at
34° N, 127° W to participate in joint observations of
the mixed layer and upper ocean. This report contains
data from the WAve Zone Profiler, WAZP II, deployed
from the R.V. Wecoma.
The WAZP II is a vertically rising microstructure
profiler with sensors designed to obtain kinetic energy
dissipation rates and microstructure information near
the sea surface. WAZP II was deployed over block periods
during the cruise beginning October 25 and ending November
12, GMT. Work was done in daylight with the ship moving
at about 1/2 knot (just enough to maintain heading into
the swell). Time between casts was approximately nine
minutes, with each drop lasting roughly two minutes.
THE INSTRUMENT
The WAZP II microstructure probe is 1.7 m long and
5.7 cm in diameter. A nose cone contains 2 airfoil shear
sensors (Undersea Technology Inc., Monterey, California),
a fast thermistor (Thermometrics model FP07), a solidstate pressure sensor, and a conductivity sensor. Two
WAZP II probes were used in MILDEX. Probe #6.83 was
equipped with a Neil Brown conductivity sensor, and probe
#7.83 had a Michael Head micro-conductivity sensor. The
probe body is filled with mineral oil, and pressure is
transmitted to the probe interior through a bladder.
Inside the probe are batteries, pre-amplifiers, and
associated circuitry. Signals are transmitted to a shipboard acquisition system through a data link consisting
of 8 pairs of 32 gauge copper wire, a Kevlar core, and
a polyurethane sheath. The data link also serves as a
recovery line. Drag brushes are installed on the tail
of WAZP II to maintain a steady vertical speed.
The WAZP II is operated in the rising mode by using
toroidal foam buoyancy elements around the probe body.
A ballast weight is attached to the recovery line, and
the probe is allowed to descend to a chosen depth (usually
less than 100 m). The ballast is then released, and the
probe buoyantly ascends. The rise speed can be adjusted
by changing the buoyancy. During MILDEX, a 55 cm/s rise
2
speed was used. The terminal velocity is reached a few
meters above the release depth. Normally, the speed
(as measured from the pressure) varies by + 5 cm/s
Occasionally, the observed speed
over most of the drop.
was as large as 65 cm/s in MILDEX. Within 1-2 meters
of the surface, the speed usually fell to 40-50 cm/s,
perhaps due to the wind-wave field, or possibly due to
strong shears very near the surface.
On board ship, voltages were amplified, processed,
digitized, and recorded on magnetic tape. Digitization
was done with a 12-bit ADAC A/D converter controlled
by an LSI 11/23 minicomputer. Voltages were digitized
at 130 scans per second, each scan consisting of 16
words. In order to increase resolution near the surface,
where gradients are small, temperature and conductivity
were both independently amplified twice, using different
gains and offsets. High gain temperature, low gain
temperature, high gain conductivity, and low gain
conductivity were filtered at 40 Hz with a 6-pole analog
butterworth filter, and were recorded once each scan.
Signals from the pressure pre-amplifier were filtered
at 2 Hz, and were recorded once per scan. The two shear
signals were amplified, differentiated, and filtered
at 80 Hz with an eliptic filter. Each shear channel
was recorded twice each scan, yielding an effective
rate of 260 samples per second. Temperature and conductivity were also electronically differentiated before
filtering. The temperature derivative was filtered at
45 Hz with an eliptic filter, and the conductivity
derivative was filtered at 240 Hz with an eliptic filter.
Temperature derivatives were digitized twice per scan,
and the conductivity derivative was digitized 4 times
per scan, giving an effective sampling rate of 520
samples per second.
J
THE DATA
This report contains two types of plots. The first
type shows low gain temperature, temperature derivative,
and shear, as a function of depth, illustrating near
surface activity and pinpointing periods of turbulent
activity. The data for these plots were averaged over
approximately 2 cm. The second type of plot is a profile
of temperature, salinity and aT , with corresponding units
of °C, parts per thousand, and a units (data averaged
over 20 cm). These plots are inOluded for roughly every
five drops per tape or at least one near the beginning and
one near the end of each working period. Times and dates
shown are GMT. Plots of meteorological data, ship position,
and various sea surface parameters obtained from bridge
observations are at the beginning of the report along with
a detailed list of WAZP II drop information.
Conductivity comparisons from both units to a flowthrough Seabird, and bottle salinity, indicated a marked
shift in sensor calibrations, probably due to contamination
of the conductivity sensors. Correction factors were
applied to WAZP II conductivity in order to achieve
agreement between WAZP II computed salinity and Seabird
salinity. The WAZP II temperature measurements agreed
well with Seabird temperatures, except the November 11
and 12 sampling periods, where an unknown discrepancy
of 0.2 °C is apparent. This discrepancy has not yet been
resolved, and it is not yet known which temperature is
in error.
5
128
CT 23
126
NOV 13
w
124-
0
CC
122
120
NOV 17
118
28
1
I
30
1
I
32
,
I
34-
1
I
36
LONGITUDE
CRUISE TRACK RV WECOMA , M I L OEX 1983
I
38
6
4-0
w
0_
20
I
0
t
t I
18
OCT
18
OCT
I
25
8
15
22
NOV
25
15
NOV
WINO SPEED (KNOTS) AND DIRECTION
BRIDGE OBSERVATIONS
22
7
20
11
till
I
111111111
[111111111111111
II
10
k
„
0
18
OCT
18
irrh 1ft 1 1 t AAJA A
25
NOV
25
OCT
1
17
8
8
NOV
SEA HEIGHT (FEET) AND DIRECTION
BRIDGE OBSERVATIONS
15
15
22
22
20
11111
IIIIIIIII 11111111[111
111111111
tto zo-111,1)11
0
18
OCT
25
1
15
22
NOV
360
Li
180
CE
0
18
OCT
25
15
NOV
SWELL HEIGHT (FEET) AND DIRECTION
BRIDGE OBSERVATIONS
22
GMT
KNTS
DATE INST FORM # LINE # WIND LONG GMT
REL
DEPTH TIME TAPE BATCH
LAT
**********A****A*************A**A*AA***************A***A**A*A****A*****AA**
10/25
6.83
1
801
4
3
6
1
6
4
7
6
6
6
10/25
10/26
6.83
6.83
7.83
6.83
1
1
2
1
801
801
801
806
6
6
4
5
4
5
3
4
5
4
6
1
33 52.1' 126 42.6'
42.6'
52.4'
42.8'
52.5'
43.0'
52.2'
42.8'
52.4'
42.6'
52.6'
43.0'
.6'
.8'
.3'
.3'
53.2'
.3'
44.6'
.6'
.4'
.9'
.4'
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.4'
13
1
2
3
4
5
6
7
8
9
10
11
60
80
92
80
96
39
36
42
40
40
42
17:00
:09
:20
18:00
:12
:30
:39
19:35
:47
:55
20:08
41
:23
:29
:39
:50
:58
21:03
:15
:25
23:43
00:00
:02
:16
:25
:37
:46
14
1
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17:33
16
1
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12
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40
40
48
49
55
44
44
40
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80
80
80
60
5
6
.4'
45.5'
7
8
6
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7
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9
7
7
7
6
49.2'
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50.0'
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.3'
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.8'
36.9'
.9
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37.0'
36.9'
37.0'
.4'
.4'
.6'
.7'
.8'
80
73
41
42
ABORT
8
.8'
.8'
8
6
51.0'
7
.0'
6
.0'
.9'
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38.0'
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60
40
42
40
43
42
41
70
70
60
51
40
40
40
40
:45
:55
18:00
:07
:13
:22
:28
:34
19:45
20:31
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21:30
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22:00
:05
:13
14
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GMT
KNTS
DATE INST FORM # LINE # WIND LONG
REL
GMT
DEPTH TIME TAPE BATCH
LAT
OcAAAA0cAA*AAAA*AOTA*AAA*A*AAAAA****AAAAAAAAA***A*A**A*************AAAA*AA**AA
10/26
6.83
1
806
7
6
8
6
6
7
6
7
6
10/29
8.83
3
806
7.83
2
806
18
13
14
13
13
12
7.83
2
806
.1'
.1'
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.3'
.4'
.5'
33 52.4' 126 20.9'
.9'
51.8'
20.1'
.7'
.1'
.6'
.0'
.5'
19.8'
.4'
38
:24
40
:30
:37
:35
:47
:55
23:00
:09
:17
:21
:51
53
40
40
40
40
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29
35
53
60
60
70
60
13
13
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.3'
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60
70
70
77
75
75
75
13
13
12
12
12
11
13
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11
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50.8'
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.1'
.0'
.0'
49.7'
.6'
.5'
.3'
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18.9'
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17.9'
.7'
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.2'
.0'
16.9'
70
60
60
65
75
65
68
65
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67
67
62
18:11
:36
19:00
:09
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:26
17
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:34
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20:04
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21:06
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22:05
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11
GMT
KNTS
DATE INST FORM # LINE # WIND LONG GMT
REL
DEPTH TIME TAPE BATCH
LAT
*****************A***AAAA*******A*******AAAA*A*******A*******AAAAAA***A****
10/29
7.83
7.83
2
806
2
806
11
11
11
11
12
12
10
10
12
12
12
10
10
10
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6.83
10/30
4
806
15
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16
6.83
4
806
8
6
6
6
6
7
7.83
5
806
7
10
10
.6'
45.5'
.3'
46.8'
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44.9'
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.2
.0'
15.9'
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17.6'
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15.2'
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17.5'
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43.8'
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44.5'
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48.9'
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47.8'
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62
50
51
50
42
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47
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00:22
:29
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45
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15.2'
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48
:5?
01:06
:13
:23
:32
:39
33 54.2' 126 19.5'
.6'
.1'
.7'
.0'
.8'
.0'
53.9'
19.9'
.8'
20.0'
75
75
108
75
75
80
80
75
76
81
.4'
51.9'
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22.2'
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46
48
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70
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GMT
DATE INST FORM # LINE # WIND LONG DEPTH TIME TAPE BATCH
LAT
*********A*****************A*****A*A**********A**************A****A********
10/30
7.83 5
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6.83
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34 01.8'
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126 9.0'
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126
60
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16
17
7.8'
.8'
8.0'
.1'
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.7'
.7'
.7'
.9'
.9'
90
40
55
55
50
55
55
55
55
55
18:46
:50
19:11
:22
:30
20:17
:26
:35
75
60
20:40
:52
21:45
:57
22:05
:13
:27
24
6.3'
2.8'
20
20
18
5.9'
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17
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20
12
14
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.4'
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.0'
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1.9'
.7'
.8'
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804
55
55
58
60
:45
:53
60
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40
55
57
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13
GMT
KNTS
DATE INST FORM # LINE # WIND LONG GMT
REL
DEPTH TIME TAPE BATCH
LAT
***************AAAA****AAA*A****A*A*****************************A*********/
11/11
6.83
4
804
20
7.83
11/12
6.83
7.83
7.83
6.83
5.1'
1.8'
77
70
65
55
55
55
45
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4
5
5
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804
00:10
:20
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01:06
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17
14
16
4.8'
.7'
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1.8'
2.0'
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80
63
60
65
12
14
12
13
12
10
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10
10
10
804
12
19
18
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83-10 20
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33 44.7'
.5'
43.8'
123 45.9'
46.2'
.7'
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45.9'
46.5'
45.8'
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60
65
66
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85
80
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90
65
69
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75
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.7'
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75
:19
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46.6'
:31
:52
21:05
:15
:28
48.1'
96
71
68
96
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85
52
70
63
68
68
67
.4'
.5'
67
58
804
83-10 20
ABORT
21
20
20
22
22
19
83-10 18
18
14
17
44.7'
.7'
.6'
.6'
43.7'
44.5'
.5'
.4'
.2'
.3'
.3'
.5'
.5'
.5'
15
16
43.9'
ABORTED
15
.9'
16
.8'
46.0'
.7'
.8'
.9'
.9'
47.0'
.2'
.3'
.6'
.7'
65
1
2
3
4
5
6
7
8
9
10
11
67
1
2
3
4
5
6
7
8
9
10
11
12
13
:43
:50
16:53
17:01
:10
:19
:29
:36
:45
:55
18:05
:14
:41
:52
:59
19:07
14
15
16
17
18
:34
:45
:57
20:07
:44
22:06
:19
:40
:49
:56
23:06
:15
:34
:41
68
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
14
KNTS
GMT
DATE INST FORM # LINE # WIND LONG
GMT
REL
DEPTH TIME TAPE BATCH
LAT
*A***A**A****A********A*****AA**A************A********A*****************A**
11/13
7.83
5
42.8'
83-10 16
ABORTED
43.8'
14
.8'
15
.7'
12
83-8
8.83
3
83-8
11
10
12
.7'
.7'
.7'
13
12
10
.8'
.9'
.9'
10
44.0'
82
00:05
68
62
60
59
.8' 65
50.2' 58
.6' 67
68
51.0' 67
.2' 67
.4' 69
80
100
52.3'120
120
:13
:23
:30
:37
:48
01:08
:30
:43
:50
:59
02:08
:30
:38
:50
:
49.7'
.0'
.3'
.4'
69
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
17
25-OCT-83 17:09
TAPE 13
FILE 2
10
20
U)
E 30
a. 40
Lij
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
oc
13
25-OCT-83 17:20
TAPE 13
FILE
4
8
12
16
20
("*C
.04 1/SEC .03 °C/CM
19
25-OCT-83 18:12
TAPE 13
FILE 5
10
20
(r)
E5 30
40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
20
25-OCT-83 18:30
TAPE 13
FILE 6
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
21
25-OCT-83 18:39
TAPE 13
FILE 7
10
20
U1
En
30
40
0
50
60
I
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
1:
22
25-OCT-83 19:35
TAPE 13
FILE 8
10
20
U)
E 30
40
0
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
23
25-OCT-83 19:47
TAPE 13
FILE 9
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
24
25-OCT-83 19:55
TAPE 13
FILE 10
1
0
20
(r)
E 30
w40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
25
25-OCT-83 20:08
TAPE 13
FILE 11
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
26
25 OCT-83 20:23
TAPE 14
FILE 1
1
0
20
01
w30
w 40
0
50
60
,
70
4
12
.04 1/SEC .03 °C/CM
16
20
°C
27
25-OCT-83 20:29
TAPE 14
FILE 2
4
8
12
16
20
°C
04 1/SEC .03 °C/CM
28
25—OCT-83 20:39
TAPE 14
FILE 3
10
20
cr)
w30
I-W
40
50
60
a
I
70
4
8
.04 1/SEC .03 °C/CM
12
i
I
16
20
29
25-OCT-83 20:50
TAPE 14
FILE 4
4
12
.04 1/SEC .03 °C/CM
16
20
°C
30
25-OCT-83 20:58
TAPE 14
FILE 5
10
20
U)
30
1--
Lu
O
40
50
60
70
4
12
1---1
1--1
04 1/SEC .03 °C/CM
16
20
°C
31
25—OCT-83 21:03
TAPE 14
FILE 6
10
20
cn
LT, 30
al 40
50
60
70
.
A
.
.
I
.
I
I
8
.04 1/SEC .03 °C/CM
I
12
,
,
,
i
16
,
I
20
°C
32
25-OCT-83 21 : 15
TAPE 14
FILE 7
4
8
.
04 1/SEC . 03 °C/CM
12
16
20
33
26-OCT-83 00:37
TAPE 14
FILE 14
0
I
,111.1.".../..
10
20
ul
En 30
L1J
IL% 40
50
60
I
70
4
8
12
a
I
16
20
°C
.04 1/SEC .03 °C/CM
34
26-OCT-83 17:33
TAPE 16
FILE 1
10
20
50
60
70 4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
35
26-OCT-83 17:45
TAPE 16
FILE 2
10
20
cn
w 30
I-
I'
40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
36
26-OCT-83 17:55
TAPE 16
FILE 3
10
20
ul
30
ft- 40
50
60
70
12
4
.04 1/SEC .03 °C/CM
*16
20
°C
37
26-OCT-83 18:00
TRPE 16
FILE 4
10
20
u-)
'LI 30
LLI
ea
40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
3S
26-OCT-83 18:07
TAPE 16
FILE S
10
20
50
60
70
4
12
.04 1/SEC .03 °C/CM
16
20
30
26—OCT-83 18:13
TAPE 16
FILE 6
T
10
20
.nn
U)
30
l-
eo 40
50
60
70
.
'
4
8
.
12
.
16
20
°c
.04 1/SEC .03 °C/CM
40
26—OCT-83 18 : 22
TAPE 16
FILE 7
10
20
cr)
ES 30
la] 40
50
••••1111
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
41
26-OCT-83 18:28
TAPE 16
FILE 8
10
20
50
60
I
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
26-OCT-83 19:45
TAPE 16
FILE 10
0
10
20
U)
[25 30
w
40
CD
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
C
43
26-OCT-83
TAPE 16
FILE 11
10
20
30
40
50
60
70
4
12
.04 1/SEC .03 °C/CM
16
20
°C
44
26-OCT-83 20:31
TAPE 16
FILE 12
1
10
WNW
20
50
60
•
70
12
4
.04 1/SEC .03 °C/CM
16
20
°C
45
26-OCT-83 20:38
TAPE 16
FILE 13
1
0
20
E
MI=
30
LU
la;
CD
40
60
•nI
70
4
12
.04 1/SEC .03 °C/CM
16
20
°C
46
26-OCT-83 21:30
TAPE 16
FILE 14
4
12
.04 1/SEC .03 °C/CM
16
20
47
26—OCT-83 21:45
TAPE 16
FILE 16
10
20
cn
En 30
1--
w 40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
1:
43
26-OCT-83 21 : 55
10
20
50
60
70
4
8
.04 1/SEC .03 DC/CM
12
16
20
GC
49
26-OCT-83 22:00
TAPE 16
FILE 18
0
I
10
20
50
60
I
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
26-OCT-83 22:05
TAPE 16
FILE 19
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
51
26-OCT-83 22:13
TAPE 16
FILE 20
0
10
20
E
30
W 40
NOM
50
60
70
1
4
1
I
tL
8
.04 1/SEC .03 °C/CM
Ii
12
t
I
16
t
20
°C
26-OCT-83 22:24
TAPE 17
FILE 1
1
0
20
CID
30
E
40
CD
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
53
26—OCT-83 22:30
TAPE 17
FILE 2
10
20
50
60
70
12
4
.04 1/SEC .03 °C/CM
16
20
°C
54
26-OCT-83 22:37
TAPE 17
FILE 3
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
55
26-OCT-83 22:42
TAPE 17
FILE 4
0
1
M. I
0
20
MII
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
56
26—OCT-83 22:47
TAPE 17
FILE 5
10
20
50
60
I
70
4
,
,
8
.04 1/SEC .03 °C/CM
I
12
.
,
I
16
20
°C
57
26-OCT•83 22:55
TAPE 17
FILE 6
4
8
.04 . 1/5EC .03 °C/CM
12
16
20
°C
53
26-OCT-83 23:00
TAPE 17
FILE 7
10
20
u-)
En
30
1-
a-, 40
50
NM.
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
59
26-OCT--83 23:17
TAPE 17
FILE 9
'
1'
10
20
ul
E 30
LU
I-ea 40
D
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
60
26-OCT-83 23:21
TAPE 17
FILE 10
10
20
I =1
50
60
• 1 •
70
4
8
.04 1/SEC .03 °C/CM
I
I
12
16
•I
,
20
°C
61
29—OCT-83 18:11
TAPE 30
FILE 1
0
In
10
20
al
•••••
40
cD
50
MINION
60
70
12
4
.04 1/SEC .03 °C/CM
16
20
°C
62
29-OCT-83 18:36
TAPE 30
FILE 2
10
20
(r)
EL;
30
LU
F
a]
CD
l
40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
63
29—OCT-83 19:00
TAPE 30
FILE 3
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
oc
64
29—OCT-83 19:09
TAPE 30
FILE 4
10
20
cr)
LT, 30
FA 40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
65
29—OCT-83 19:18
TAPE 30
FILE 5
0
10
20
cn
E 30
l-
a] 40
MM.
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
oc
66
29-OCT-83 19:26
TAPE 30
FILE 6
10
20
3 30
Eh 40
n11
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
67
29-OCT-83 19:34
TAPE 30
FILE 7
10
20
a 30
u.1
al 40
50
MEM
60
I
70
4
8
I
12
a
16
20
°C
.04 1/SEC .03 °C/CM
68
29-OCT-83 19:41
TAPE 30
FILE 8
10
20
(r)
3 30
ej 40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
oc
29-OCT-83 19:49
TAPE 30
FILE 9
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
70
29-OCT-83 19:56
TAPE 30
FILE 10
10
20
U)
3
F
30
-LA
wa
D
40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
71
29-OCT-83 20:04
TAPE 30
FILE 11
1
0
20
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
72
29-OCT-83 20:12
TAPE 30
FILE 12
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
73
29-OCT-83 20:23
TAPE 31
FILE 1
1
0
20
u,
30
E-
w
a' 40
50
60
70
°C
.04 1/SEC .03 °C/CM
?4
29-OCT-83 20:33
TAPE 31
FILE 2
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
75
29-OCT-83 20:38
TAPE 31
FILE 3
10
20
U,
3
30
Ld
w 40
50
=MS
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
76
29—OCT-83 20:46
TAPE 31
FILE 4
•
10
20
cr)
EL% 30
LL.1
ea 40
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
77
29-OCT-83 20:54
TAPE 31
FILE 5
10
20
Ul
3 30
=NM
LU
a•
w
40
50
60
70
4
8
.04 1/SEC .03 °C/CM
78
29-OCT-83 21:06
TAPE 31
FILE 6
1
OW.
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
79
29-00T-83 21 : 15
TAPE 31
FILE 7
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
80
29-OCT-83 21:23
TAPE 31
FILE 8
10
20
Ul
E- 30
F
LU
al 40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
81
29 - OCT - 83 21:31
TAPE 31
FILE 9
10
20
F19 30
w 40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
32
29-OCT-83 21:40
TAPE 31
FILE 10
1
0
20
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
83
29-OCT-83 21:48
TAPE 31
FILE 11
10
20
up
E 30
CL
uj 40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
34
29 OCT-83 21:56
TAPE 31
FILE 12
1
0
20
cn
EL%
I-
30
MEW
al 40
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
85
29—OCT-83 22:05
TAPE 31
FILE 13
10
20
C/1
E5
I-
30
Ld
m
=
I
L% 40
cz)
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
36
29-OCT 83 22:13
TAPE 31
FILE 14
10
20
(r)
ff., 30
e.-, 40
I
SO
60
70 4
12
.04 1/SEC .03 °C/CM
16
20
°C
S7
29-OCT-83 22:22
TAPE 32
FILE 1
0
10
20
E- 30
F
LU
E
l-
a; 40
CD
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
83
29-OCT 83 22:30
TAPE 32
FILE 2
10
20
50
60
70 4
12
.04 1/SEC .03 °C/CM
16
20
°C
29-OCT-83 22:38
s9
TAPE 32
FILE 3
10
20
3 30
E
I
a- 40
uj
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
90
29-OCT-83 22:48
TAPE 32
FILE 4
10
20
cn
3 30
I-
eL 40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
91
29-00T-83 22:55
TAPE 32
FILE 5
1
0
••.11111
20
O)
E 30
nIl
1-
LU
M
=
I-
a' 40
w
o
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
92
29—OCT-83 23:02
TAPE 32
FILE 6
1
0
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
oc
93
29—OCT-83 23:09
TAPE 32
FILE 7
10
20
1n1
50
60
70
12
4
.04 1/SEC .03 °C/CM
16
20
°C
94
29-OCT-83 23:19
TAPE 32
FILE 8
10
20
u-)
E 5 30
LA.1
11
1---
40
MIM
50
60
70
4
8
I
12
[—f
.04 1/SEC .03 °C/CM
16
20
oc
95
29—OCT-83 23:24
TAPE 32
FILE 9
1 0
20
cn
E
30
1--
w40
co
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
96
29-OCT-83 23:32
TAPE 32
FILE 10
1
0
20
(r)
30
O
40
50
60
70
12
4
.04 1/SEC .03 °C/CM
16
20
oc
97
29—OCT-83 23:54
TAPE 32
FILE 12
10
20
MIM
cn
E5 30
40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
98
30-OCT-83 00:22
TAPE 32
FILE 13
10
20
50
60
70 4
12
.04 1/SEC .03 °C/CM
16
20
°C
99
30-OCT-83 00:29
TAPE- 32
FILE 14
10
=NM
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
100
30-OCT-83
00:36
TAPE 32
FILE 15
10
20
u)
'II 30
Eh
40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
101
30-OCT-83 00:42
TRPE 32
FILE 16
10
20
50
60
70 4
12
.04 1/SEC .03 °C/CM
16
20
°C
102
30-OCT-83
00:49
TAPE 32
FILE 17
10
20
50
60
i
70
I
i
4
I
12
.04 1/SEC .03 °C/CM
i
,
16
20
°C
103
30-OCT-83 00:56
TAPE 33
FILE 1
10
20
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
104
30—OCT-83 01:06
TAPE 33
FILE 2
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
105
30-OCT-83 01:13
TRPE 33
FILE 3
10
20
u-)
30
w40
D
50
60
70 4
8
F-1
.04 1/SEC .03 °C/CM
12
16
20
°C
106
30-OCT-83 01:23
TAPE 33
FILE 4
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
107
30-OCT-83 01:32
TAPE 33
FILE 5
10
20
U)
30
a" 40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
,
16
20
108
30—OCT-83 01:46
TAPE 33
FILE 7
10
20
cn
E 30
LU
w
CD
40
50
60
70 4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
109
109
30-OCT-83 01:52
TAPE 33
FILE 8
10
20
(r)
E
30
F
-LU
Fal 40
50
60
70 4
I
i
.
8
.04 1/SEC .03 °C/CM
I
12
,
.
I
16
,
20
°C
110
30—OCT-83 01:58
TAPE 33
FILE 9
10
20
50
60
70
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111
30-0CI-83 02:05
TAPE 33
FILE 10
10
20
50
60
,
70
4
12
16
20
°C
.04 1/SEC .03 °C/CM
112
30—OCT-83 02:17
TAPE 33
FILE 12
10
20
cr)
LA
30
LU
1-
ft
CD
40
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
113
30-OCT-83 02:23
TAPE 33
FILE 13
10
20
50
60
70
4
8
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20
°C
114
30-0CI-83 02:27
TAPE 33
FILE 14
10
20
50
60
70
4
8
12
16
20
°C
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115
30-OCT-83 02:33
TAPE 33
FILE 15
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
116
30-OCT-83 02:39
TAPE 33
FILE 16
1
0
20
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E 30
LU
al
40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
117
30-0CI-83 03:03
TAPE 33
FILE 17
10
20
ul
E 30
I-
LU
li 40
LC:
50
60
70
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30-OCT-83 03:14 118
TAPE 33
FILE 18
10
20
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
119
30-OCT-83 03:21
TAPE 33
FILE 19
10
20
U,
E 30
LU
ea 40
50
60
70
4
8
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12
16
20
120
30-OCT-83 17:49
TAPE 34
FILE 1
4
8
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12
16
20
°C
121
30-OCT-83 18:07
TAPE 34
FILE 2
0
1
0
20
50
60
70 4
8
12
16
20
ct
.04 1/SEC .03 °C/CM
122
30-OCT-83 18:16
TAPE 34
FILE 3
0
10
20
U,
E 30
LLJ
LTi 40
50
60
70 4
12
.04 1/SEC .03 °C /CM
16
20
123
30-OCT-83 18:26
TAPE 34
FILE 4
0
10
20
U,
E 30
LU
aj 40
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
124
30-OCT-83 18:33
TAPE 34
FILE 5
1
0
20
U,
E 30
UJ
40
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
125
30—OCT-83
TAPE 34
FILE 7
0
1
0
20
cr)
El%
30
a] 40
l
50
60
70 4
1 21 6
.04 1/SEC .03 °C/CM
20
°C
126
30-OCT-83 20:23
TAPE 34
FILE 8
10
20
U,
Lcr, 30
LU
I-
al 40
50
60
I
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
127
30-OCT-83 20:32
TAPE 34
FILE 9
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
12$
30-OCT-83 20:49
TAPE 34
FILE 10
10
20
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EY, 30
al 40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
129
30-OCT-83 21 :1 0
TAPE 35
FILE 11
1
10
20
ill 30
al 4-0
50
60
70
8
.04- 1/SEC .03 °C/CM
12
16
20
°C
30-OCT-83 21:18
130
TAPE 35
FILE 12
.04- 1/SEC .03 °C/CM
30-OCT-83 21:35 131
TAPE 35
FILE 13
10
20
U)
a 30
8-j 4-0
1=3
50
60
I
70
16
04 1/SEC .03 °C/CM
i
i
20
°C
l322
3-NOV-83 18:38
TAPE 50
FILE 2
1_311151,-
10
20
SO
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
133
3-NOV-83 18:46
TAPE 50
FILE 3
10
20
cr)
a 30
Lu
AIM
cl- 40
Lu
50
60
70
4
8
.04 1/SEC .03 °C/cm
12
16
20
°C
134
3-NOV-83 18:54
TAPE SO
FILE 4
4
8
.04 1/SEC .03 (t/cm
12
1
6
20
135
3-NOV-83 19:02
TAPE SO
FILE 5
10
20
1
50
60
70
4
8
.04 1/SEC .03 °C/cm
12
16
20
°C
136
3—NOV-83 19:10
TAPE SO
FILE 6
1'
10
20
•••n•nnn
SO
60
70
4
12
.04 1/SEC .03 °C/CM
16
20
°C
137
3-NOV-83 19:18
TAPE SO
FILE 7
10
20
SO
60
70
4
8
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12
16
20
°C
133
3-NOV-83 19:27
TAPE SO
FILE 8
10
20
50
60
70
4
12
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16
20
°C
139
3-NOV-83 19:35
TAPE 50
FILE 9
10
20
a 30
Lu
a- 40
uj
CD
50
60
mod
70
4
8
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12
16
20
°C
140
3-NOV-83 19:53
TAPE SO
FILE 10
I
I1
10
20
(./1
a 30
W
CD
40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
oc
141
3-NOV-83 20:33
TAPE SO
FILE 11
1
1
1
12
16
0
20
Er, 30
a; 40
l
SO
60
70
4
8
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20
142
3-NOV-83 20:43
TAPE SO
FILE 12
10
20
SO
60
70
4
8
.04 1/SEC .03 °C/Cm
12
16
20
°C
143
4-NOV-83 18:24
TAPE 51
FILE 1
10
20
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E 30
LU
I
d-,
c
40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
144
4-NOV-83 18:50
TAPE 51
FILE 2
0
10
20
U,
E- 30
F
LU
li
La
CO
40
50
60
70
4
8
12
16
20
1:
.04 1/SEC .03 °C/CM
145
4—NOV-83 19 : 11
TAPE 51
FILE 3
0
10
20
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30
LU
al 40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
146
4-NOV-83 19:22
TAPE 51
FILE 4
4
12
16
20
°C
.04 1/SEC .03 °C/CM
147
4—NOV-83 19:30
TAPE 51
FILE S
4
8
12
16
20
°C
.04
1/SEC
.03
°C/CM
148
4-NOV-83 20:26
TAPE 51
FILE 7
10
20
50
60
70
4
8
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12
16
20
149
4—NOV-83 20:35
TAPE 51
FILE 8
10
20
c.r)
30
UJ
ej 40
D
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
150
4-NOV-83 20:45
TAPE 51
FILE 9
10
20
U)
30
▪
LU
40
0
•
50
60
I
70
4
8
12
I
I
16
20
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151
4-NOV-83 20 : 53
TAPE 51
FILE 10
10
20
1011111•1
50
60
70 4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
152
10—Nov-83 20:40
TAPE 64
FILE 1
10
20
30
UJ
40
50
60
1
70
4
8
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1
16
i
20
oc
153
10-NOV-83 20:52
TAPE 64
FILE 2
10
20
U)
ES 30
°- 40
_
50
60
70 4
8
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12
16
20
154
10—Nov-83 21:45
TAPE 64
FILE 3
10
20
SO
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
10-NOV-83 21:57
155
TAPE 64
FILE 4
10
20
U
a 30
-
I
LL)
uj
a- 40
50
60
70 4
12
.04 1/SEC .03 °C/CM
16
20
156
10-NOV-63 22:0S
TAPE 64
FILE
10
20
ES 30
z
1---
CL 40
SO
60
70
4
I
8
.04 1/SE ,...
12
.03 °C/CM
I
I
16
20
°C
157
10-NOV-83 22:13
TAPE 64
FILE 6
1
10
20
U,
ES 30
1--
°- 40
CD
SO
60
70 4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
15S
10-NOV-83 22:27
TAPE 64
FILE 7
10
20
50
60
70
4
I
8
.04 1/SEC .03 °C / CM
12
I
I
16
20
159
1 0-NOV 83
TAPE 64
FILE 8
10
vni
20
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
160
10-NOV-83 22:46
TAPE 64
FILE 9
1
0
20
SO
60
70
8
.04 1/SEC .03 °C/CM
12
16
20
161
10-NOV-83 22:54
TAPE 64
FILE 10
10
20
(f)
Et; 30
Lu
l-
a] 40
CD
SO
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
162
10-NOV-83 23:05
TAPE 64
FILE 11
10
20
C)
ES 30
z
1--
a- 40
w
SO
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
163
10-NOV-83 23:13
TAPE 64
FILE 12
10
20
U)
ES 30
40
SO
60
70 4
8
12
1-4
.04 1/SEC .03 °C/CM
16
20
oc
164
10-NOV-83 23:22
TAPE 64
FILE 13
10
20
iSS 30
1-
40
SO
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
C
165
10-NOV-83 23:28
TAPE 64
FILE 14
°C
.04 1/SEC .03 °C/CM
166
10-NOV-83 23:48
TAPE 64
FILE 15
1
10
20
50
60
70
4
8
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12
16
20
°C
167
10-NOV-83 23:50
TAPE 64
FILE 16
10
MEM
20
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EIS
30
°—
u,
40
50
60
a
a
70
4
a
8
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I
12
,
,
I
16
,
20
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168
11—NOV-83 00:10
TAPE 65
FILE 1
1
0
20
50
60
70
I
,
I
8
.04- 1/SEC .03 °C/CM
I
12
I
,
I
16
I
20
°C
11-NOV-83 00:20
169
TAPE 65
FILE 2
10
20
50
60
L
70
12
.04 1/SEC .03 °C/CM
16
20
1:
171)
11 NOV-83 00:32
TAPE 65
FILE 3
I
I
I
I
I
.04 1/SEC .03 °C/CM
I
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I
I
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1
171
11-NOV-83
00:42
TAPE 65
FILE 4-
10
20
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l-
a; 4-0
50
60
70
1
1
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I
8
I
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12
16
1
t
I
20
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•
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172
11-NOV-83 00:51
TAPE 65
FILE 5
10
20
En 30
4-0
50
60
70 8
12
16
20
°C
.04 1/SEC .03 °C/CM
11-NOV-83
00:58
173
TAPE 65
FILE 6
.04- 1/SEC .03 °C/CM
174
11-NOV-83 01:06
TAPE 65
FILE 7
10
20
50
60
70
8
.04. 1/SEC .03 °C/CM
12
16
20
°C
175
11-NOV-83 01:26
TAPE 65
FILE 8
1 0
20
EL% 30
11-0
50
60
70
1
I
I
I
i
1
I
8
.04- 1/SEC .03 °C/CM
i
12
I
I
I
t
16
20
°C
176
11-N0V-83 01:35
TAPE 65
FILE 9
10
20
50
60
70
I
8
.04 1/SEC .03 °C/CM
12
16
20
177
11—NOV-83 01:43
TAPE 65
FILE 10
10
20
50
60
I
70
8
.04 1/SEC .03 °C/CM
I
12
i
►
I_
I
16
20
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173
11-NOV-83 01:50
TAPE 65
FILE 11
10
20
50
60
70
I
I
I
8
.04- 1/SEC .03 °C/CM
I
I
12
16
i
t
20
179
12 NOV-83 16:53
TAPE 67
FILE 1
1
0
20
•nn
U,
E 30
u 40
LCL
50
60
70
4
8
I
I
12
I-I
.04 1/SEC .03 °C/CM
16
20
°C
180
12-NOV-83 17:01
TAPE 67
FILE 2
10
20
50
60
70
4
12
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16
20
°C
181
12—NOV-83 17:10
TAPE 67
FILE 3
0
10
20
50
60
70
4
12
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16
20
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182
12-NOV-83 17:19
TAPE 67
FILE 4
10
20
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E9 30
1-
w40
50
60
70
4
12
.04 1/SEC .03 °C/CM
16
20
°C
183
12—NOV 83 17:29
TAPE 67
FILE 5
10
20
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a-j 40
co
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
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184
12-NOV-83 17:36
TAPE 67
FILE 6
0
10
20
(r)
3 30
40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
185
12-NOV-83 17:55
TAPE 67
FILE 8
10
20
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/ CM
186
12—NOV-83 18:05
TAPE 67
FILE 9
10
20
cn
ff, 30
40
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
137
12—NOV-83 18:14
TAPE 67
FILE 10
10
20
cr)
30
40
CD
50
60
70
4
8
1
.04 1/SEC .03 °C/CM
I
12
,
r
16
20
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188
12-NOV-83 18:41
TAPE 67
FILE 11
10
20
(r)
E 30
40
50
60
70
4
12
1---1
I-4
.04 1/SEC .03 °C/CM
16
20
°C
189
12-NOV-83 18:52
TAPE 67
FILE 12
10
20
cr
E 30
1.11
F-
E] 40
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
1:
190
12-NOV-83 19:34
TAPE 67
FILE 15
10
20
U,
if, 30
la]
40
50
60
70
4
8
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12
16
20
°C
191
12—NOV 83 19:45
TAPE 67
FILE 16
0
10
20
50
60
70
12
4
16
20
CC
.04 1/SEC .03 °C/CM
192
12-NOV-83 19:57
TAPE 67
FILE 17
1
0
1n1
20
50
60
I
70
4
8
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12
16
20
193
12—NOV-83 16:53
TAPE 68
FILE 1
10
20
al 40
50
60
70 4
12
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16
20
194
12—NOV-83 17:10
TAPE 68
FILE 3
10
20
30
nNI
La.!
z
1-40
50
60
70 4
12
.04 1/SEC .03 °C/CM
16
20
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195
12—NOV-83 17:19
TAPE 68
FILE 4
10
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20
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3 30
LiJ
05 40
OM.
50
60
70
4
8
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12
16
20
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196
12-NOV-83 17:29
TAPE 68
FILE 5
10
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20
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ft
30
LU
la; 40
50
60
70 4
12
.04 1/SEC .03 °C/CM
16
20
°C
17
12—NOV-83 17:01
TAPE 68
FILE 7
10
20
u-)
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40
=OM
50
60
70
4
12
1
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16
20
oc
193
12-NOV-83 17:55
TAPE 68
FILE 8
10
20
E 30
E
40
50
60
70
4
8
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12
16
20
°C
12-NOV-83 18:05
TAPE 68
FILE 9
10
20
cr)
30
LAJ
•
I-
40
50
60
70 4
8
.04 1/SEC .03 °C/CM
12
16
20
200
12-NOV-83 18:14
TAPE 68
FILE 10
10
20
•n1
50
60
I ,
70
4
8
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12
I
16
20
201
12-NOV-83 18:41
TAPE 68
FILE 11
10
20
50
60
70
4
8
f-f
.04 1/SEC .03 °C/CM
12
16
20
«2
12-NOV-83 18:52
TAPE 68
FILE 12
10
MEM
20
U,
3 30
FELLI 40
0
50
60
70
4
8
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12
16
20
12-NOV-83 18:59
203
TAPE 68
FILE 13
10
20
50
60
,
70
4
12
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16
20
°C
204
12-NOV-83 19:07
TAPE 68
FILE 14
10
20
E 30
al 40
50
60
MOM
70
4
8
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12
16
20
°C
205
12–NOV-83 19 : 34
TAPE 68
FILE 15
10
OM.
20
.1=
50
60
70 4
12
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16
20
oc
296
12-NOV-83 19:57
TAPE 68
FILE 17
10
20
50
60
70
4
8
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12
16
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°C
207
12-NC -83 19:45
TAPE 68
FILE 18
10
20
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
20g
13–NOV-83 00:05
TAPE 69
FILE 1
10
20
u-)
Lcf.i 30
f.J.J
ea
40
50
60
70 4
8
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12
16
20
oc
209
13—NOV-83 00:13
TAPE 69
FILE 3
50
60
70 4
8
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12
16
20
210
13—NOV-83
00:23
TAPE 69
FILE 4
1
0
20
cn
L
30
40
50
60
70 4
8
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12
16
20
211
13 NOV 83 00: 30
TAPE 69
FILES
10
20
MOM
(r)
3 30
L- 40
I
50
60
70
4
8
12
16
20
°C
.04 1/SEC .03 °C/CM
212
13 NOV-83 00:48
TAPE 69
FILE 7
10
••n
20
cr)
30
z
1—
E-140
SO
60
MM.
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
213
13-NOV-83
01:08
TAPE 69
FILE 8
10
20
am.
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
214
13—NOV-83 01:30
TAPE 69
FILE 9
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
21.5
13-NOV-83 01:43
TAPE 69
FILE 10
10
20
50
60
70 4
12
.04 1/SEC .03 °C/CM
16
20
°C
216
13-NOV-83
01:50
TAPE 69
FILE 11
10
20
50
60
70
4
8
.04 1/SEC .03 °C/CM
12
16
20
°C
217
13-NOV-83 01 :59
TRPE 69
FILE 12
10
20
50
60
70 4
12
16
20
OC
.04 1/SEC .03 °C/CM
218
13-NOV-83 02:08
TAPE 69
FILE 13
10
20
U,
3 30
W
0
40
50
60
70
4
8
.04 1/SEC .03 °C/CM
20
°C
219
220
25-OCT-83 17:20
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
0 10
20
TAPE 13
FILE 3
221
25-OCT-83 ,9:55
TEMP, SALINITY, SIGMA
T
NEIL BROWN SENSOR
TAPE 13
FILE 10
3
0
10
20
z
J
50
60
70 10
22
33.0
15
24
33.5
20
26
34.0
222
25-OCT-83 20:29
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
TAPE
FILE 2
T,
0
1
14-
0
20
6
J
50
60
70
10
22
33.0
I
I
I
I
I
15
24-
33.5
1
_L
I
I
20
26
34.0
223
26-OCT 83 18:22
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
TAPE 16
FILE 7
0 10
20
(1)
EL; 30
4-0
11..M111
50
60
70
10
22
33.0
15
2433.5
20
26
34-.0
224
26-OCT-83 20:31
TEMP, SALINITY, SIGMA T
MICROCONDUCTIVITY
TAPE 16
FILE 12
J.
1
0
20
E
30
Pi; 4-0
50
60
70 10
22
33.0
15
20
24-
26
33.5
34-.0
26–OCT-83 21:45
225
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
TAPE 16
FILE 16
0
10
20
cn
E 30
W 40
50
60
70
10
22
33.0
•nn
I
I
I
L
I
15
24-
33.5
t
I
I
I
20
26
34-.0
226
26-OCT-83 22:37
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
TAPE 17
FILE 3
0
10
20
30
2-;
50
60
70
10
22
33.0
I
I
'
'
I
15
24-
33.5
1
'
I
20
26
34.0
227
26-OCT-83 23:17
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
TAPE 17
FILE 9
0
10
20
Er, 30
w
40
50
60
70
10
22
33.0
I
15
24-
33.5
20
26
34-.0
228
29-OCT-83 19:00
TEMP, SALINITY, SIGMA
T
MICROCONDUCTIVITY
TAPE 30
FILE 3
229
29-OCT-83 21:23
TEMP, SALINITY, SIGMA
T
MICROCONDUCTIVITY
TAPE 31
FILE 8
0
10
20
U)
I 30
T
c)
40
50
60
70 10
22
33.0
15
24
33.5
20
26
34.0
230
29-OCT-83 22:05
TEMP, SALINITY, SIGMA
T
MICROCONDUCTIVITY
TAPE 31
FILE 13
231
29—OCT-83 23:32
TAPE 32
FILE 10
TEMP, SALINITY, SIGMA T
MICROCONOUCTIVITY
1
0
10
20
U)
cu5 30
1•10.11
50
60
70
10
22
33.0
I
I
I
t
15
33.5
I
20
26
34-.0
2 3?
30—OCT-83 01:23
TEMP, SALINITY, SIGMA T
MICROCONDUCTIVITY
TAPE 33
FILE le
10
20
FA; 30
E
1—
E1,4-0
50
60
70 10
22
33.0
15
21e
33.5
20
26
233
30-OCT-83 03:04
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
70
10
22
33.0
15
2433.5
20
26
34-.0
2 34
30-OCT-83 18:16
TEMP, SALINITY, SIGMA
T
NEIL BROWN SENSOR
TAPE 34
FILE 3
70
10
22
33.0
15
24
33.5
20
26
34.0
235
30—OCT-83 20:32
TEMP, SALINITY, SIGMA
T
MICROCONOUCTIVITY
TAPE 34FILE 9
70
10
22
33.0
15
2433.5
20
26
34-.0
2 36
30-OCT-83 21:10
TEMP, SALINITY, SIGMA
T
MICROCONDUCTIVITY
TAPE 35
FILE 11
237
3—NOV-83 18:38
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
0
I
I
1
1
TAPE 50
FILE 2
0
10
20
cn
LT., 30
b
-
e; 4-0
50
60
70 10
22
33.0
20
15
24.26
34-.0
33.5
238
3-NOV-83 19:53
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
TAPE 50
FILE 10
10
20
U)
F.L1 30
FU.1
al
40
am=
50
60
70
10
22
33.0
i
1
i
,
n
15
24
33.5
I
I
I
1
20
26
34.0
239
4-NOV-83 18:4-6
TEMP, SALINITY, SIGMA
T
NEIL BROWN SENSOR
TAPE 51
FILE 1
4-NOV-83 20:45
TEMP, SALINITY, SIGMA
T
NEIL BROWN SENSOR
TAPE 51
FILE 9
I
0
10
ow.
20
=MN
Lcri 30
50
60
70
10
22
33.0
15
24
33.5
20
26
34 0
241
10—NOV-83 21:45
TAPE 64
FILE 3
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
0
10
20
fi
cL2 30
4-0
50
60
70
10
22
33.0
1 5
24
33.5
20
26
34-.0
242
10-NOV-83 22:46
TEMP, SALINITY, SIGMA
T
NEIL BROWN SENSOR
0
t
TAPE 64
FILE 9
I
10
20
U)
u
c 5 30
E.b 4.0
50
60
70
10
22
33.0
15
24
33.5
20
26
34.0
24'.;
10-NOV-83 23:43
TAPE 64
FILE 15
TEMP, SALINITY, SIGMA
T
NEIL BROWN SENSOR
0
MEM
10
20
c.f)
T
L , 30
F
al 4.0
4n1
50
60
,i
70
10
22
33.0
15
24
33.5
i
20
26
34.0
244
12-NOV-83 17:10
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
TAPE 67
FILE 3
0
10
20
50
60
7 0
10
22
33.0
►
__1
►
,
1
15
24.
33.5
,
I
I
20
26
34-.0
245
12—NOV-83 18:05
TEMP, SALINITY, SIGMA
T
NEIL BROWN SENSOR
TAPE 67
FILE 9
0
10
20
50
60
70
10
22
33.0
t
1
t
I Y cir
15
24.
33.5
1
I
I
20
26
34.0
246
12-NOV-83 19:45
TAPE 67
FILE 16
TEMP, SALINITY, SIGMA T
MICROCONDUCTIVITY
0
I
I
I
I
1
10
20
U)
3
30
I••••
Eli
It
0
50
OEM
60
70
10
22
33.0
1
I
I
I
15
24.
33.5
I
I
I
20
26
34.0
247
12-NOV-83 20:31
TEMP, SALINITY, SIGMA T
MICROCONDUCTIVITY
TAPE 68
FILE 3
a
0
10
OEM
20
U)
30
EL 4-0
50
60
70
10
22
33.0
15
24
33.5
20
26
34.0
243
12-NOV-83 22:40
TAPE 68
FILE 11
TEMP, SALINITY, SIGMA T
NEIL BROWN SENSOR
0
10
20
SO
60
70
10
22
33.0
iS2 1
I
.
I
15
24-
33.5
vJ
,
.
1
20
26
34.0
249
13-NOV-83 00:13
TEMP, SALINITY, SIGMA
T
MICROCONOUCTIVITY
TAPE 69
FILE 3
10
20
E 30
FLU
W 4-0
D
50
60
70
10
22
33.0
15
2433.5
20
26
34-.0
250
13-NOV-83 01:43
TEMP, SALINITY, SIGMA T
TAPE 69
FILE 10
MICROCONDUCTIVITY
P
0
1
0
20
3
30
83
4.0
50
60
70
'
10
22
33.0
'
I
'
I
15
24
33.5
'
'
'
I
20
26
34.0
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