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of
OCEANOGRAPHY
MICROSTRUCTURE CASTS DURING
AIWEX: A SUMMARY
by
Thomas M. Dillon
Michael D. Brown
Hotly C. Garrow
OREGON STATE UNIVERSITY
Reference 86-7
Data Report 122
Reproduction in whole or in part ia permitted for
any purpose of the United States Government.
Unclassified
SECURITY CLASSIFICATION OF TNIS PAGE (W1,.n
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a ivri
I. REPORT NUMBER
READ INSTRUCTIONS
A
BEFORE COMPLETING FORM
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86-7
TITLE (and Subtitle)
4.
MICROSTRUCTURE CASTS DURING AIWEX:
Data Report
#122
A SUMMARY
S.
S. CONTRACT OR GRANT NUMBER(a)
AIJTHOR(.)
7.
Dillon,
PERFORMING ORG. REPORT NUMBER
N000l4-84-C-0218
T.M.; Brown, Mike; Garrow, Holly
IC. PROGRAM ELEMENT PROJECT. TASK
AREA & WORK UNIT NUMBERS
9. PERFORMING ORGANIZATION NAME AND ADDRESS
College of Oceanography
NR083-l02
Oregon State University
Corvallis, OR 97331
II. CONTROLLING OFFICE NAME AND ADDRESS
12. REPORT DATE
March-April 1985
Office of Naval Research
Ocean Science F4 Technology Division
Arlington, Virginia 22217
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IS. SUPPLEMENTARY NOTES
19. KEY WORDS (Continu. on raw.,., aid. if
r.v.r.. aid. if n.c...y
and id.nUfy br block
,umib.r)
Arctic Internal Wave Experment (AIWEX) was designed to study the internal wave and microstructure fields in
the Beaufort Sea in the early spring. A major goal of the experiment was to verify
the hypothesis that the internal wave and microstructure fields beneath the ice
are far less energetic than in temperatre oceans. Major goals of the microstructure measurements were to characterize the double-diffusive staircase region in
the depth range 300-450m, to estimate the heat flux from the deep Atlantic water
into shallower depth zones, and to assess the influence of mesoscale and submesoscale eddies on turbulence beneath the ice.
20. ABSTRACT (Continu. on
FORM
LW I JAN 73
and idsnlity b,biocknumb.rjThe
EDITION OF 1 NOV 45 IS OUSOL ETC
SIN 0102-014-6601
SECURITY CLA$SIFICATION OF THIS PAGE (P3t.n
Int*isC
Unclassified
CLASSIFICATION OF THIS PAGE
D.ts EntST*d
An ice camp was established in mid March 1985 to accomplish these
The camp was occupied until the first week of May, and
microstructure casts were made beginning March 20 (Julian Day 79).
Microstructure profiling continued until April 26; no profiles were
obtained from April 4 through April 16 because of a malfunction in the
data acquisition system.
Over 700 casts were made spanning the range 0
to 500 m.
The time between profiles averaged 20 minutes for a full-range
profile.
Not all casts covered the full depth range; some yo-yo casts
through selected depth ranges were made to obtain detailed information on
a shorter time scale.
The ice camp drifted with a typical speed of 5 to
10 cm/s, although there were periods when the speed was as slow as 1
goals.
cm/s.
Unclassified
OP THIS
D.t• tnl•,.d)
MICROSTRUCTURE CASTS DURING AIWEX:
by
Thomas M. Dillon
Michael D. Brown
Holly
C. Garrow
College of Oceanography
Oregon State University
Corvallis, Oregon 97331
Approved for Public Release
Distribution Unlimited
Data Report 122
Reference 86-7
A SUMMARY
ACKNOWLEDGEMENTS
The success of the AIWEX experiment was due in large part to the
dedication and skill of the logistics team of the Polar Science Center,
Applied Physics Laboratory, University of Washington.
Andy Heiberg,
Allen Hielscher,
and
Imants
Virsnieks
demonstrated an inordinate
tolerance to the naivete of polar greenhorns.
Jamie Morison deserves
special thanks for keeping the moral of the camp at a high level, and for
sharing his expertise in all things Arctic.
He, along with C. Paulson,
M. Levine, and E. D'Asaro provided much of the scientific motivation for
the Aiwex experience.
The experiment could not have been accomplished
without the help of Roger Samelson, who seemed never to tire, and was
always willing to ". .make one more cast."
.
Support for this experiment was provided by the Office of Naval
Research, contract number N00014-84-C-O2l8, code 420 P0.
Logistics
support was sponsored by the ONR, code 425 AR.
TABLE OF CONTENTS
INTRODUCTION
A.
INSTRUMENT DESCRIPTION
B.
DESCRIPTION OF OBSERVATIONS
C.
CAMP POSITION MAP
D.
DROP TIME TABLE
E.
REFERENCES
OBSERVATIONS
A.
TEMPERATURE, SALINITY, AND SIGMA-T
B.
T-S DIAGRAMS
C.
TEMPERATURE PROFILES
D.
STAIRCASE TEMPERATURE PROFILE DETAIL
E.
DISSIPATION RATES
INTRODUCTION
The Arctic Internal Wave Experiment (AIWEX) was designed to study the
internal wave and microstructure fields in the Beaufort Sea in the early
spring. A major goal of the experiment was to verify the hypothesis that
the internal wave and microstructure fields beneath the ice are far less
energetic than in temperate oceans.
Major goals of the microstructure
measurements were to characterize the double-diffusive staircase region
in the depth range 300-450 in, to estimate the heat flux from the deep
Atlantic water into shallower depth zones, and to assess the influence of
mesoscale and sub-mesoscale eddies on turbulence beneath the ice.
An ice camp was established in mid March 1985 to accomplish these
The camp was occupied until the first week of May,
and
microstructure casts were made beginning March 20 (Julian Day 79).
Microstructure profiling continued until April 26; no profiles were
obtained from April 4 through April 16 because of a malfunction in the
data acquisition system.
Over 700 casts were made spanning the range 0
goals.
The time between profiles averaged 20 minutes for a full-range
Not all casts covered the full depth range; some yo-yo casts
through selected depth ranges were made to obtain detailed information on
a shorter time scale.
The ice camp drifted with a typical speed of 5 to
10 cm/s, although there were periods when the speed was as slow as 1
to 500 in.
profile.
cm/s.
A.
INSTRUMENTS
Microstructure casts were made through 2 meters of ice from a
hydrohole positioned inside a small hut.
The instrument used was the
WAZP II, a vertical profiler that carries temperature, conductivity,
pressure, and airfoil shear sensors (Crawford and Osborn, 1980).
The
WAZP resembles the RSVP (Caldwell, Dillon and Mourn, 1985) in internal
details, differing mainly in the method of sensor mounting, and method of
achieving drag.
The RSVP has temperature and conductivity sensors
carefully shielded to prevent breakage, while the WAZP mounting is more
exposed to the flow; the RSVP achieve drag with wing flaps, while the
WAZP uses annular fiber brushes.
The temperature sensor was an FPO7 thermistor.
Two types of WAZP were
used,
the difference being the type of conductivity sensor.
A NeilBrown sensor (NBS) was used on instruments WAO1 and WAO2, while a
microconductivity sensor (MCS); manufactured by Precision Measurement
Engineering and described by Head [1983J) was used on instruments WA)3
and WAO4.
The MCS has a much finer spatial resolution than the NBS, but
suffers from severe calibration drifts.
The NBS also showed some drift
with time, but was much more reliable than the MCS.
WAO1 and WAO2 had
shear sensors on stings protruding 10 cm beyond the WAZP nose cone front;
the NBS was mounted on the side of the nose cone about 5 cm from the nose
cone front, and the thermistor was mounted at the leading edge of the
NBS.
WAO3 and WAO4 had an MCS, thermistor, and shear sensors all mounted
on a stings protruding 10 cm in front of the nose cone.
2
Voltage signals were sent up the data line, amplified, filtered, and
digitized with a 12-bit analog to digital converter controlled by an LSI
amplifying
increased by
11/23
computer
system.
Resolution was
On one
temperature and conductivity each on two independent channels.
Itlow
gain"
amplifier
gain
and
offset
was
kept
channel (the
channel),
the
channel),
gain"
"high
(the
constant, but on the second channel
digital
(using
offset
voltage
operator periodically
adjusted
the
Typically, the voltage offset for
switches) to maximize the resolution.
conductivity was adjusted 3 or 4 times during a drop, increasing the
effective dynamic range from 12 bits to 13 or 14 bits.
Temperature and conductivity were filtered at 40 Hz, and sampled at a
Pressure was filtered at 1 Hz and sampled
rate of 130 times per second.
130/s, while shear sensors were filtered at 80 Hz, and sampled at 260/s.
B. DESCRIPTION OF OBSERVATIONS
The microstructure observations recorded here are composed of five
The first is a collection of "deep" temperature, salinity, and
These plots extend from
plots spanning the time of the experiment.
the surface to 350, 400, or 450 meters, depending on the length of the
cast.
They illustrate the structure of the upper Beaufort sea, and how
Averaging for these plots
structures changes in time and space.
corresponds to about a 0.4 meter averaging length (64 point average of a
signal sampled at a rate of 130/s, with approximately 80 cm/s fall
speed).
Salinities were calculated using the low-gain temperature and
conductivity channels.
sections.
The second section is a series of T-S diagrams taken from the same 64
point average data described above.
The third section is a series of temperature plots of nearly all the
These are drawn
with more than one profile on each cast.
together, often on expanded depth and temperature scales, to illustrate
the variability (at times, the lack of variability!) of structures in the
Plots on expanded scales typically are
upper waters of the Beaufort Sea.
16 point averages, that is, approximately a 10 cm resolution.
casts,
fourth section is a detail of temperature profiles in the
These are a subset
thermohaline staircase region between 340 and 380 m.
of a 37 hour time-series of drops taken closely in time with the
instrument WAO2.
Individual steps are traceable from profile to profile
The
in this series, and the vertical oscillation of internal waves can be
The time between profiles (typically 10 to 20 minutes) is
usually short enough to avoid aliasing, because the buoyancy frequency
here is of order 1 cycle per hour.
clearly seen.
The fifth section is a collection of kinetic energy dissipation rate
Dissipation rates were
profiles plotted beside buoyancy frequency.
calculated by integrating the spectrum from the shear sensors over a band
dependent on the spectral energy (a method similar to that of Shay and
The
Gregg [1986] was used to determine the upper cut-off frequency).
3
averaging interval used was typically 2 meters.
Dissipation rates from a
The
three-day period beginning
on March 24 (J.D. 114) are included.
March 24 dissipation rates are typical of most other days of the
experiment:
little if any significant turbulence was seen outside of the
surface mixed layer.
Usually, the calculated dissipation rate is far
On
below 30 vN2, the lowest value expected for overturning turbulence.
March 25 (J.D. 115), the ice camp passed through a small mesoscale eddy,
and significant but intermittent dissipation rates were seen in the upper
200 in.
On March 26 (J.D. 116), few mixing events were observed.
Several
investigators
the
that
compliment
made
measurements
microstructure observations.
Levine used an ice-moored array of
M.
Seabird sensors to make a time series of temperature, depth,
and
conductivity.
J. Morison used a Seabird CTD system along with propeller
triplet
current
meter to make vertical
temperature,
profiles
of
conductivity, and velocity.
C. Paulson deployed an array of S4 and VMCM
current meters.
R. Pinkel and J. Morrison monitored currents with tow
acoustic doppler current meters.
E. D'Asaro measured vertical profiles
of current a distances far removed from the camp using XCPs. J. Swift
measured deep profiles of various chemical species with bottle casts. M.
McPhee measured turbulent velocity fluctuations in the boundary layer
beneath the ice.
The Polar Science Center logistics group monitored the
ice camp position using a satellite navigation system, and measured the
surface winds.
4
C.
CAMP POSITION MAP
S
6
D.
CAMP POSITION TABLE
7
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long
74.02624
74.02622
74.02614
74.02581
74.02532
74.02518
74.02533
74.02555
74.02570
74.02581
74.02625
74.02679
74.02768
74.02833
74.02897
74.02969
74.03101
74.03314
74.03635
74.04109
74.04721
74.05408
74.06120
74.06837
74.07597
74.08412
74.09267
74.10147
74.11073
74.12078
74.13178
74.14327
74.15408
74.16399
74.17348
74.18377
74.19518
74.20734
74.21911
74.22922
74.23719
74.24391
74.24923
74.25287
lat
-142.88832
-142.89667
-142.90373
-142.91043
-142.92162
-142.93726
-142.95724
-142.98195
-143.00874
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-143.48050
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-143.54053
-143.56796
-143.59764
-143.63069
-143.66730
-143.70602
-143.74335
-143.77216
-143.79291
-143.81221
-143.83440
-143.85907
-143.88055
-143.89018
-143.89227
-143.89781
-143.91168
-143.93295
-143.94878
-143.95587
J. Day hour
82
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1
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23
long
74.02626
74.02621
74.02599
74.02553
74.02518
74.02523
74.02543
74.02563
74.02576
74.02604
74.02647
74.02720
74.02806
74.02865
74.02918
74.03031
74.03204
74.03461
74.03862
74.04410
74.05048
74.05766
74.06468
74.07211
74.07986
74.08838
74.09702
74.10603
74.11562
74.12620
74.13755
74.14880
74.15914
74.16872
74.17844
74.18921
74.20122
74.21320
74.22446
74.23353
74.24055
74.24671
74.25144
74.25400
lat
-142.89253
-142.90036
-142.90685
-142.91566
-142.92836
-142.94635
-142.96899
-142.99475
-143.02255
-143.05013
-143.07674
-143.10202
-143.12868
-143.15866
-143.19455
-143.23454
-143.27399
-143.31160
-143.34958
-143.38914
-143.42844
-143.46368
-143.49695
-143.52670
-143.55444
-143.58266
-143.61400
-143.64848
-143.68671
-143.72583
-143.75880
-143.78308
-143.80205
-143.82286
-143.84636
-143.87099
-143.88673
-143.89088
-143.89432
-143.90399
-143.92175
-143.94122
-143.95380
-143.95604
8
J. Day hour
86
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long
74.25465
74.25452
74.25330
74.25163
74.25053
74.24919
74.24763
74.24577
74.24394
74.24232
74.24075
74.23893
74.23706
74.23566
74.23505
74.23526
74.23573
74.23593
74.23581
74.23559
74.23547
74.23569
74.23602
74.23640
74.23658
74.23632
74.23560
74.23451
74.23316
74.23155
74.22964
74.22753
74.22543
74.22356
74.22179
74.22022
74.21894
74.21786
74.21668
74.21538
74.21388
74.21261
74.21157
74.21046
74.20885
74.20691
74.20489
74.20330
lat
-143.95468
-143.95279
-143.95702
-143.95856
-143.95772
-143.95361
-143.94849
-143.94400
-143.94029
-143.93486
-143.92642
-143.91528
-143.90370
-143.89412
-143.88890
-143.88768
-143.88751
-143.88535
-143.88155
-143.87834
-143.87711
-143.87903
-143.88048
-143.88013
-143.87869
-143.87750
-143.87758
-143.87837
-143.87817
-143.87636
-143.87273
-143.86832
-143.86513
-143.86378
-143.86563
-143.86913
-143.87111
-143.87271
-143.87447
-143,87724
-143.88055
-143.88330
-143.88379
-143,88260
-143.88190
-143.88409
-143.88889
-143.89394
J. Day hour
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lat
long
-143.95323
74.25493
74. 25379 -143.95326
74. 25243 -143.95801
74.25111 -143.95886
74. 24988 -143.95593
74.248 50 -143.95128
74. 24673 -143.94588
74. 24485 -143.94191
74.24311 -143.93797
74.24157 -143.93109
74. 23988 -143.92104
74. 23798 -143.90953
74. 23627 -143.89870
74.23524 -143.89104
74. 23506 -143.88760
74. 23 549 -143.88840
74. 23592 -143.88687
74.23598 -143.88371
74. 23566 -143.87962
74. 23548 -143.87717
74. 23553 -143.87796
74. 23586 -143.87990
74.23621 -143.88016
74. 23653 -143.87938
74. 23650 -143.87785
74.23601 -143.87727
74. 23507 -143.87787
74. 23386 -143.87825
74. 2 3243 -143.87746
74. 23064 -143.87465
74. 22858 -143.87054
74.22646 -143.86667
74.22448 -143.86400
74.22264 -143.86464
74. 22097 -143.86771
74.21953 -143.87007
74.21840 -143.87195
74.21731 -143.87334
74.21606 -143.87567
74. 21465 -143.87901
74.21323 -143.88226
74. 21210 -143.88397
74.21104 -143.88338
74. 20974 -143.88196
74. 20794 -143.88245
74. 20589 -143.88622
74. 20404 -143.89149
74.20262 -143.89587
9
J. Day hour
90
90
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long
74.20197
74.20052
74.19898
74.19783
74.19723
74.19714
74.19726
74.19710
74.19647
74.19560
74.19474
74.19402
74.19340
74.19289
74.19250
74.19218
74.19189
74.19169
74.19160
74.19168
74.19186
74.19173
74.19118
74.19032
74.18949
74.18893
74.18848
74.18803
74.18735
74.18672
74.18623
74.18597
74.18575
74.18532
74.18445
74.18312
74.18163
74.18041
74.17981
74.17977
74.18003
74.18008
74.17949
74.17814
74.17640
74.17484
74.17381
74.17324
lat
-143.89702
-143.89687
-143.89400
-143.89143
-143.89021
-143.89008
-143.89020
-143.88937
-143.88794
-143.88673
-143.88608
-143.88539
-143.88414
-143.88213
-143.87961
-143.87854
-143.87827
-143.87901
-143.87907
-143.87833
-143.87743
-143.87755
-143.87938
-143.88268
-143.88626
-143.88930
-143.89252
-143.89540
-143.89861
-143.90112
-143.90369
-143.90657
-143.91272
-143.92319
-143.93678
-143.95322
-143.97281
-143.99602
-144.02010
-144.04208
-144.06084
-144.07736
-144.09389
-144.11292
-144.13545
-144.15976
-144.18544
-144.21121
J. Day hour
90
90
90
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91
91
91
91
91
91
91
91
91
91
92
92
92
92
92
92
92
92
92
92
92
92
93
93
93
93
93
93
93
93
93
93
93
93
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
long
74.20126
74.19976
74.19835
74.19746
74.19712
74.19720
74.19724
74.19683
74.19608
74.19518
74.19436
74.19369
74.19314
74.19267
74.19237
74.19202
74.19180
74.19160
74.19160
74.19179
74.19186
74.19154
74.19075
74.18987
74.18916
74.18866
74.18828
74.18772
74.18701
74.18641
74.18607
74.18586
74.18558
74.18495
74.18383
74.18237
74.18098
74.18006
74.17972
74.17986
74.18011
74.17989
74.17887
74.17726
74.17558
74.17427
74.17350
74.17293
lat
-143.89731
-143.89565
-143.89259
-143.89058
-143.89001
-143.89011
-143.88992
-143.88873
-143.88734
-143.88635
-143.88577
-143.88490
-143.88318
-143.88089
-143.87914
-143.87817
-143.87859
-143.87907
-143.87868
-143.87778
-143.87720
-143.87816
-143.88092
-143.88446
-143.88786
-143.89091
-143.89365
-143.89716
-143.90021
-143.90288
-143.90543
-143.90944
-143.91774
-143.92986
-143.94475
-143.96300
-143.98402
-144.00793
-144.03148
-144.05194
-144.06927
-144.08546
-144.10295
-144.12376
-144.14737
-144.17244
-144.19833
-144.22409
10
J. Day hour
94
94
94
94
94
94
94
94
94
94
94
94
95
95
95
95
95
95
95
95
95
95
95
95
96
96
96
96
96
96
96
96
96
96
96
96
97
97
97
97
97
97
97
97
97
97
97
97
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
long
74.17259
74.17155
74.17013
74.16878
74.16764
74.16659
74.16518
74.16334
74.16135
74.15962
74.15858
74.15816
74.15766
74.15664
74.15487
74.15300
74.15112
74.14986
74.14932
74.14913
74.14904
74.14883
74.14841
74.14746
74.14647
74.14574
74.14547
74.14561
74.14577
74.14576
74.14571
74.14587
74.14617
74.14649
74.14658
74.14644
74.14622
74.14622
74.14632
74.14636
74.14649
74.14651
74.14647
74.14645
74.14658
74.14703
74.14771
74.14840
lat
-144.23700
-144.26234
-144.28629
-144.30777
-144.32666
-144.34357
-144.35934
-144.37593
-144.39441
-144.41489
-144.43752
-144.46185
-144.48515
-144.50687
-144.52614
-144.54004
-144.55090
-144.55931
-144.56404
-144,56598
-144.56544
-144.56577
-144.56798
-144.57501
-144.58624
-144.59639
-144.60010
-144.59784
-144.59392
-144.59064
-144.59157
-144.59367
-144.59459
-144.59351
-144.59207
-144.59209
-144.59373
-144.59547
-144.59608
-144.59650
-144.59743
-144.59914
-144.60046
-144.60123
-144.60178
-144.60219
-144.60535
-144.61295
J. Day hour
94
94
94
94
94
94
94
94
94
94
94
94
95
95
95
95
95
95
95
95
95
95
95
95
96
96
96
96
96
96
96
96
96
96
96
96
97
97
97
97
97
97
97
97
97
97
97
97
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
long
74.17212
74.17088
74.16943
74.16821
74.16713
74.16597
74.16434
74.16235
74.16040
74.15899
74.15832
74.15797
74.15721
74.15583
74.15408
74.15202
74.15042
74.14951
74.14917
74.14905
74.14886
74.14870
74.14801
74.14696
74.14606
74.14555
74.14551
74.14570
74.14579
74.14574
74.14575
74.14600
74.14635
74.14657
74.14655
74.14633
74.14620
74.14629
74.14639
74.14642
74.14652
74.14649
74.14643
74.14649
74.14678
74.14734
74.14807
74.14867
lat
-144.24976
-144.27464
-144.29741
-144.31744
-144.33521
-144.35164
-144.36754
-144.38499
-144.40439
-144.42601
-144.44983
-144.47401
-144.49638
-144.51683
-144.53389
-144.54604
-144.55638
-144.56166
-144.56516
-144.56589
-144.56622
-144.56610
-144.57060
-144.58038
-144.59152
-144.59892
-144.59857
-144.59608
-144.59161
-144.59084
-144.59267
-144.59439
-144.59410
-144.59290
-144.59181
-144.59280
-144.59471
-144.59583
-144.59634
-144.59698
-144.59819
-144.59993
-144.60101
-144.60168
-144.60173
-144.60332
-144.60863
-144.61821
•11
J. Day hour
98
98
98
98
98
98
98
98
98
98
98
98
99
99
99
99
99
99
99
99
99
99
99
99
100
100
100
100
100
100
100
100
100
100
100
100
101
101
101
101
101
101
101
101
101
101
101
101
lat
-144.62416
-144.63646
-144.64651
-144.65240
-144.65465
-144.65511
-144.65573
-144.65712
-144.65962
-144.66475
-144.67403
-144.68781
-144.70317
-144.71651
-144.72437
-144.72618
-144.72371
-144.71964
-144.71658
-144.71500
-144.71233
-144.70840
-144.70288
-144.69562
-144.68877
-144.68143
-144.67441
-144.66766
-144.66109
-144.65401
-144.64607
-144.63673
-144.62680
-144.61554
-144.60185
-144.58444
-144.56453
-144.54385
-144.52338
J. Day hour
4
long
74.14884
74.14882
74.14851
74.14821
74.14789
74.14761
74.14719
74.14651
74.14539
74.14388
74.14234
74.14091
74.13957
74.13817
74.13671
74.13553
74.13483
74.13462
74.13441
74.13384
74.13306
74.13226
74.13131
74.13015
74.12885
74.12758
74.12660
74.12591
74.12540
74.12455
74.12334
74.12188
74.12039
74.11891
74.11690
74.11426
74.11157
74.10942
74.10778
6
74.10648, -144.50249
7
8
74.10474
74.10237
74.09985
74.09729
74.09460
74.09111
74.08626
74.08064
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
10
12
14
16
18
20
22
-144.48068
-144.45793
-144.43576
-144.41594
-144.39824
-144.37959
-144.36047
-144.34511
98
98
98
98
98
98
98
98
98
98
98
98
99
99
99
99
99
99
99
99
99
99
99
99
100
100
100
100
100
100
100
100
100
100
100
100
101
101
101
101
101
101
101
101
101
101
101
101
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
9
11
13
15
17
19
21
23
long
74.14889
74.14867
74.14834
74.14806
74.14775
74.14743
74.14692
74.14601
74.14466
74.14310
74.14162
74.14025
74.13890
74.13742
74.13602
74.13511
74.13467
74.13451
74.13415
74.13348
74.13265
74.13182
74.13073
74.12952
74.12817
74.12704
74.12625
74.12566
74.12502
74.12399
74.12261
74.12113
74.11972
74.11798
74.11566
74.11288
74.11043
74.10857
74.10715
74.10564
74.10360
74.10110
74.09850
74.09598
74.09297
74.08881
74.08348
74.07789
lat
-144.63037
-144.64185
-144.65001
-144.65375
-144.65503
-144.65527
-144.65631
-144.65808
-144.66173
-144.66885
-144.68054
-144.69548
-144.71040
-144.72131
-144.72615
-144.72539
-144.72215
-144.71777
-144.71593
-144.71347
-144.71054
-144.70575
-144.69925
-144.69218
-144.68504
-144.67781
-144.67099
-144.66438
-144.65761
-144.65013
-144.64134
-144.63181
-144.62138
-144.60919
-144.59372
-144.57483
-144.55406
-144.53365
-144.51309
-144.49159
-144.46930
-144.44658
-144.42567
-144.40657
-144.38896
-144.36972
-144.35226
-144.33955
'C-
J. Day hour
102
102
102
102
102
102
102
102
102
102
102
102
103
103
103
103
103
103
103
103
103
103
103
103
104
104
104
104
104
104
104
104
104
104
104
104
105
105
105
105
105
105
105
105
105
105
105
105
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
long
74.07531
74.07115
74.06917
74.06868
74.06859
74.06797
74.06712
74.06601
74.06516
74.06432
74.06355
74.06284
74.06218
74.06165
74.06124
74.06101
74.06085
74.06063
74.06049
74.06044
74.06041
74.06034
74.06003
74.05938
74.05850
74.05769
74.05714
74.05678
74.05670
74.05664
74.05663
74.05659
74.05638
74.05586
74.05521
74.05464
74.05442
74.05462
74.05506
74.05532
74.05535
74.05508
74.05482
74.05453
74.05414
74.05315
74.05167
74.04980
lat
-144.33418
-144.32817
-144.32870
-144.33159
-144.33507
-144.33664
-144.33934
-144.34273
-144.34659
-144.35266
-144.36064
-144.37015
-144.38065
-144.39066
-144.39838
-144.40239
-144.40314
-144.40468
-144.40782
-144.41037
-144.41100
-144.40974
-144.41377
-144.42264
-144.43729
-144.45291
-144.46405
-144.46826
-144.47112
-144.47372
-144.47684
-144.47960
-144.48409
-144.48839
-144.50050
-144.52057
-144.54338
-144.56303
-144.57849
-144.58763
-144.59665
-144.60645
-144.61534
-144.62007
-144.62364
-144.62808
-144,63957
-144.66058
J. Day hour
102
102
102
102
102
102
102
102
102
102
102
102
103
103
103
103
103
103
103
103
103
103
103
103
104
104
104
104
104
104
104
104
104
104
104
104
105
105
105
105
105
105
105
105
105
105
105
105
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
long
74.07299
74.06996
74.06882
74.06867
74.06845
74.06760
74.06653
74.06553
74.06474
74.06393
74.06320
74.06248
74.06190
74.06146
74.06112
74.06094
74.06075
74.06055
74.06046
74.06042
74.06039
74.06023
74.05975
74.05895
74.05806
74.05740
74.05691
74.05673
74.05666
74.05666
74.05663
74.05652
74.05614
74.05553
74.05490
74.05446
74.05447
74.05485
74.05526
74.05534
74.05522
74.05495
74.05466
74.05434
74.05370
74.05248
74.05077
74.04887
lat
-144.33041
-144.32812
-144.33022
-144.33359
-144.33653
-144.33806
-144.34103
-144.34476
-144.34949
-144.35666
-144.36522
-144.37497
-144.38579
-144.39491
-144.40094
-144.40221
-144.40370
-144.40604
-144.40901
-144.41081
-144.41069
-144.40999
-144.41745
-144.42958
-144.44551
-144.45894
-144.46655
-144.47052
-144.47223
-144.47530
-144.47830
-144.48096
-144.48526
-144.49353
-144.50990
-144.53198
-144.55373
-144.57141
-144.58427
-144.59196
-144.60156
-144.61134
-144.61848
-144.62144
-144.62537
-144.63280
-144.64944
-144.67316
13
Day hour
106
106
106
106
106
106
106
106
106
106
106
106
107
107
107
107
107
107
107
107
107
107
107
107
108
108
108
108
108
108
108
108
108
108
108
108
109
109
109
109
109
109
109
109
109
109
109
109
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
long
74.04797
74.04648
74.04534
74.04436
74.04334
74.04198
74.04022
74.03814
74.03596
74.03393
74.03167
74.02944
74.02708
74.02448
74.02194
74.01942
74.01675
74.01380
74.01044
74.00676
74.00250
73.99750
73.99142
73.98466
73.97804
73.97260
73.96870
73.96566
73.96274
73.95960
73.95583
73.95189
73.94849
73.94613
73.94480
73.94407
73.94352
73.94283
73.94191
73.94098
73.93993
73.93832
73.93633
73.93454
73.93314
73.93176
73.93004
73.92780
lat
-144.68581
-144.70891
-144.72542
-144.73903
-144.75171
-144.76707
-144.78470
-144.80434
-144.82616
-144.85242
-144.88367
-144.91902
-144.95496
-144.98892
-145.01860
-145.04469
-145.06775
-145.08975
-145.11118
-145.13208
-145.15311
-145.17543
-145.20132
-145.23163
-145.26581
-145.30104
-145.33287
-145.35811
-145.37640
-145.38800
-145.39749
-145.41011
-145.42899
-145.45309
-145.48013
-145.50468
-145.52864
-145.55380
-145.57953
-145.60300
-145,61928
-145.62408
-145.62247
-145.62022
-145.61946
-145.62022
-145.61774
-145.61394
J. Day hour
106
106
106
106
106
106
106
106
106
106
106
106
107
107
107
107
107
107
107
107
107
107
107
107
108
108
108
108
108
108
108
108
108
108
108
108
109
109
109
109
109
109
109
109
109
109
109
109
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
long
74.04717
74.04586
74.04490
74.04394
74.04269
74.04111
74.03925
74.03699
74.03497
74.03280
74.03053
74.02824
74.02576
74.02325
74.02066
74.01807
74.01527
74.01214
74.00861
74.00468
74.00011
73.99454
73.98811
73.98129
73.97514
73.97052
73.96709
73.96424
73.96116
73.95774
73.95380
73.95013
73.94716
73.94530
73.94440
73.94377
73.94324
73.94238
73.94146
73.94053
73.93919
73.93730
73.93538
73.93381
73.93251
73.93095
73.92902
73.92638
lat
-144.69812
-144.71831
-144.73236
-144.74500
-144.75908
-144.77563
-144.79433
-144.81548
-144.83803
-144.86739
-144.90068
-144.93697
-144.97229
-145.00397
-145.03206
-145.05643
-145.07866
-145.10036
-145.12160
-145.14240
-145.16400
-145.18790
-145.21593
-145.24826
-145.28362
-145.31741
-145.34654
-145.36807
-145.38293
-145.39288
-145.40331
-145.41873
-145.44043
-145.46631
-145.49260
-145.51697
-145.54138
-145.56696
-145.59186
-145.61230
-145.62247
-145.62343
-145.62099
-145.62019
-145.62018
-145.61935
-145.61592
-145.61200
J. Day hour
110
110
110
110
110
110
110
110
110
110
110
110
111
111
111
111
111
111
111
111
111
111
111
111
112
112
112
112
112
112
112
112
112
112
112
112
113
113
113
113
113
113
113
113
113
113
113
113
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
long
lat
73.92480
73.92158
73.91892
73.91671
73.91487
73.91299
73.91039
73.90719
73.90415
73.90232
73.90154
73.90048
73.89809
73.89465
73.89149
73.88991
73.88989
73.89051
73.89083
73.89073
73.89045
73.89040
73.89035
73.89050
73.89071
73.89071
73.89019
73.88927
73.88847
73.88804
73.88803
73.88822
73.88825
73.88850
73.88931
73.89026
73.89091
73.89074
73.88975
73.88806
73.88631
73.88491
73.88371
73.88198
73.87901
73.87502
73.87087
73.86755
-145.61041
-145.60970
-145.61137
-145.61298
-145.61157
-145.60626
-145.59926
-145.59444
-145.59157
-145.58574
-145.57262
-145.55020
-145.52495
-145.50470
-145.49323
-145.48883
-145.48792
-145.48788
-145.48682
-145.48618
-145.48538
-145.48543
-145.48567
-145.48517
-145.48584
-145.49089
-145.49106
-145.48972
-145.48923
-145.49046
-145.49599
-145.50101
-145.50243
-145.49222
-145.49600
-145.51358
-145.53581
-145.54808
-145.55046
-145.55125
-145.56100
-145.58351
-145.60002
-145.60966
-145.61292
-145.62578
-145.64836
-145.68030
J. Day hour
110
110
110
110
110
110
110
110
110
110
110
110
111
111
111
111
111
111
111
111
111
111
111
111
112
112
112
112
112
112
112
112
112
112
112
112
113
113
113
113
113
113
113
113
113
113
113
113
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
long
lat
73.92316
73.92014
73.91776
73.91572
73.91394
73.91180
73.90888
73.90557
73.90306
73.90186
73.90113
73.89948
73.89649
73.89301
73.89041
73.88972
73.89020
73.89079
73.89079
73.89059
73.89040
73.89038
73.89037
73.89059
73.89072
73.89052
73.88972
73.88879
73.88818
73.88799
73.88811
73.88824
73.88840
73.88887
73.88980
73.89069
73.89095
73.89023
73.88885
73.88705
73.88551
73.88432
73.88298
73.88070
73.87707
73.87289
73.86904
73.86632
-145.60966
-145.61006
-145.61244
-145.61299
-145.60963
-145.60287
-145.59668
-145.59273
-145.58937
-145.58017
-145.56242
-145.53752
-145.51413
-145.49786
-145.49059
-145.48839
-145.48795
-145.48807
-145.48639
-145.48593
-145.48526
-145.48582
-145.48538
-145.48512
-145.48715
-145.49017
-145.49037
-145.48878
-145.48935
-145.49307
-145.49966
-145.50278
-145.49265
-145.48999
-145.50391
-145.52492
-145.54535
-145.54492
-145.55057
-145.55658
-145.57294
-145.59215
-145.60519
-145.60866
-145.61981
-145.63528
-145.66412
-145.69673
15
J. Day hour
114
114
114
114
114
114
114
114
114
114
114
114
115
115
115
115
115
115
115
115
115
115
115
115
116
116
116
116
116
116
116
116
116
116
116
116
117
117
117
117
117
117
117
117
117
117
117
117
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
long
73.86536
73.86377
73.86185
73.85937
73.85657
73.85375
73.85118
73.84846
73.84540
73.84165
73.83766
73.83401
73.83065
73.82782
73.82565
73.82455
73.82419
73.82427
73.82467
73.82484
73.82430
73.82323
73.82217
73.82172
73.82234
73.82358
73.82421
73.82361
73.82201
73.82044
73.81934
73.81825
73.81676
73.81451
73.81194
73.80967
73.80795
73.80656
73.80505
73.80302
73.80056
73.79794
73.79524
73.79245
73.78935
73.78601
73.78255
73.77904
lat
-145.71043
-145.73006
-145.74113
-145.74490
-145.75664
-145.77046
-145.77870
-145.78069
-145.77361
-145.77814
-145.79526
-145.81964
-145.84290
-145.85666
-145.86241
-145.86728
-145.86726
-145.86848
-145.87094
-145.87323
-145.87981
-145.89061
-145.91032
-145.93826
-145.97006
-146.00124
-146.02666
-146.04585
-146.06480
-146.08728
-146.11221
-146.13637
-146.15837
-146.18028
-146.20560
-146.23616
-146.27068
-146.30470
-146.33607
-146.36441
-146.39038
-146.41214
-146.42624
-146.43324
-146.43423
-146.43384
-146.43434
-146.43639
J. Day hour
114
114
114
114
114
114
114
114
114
114
114
114
115
115
115
115
115
115
115
115
115
115
115
115
116
116
116
116
116
116
116
116
116
116
116
116
117
117
117
117
117
117
117
117
117
117
117
117
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
ii
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
lat
long
73.86455 -145.72086
73. 86292 -145.73746
73.86066 -145 .74055
73. 85796 -145.75252
73.85515 -145.76433
73. 85249 -145.77646
73.84986 -145.78108
73.84698 -145.77722
73.84361 -145.77368
73. 83968 -145.78534
73.83585 -145.80681
73. 83231 -145.83182
73.82915 -145.85114
73. 82663 -145.85966
73.82499 -145.86586
73. 82430 -145.86749
73.82421 -145.86771
73. 82452 -145.86972
73. 8 2475 -145.87239
73.82458 -145.87607
73. 82376 -145.88527
73. 82275 -145.89911
73. 82182 -145.92355
73.82187 -145.95393
73. 82293 -145.98598
73. 82404 -146.01492
73.82407 -146.03674
73.82285 -146.05507
73.82112 -146.07561
73.81982 -146.09944
73.81885 -146.12462
73. 81764 -146.14755
73. 81570 -146.16911
73. 81322 -146.19238
73.81068 -146.22009
73. 80878 -146.25325
73. 80725 -146.28769
73. 80586 -146.32045
73. 80409 -146.35071
73.80183 -146.37819
73.79931 -146.40213
73. 79664 -146.42046
73. 79389 -146.43021
73. 79090 -146.43338
73. 78770 -146.43410
73. 78430 -146.43332
73. 78076 -146.43561
73.77732 -146.43721
16
J. Day hour
118
118
118
118
118
118
118
118
118
118
118
118
119
119
119
119
119
119
119
119
119
119
119
119
120
120
120
120
120
120
120
120
120
120
120
120
121
121
121
121
121
121
121
121
121
121
121
121
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
6
8
10
12
14
16
18
20
22
long
73.77573
73.77293
73.77071
73.76948
73.76882
73.76853
73.76824
73.76774
73.76699
73.76575
73.76420
73.76286
73.76179
73.76122
73.76103
73.76113
73.76125
73.76131
73.76138
73.76148
73.76170
73.76229
73.76351
73.76525
73.76729
73.76892
73.76992
73.77013
73.77006
73.76999
73.77010
73.77023
73.77023
73.77027
73.77097
73.77235
73.77426
73.77617
73.77761
73.77843
73.77926
73.77986
73.78036
73.78072
73.78164
73.78392
73.78787
73.79369
lat
-146.43660
-146.43253
-146.42670
-146.42366
-146.41917
-146.41661
-146.41661
-146.41780
-146.41711
-146.41435
-146.40718
-146.39859
-146.38963
-146.38913
-146.38953
-146.39221
-146.39413
-146.39388
-146.39163
-146.38896
-146.39021
-146.39697
-146.40819
-146.42070
-146.43164
-146.43909
-146.44373
-146.44458
-146.44460
-146.44337
-146.44312
-146.44324
-146.44397
-146.44591
-146.44827
-146.45100
-146.45425
-146.45798
-146.46136
-146.46355
-146.46587
-146.46658
-146.46664
-146.46806
-146.47293
-146.48334
-146.49821
-146.51617
J. Day hour
118
118
118
118
118
118
118
118
118
118
118
118
119
119
119
119
119
119
119
119
119
119
119
119
120
120
120
120
120
120
120
120
120
120
120
120
121
121
121
121
121
121
121
121
121
121
121
121
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
7
9
11
13
15
17
19
21
23
long
73.77423
73.77173
73.77009
73.76908
73.76869
73.76836
73.76801
73.76743
73.76642
73.76499
73.76349
73.76225
73.76145
73.76107
73.76102
73.76118
73.76125
73.76136
73.76143
73.76154
73.76193
73.76284
73.76433
73.76628
73.76817
73.76949
73.77010
73.77011
73.76998
73.77003
73.77016
73.77023
73.77019
73.77053
73.77158
73.77326
73.77525
73.77702
73.77812
73.77885
73.77959
73.78015
73.78062
73.78111
73.78246
73.78562
73.79057
73.79713
lat
-146.43457
-146.42975
-146.42584
-146.42076
-146.41727
-146.41629
-146.41728
-146.41747
-146.41656
-146.41159
-146.40263
-146.39328
-146.38864
-146.38908
-146.39012
-146.39313
-146.39400
-146.39296
-146.38992
-146.38878
-146.39302
-146.40236
-146.41447
-146.42656
-146.43579
-146.44144
-146.44487
-146.44511
-146.44374
-146.44318
-146.44295
-146.44365
-146.44485
-146.44696
-146.44954
-146.45250
-146.45613
-146.45990
-146.46265
-146.46481
-146.46638
-146.46666
-146.46735
-146.47002
-146.47711
-146.49022
-146.50702
-146.52589
17
J.
Day hour
122
122
122
122
122
122
122
122
122
122
122
122
123
123
123
0
2
4
6
8
10
12
14
16
18
20
22
0
2
4
long
73.80083
73.80834
73.81525
73.82107
73.82557
73.82867
73.83064
73.83229
73.83475
73.83806
73.84243
73.84721
73.85133
73.85425
73.85577
lat
-146.53557
-146.55499
-146.57333
-146.58913
-146.60051
-146.60690
-146.61057
-146.61452
-146.62022
-146.62602
-146.63197
-146.63741
-146.64246
-146.64729
-146.65146
J.
Day hour
122
122
122
122
122
122
122
122
122
122
122
122
123
123
123
1
3
5
7
9
11
13
15
17
19
21
23
1
3
5
long
73.80459
73.81194
73.81831
73.82350
73.82730
73.82978
73.83145
73.83353
73.83624
73.84019
73.84483
73.84940
73.85298
73.85519
73.85601
lat
-146.54530
-146.56438
-146.58165
-146.59555
-146.60442
-146.60905
-146.61240
-146.61743
-146.62305
-146.62907
-146.63467
-146.63986
-146.64488
-146.64943
-146.65331
18
E.
DROP TIME TABLE
•19
drop
number
unit
A320A.00l
A320A.003
A321A.002
A321A.004
A321A.006
A322A.002
A323A.002
A323A.004
A323A.006
A323B.001
A323B.003
A323B.005
A323B.007
A323C.002
A323C.004
A323C.006
A323C.008
A323C.0l0
A324A.002
A324A.004
A324A.006
A324A.008
A324A.010
A324A.012
A324A.014
A324B.O01
A324B.003
A324B.005
A324B.007
A325A.009
A326A.001
A326A.003
A326A.005
A326B.001
A326B.003
A326B.005
A326C.001
A326C.003
A327A.002
A327A.004
A327A.006
A327B.002
A327B.004
A327B.006
A328A.002
A328A.004
A328A.006
A328A.009
A328A.011
A328A.013
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
time
GMT
Cal
date
Julian
day
0559
0648
0219
0300
0519
2036
2010
2056
2138
2235
0024
0104
0142
0227
0243
0250
0258
0306
1934
2003
2027
2045
2118
2141
2201
2230
2328
2350
0031
0045
1952
2059
2255
0453
0544
0623
0707
0747
1836
1914
1951
0242
0512
0552
1812
1846
1901
1941
2015
2243
3-20
3-20
3-21
3-21
3-21
3-22
3-23
3-23
3-23
3-23
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-25
3-26
3-26
3-26
3-26
3-27
3-27
3-27
3-27
3-27
3-27
3-27
3-27
3-28
3-28
3-28
3-28
3-28
3-28
3-28
3-28
3-28
79
79
80
80
80
81
82
82
82
82
83
83
83
83
83
83
83
83
83
83
83
83
83
83
83
83
83
83
84
85
85
85
85
86
86
86
86
86
86
86
86
87
87
87
87
87
87
87
87
87
drop
number
unit
A320A.002
A321A.00l
A321A.003
A321A.005
A322A.00l
A323A.00l
A323A.003
A323A.005
A323A.007
A323B.002
A323B.004
A323B.006
A323C.001
A323C.003
A323C.005
A323C.007
A323C.009
A324A.001
A324A.003
A324A.005
A324A.007
A324A.009
A324A.0ll
A324A.013
A324A.015
A324B.002
A324B.004
A324B.006
A324B.008
A325A.010
A326A.002
A326A.004
A326A.006
A326B.002
A326B.004
A326B.006
A326C.002
A327A.O0l
A327A.003
A327A.005
A327B.001
A327B.003
A327B.005
A328A.001
A328A.003
A328A.005
A328A.008
A328A.010
A328A.012
A328A.014
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
time
GMT
Cal Julian
date day
0622
0200
0237
0458
2019
1938
2034
2117
2205
0003
0045
0123
0203
0235
0246
0254
0302
1922
1951
2015
2043
2100
2130
2150
2211
2240
2338
0012
0053
0055
2028
2218
2358
0521
0602
0644
0727
1815
1855
1932
0220
0454
0532
1754
1836
1852
1918
1958
2034
2302
3-20
3-21
3-21
3-21
3-22
3-23
3-23
3-23
3-23
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-24
3-25
3-25
3-26
3-26
3-26
3-26
3-27
3-27
3-27
3-27
3-27
3-27
3-27
3-28
3-28
3-28
3-28
3-28
3-28
3-28
3-28
3-28
3-28
79
80
80
80
81
82
82
82
82
83
83
83
83
83
83
83
83
83
83
83
83
83
83
83
83
83
83
84
84
85
85
85
85
86
86
86
86
86
86
86
87
87
87
87
87
87
87
87
87
87
20
drop
number
unit
A328A.015
A328A.017
A328A.019
A328A.021
A329A.O0l
A329A.003
A329A.005
A329A.007
A329B.002
A329B.004
A329B.006
A329C.002
A330A.002
A330A.004
A330A.006
A330B.002
A330B.004
A330B.006
A330C.002
A331A.002
A331A.004
A331A.006
A4O1A.002
A4O1A.004
A4O1A,006
A4O1B.002
A4O1B.004
A4O1B.006
A4O1B.008
A4O1B.010
A401L012
A4O1C.002
A4O1C.004
A402A.002
A402A.004
A402A.006
A402B.001
A402B.003
A402B.006
A403A.001
A403A.003
A403A.005
A403A.007
A403A.009
A403A.011
A403A.013
A403A.015
A403A.017
A403A.019
A403A.021
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
MC
NB
MC
MC
MC
MC
MC
MC
NB
MC
MC
MC
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
MC
NB
NB
NB
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
time
GMT
Cal Julian
date day
drop
number
2328
0034
0120
0205
2237
2324
0041
0128
0213
0401
0448
0627
1850
1950
2027
2230
2317
2359
0258
0429
0525
0616
2035
2230
2311
0028
0244
0402
0437
0506
0540
0623
0706
1944
2235
2323
0152
0220
0425
2011
2048
2229
2307
2323
2345
0001
0018
0033
0051
0106
3-28
3-29
3-29
3-29
3-29
3-29
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-31
4-01
4-01
4-01
4-01
4-01
4-01
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-03
4-03
4-03
4-03
4-03
4-03
4-03
4-03
4-03
4-04
4-04
87
88
88
88
88
88
89
89
89
89
89
89
89
89
89
89
89
89
90
91
91
91
91
91
91
92
92
92
92
92
92
92
92
92
92
92
93
93
93
93
93
93
93
93
93
94
94
A328A.016
A328A.018
A328A.020
A328A.022
A329A.002
A329A.004
A329A.006
A329B.0O1
A329B.003
A329B.005
A329C.001
A330A.001
A330A.003
A330A.005
A330B.001
A330B.003
A330B.005
A330C.001
A331A.O01
A331A.003
A331A.005
A4O1A.001
A4O1A.003
A4O1A.005
A4O1B.001
A4O1B.003
A4O1B.005
A4O1B.007
A4O1B.009
A4O1B.011
A4O1C.001
A4O1C.003
A402A.001
A402A.003
A402A.005
A402A,007
A402B.002
A402B.004
A402B.007
A403A.002
A403A.004
A403A.006
A403A.008
A403A.010
A403A.012
A403A.014
4-04
4-04
4-04
94
94
94
A403A.018
A403A.020
A403A.022
unit
time
GMT
Cal Julian
date day
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
NB
MC
MC
MC
MC
MC
MC
NB
MC
MC
MC
NB
MC
NB
NB
MC
MC
MC
MC
MC
MC
MC
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
0011
0057
0139
0236
2302
0014
0105
0150
0232
0424
0607
1803
1900
2021
2209
2255
2340
0143
0304
0456
0545
2014
2053
2252
0009
0227
0300
0419
0452
0521
0559
0645
1910
2007
2313
2343
0206
0252
0440
2027
2217
2238
2315
2331
2353
0009
0025
0041
0058
0113
3-29
3-29
3-29
3-29
3-29
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-30
3-31
4-01
4-01
4-01
4-01
4-01
4-01
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-02
4-03
4-03
4-03
4-03
4-03
4-03
4-03
4-03
4-03
4-04
4-04
4-04
4-04
4-04
88
88
88
88
88
89
89
89
89
89
89
89
89
89
89
89
89
90
91
91
91
91
91
91
92
92
92
92
92
92
92
92
92
92
92
92
93
93
93
93
93
93
93
93
93
94
94
94
94
94
21
drop
number
A417A.00l
A417A.003
A417A.005
A417A.007
A417A.009
A417A.0ll
A417A.013
A417B.002
A417B.004
A417B.006
A417B.008
A417B.010
A417B.012
A417C.001
A417C.003
A417C.005
A417C.007
A417C.009
A417C.0ll
A417C.013
A417D.002
A417D.004
A417D.006
A417D.008
A417D.010
A417D.012
A417E.0O].
A417E.003
A417E.005
A417E.007
A417E.009
A417E.0l1
A417E.013
A417E.0l5
A417E.017
A417E.019
A417E.02].
A417E.023
A417F.001
A417F.003
A417F.005
A417F.007
A417F.009
A417F.011
A417F.013
A417F.015
A417F.017
A418A.001
A418A.003
A418A.005
unit
time
GMT
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
MC
NB
NB
1837
1909
1922
1937
1952
2006
2028
2114
2135
2154
2212
2229
2246
2324
2352
0009
0027
0045
0104
0136
0231
0255
0315
0342
0429
0451
0518
0545
0555
0609
0622
0633
0650
0705
0717
0727
0737
0745
0800
0827
0837
0849
0900
0912
0926
0938
0950
1454
1844
1916
Cal Julian
date day
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
107
107
107
107
107
107
107
107
107
107
107
107
107
107
107
108
108
10.8
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
unit
time
GMT
A417A.002 NB
A417A.004 NB
A417A.006 NB
A417A.008 NB
A417A.0l0 NB
A417A.012 NB
A417B.00l NB
A417B.003 NB
A417B.005 NB
A417B.007 NB
A417B.009 NB
A417B.011 NB
A417B.013 NB
A417C.002 NB
A417C.004 NB
A417C.006 NB
A417C.008 NB
A417C.010 NB
A417C.012 NB
A417D.001 NB
A417D.003 NB
A417D.005 NB
A417D.007 NB
A417D.009 NB
A417D.01l NB
A417D.013 NB
A417E.002 NB
A417E.004 NB
A417E.006 NB
A417E.008 NB
A417E.010 NB
A417E.012 NB
A417E.014 NB
A417E,016 NB
A417E.018 NB
A417E.020 NB
A417E.022 NB
A417E.024 NB
A417F.002 NB
A417F.004 NB
A417F.006 NB
A417F.008 NB
A417F.010 NB
A417F.012 NB
A417F.014 NB
A417F.016 NB
A417F.018 NB
A418A.002 MC
A418A.004 NB
A418A.006 NB
1849
1915
1929
1944
1959
2014
2056
2125
2144
2203
2220
2237
2254
2343
0000
0018
0036
0055
0121
0209
0245
0304
0327
0417
0340
0502
0540
0550
0602
0616
0628
0639
0659
0711
0722
0731
0741
0750
0821
0832
0843
0854
0905
0920
0932
0944
0956
1510
1907
1926
drop
number
Cal Julian
date day
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-17
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
107
107
107
107
107
107
107
107
107
107
107
107
107
107
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
108
22
drop
number
A418A.007
A418A.009
A418A.01l
A418A.013
A418A.015
A418B.00l
A418B.003
A418B.005
A418B.007
A418B.009
A418B.01l
A418B.0l3
A418B.015
A418B.017
A419A.002
A419A.004
A419A.006
A419A.008
A419A.0l0
A419A.012
A419A.014
A419A.016
A419A.018
A419A.020
A4193.002
A419B.004
A419B.006
A419B.008
A419B.010
A419B.012
A419B.014
A419B.016
A419B.018
A4193.020
A419C.001
A419C.003
A419C.005
A419C.007
A419C.009
A419C.011
A419C.013
A419C.015
A419C.017
A419D.001
A419D.003
A419D.005
A419D.007
A419D.009
A419D.011
A419D.013
unit
time
GMT
Cal Julian
date day
drop
number
NB
NB
NB
NB
NB
NB
NB
MC
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
1942
2020
2037
2052
2107
2129
2159
2319
0028
0101
0120
0138
0156
0213
1834
1851
1926
1945
2001
2017
2033
2049
2106
2121
2156
2219
2234
2248
2305
2328
2351
0009
0026
0045
0113
0149
0205
0222
0238
0252
0306
0320
0334
0424
0455
0509
0529
0546
0604
0620
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
A418A.008
A418A.0l0
A418A.012
A418A.014
A418A.016
A418B.002
A418B.004
A418B.006
A418B.008
A418B.0l0
A418B.012
A418B.014
A418B.016
A419A.00l
A419A.003
A419A.005
A419A.007
A419A.009
A419A.011
A419A.013
A419A.015
A419A.017
A419A.019
A419B.001
A419B.003
A419B.005
A419B.007
A419B.009
A419B.01l
A419B.013
A4198.015
A419B.017
A419B.019
A4193.021
A419C.002
A419C.004
A419C,006
A419C.008
A419C.010
A419C.012
A419C.014
A419C.016
A419C.018
A419D.002
A419D.004
A419D.006
A419D.008
A419D.010
A419D.012
A419D.014
108
108
108
108
108
108
108
108
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
unit
time
GMT
Cal Julian
date day
NB
NB
NB
NB
NB
NB
NB
MC
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
2003
2028
2044
2059
2115
2151
2208
2323
0051
0110
0129
0146
0204
1757
1844
1859
1935
1953
2009
2025
2041
2058
2113
2134
2204
2226
2240
2255
2314
2341
0000
0018
0037
0054
0136
0157
0213
0230
0245
0259
0313
0327
0343
0446
0502
0518
0539
0555
0613
0630
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-18
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-19
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
108
108
108
108
108
108
108
108
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
109
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
23
drop
number
A419D 015
A419D.017
A419D.019
A419E.002
A419E.004
A419E.006
A419E.008
A419E.0l0
A419E.0].2
A419E.014
A419E.016
A419E.0l8
A419E.020
A420A.002
A420A.004
A420A.006
A420A.008
A420A.010
A420B.002
A420C.002
A421A.002
A421A.004
A421B.002
A421B.004
A421B.006
A421B.008
A421C.001
A421C.003
A421C.005
A421C.007
A421C.009
A421C.0fl
A421C.Q].3
A421D.002
A421D.004
A42].D.006
A421D.008
A421D.010
A421D.012
A422A.00].
A422A.003
A422A.005
A422A.007
A422A.009
A422A.011
A422A.013
A422B.001
A422B.003
unit
time
CMT
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
0638
0706
0725
0801
0816
0832
0846
0900
0916
0930
0945
1000
1017
1854
1913
1931
1949
2018
2140
0316
2330
0008
0136
0211
0235
0254
0437
0516
0541
0601
0620
0640
0659
0744
0803
0822
0841
0902
0922
0951
1019
1042
1111
1132
1150
1208
1249
NB
NB
Cal Julian
date day
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-21
4-21
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
111
111
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
4-22
4-22
112
112
drop
number
A419D 016
A419D.018
A419E.00l
A419E.003
A419E.005
A419E.007
A419E.009
A419E.011
A419E.013
A419E.015
A419E.0l7
A419E.019
A420A.001
A420A.003
A420A.005
A420A.007
A420A.009
A420B.001
A420C.001
A421A.0O1
A421A.003
A421B.00l
A421B.003
A421B.005
A421B.007
A421B.009
A421C.002
A421C.004
A421C.006
A421C.008
A421C.010
A421C.012
A421D.001
A421D.003
A421D.005
A421D.007
A421D.009
A421D.011
A421D.013
A422A.002
A422A.004
A422A.006
A422A.008
A422A.010
A422A.012
A422A.014
A422B.002
unit
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
MC
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
time
GMT
0644
0716
0740
0809
0825
0839
0853
0908
0923
0937
0952
1008
1834
1904
1922
1940
1958
2055
2218
2029
2351
0051
0156
0223
0245
0358
0504
0526
0551
0610
0629
0650
0728
0753
0812
0832
0852
0912
0932
1009
1030
1052
1123
1141
1159
1217
1310
Cal Julian
date day
4-20
4-20
4-20
4.20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-20
4-21
4-21
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
110
111
111
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
24
drop
number
unit
A422B.009
A422B.Oll
A422B.013
A422B.015
A422C.002
A422C.004
A422C.006
A422C.008
A422C.O10
A422C.012
A422C.014
A422C.016
A422C.018
A422C.020
A422D.002
A422D.004
A422D.006
A422D.008
A422D.01O
A422D.012
A422D.014
A422E.001
A422E.003
A422E.005
A422E.007
A422F.002
A422F.004
A422F.006
A422C.002
A422G.004
A422G.006
A422G.008
A422G.010
A422G.012
A422G.014
A422H.002
A422H.004
A422H.006
A4221.002
A4221.004
A4221.006
A422J.001
A422J.003
A422J.005
A422J.007
A423A.002
A423A.004
A423A.006
A423A.008
A423B.002
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
NB
NB
NB
NB
NB
MC
MC
time
GMT
Cal Julian
date day
drop
number
1416
1431
1448
1506
1542
1621
1633
1657
1719
1733
1748
1803
1817
1837
1925
1950
2004
2018
2032
2046
2059
2139
2212
2231
2332
0005
0020
0112
0200
0214
0228
0243
0316
0328
0343
0450
0528
0602
0637
0711
0748
0843
0938
1013
1030
2247
0016
0028
0151
0303
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-24
4-24
4-24
4-24
A422B.O1O
A422B.012
A422B.014
A422C.00l
A422C.003
A422C.005
A422C.007
A422C.009
A422C.011
A422C.013
A422C.015
A422C.017
A422C.019
A422D.001
A422D.003
A422D.005
A422D.007
A422D.009
A422D.011
A422D.013
A422D.015
A422E.002
A422E.004
A422E.006
A422F.001
A422F.003
A422F.005
A422C.001
A422G.003
A422C.005
A422G.007
A422G.009
A422C.0l1
A422G.013
A422H.001
A422H.003
A422H.005
A4221.001
A4221.003
A4221.005
A4221.007
A422J.002
A422J.004
A422J.006
A423A.001
A423A.003
A423A.005
A423A.007
A423B.001
A423B.003
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
114
114
114
114
unit
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
NB
NB
NB
NB
NB
MC
MC
MC
time
GMT
Cal Julian
date day
1422
1439
1457
1532
1615
1626
1640
1712
1726
1742
1755
1810
1825
1911
1943
1957
2011
2025
2039
2052
2105
2157
2222
2324
2353
0012
0031
0145
0207
0221
0235
0309
0322
0336
0428
0516
0553
0622
0704
0720
0758
0911
0958
1021
2240
2342
0022
0136
0240
0337
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-22
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-23
4-24
4-24
4-24
4-24
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
112
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
113
114
114
114
114
25
drop
number
A423C.00].
A423C.003
A423C.005
A423C.007
A423D.002
A423E.00l
A423E.003
A424A.002
A424A.004
A424A.006
A424B.001
A424B.003
A424B.005
A424C.001
A424C.003
A424D.002
A424D.004
A424E.002
A424E.004
A424F.002
A424F.004
A424C.001
A425A.002
A425A.004
A425A.006
A425B.001
A425B.003
A425B.005
A425B.007
A425B.009
A425C.002
A425C.004
A425C.006
A425D.001
A425D.003
A425D.005
A425D.007
A425E.002
A425E.004
A425E.006
A425F.OOj.
A425F.003
A425F.005
A425F.007
A425G.002
A425G.004
A425C.006
A426A.001
A426A.003
A426A.005
unit
time
GMT
MC
MC
MC
MC
MC
MC
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
0441
0515
0610
0637
0727
0845
0900
1845
1916
1956
2105
2140
2226
2301
2354
0052
0128
0207
0302
0349
0413
0631
1748
1827
1902
1941
2017
2057
2133
2205
0020
0101
0134
0222
0255
0328
0422
0500
0534
0613
0648
0718
0751
0825
0900
0935
1011
1703
1736
1810
Cal Julian
date day
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
114
114
114
114
114
114
114
114
114
114
114
114
114
114
114
115
115
115
115
115
115
115
115
115
115
115
115
115
115
115
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
drop
number
A423C.002
A423C.004
A423C.006
A423D.00l
A423D.003
A423E.002
A424A.00l
A424A.003
A424A.005
A424A.007
A424B.002
A424B.004
A424B.006
A424C.002
A424D.00l
A424D.003
A424E.001
A424E.003
A424F.001
A424F.003
A424F.005
A425A.001
A425A.003
A425A.005
A425A.007
A425B.002
A425B.004
A425B.006
A425B.008
A425C.001
A425C.003
A425C.005
A425C.007
A425D.002
A425D.004
A425D.006
A425E.001
A425E.003
A425E.005
A425E.007
A425F.002
A425F.004
A425F.006
A425C.00l
A425G.003
A425C.005
A425G.007
A426A.002
A426A.004
A426A.006
unit
time
GMT
MC
MC
MC
MC
MC
MC
NB
NB
NB
NB
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
MC
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
NB
0456
0546
0625
0703
0753
0847
1829
1901
1938
2015
2122
2155
2243
2327
0024
0059
0155
0231
0335
0357
0438
1730
1807
1846
1920
1956
2032
2115
2149
0001
0039
0118
0151
0238
0312
0345
0441
0517
0556
0630
0702
0735
0808
0848
0915
0954
1027
1721
1754
1827
Cal Julian
date day
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-24
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-25
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
4-26
114
114
114
114
114
114
114
114
114
114
114
114
114
114
115
115
115
115
115
115
115
115
115
115
115
115
115
115
115
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
116
26
F.
REFERENCES
Caldwell, D. R., T. M. Dillon, and J. N. Mourn (1986): The Rapid-Sampling
Vertical Profiler:
An Evaluation.
J. of Atmos. and Oceanic. Tech.
Z(4), 615-625.
Head, M. J. (1983):
The use of miniature four-electrode conductivity
probes for high resolution measurement of turbulent density or
PhD thesis,
temperature variations in salt-stratified water flows.
University of California, San Diego, 211 pp.
Osborn, T. R. and W. R. Crawford (1980): An airfoil probe for measuring
turbulent velocity fluctuations in water.
in Air-Sea Interactions, pp
369-386, Dobson, Hasse, and Davis, Ed., Plenum Press, 8Olpp.
Shay, T. J. and M. C. Gregg (1986): Convectively driven turbulent mixing
in the upper ocean. J. Phys. Oceanogr.
1777-1798.
27
OBSERVATIONS:
A.
TEMPERATURE, SALINITY, AND SIGMA-T
28
A323A.O01
temperature
—1.25
—0.25
—0.75
0.25
50
100
E
150
C
.lJ
a.
a,
200
250
300
30.0
31.0
32.0
33.0
34.0
salinity, ppt
I
24.5
26.5
25.5
s igma—t
27.5
29
A323B .001
temperature
—1.25
—0.25
—0.75
0.25
50
100
E
150
C
a.
a'
250
300
30.0
I
salinity.
I
24.5
33.0
32.0
31.0
I
34.0
ppt
I
26.5
25.5
s igma—t
27.5
30
A324B 005
temperature
.
_i.0
—0.5
—0.0
0.5
31.0
32.0
33.0
34.0
50
ioo
C
iSO
C
a.
0J
200
250
300
30.0
salinity. ppt
I
24.5
25.5
26.5
sigma—t
27.5
I
31
A326A .001.
temperature
—i.5
—LO
—0.0
—0.5
0.5
50
i50
E
.0
a
a'
V
250
300
350
29.0
I
I
24.0
30.0
31.0
32.0
salinity,
I
25.0
33.0
ppt
I
25.0
S igma—t
34.0
I
27.0
28.0
I
32
A326B 001.
temperature
.
—i.5
—0.0
—0.5
—1.0
0.5
50
100
E
150
C
a
V
200
250
300
29.0
30.0
33.0
32.0
31.0
34.0
salinity, ppt
I
I
I
I
I
I
24.0
25.0
26.0
27.0
28.0
sigma—t
33
A326C .OOi
temperature
—i.5
—i.0
—0.0
—0.5
0.5
50
1.00
E
1.50
e
a.
a.'
200
250
300
29.0
I
30.0
salinity.
I
24.0
3i.0
25.0
33.0
32.0
34.0
ppt
I
I
I
26.0
27.0
28.0
sigma—t
I
34
A327A .001.
temperature
—1.5
—0.0
—0.5
—1.0
0.5
50
100
E
150
C
4.,
a
V 200
250
300
29.0
•
33.0
32.0
31.0
30.0
34.0
salinity, ppt
i
I
I
24.0
25.0
26.0
sigma—t
L
27.0
28.0
35
A3275.OOi
temperature
—1.5
—0.0
—0.5
—1.0
0.5
50
100
E
150
C
a
200
250
300
29.0
I
30.0
32.0
31.0
33.0
salinity. ppt
34.0
I
I
I
I
I
24.0
25.0
26.0
27.0
28.0
sigma—t
I
36
A328A. OOi
temperature
—0.5
—1.0
—1.5
—0.0
0.5
50
100
E
150
a.
a,
V 200
250
300
29.0
32.0
31.0
30.0
salinity,
I
I
24.0
—
33.0
34.0
ppt
I
25.0
26.0
sigma—t
27.0
28.0
37
A329C .001
temperature
-1.5
—0.5
—1.0
—0.0
0.5
50
100
150
E
aa,
200
V
250
300
350
29.0
I
30.0
31.0
33.0
32.0
salinity, ppt
34.0
I
I
I
I
I
24.0
25.0
26.0
27.0
28.0
5 igma-t
I
38
A330C .001.
temperature
—1.5
—0.0
—0.5
—1.0
0.5
50
100
150
E
4-,
200
a.
a)
V
250
300
350
29.0
30.0
salinity, ppt
I
24.0
33.0
32.0
31.0
25.0
I
I
26.0
27.0
S igma—t
34.0
28.0
39
A4OiA .OOi
temperature
—i.5
—i.0
—0.5
—0.0
30.0
31.0
32.0
33.0
0.5
50
1.00
1.50
C200
4)
a
a)
V
250
300
350
salinity. ppt
34.0
I
I
I
I
24.5
25.5
26.5
27.5
sigma—t
I
40
A402A .001
temperature
—1.25
0.25
—0.25
—0.75
50
100
150
E
200
a.
•0
250
300
350
33.0
32.0
31.0
30.0
34.0
salinity. ppt
I
24.5
25.5
26.5
s igma—t
27.5
41
A417A .001
temperature
—il's
—i.0
—0.5
—0.0
0.5
50
ioo
iso
200
E
4J
250
a.
a,
'0
300
350
400
450
30.0
24.5
3i.0
33.0
32.0
salinity. ppt
25.5
26.5
sigma—t
34.0
27.5
42
A417B.OOi
temperature
—1.5
—1.0
—0.5
—0.0
0.5
30.0
31.0
32.0
33.0
34.0
50
100
150
200
E
C 250
.1-i
a
a)
300
350
400
450
I
salinity, ppt
I
I
I
I
24.5
25.5
26.5
27.5
S igma—t
I
43
A4I7C .001
temperature
—i.5
—i.0
30.0
31.0
—0.5
0.5
—0.0
50
±00
±50
200
E
C 250
4J
a
a,
•0
300
350
400
450
32.0
33.0
salinity, ppt
I
24.5
I
I
25.5
26.5
s igma—t
34.0
I
27.5
I
44
A4170 .OOi
temperature
-i.5
—1.0
—0.5
—0.0
0.5
30.0
31.0
32.0
33.0
34.0
50
100
±50
200
E
-C
4-,
250
300
350
400
450
salinity, ppt
24.5
26.5
25.5
s igma—t
27.5
45
A4I7E.OOi
temperature
—0.5
—1.5
—0.0
0.5
50
100
150
200
E
C 250
a
a,
0
300
350
400
450
30.0
31.0
32.0
33.0
34.0
ppt
salinity,
I
24.5
25.5
26.5
S igma—t
27.5
I
46
A417F. OOi
temperature
—i.0
—0.5
—0.0
0.5
31.0
32.0
33.0
34.0
50
ioo
150
200
E
.1-a
250
a.
a)
V
300
350
400
450
30.0
24.5
salinity,
ppt
25.5
26.5
S i.gma—t
27.5
47
A418A .003
temperature
—1.5
—1.0
—0.0
—0.5
0.5
50
100
150
E
a
200
.1.)
V
250
300
350
29.0
30.0
33.0
32.0
31.0
34.0
salinity. ppt
I
I
23.5
I
24.5
25.5
s igma—t
I
I
26.5
27.5
I
I.'
tO°
300
3S0
49
A419A .001
temperature
—1.5
—1.0
30.0
31.0
—0.5
0.5
—0.0
1.0
50
100
150
E 200
C
.lJ
a
250
300
350
400
I
I
24.5
32.0
34.0
33.0
salinity. ppt
I
25.5
35.0
I
I
I
26.5
27.5
28.5
S igma—t
I
50
A4i9B .001.
temperature
—i.o
—0.5
—0.0
0.5
i.0
31.0
32.0
33.0
34.0
35.0
50
too
iSO
E 200
C
.4-I
a
250
300
350
400
30.0
24.5
salinity. ppt
25.5
26.5
s i.gma—t
I
I
27.5
28.5
51
A419C 001.
.
temperature
—15
—1.0
—0.5
—0.0
0.5
30.0
31.0
32.. 0
33.0
34.0
50
100
150
E 200
C
a
300
350
400
salinity, ppt
35.0
L
24.5
25.5
25.5
sigma—t
27.5
28.5
52
A4190 .001
temperature
—1.5
—1.0
—0.5
—0.0
0.5
1.0
30.0
31.0
32.0
33.0
34.0
35.0
50
100
150
E 200
.eJ
a
e250
300
350
400
I
salinity. ppt
I
I
24.5
25.5
26.5
s
igma-t
27.5
20.5
53
A419E OOi
temperature
.
—L0
—0.5
—0.0
0.5
1.0
31.0
32.0
33.0
34.0
35.0
50
100
150
E200
.c
4)
a.
300
350
400
30.0
salinity.
I
ppt
I
I
I
I
24.5
25.5
26.5
27.5
s igma—t
I
28.5
I
54
A421A .003
temperature
—1.5
—1.0
—0.0
—0.5
0.5
50
100
150
200
E
a
V
250
a,
300
350
400
450
29.0
I
30.0
32.0
31.0
salinity. ppt
I
I
23.5
24.5
33.0
34.0
I
25.5
sigma—t
26.5
27.5
55
A42iB .002
temperature
-4.5
—i.0
—0.0
—0.5
0.5
50
ioo
iso
200
C
C 250
a.
03
V
300
350
400
450
29.0
I
I
23.5
30.0
32.0
31.0
33.0
salinity, ppt
I
24.5
34.0
I
I
I
25.5
26.5
27.5
sigma—t
I
56
A421C .001
temperature
—1.0
—0.0
—0.5
0.5
50
100
150
200
E
C 250
1J
a.
•0
300
350
400
450
29.0
I
32.0
31.0
30.0
salinity. ppt
I
I
23.t
24.5
25.5
s igma—t
33.0
26.5
34.0
27.5
57
A4210 .001
temperature
—i.5
—0.0
—0.5
—1.0
0.5
50
100
iso
200
E
'C
4, 250
a
'U
•0
300
350
400
450
29.0
salinity.
I
I
23.5
I
24.5
33.0
32.0
31,0
30.0
ppt
I
I
25.5
26.5
s igma—t
34.0
27.5
58
A422A .001
temperature
—1.5
—1.0
—0.0
—0.5
0.5
50
100
150
200
E
C 250
a.
a,
V
300
350
400
450
29.0
I
32.0
31.0
30.0
salinity. ppt
I
I
I
23.5
24.5
25.5
s igma—t
33.0
34.0
I
26.5
27.5
59
A422B .001
temperature
—1.5
—0.5
—1.0
—0.0
0.5
50
100
150
200
C
5250
a
a'
300
350
400
450
29.0
I
I
23.5
33.0
32.0
31.0
30.0
salinity,
34.0
ppt
I
I
I
24.5
25.5
s igma—t
26.5
27.5
60
A422C .OOi
temperature
—0.0
—0.5
—iso
0.5
50
100
150
200
E
C
4J 250
a.
a)
300
350
400
450
29.0
30.0
31.0
33.0
32.0
salinity, ppt
I
23.5
24.5
25.5
sigma—t
26.5
34.0
I
27.5
61
A4220 .001
temperature
—1.5
—0.5
—1.0
—0.0
0.5
50
100
150
E200
4-,
a.
a)
0 250
300
350
400
29.0
I
I
23.5
30.0
32.0
31.0
33.0
salinity, ppt
34.0
I
I
I
I
24.5
25.5
25.5
27.5
s igma—t
I
62
temperature
—0.5
—1.0
—0.0
0.5
50
too
150
E200
C
a.
300
350
400
29.0
30.0
31.0
32.0
salinity. ppt
33.0
34.0
I
23.5
24.5
25.5
sigma—t
26.5
27.5
63
A423A 002
temperature
.
-i.5
—0.0
—0.5
_i.0
0.5
50
100
150
C
5200
a.
a,
•0
250
300
350
29.0
I
30.0
31.0
33.0
32.0
salinity.
I
I
I
23.5
24.5
25.5
sigma—t
34.0
ppt
I
26.5
27.5
64
A423E.003
temperature
—1.5
—0.0
—0.5
—1.0
0.5
50
100
150
S
200
a.
a;
V
250
300
350
29.0
I
33.0
32.0
31.0
30.0
34.0
salinity, ppt
I
I
I
23.5
24.5
25.5
s igma—t
I
26.5
27.5
65
A424A . OOi
temperature
—11.5
—1.0
—0.5
—0.0
0.5
50
100
150
S 200
IC
Is-,
a
300
350
400
29.0
23.5
30.0
31.0
33.0
32.0
salinity, ppt
I
I
I
24.5
25.5
26.5
s igma—t
34.0
I
27.5
I
66
A424G .OOi
temperature
—15
-0.5
—t.o
—o .0
0.5
50
too
t50
E
.C200
a
250
300
350
29.0
30.0
33.0
32.0
31.0
34.0
salinity, ppt
I
I
23.5
24.5
25.5
s igma—t
I
I
26.5
27.5
67
A425A .001
temperature
—1.5
—0.5
—1.0
—0.0
05
50
100
150
E
C200
a
a.
a,
0
250
300
350
29.0
23.5
30.0
31.0
32.0
salinity, ppt
24.5
25.5
sigma-t
33.0
26.5
34.0
27.5
68
A4258.OO1
temperature
—1.5
—0.0
—0.5
—1.0
0.5
50
100
150
E
5200
a.
a,
•0
250
300
350
29.0
I
30.0
33.0
32.0
31.0
salinity, ppt
34.0
I
I
I
I
I
23.5
24.5
25.5
26.5
27.5
sigma—t
69
A425C 00±
temperature
.
—1.5
—1.0
—0.5
—0.0
0.5
50
100
150
E
250
300
350
29.0
I
23.5
30.0
31.0
32.0
salinity,
33.0
34.0
ppt
I
24.5
25.5
s igma—t
26.5
27.5
70
A425D OOi
temperature
.
—0.0
—0.5
0.5
50
i00
±50
E
5200
a.
a)
250
300
350
29.0
23.5
30.0
31.0
32.0
salinity. ppt
24.5
25.5
sigma—t
33.0
26.5
34.0
27.5
71
A425E .OOi
temperature
—i.5
—0.0
—0.5
—1.0
0.5
50
100
150
E
4-,
a
a,
V
250
300
350
29.0
31.0
30.0
33.0
32.0
salinity. ppt
I
I
23.5
24.5
I
25.5
S igma—t
34.0
I
26.5
27.5
72
A425F. 001
temperature
—0.0
—0.5
—1.0
0.5
50
100
150
E
5200
a
a,
0
250
300
350
29.0
I
33.0
32.0
31.0
30.0
salinity, ppt
I
I
23.5
24.5
25.5
S igma—t
34.0
I
I
26.5
27.5
73
A4256.001
temperature
—1.5
—0.0
—0.5
—1.0
0.5
50
100
150
E
200
a.
a,
V
250
300
350
29.0
33.0
32.0
31.0
30.0
34.0
salinity, ppt
I
I
23.5
24.5
I
25.5
s igma—t
I
26.5
27.5
74
A426A .001
temperature
—1.5
—0.0
—0.5
—1.0
0.5
50
100
150
E
5200
a.
ai
V
250
300
350
29.0
23.5
30.0
32.0
31.0
salinity. ppt
25.5
24.5
S
igma-t
33.0
26.5
34.0
275
75
OBSERVATIONS:
B.
T-S DIAGRAMS
A323B DROP 3
I
I
I
34
35
0.25
03
C-
:,
-0.25
(0
C-
0)
a
E
a)
-0.75
-1.25
31
I
,_
32
33
salinity. ppt
A324B DROP 6
I
I
I
I
31
32
I
I
I
0.25
a)
C.
-0.25
4-,
C-
a)
a
E
a)
4.)
-0.75
I
33
salinity. ppt
34
35
A326A DROP 5
I
I
I
U
0.25
U)
C-
-0.25
4-,
C-
a)
0.
E
a)
-0.75
4-,
-1.25
I
31
32
33
salinity. ppt
I
I
34
35
A326B DROP 3
0.25
a)
C-
-0.25
4-)
ED
C-
a)
aE
—0.75
4-)
—1.25
31
32
33
salinity. ppt
34
35
A326C DROP 3
I
I
I
I
0.25
a)
L
-0.25
4)
OD
(0
C-
a)
a
E
a)
-0.75
4)
-1.25
I
I
31
32
33
salinity. ppt
34
35
A327A DROP 3
p
p
U
U
0.25
Ui
C-
-0.25
4)
to
C-
0)
E
a)
-0.75
4-,
-1.25
I
31.
32
33
salinity. ppt
34
35
A327B DROP 3
I
I
I
I
0.25
Q)
C-
-0.25
4-I
N.)
E0
C-
a,
a
E
a,
—0.75
-1J
—1.25
I
I
31
32
33
salinity. ppt
34
35
A326A DROP 2
I
I
I
I
I
0.25
U)
C-
—0.25
03
4J
(a
C-.)
C-
0)
a
E
U)
—0.75
4-,
-1.25
I
31
I
I
32
33
salinity. ppt
34
35
A329C DROP I
I
I
I
I
31
32
0.25
a)
C-
-0.25
(0
C.-
a)
0.
E
a)
4)
—0.75
-1.25
33
salinity. ppt
34
35
A330C DROP 2
0.25
C-
-0.25
.1-I
(0
CQ)
0.
U)
—0.75
4)
—1.25
31
32
33
salinity. ppt
34
35
A323A DROP 6
I
0.25
0)
C..
-0.25
to
L
0)
ci
E
0)
-0.75
4-,
-1.25
I
I
I
31
32
33
salinity. ppt
34
35
A4OIA DROP 3
0.25
a)
L
-0.25
4J
(0
C-
a)
0.
E
a)
-0.75
4.1
-1.25
31
32
33
salinity, ppt
34
35
A402A DROP 2
I
I
I
31
32
33
—I
0.25
a)
C-
—0.25
4J
(0
C-
E
a)
4J
-0.75
—1.25
salinity. ppt
34
35
A417A DROP 2
U
I
U
0.25
a)
L
-0.25
4.3
CD
C-
a)
0.
E
—0.75
4.3
—1.25
31
I
I
32
33
salinity. ppt
34
35
A417B DROP 13
I
0.25
a)
C.
—0.25
4J
(U
C-
a)
E
a)
-0.75
—1.25
31
32
33
salinity. ppt
34
35
A417C DROP
I
I
0.25
4)
C-
-0.25
-I-)
10
C-
a)
a
E
a)
—0.75
.1-I
-1.25
31
32
33
salinity.
34
ppt
35
I
A4170 DROP I
1
1
I
I
0.25
a)
C-
—0.25
.lJ
N)
(0
C-
a)
0.
E
a)
—0.75
4-I
-1.25
31
32
33
salinity. ppt
34
35
A417E DROP
I
—I
0.25
0)
C-
—0.25
4-I
(A)
(0
C-
a)
aE
0)
—0.75
4-I
—1.25
31
32
33
salinity. ppt
35
A417F DROP 18
I
U
0.25
a)
C-
—0.25
'C
(0
C-
a.
E
a)
—0.75
.1-I
—1.25
31
I
I
32
33
salinity. ppt
I
34
35
A418A DROP 3
0.25
ci)
C-
-0.25
(77
(0
C-
a
E
a)
-0.75
4-)
-1.25
31
32
33
salinity. ppt
34
35
A418B DROP 7
I
I
0.25
U)
C-
—0.25
4-I
(0
CU)
aE
a)
-0.75
4-,
-1.25
I
I
I
I
31
32
33
34
salinity, ppt
35
S.
-o
ci
11
ci
(0
L6
I
I
I
I
U)
I
UI
N
U)
A)
0I
0I
0
temperature
S
(ii
A)
I
U)
UI
w
V
rP
U)
0I
I-..
(-pw
N
w
A419B DROP I
I
I
I
I
I
I
I
31
32
33
34
0.25
C-
—0.25
4-I
C-
a,
0.
E
a,
4)
—0.75
—1.25
salinity, ppt
35
A419C DROP I
----I
I
0.25
03
L
—0.25
'-0
.1-)
(0
C03
a.
E
03
—0.75
—1.25
a
I
I
31
32
33
salinity. ppt
34
35
A4190 DROP
I
I
I
0.25
I,
C-
—0.25
4J
Q
(U
C-
a)
a
E
a)
—0.75
4-)
—1.25
31
32
33
salinity. ppt
34
35
A419E DROP I
1
1
I
I
0.25
a)
C-
—0.25
4-I
(0
C-
a)
a.
E
a)
—0.75
4-I
—1.25
I
I
I
I
I
31
32
33
34
35
salinity. ppt
A421A DROP 3
I
I
I
I
0.25
C-
-0.25
4-,
N.)
(U
C..
a)
a
E
U)
—0.75
—1.25
I
I
31
32
33
salinity, ppt
I
I
34
35
A421B DROP 9
I
I
I
0.25
03
C-
a
-0.25
-J
to
C.)
C03
a.
E
03
-0.75
—1.25
31
32
I
I
II
33
34
35
salinity. ppt
A421C DROP I
I
I
I
I
I
I
I
32
33
34
I
0.25
0)
C-
-0.25
(0
C-
0)
a
E
-0.75
-1.25
31
salinity. ppt
35
A4210 DROP I
0.25
U)
C-
—0.25
-a
4-I
01
(0
CU)
a.
E
a)
-0.75
4-)
—1.25
31
32
I
I
33
34
salinity.
ppt
35
A422A DROP I
-I
0.25
a)
C-
-0.25
-l
(0
C-
a)
a
E
a)
4-,
—0.75
—1.25
31
32
I
I
I
33
34
35
salinity.
ppt
A422B DROP
I
0.25
C-
—0.25
(U
CU,
0.
E
a,
-0.75
.1-)
—1.25
31
32
33
salinity, ppt
34
35
A422C DROP I
I
1
I
I
0.25
Ui
C-
-0.25
4-,
to
cxD
C-
Ui
a.
E
Ui
4-,
—0.75
—1.25
31
I
I
32
33
salinity. ppt
I
34
35
A4220 DROP I
I
I
I
I
0.25
a)
C-
-0.25
4-)
(0
C-
0)
aE
a)
—0.75
4-,
—1.25
I
I
I
I
I
31
32
33
34
35
salinity. ppt
A422J DROP 4
I
0.25
a)
C-
-0.25
4-,
—I
to
C-
a)
a
E
a)
—0.75
4-)
—1.25
I
I
31
32
34
33
salinity,
ppt
35
A423A DROP 2
0.25
a)
C-
-0.25
(0
C-
a)
a.
E
a)
—0.75
-I-,
—1.25
31
32
33
salinity. ppt
34
35
A423E DROP 3
0.25
U)
C-
-0.25
-J
4-I
N)
(0
C-
a)
a
E
a)
4J
-0.75
—1.25
31
32
33
salinity. ppt
34
35
A424A DROP 3
I
I
I
0.25
C-
-0.25
4-I
(0
-J
C-
a)
a
E
a)
-0.75
4-,
-1.25
31
32
33
salinity. ppt
34
35
A424G DROP I
J
I
I
I
0.25
03
C-
-0.25
4-s
-a
(0
C03
a
E
03
—0.75
-1.25
31
32
33
salinity, ppt
34
35
A425A DROP 3
I
I
I
I
I
31
32
33
34
35
0.25
0.)
C-
-0.25
4-I
to
C0.)
a
E
a)
-0.75
.4-I
—1.25
salinity. ppt
A425B DROP 3
J
I
0.25
'U
C-
-0.25
-J
Co
C.-
'U
a
F
03
-0.75
.lJ
-1.25
31
32
33
salinity, ppt
34
35
A425C DROP 3
0.25
0.)
C-
—0.25
—a
C-
a)
a
E
a)
—0.75
4-)
—1.25
31
32
33
salinity. ppt
34
35
A4250 DROP
3
—J
--
0.25
C-
-0.25
4-)
—a
to
C-
a
CU
-0.75
4-)
—1.25
31
32
33
salinity, ppt
34
35
A425E DROP 3
0.25
0)
C-
-0.25
-J
4J
(0
C-
0)
a
E
0)
-0.75
-1.25
31
32
33
salinity. ppt
34
35
A425F DROP 3
I
0.25
a)
C-
-0.25
•1-)
N)
(0
C—
a)
a
E
a)
-0.75
4-I
-1.25
31
32
33
salinity. ppt
34
35
A425G DROP 3
I
I
0.25
a)
C-
-025
4)
N)
-J
to
C-
a)
a
F
-0.75
4)
-1.25
31
32
33
salinity. ppt
34
35
A426A DROP 3
I
I
0.25
0.)
L
-0.25
4.1
I\)
(0
C-
aF
0.)
a)
-0.75
-1.25
31
32
33
salinity. ppt
34
35
123
OBSERVATIONS:
C.
TEMPERATURE PROFILES
124
4R3234,
drOps
1—7
50
100
150
E
Sc
200
a.
a)
-c
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
125
AR323B,
drops 1—7
50
100
150
E
nfl
4)
200
a.
0
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
126
AR323C,
drops 1—3
1.0
20
30
E
-c
40
50
a
a)
60
70
80
go
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
127
AR323C,
drops
1—3
5
10
15
E
20
a
-4-,
ci
25
30
35
40
—1.59
—1.52
—1.45
—1.38
temperature, deg. C
128
AR323C,
drops 4—6
5
10
15
E
20
-I-,
0.
a.'
25
30
35
40
—1.59
—1.52
—1.45
—1.38
temperature, deg. C
129
AR323C,
drops 7—10
5
10
15
E
r
20
-1-'
0.
a)
0
25
30
35
40
—1.59
—1.52
—1.45
—1.38
temperature, deg. C
130
AR324A,
drops
1—4
20
40
60
E
80
-c
-lJ
a
a)
100
120
140
160
—1.50
—1.30
—1. 10
temperature,
—0.90
deg. C
r
131
AR324A,
drops 5,6,8,9
20
40
60
E
80
-C
-1-i
a
100
120
140
160
—1.50
—1.30
—1. 10
—0.90
temperature, deg. C
132
AR324A,
drops
iO—12
20
40
60
E
80
-c
a
a)
100
-D
120
140
160
—1.50
—1.30
—1.10
—0.90
temperature, deg. C
0
0
0
0)
0
0
ru
-3
ru
U
to
0
(C
(DO
I-S
0
I-s
U)
LI)
-D
0
0
0
CD
0
ru
a
O
m
C
0)•
CDI
2
CD0
ri-UI
0
a-i
I-a.
depth,
134
AR324B,
drops
'—4
20
40
60
E
80
-I-,
a.
a)
100
120
140
160
—1.50
—1.30
—1.10
—0.90
temperature, deg. C
135
AR324B,
drops
5—B
50
100
150
E
200
a.
•0
.250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
136
AR324B,
drops 5—8
20
40
60
E
80
4J
a.
a-'
100
120
140
160
—1.50
—1.30
—1.10
—0.90
temperature, deg. C
137
AR325A,
drops
9—10
20
40
60
E
80
-I-)
a.
a)
100
120
140
160
—1.50
—1.30
—1.10
—0.90
temperature, deg. C
138
AR326A,
drops
1, 4—6
50
100
150
E
-c 200
-I-,
a.
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
139
AR326A,
drops
1—3
20
40
60
E
60
-c
4J
a.
a.)
100
120
140
160
—1.50
—1.30
—1. 10
—0.90
temperature, deg. C
01
0
0
0
(0
Do
CD
-)
C
0)•
(DI
CD0
B
D
t-t
0
0)
0
0
flJ
0
0
depth,
0
Q3
m
0
0)
0
0
It)
0)
t
(Ti
-D
0
-3
a
>
0-i
ru
U
33
0
141
AR326B,
drops i—6
50
100
150
E
-I-)
200
a.
a)
-D
250
300
350
—1.25
—0.75 —0.25
0.25
temperature, deg. C
0.75
142
AR326C,
drops
i—3
50
100
150
E
-c
-lJ
a
200
03
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
143
AR327A,
drops
50
100
150
E
r
-I-)
200
a.
a)
-D
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
144
AR327B,
drops 1—6
50
100
150
E
r
-p
a
200
a)
-o
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
145
AR32OA,
drops
L2
so
100
150
E
-C
-I-i
200
a.
a)
D
250
300
350
—1.25 —0.75 —0.26
0.25
temperature, deg. C
0.75
146
AR3284,
drops
1—5
270
280
290
E
a
4J
300
a.
a-)
-c
310
320
330
—0.50
—0.30
—0.10
0.10
temperature, deg. C
0.30
147
AR328A,
drops 6, 8—10
270
280
290
E
4-s
300
0.
310
320
330
—0.50 —0.30 —0.10
0.10
temperature, deg. C
0.30
148
AR328A,
drops 11—14
270
280
290
E
300
a.
310
320
330
—0.50 —0.30 —0.10
0.10
temperature, deg. C
0.30
149
AR328A,
drops
15—18
270
280
290
E
-s-i
a
300
C
310
320
330
—0.50
—0.30 —0.10
0.10
temperature, deg. C
0.30
150
AR328A,
drops
19—22
270
280
290
E
-lJ
a
300
310
320
330
—0.50
—0.30
—0.10
0.10
temperature, deg. C
0.30
151
AR329A,
drops 1—7
50
100
150
E
a
-c
-I-,
200
a.
-D
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
152
AR32YB,
drops 1—6
50
100
150
E
a
-c
a
a)
200
250
300
350
—1.25
—0.75 —0.25
0.25
temperature, deg. C
0.75
1 53
AR32YC,
drops 1,2
50
100
150
E
S
200
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
154
AR33OA,
drops
1—6
50
100
150
E
r
200
a)
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
155
AR33OB,
drops 1—6
50
100
150
E
-c
200
0.
a)
-o
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
w
156
AR33OC,
drops 1, 2
50
100
150
E
200
0.
D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
157
AR33 IA,
drops 1—6
50
100
150
E
-c
a
200
a-i
D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
158
AR4O IA,
drops 1—6
50
100
150
E
-c
a
200
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
159
AR4O lB.
drops
1—4
20
40
60
E
80
-c
4-,
a
100
-D
120
140
160
—1.50
—1.30
—1.10
—0.90
temperature, deg. C
160
AR4O 1.B,
drops
3—7
50
100
150
E
-c
4-,
a
200
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
0
0
0
0)
0
A
0
P3
-3
a
03
0
>
0
(a
Do
(0
CD
9'
'0
(ri
0
0
a I-s0
0
P3
I-s
C
0
Cs)
0
01
o
A
m
I-s
CD
-3
C
ri-
-3
a)
CD
-D
9
CD
o
0i
depth,
162
AR4O IB,
drops 8—12
50
100
150
E
a
-c
4J
a
200
0)
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
163
AR4OIB, drops 9—12
20
40
60
E
80
-C
-1J
100
-D
120
140
160
—1.50
—1.30
—1. 10
—0.90
temperature, deg. C
164
AR4O IC,
drops 1—4
50
100
150
E
C 200
4-,
a
a-I
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
165
AR4O2A,
drops
1—7
50
100
150
E
r
4J
200
a.
-D
.250
300
350
—1.25
—0.75 —0.25
0.25
temperature, deg. C
0.75
166
AR4O2B,
drops 1—3, 6, 7
50
100
150
E
a
200
0.
0)
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
167
AR4O3A,
drops
1—3
50
100
150
E
a)
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
168
AR4O3A,
drops 1-5
25
E
50
-c
-lJ
ci
a-)
75
100
—1.475
—1.275
temperature, deg. C
169
AR4O3A,
drops
6—10
25
E
50
*
-c
4J
a.
U)
-D
75
100
—1.475
—1.275
temperature, deg. C
170
AR4O3A,
drops 11—14
25
E
50
4-)
a.
a)
D
75
100
—1.475
—1.275
temperature, deg. C
171
AR4O3A,
drops
15—18
25
E
50
a
-c
-sJ
a.
a-)
75
100
—1.475
—1.275
temperature, deg. C
172
AR4O3A,
drops
19—22
25
50
E
-lJ
cu
-o
75
100
—1.475
—1.275
temperature, deg.
C
173
AR4I7A,
drops 1,2,13
50
100
150
E
-c
4-,
a
200
cu
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
174
AR4I7A,
drops 1—5
45
E
4.)
a
go
135
—1.55
—1.45
—1.35 —1.25 —1.15
temperature, deg. C
175
AR4 17A,
drops
6—9
45
E
-c
-1-i
a
90
a)
I,
135
—1.55 —1.45 —1.35 —1.25 —1.15
temperature, deg. C
176
4R417A,
drops 10—13
45
E
-c
4J
go
a
135
—1.55 —1.45 —1.35 —1.25 —1.15
temperature, deg. C
177
AR4I7B,
drops 1, 13
50
100
150
E
a
-c
200
a)
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
178
4R4 17B,
drops
1—4
45
E
-C
4J
go
a.
0
-c
135
—1.55 —1.45 —1.35 —1.25 —1.15
temperature, deg. C
179
AR4 17B,
drops
5—9
45
E
-c
4-)
go
a.
a)
135
—1.55 —1.45 —1.35 —1.25 —1.15
temperature, deg. C
180
AR4I7B,
drops 10—13
45
E
r
a
go
G.)
-D
135
—1.55
—1.45
—1.35
—1.25
—1. 16
temperature, deg. C
181
AR4I7C,
drop I
50
100
150
E
-c
-p
a
200
U-)
D
250
300
350
—1.25
—0.75 —0.25
0.25
temperature, deg. C
0.75
182
AR4 170,
drops
1—4
45
E
-C
4J
a
go
U-)
D
135
—1.55
—1.45
—1.35 —1.25 —1.15
temperature, deg. C
183
AR4 17C,
drops 5—8
45
E
a
go
a-'
135
—1.55
—1.45 —1.35 —1.25 —1.15
temperature, deg. C
184
AR4I7C,
drops 9—13
45
E
r
-p
a
go
135
—1.55 —1.45 —1.35 —1.26 —1.15
temperature, deg. C
185
44170, drop 1
50
100
150
E
-C
-I-)
200
a.
a)
-D
250
300
350
—1.25
—0.75 —0.25
0.25
temperature, deg. C
0.75
186
4R4 170,
drops
1—4
45
E
-c
4)
a.
go
D
135
—1.475
—1.275
temperature, deg. C
187
AR4 170,
drops 5—7
45
E
-C
-1-)
go
a.
0.)
-a
135
—1.475
—1.275
temperature, deg. C
188
AR4 170,
drops
45
E
-c
go
a)
D
135
—1.475
—1.275
temperature, deg. C
189
AR4170,
drops 11—13
45
E
-c
-I-)
a
go
-D
135
—1.475
—1.275
temperature, deg. C
190
AR4 17E,
drop I
50
100
150
E
-c
-1-)
a
200
a)
D
250
300
350
—1.25 —0.75 —0.25
0.75
0.25
temperature, deg.
C
191
AR4I7E,
drops 1, 5, 12, 13
45
E
go
0.
135
—1.475
—1.275
temperature, deg. C
192
AR4 17E,
drops 1—3
10
20
30
40
E
r
-IJ
a
50
0)
V
60
70
80
90
—1.60 —1.50 —1.40 —1.30 —1.20
temperature. deg. C
193
AR4 17E.
drops
4—6
10
20
30
E
r
-I-,
a
a,
0
40
50
60
70
80
go
—1.60
—1.50 —1.40 —1.30
—1.20
temperature, deg. C
194
AR4 17E,
drops 7—9
:10
20
30
40
E
r
a
a)
D
50
60
70
60
90
—1.60 —1.50 —1.40 —1.30 —1.20
temperature. deg. C
195
AR4 17E.
drops
10—12
10
20
30
E
r
4)
0.
40
50
60
70
60
go
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
196
AR4 17E,
drops
13—15
10
20
30
E
r
4-,
a
40
50
a,
D
60
70
80
90
—1.56
—1.46 —1.36 —1.26 —1.16
temperature. deg. C
197
AR4I7E, drops 16—18
10
20
30
40
E
C
-lJ
50
0.
a,
60
70
BO
90
—1.60 —1.50 —1.40 —1.30 —1.20
temperature. deg. C
198
AR4I7E,
drops 19—21
10
20
30
40
E
r
.lJ
50
Q
D
60
70
80
go
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
199
AR4I7E.
drops
22—24
[0
20
30
40
E
C
50
Q
D
60
70
80
90
—1.60 —1.50 —1.40 —1.30 —1.20
temperatures deg. C
200
AR4 17F,
drops 1, 18
50
100
150
E
r
200
a
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
201
AR417F, drops
1—3
20
40
c
60
Q.
a.)
80
100
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
202
AR4 17F,
drops 4—6
20
40
E
60
a-i
80
100
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
203
AR4 17F,
drops 7—9
20
40
E
-c
4)
60
a.
a)
D
80
100
—1.60 —1.50 —1.40 —1.30
—1.20
temperature, deg. C
204
AR4I7F,
drops 10—12
20
40
E
-c
60
0.
80
100
—1.57
—1.47 —1.37 —1.27 —1.17
temperature, deg. C
205
4A4 17F,
drops
13—15
20
40
E
-C
60
a.
a.'
V
80
100
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg.
C
206
AR4I7F,
drops 16—18
20
40
E
4-)
60
a.
-D
80
100
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
207
AR4184, drop
3
50
100
150
E
-c
-I-i
200
a.
a)
D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
208
AR4 iSA,
drops
3—6
25
50
E
75
-c
4)
a
-D
100
125
150
—1.60
—1.50 —1.40
—1.30
—1.20
temperature, deg. C
209
AR4 18A,
drops
7—10
25
50
E
75
-c
-p
a
U)
D
100
125
150
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
210
AR4 18A,
drops
11—13
25
50
E
75
-c
a.
a-'
-a
100
125
150
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
211
AA4 IBA,
drops
14—16
25
50
E
75
-c
0.
a.)
-D
100
125
150
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
212
4R418B,
drops 1,7
50
100
150
E
-c
a
200
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
213
AR4 18B.
drops
1—4
25
50
E
75
-c
a
a)
100
125
150
—1.60
—1.50
—1.40
—1.30
—1.20
temperature, deg. C
214
AR4 IBB,
drops 7—10
25
50
E
75
r
0.
100
125
150
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
215
AR4I8B,
drops
11—14
25
50
E
75
S
-c
-lJ
a
a)
100
125
150
—1.60
—1.50
—1.40
—1.30
—1.20
temperature, deg. C
216
AR4 18B,
drops
25
50
E
75
-c
-I-,
-D
100
125
150
—1.60 —1.50 —1.40 —1.30 —1.20
temperature, deg. C
217
AR4194,
drop I
50
100
150
E
-c
-p
a
200
ID
-c
250
300
350
—1.25
—0.75 —0.25
temperature,
0.25
deg. C
0.75
218
AR4 19A,
drops
1—3
50
E
-1-I
a
Ui
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
219
AR4I9A,
drops
4—6
50
E
a
-C
4J
a.
Ui
-D
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
220
AR4I9A,
drops 7—9
50
E
S
4-I
0.
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
ru
I_s
(ii
0
OLD
It)
0
(1)
C
-o
-3
a.
(.0
I
>1
U'
0
LB
>
m
I
CD,
—
-)
(ii
o
o
depth,
222
AR4I9A,
drops
13—15
50
E
-c
4)
-D
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
223
AR4 19A,
drops
16—18
50
E
S
-1-I
0.
a)
'0
100
—1.55 —1.45 —L35 —1.25 —1.15 —1.05
temperature, deg. C
224
AR4 19A,
drops 19, 20
50
E
a
a)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
225
AR4I9B,
drop
1.
50
100
150
E
Ca
-I-,
200
a.
a-i
-D
250
300
350
—1.25 —0.75 —0.25
0.75
0.25
temperatures deg.
C
226
AR4I9B,
drops
1—3
50
E
r
-lJ
0.
a)
-o
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
227
drops
AR4 19B,
I
50E
r
-I-I
a.
11)
100
-
I
I
I
I
I
I
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg.
C
228
AR4 19B,
drops 4,5,7,8
20
E
-c
-I-)
40
a.
a)
-D
60
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
229
AR4 19B,
drops 8-10
50
E
-c
0.
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
230
AR4I9B,
drops 11, 12
50
E
aa)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
231
AIR4 19B,
drops 13. 14
50
E
a.
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
232
AR4I9B,
drops
15—17
50
E
-C
-1-)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
233
AR4 196,
drops 18, 19
50
E
r
0.
0
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
234
AR4 19B,
drops 20, 21
50
E
4)
ci
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
235
AR4 190,
drop
1
50
100
150
E
C 200
4J
a.
D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
236
AR4I9C,
drops
50
E
-1-s
0.
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
237
AR4I9C,
drops 4—6
50
E
r
a
-I-)
03
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature,
deg. C
238
AR4I9C,
drops
7—9
50
E
r
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg.
C
239
AR4I9C,
drops
1.0—12
50
E
C
ci
D
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
240
AR4I.9C,
drops
13—15
50
E
a.
-D
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
241
AR4 19C,
drops i6—18
50
E
C
0.
0.)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
242
44190, drop I
50
100
150
E
-C
a
200
03
-o
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
243
4R4 190,
drops 1,2
50
E
r
4-)
ci
a)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
244
AR4 190,
drops
3—5
50
E
-c
-lJ
a.
a)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
245
AR4 190,
drops
6—8
50
E
r
ci
a)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
246
AR4 190,
drops
50
E
-I-)
0.
a)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg.
C
247
AA4 190,
drops
12—14
50
E
.4-,
a)
-D
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
248
AR4 190,
drops
15—17
50
E
a
U.)
1J
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
249
AR4 190,
drops 18-19
50
E
-C
0.
a-)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
250
AR4I9E,
drop I
50
100
150
E
-c
-1-s
200
a
0
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
251
AR4 19E,
drops
1—3
50
E
4-)
a
U)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
252
AR4 19E,
drops
4—6
50
E
4-,
a
U.)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg.
C
253
AR4I9E,
drops 7,8,10
50
E
4.)
a.
a)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
254
AR4I9E,
drops
11—13
50
E
0.
a)
100
—1.55 —1.45
—1.25 —1.15 —1.05
temperature, deg. C
255
AR4I9E,
drops
14—16
50
E
4-,
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
256
4R4 19E,
drops
17—19
50
E
-c
4J
aa-)
1J
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
257
AR42OA,
drops 1,9
50
100
150
E
r
-I-,
200
a.
a)
D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
258
AR4204,
drops
1—3
50
E
C
a.
a.)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
259
AR42OA,
drops
4—6
50
E
-c
-1-i
ci
a)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
260
AR42OA,
drops
7—9
50
E
0.
a)
100
—1.55 —1.45 —1.35 —1.25 —1.15 —1.05
temperature, deg. C
261
AR42OA,
drops 1, 10
290
300
31.0
320
E
a
C 330
4)
a
a)
D
340
350
360
370
—0.15
0.05
0.25
0.45
temperature, deg. C
262
drops 1, 2
AR42OB,
t
drop I
AR4200,
I
I
290
300
310
E
-C
-I-)
320
330
a.
U.)
D
340
350
360
370
—0.15
I
I
0.05
0.25
0.45
temperature, deg. C
263
4R42 IA,
drops
2—4
310
350
E
-c
-I-)
0.
a)
-D
390
430
0.05
temperature,
0.45
deg. C
264
AR42IA,
drop 3
50
100
150
E
-c
-I-)
a
200
-D
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
I-s
03
N
>
r)
•
(Oh0
I-5
U)
C
-3
0
U)
a.
0
(SI
U)
CD
0
CD
Is)
m
-3
C
0)
tJ°
CD0
CD
rt
0
U)
depth,
01
266
AR42 lB.
drops 2,9
50
100
150
E
a
A:
200
0.
U)
-D
250
300
350
—1.25
—0.25
0.25
temperature, deg. C
0.75
267
AR4216,
drops
6—9
310
E
350
a.
a)
390
430
—0.00
0.40
temperature, deg. C
268
4R421C,
drop I
50
100
150
E
r
200
a.
U-i
-c
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
269
AR42 IC,
drops
1—5
310
350
E
-c
4-,
a.
a)
-D
390
430
—0.00
0.40
temperature, deg. C
270
AR42IC,
drops
6—9
I
310
E
-
350
a.
a)
D
390
430
-
—0.00
0.40
temperature, deg.
C
271
AR42IC,
I
drop 10—13
I
310
350
E
a
0.)
D
390
430
—0.00
0.40
temperature, deg. C
272
AR42ID,
drop
1.
50
100
150
E
-c
-1-)
200
0.
-o
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
273
AR4210,
drops
1—5
310
350
E
4)
a.
03
-D
390
430
—0.00
0.40
temperature. deg. C
274
AR4210,
drops
6—9
310
350
E
.1-I
0.
390
430
—0.00
0.40
temperature, deg. C
275
AR4210,
drops
10—13
310
E
350
4-,
a.
-D
390
430
—0.00
0.40
temperature, deg. C
276
4R422A,
drop I
50
100
150
E
-I-,
200
a.
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
277
AR422A,
drops
1—5
310
E
350
r
a
a)
390
430
—0.00
0.40
temperature, deg. C
278
AR422A,
drops 6—lO
310
E
350
4-,
a.
a.)
-D
390
430
—0.00
0.40
temperature, deg. C
279
AR422A,
drops
11—15
310
E
350
a.
V
390
430
—0.00
0.40
temperature, deg. C
280
AR422B,
drop I
50
100
150
E
r
4.)
a
200
D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
281
4R422B,
drops '—5
3±0
E
350
I-p
a.
t
a)
390
430
—0.00
0.40
temperature, deg. C
282
AR422B,
drops
6—10
310
E
350
£
0.
0)
390
430
—0.00
0.40
temperature, deg. C
283
AR422B,
drops
11—15
310
S
350
ace
4-)
a.
-D
390
430
—0.00
0.40
temperature, deg. C
284
AR422C,
drops 1, 8
50
100
150
E
S
-C
a
200
D
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
285
AR422C,
drops
280
310
4-I
0.
a)
340
370
—0.15
0.25
temperature, deg. C
286
AR422C,
drops
6—10
280
E
310
C
•1-'
a.
-D
340
370
—0.15
0.25
temperature, deg. C
287
AR422C,
drops
11—15
280
E
310
-1-i
a.
a)
-D
340
370
—0.15
0.25
temperature, deg. C
288
AR422C,
drops 16—18, 20
280
E
310
.4-,
0)
-D
340
370
—0.15
0.25
temperature, deg. C
289
AR4220,
drop I
50
100
150
E
-lJ
a
200
U
D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
290
AR4220,
drops
i—5
280
31.0
E
C
4J
0.
a)
340
370
—0.15
0.25
temperature, deg. C
291
AR422D,
S
drops
6—lO
280
E
310
a.
03
-D
340
370
—0.15
0.25
temperature, deg. C
292
AR4220,
drops li—I.E
280
E
310
-I.)
0.
340
370
—0.15
0.25
temperature, deg. C
293
AR422E,
drops 1, 2
50
100
150
E
-c 200
4)
a.
0
-D
250
300
350
—1.25
—0.75 —0.25
0.25
temperature, deg. C
0.75
294
AR422E,
drops
1—4
280
E
310
4-,
ci
-D
340
370
—0.15
0.25
temperature, deg. C
295
AR422E,
drops
5—7
280
E
310
If
-p
a.
ci)
V
340
370
—0.15
0.25
temperature, deg. C
296
AR422F,
drop I
50
100
150
E
-c
-lJ
200
0.
a-i
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
297
AR422F,
drops
280
E
310
-I-,
a.
a)
-D
340
370
—0.15
0.25
temperature, deg. C
298
AR422G,
drop
I
50
100
150
E
r
a
200
-D
250
300
350
—1.25
—0.75
—0.25
temperature,
0.25
deg. C
0.75
299
AR4226,
drops
1—5
280
E
310
£
a.
a)
340
370
—0.15
0.25
temperature, deg. C
300
AR422G,
drops
6—10
280
E
310
£
4-I
a
a)
340
370
—0.15
0.25
temperature. deg. C
301
AR422G,
drops
11—14
280
E
310
If
-I-i
a.
a)
-D
340
370
—0.15
0.25
temperature, deg. C
302
AR422H,
drop
1.
50
100
150
E
-c
a
200
D
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
303
AR422H,
drops
1—3
280
E
310
-c
-p
a.
0
-D
340
370
—0.15
0.25
temperature, deg. C
304
AR422H,
drops 4—6
280
E
310
-c
4J
a.
340
370
—0.15
0.25
temperature, deg. C
305
AR4221,
drop I
50
100
150
E
-I-,
a
200
-o
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
306
AR4221,
drops
1—4
280
E
310
£
4-,
a-
0
340
370
—0.15
0.25
temperature, deg.
C
307
AR4221,
drops
5—7
280
E
310
-C
4J
a.
a-'
-D
340
370
—0.15
0.25
temperature, deg. C
308
AR422J,
drops 1, 4
50
100
150
E
-c
4-)
a
200
-c
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
309
AR422J,
drops
1—3
280
E
310
-c
-p
a
a-'
-D
340
370
—0.15
0.25
temperature, deg. C
310
AR422J,
drops 4—7
280
310
E
-c
-I-,
a
a)
D
340
370
—0.15
0.25
temperature, deg. C
311
AA4234,
drops 2,7,8
50
100
150
E
r
a
200
a)
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
312
AR4234,
drops 2,3,7,8
280
31.0
E
-c
-1-)
a.
a)
340
370
0.25
temperature, deg. C
313
AR423A,
drops 2, 4—6
10
20
30
E
C
4J
ci
40
50
a.)
60
70
80
go
—1.55 —1.45 —1.35 —1.25
—1. 15
temperature, deg. C
314
4R4234,
drops 7—8
10
20
30
E
4)
40
50
a.
-o
60
70
80
go
—1.55 —1.45 —1.35 —1.25
—1. 15
temperature, deg. C
315
AA423B,
drop I
50
100
150
E
£
4J
a
200
a)
-c
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
316
AR423B,
drops 1—3
280
310
E
-I-,
-D
340
370
—0.20
0.20
temperature, deg. C
317
AR423C, drops
1—6
50
100
150
E
-C.
4-,
200
a
a)
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
318
AR423C,
drops 1—4
280
310
E
-C
a.
-D
340
370
—0.20
0.20
temperature, deg. C
319
AR423C,
drops
5—7
280
310
E
-c
-1-i
a.
-D
340
370
—0.20
0.20
temperature, deg. C
320
AR4230,
drops
1—3
280-
E
310
-C
-1-)
a
0)
340
370
-
—0.00
0.40
temperature, deg.
C
321
AR423E,
drop 3
50
100
150
E
If
4J
200
a.
a-)
-D
.250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
322
AR424A,
drops 1—4
50
100
150
E
5200
a
a)
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
323
AR424A,
drops
5—7
50
100
150
E
200
a.
-D
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
324
AR424B, drops 1—3, 5, 6
50
100
150
E
a
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
325
AR424B,
drops
1—3
280
310
E
a
-c
a.
a-'
-c
340
370
—0.20
0.20
temperature, deg. C
326
AR424B,
drops
4—6
280
310
-c
4)
a.
cii
-c
340
370
—0.20
0.20
temperature, deg. C
"I)
U'.
AR424C,
drops
1—3
280
E
310
-C
-p
a.
a)
-D
340
370
—0.20
0.20
temperature, deg. C
328
AR4240,
drops
280
E
310
-C
4J
0.
a)
-o
340
370
—0.20
0.20
temperature, deg.
C
329
AR4240,
drop
4
50
100
150
E
-I-)
200
a)
-D
250
300
350
—1.25
—0.75 —0.25
0.25
temperature, deg. C
0.75
330
AR424E,
drop
1.
50
100
150
E
D
250
300
350
—1.25 —0.75 —0.25
temperature,
0.25
deg. C
0.75
331
AR424E,
drops
1—4
280
310
E
-c
-I-,
a
a)
D
340
370
—0.20
0.20
temperature, deg. C
332
AR424F,
drop
1.
50
100
150
E
-C
200
0.
a-,
-o
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
333
drops
1—5
280
E
3i0
0.
a)
•0
340
370
—0.10
0.30
temperature, deg. C
334
AR424G,
drop I
50
100
150
E
4J
200
ci
C)
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
335
AR42EA,
drops
1—7
50
100
150
E
-c 200
-p
a
U)
D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
336
AR425B,
drops
1—9
50
100
150
E
a
4J
200
a-
-c
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
337
AR425C,
drops 1—7
50
100
150
E
-C
4J
a
200
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
338
AR4250,
drops
1—4
50
100
150
E
r
4J
200
a.
0
-D
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
339
AR4250,
drops
55a7
50
100
150
E
Sc
4J
200
a.
-D
250
300
350
.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
340
AR42EE,
drops
1—4
50
1.00
150
E
a
200
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
341
AR425E,
drops 5—7
50
100
150
E
a
-c
-Ii
200
003
-D
250
300
350
—1.25 —0.75 —0.25
temperature,
0.25
deg. C
0.75
342
AR425F,
drops
1—6
50
100
150
E
-C
-I-)
200
a.
a)
D
250
300
350
—1.25
—0.75
—0.25
0.25
temperature, deg. C
0.75
343
AR4256,
drops 1—7
50
100
150
E
-1J
200
a.
a)
CD
250
300
350
—1.25 —0.75 —0.25
0.25
temperature, deg. C
0.75
344
AR4264,
drops 1—6
50
100
150
E
-I-,
0.
250
300
350
—1.25 —0.75 —0.25
temperature,
0.25
deg. C
0.75
345
OBSERVATIONS:
D.
STAIRCASE TEMPERATURE PROFILE DETAIL
Li)
•
0
(OLD
CD
-3
C
0)
)LB
CD
CD
So
rt
0
0
CD
CD
La)
Li)
m
La)
depth,
CD
La)
0
>
>
s-s
(Ti
0
-3
Q
N
N
CA)
347
AR422,
drops A11—86
355
360
E
-C
4)
365
ci
a)
370
375
0.35
0.50
temperature. deg. C
U)
01
U)
0
U)
UI
depth,
m
0
a)
U)
01
UI
U)
349
AR422,
drops
C8—C17
355
360
E
r
365
a.)
370
375
0.35
0.50
temperature, deg.
C
350
AR422,
drops
C 18—07
355
360
E
365
0.
a)
370
375
0.35
0.50
temperature, deg. C
351
AR422,
drops
08—E2
355
360
E
C 365
4-)
ci
370
375
0.35
0.50
temperature, deg. C
352
AR422,
drops E3—F5
355
360
E
365
ci
03
370
375
0.35
0.50
temperature, deg. C
353
AR422,
drops
GI—GlO
355
360
E
365
370
375
0.50
035
temperature, deg. C
354
AR422,
drops
G1.1—H6
355
360
E
365
0.
a)
-D
370
375
0.35
0.50
temperature, deg. C
355
AR422,
drops I1—J3
355
360
E
365
03
370
375.
0.35
0.50
temperature, deg. C
w
356
AR422,
drops J4—J7
355
360
E
5365
a
-D
370
375
0.35
0.50
temperature, deg. C
ri-
•0
tJ
-
0)
03
03
LA)
Li)
(nw
La)
LII
Lii
0
La)
Li)
depth,
m
IL)
(SI
La)
0
(.0
0
>
U)
0
-3
Q01-4
It)
It)
IiIs
(Ii
U)
cE
U)
U)
I
(ii
I
0
Lii
I
(11
ai
depth,
m
0
Li)
Dl
cn
Li)
0)
cD
>
U)
0
a
It)
01
(A)
U)
0
Ui
LB
U)
depth,
m
0
01
CD
CD
Lii
0
1*)
Lii
01
a)
depth,
m
0
a)
Lii
(31
U)
Lii
0
-o
I-J.
I.
(I)
Di
Di
Di
.bb
IL)
Li)
Di
Li)
tD
IL)
UI
0
UI
CD
U)
depth,
rn
0
m
UI
CD
UI
0
0
0
>
U)
U)
Lii
CD
U)
0
depth,
m
I
C)
U)
I
ill
In
U)
363
OBSERVATIONS:
E.
DISSIPATION RATES
364
0A424A.001
log
(dissipation rate)
—5
—3
—4
(cgs]
—2
50
ioo
150
E
a
Ui
250
300
350
—10
—5
—0
5
1.0
buoyancy frequency
C)
m
CD
-3
0
0)
0
C
0
UI
0
LII
0
LU
0
U
0
0
U
0
Ui
1%)
CU
depth, m
0
0
0
Cii
0
0
0
Ui
0
0)
i-a.
(I)
CO
CO
D
0
CD
rt
00
'
wo)
i
I
U)
v.4.
a
I-J
ID
01
C-)
CD
Co
CD
-3
-h
flu'
0)
0
0
0
0
UI
U
0
0
U
0
rt)
Ui
0
0
depth,
m
0
LII
0
0
0
Lii
C,
-U
CD
rP
0
I-'.
rt
0)
0
0
rt)
DC
Wa) w
I
I
U)
U)
i-a.
I-a.
a.
tnt0
I-i
367
0A424A.004
log
(dissipation rate)
—4
—5
(cgsl
—2
—3
50
100
150
E
a.
'U
V
250
300
350
—10
—5
—0
5
10
buoyancy frequency
368
0A424B .001
log (dissipation rate)
—2
—3
—4
—5
(cgsl
50
100
150
E
C 200
0.
a,
D
250
300
350
—10
—5
—o
5
10
buoyancy frequency
369
0A424B 002
log (dissipation rate)
.
—5
—2
—3
—4
[cgs)
50
100
150
E
C 200
4)
a
a,
250
300
350
—10
—5
—0
5
10
buoyancy frequency
370
0A424B.003
log
(dissipation rate)
—2
—3
—4
—5
(cgs)
50
100
150
E
200
a
w
250
300
350
—10
—5
—0
5
10
buoyancy frequency
371
0A424B.005
log
(dissipation rate) (cgsl
—2
—3
—4
—5
50
100
150
E
C 200
a
250
300
350
—10
—5
—0
5
10
buoyancy frequency
372
DA424B.006
log
(dissipation rate) [cgs]
—5
—3
—4
—2
50
100
150
E
C 200
4-I
a
a,
250
300
350
—10
—5
—o
5
10
buoyancy frequency
373
0A4240 002
.
log
(dissipation rate) (cgsl
—2
—3
—4
—5
I
I
50
100
1
150
E
C200
4J
a.
I
a,
V
I
250
300
I
p
I
350
I
I
I
I
—10
—5
—o
5
10
buoyancy frequency
374
0A4240.004
log
(dissipation rate)
—5
—2
—3
—4
(cgs]
50
100
150
E
a.
a)
250
300
350
—10
—5
—o
5
10
buoyancy frequency
375
0A424E. 001
log
(dissipation
[cgsl
—2
—3
—4
—5
rate)
50
100
150
E
C 200
a
03
V
250
300
350
—10
—5
—o
5
10
buoyancy frequency
376
0A424F.001
log
(dissipation rate)
—2
—3
—4
—5
[cgsl
50
100
150
E
200
0J
250
300
350
—10
—5
—0
5
buoyancy
10
frequency
377
04424F 002
log (dissipation
—2
—3
—4
—5
[cgs]
rate)
50
100
150
E
.c
4.)
200
0.
a,
250
300
350
—10
—5
—0
5
10
buoyancy frequency
378
DA424F.003
log
(dissipation rate)
—3
—4
—5
[cgsl
—2
50
100
150
E
a.
03
V
250
300
350
—10
—5
—0
5
10
buoyancy frequency
C,
CD
.0
CD
C,
a,
0
C
0
0
(31
0
0
LB
0
0
0
LB
ru
0
0
ru
depth,
m
0
(B
0
0
0LB
C,
(0
CD
rP
Wa)
-3
0
I-'.
a,
I-'.
(I)
(I)
0.
UI'0
I-J
0
0
G)
r'J
D
(A)
380
0A425A.OO1
log
(dissipation rate)
-5
—2
—3
—4
(cgsl
50
ioo
150
E
0.
a)
V
250
300
350
—10
—5
—0
5
1.0
buoyancy frequency
381
0A425A. 002
log
(dissipation rate)
—5
—2
—3
—44
[cgsl
I
I
-
50-
100
150
E
a.
0
250
300
350
I
—10
—5
—0
I
5
I
10
buoyancy frequency
____—
382
DA425A.003
log (dissipation
—3
—4
—5
rate) (cgs]
—2
50
100
I
I
I
150
0.
If
300
I
350
I
I
I
I
—10
—5
—0
5
buoyancy
10
frequency
383
0A425A. 004
log (dissipation rate)
—3
-4
-5
[cgs]
-2
50
350
I
buoyancy frequency
0
(ii
0
0
0
U)
1%.)
I
0)
U)
U)
0.
(0
C)
:3
CD
Co
CD
-,
(0
C)
0
0
ru
-h
0
(ii
ru
CD
0
0
m
:3
0)
0
C
0
0
0
Ui
w
depth,
Lii
C)
CD
.0
CD
-h
C)
0)
0
0
U)
0
(31
0
0
(31
U)
0
0
U)
0
Ci)
It)
0
0
It)
depth.
m
0
Ci)
0
0
0
U)
D
0
(0
C-)
CD
a)
0
0
f-B
çt ru
0)
(I)
I-,
WO)
I
I-J.
U)
ID
386
0A425A.007
log
(dissipation rate) [cgs]
—5
-2
—3
—4
50100150-
.C
a
a
200
I
V
250
300
350I
—10
I
I
—5
—0
I
5
10
buoyancy frequency
____
_________________________________________________________________________
___________________________
387
DA425B. 001
log
(dissipation rate) [cgs]
—2
—3
—4
—5
I
I
I
-a
I
50
±00
I
—
150
I
E
0.
I
I
—
I
250
I
300
I
I
350
I
—10
I
—5
I
—0
I
5
buoyancy
10
frequency
__I
___________________________
388
0A425B.002
log (dissipation rate)
—5
—3
—4
[cgs]
-2
I
I
I
I
50
I
ioo
-
I
I
150
I
E
.c200
4J
0.
I
03
250
-
300
350
-
I
—1.0
I
—5
I
—0
5
10
buoyancy frequency
389
0A425B.003
log
(dissipation
(cgs]
—2
—3
—4
—5
rate)
I
I
I
a,
V
250
I
300
350
I
—1.0
I
I
—5
—0
I
5
10
buoyancy frequency
390
0A425B.006
log
(dissipation rate)
—5
—3
—4
(cgs]
-2
50
100
150
E
a
250
300
350
—10
—5
—0
5
buoyancy
10
frequency
_________________________________________
_____________________________________________
391
0A425B 007
log (dissipation rate)
.
—2
—3
—4
[cgs]
I____
I
I
I
5O
I
I
100
-
I
I
150
I
I
E
250
I
300
I
I
350
I
I
I
I
—10
—5
—o
I
5
buoyancy
10
frequency
392
0A425B . 008
log
(dissipation rate)
—5
—4
I
I
(cgs]
-2
—3
I
50
I
100
-
I
I
I
150
I
•
I
I
E
If
4)
I
a
a)
I
I
I
—10
—5
—0
5
10
buoyancy frequency
393
DA425B.009
log
(dissipation
—4
—5
rate)
(cgs]
I___
—2
—3
l
I
50
100
I
150
I
E
I
a
03
250
300
-
I
350
I
I
I
I
—10
—5
—0
I
5
10
buoyancy frequency
394
DA425C .001
log
(dissipation rate)
—5
—2
—3
—4
(cgs]
I
I
I
I
—10
I
—5
I
—O
I
5
10
buoyancy frequency
395
0A425C. 002
log
(dissipation rate)
—2
—3
—4
—5
(cgs]
I
100 -
150
-
Hf
300
350
I
I
—10
—5
I
—0
I
5
10
buoyancy frequency
___
396
0A425C . 003
log (dissipation rate)
—5
50
—2
—3
—4
(cgs]
I
I
100
150
E
I
250
300
350
I
—10
—5
—0
I
5
I
10
buoyancy frequency
_____-397
0A425C.004
log (dissipation rate)
-
—2
—3
—4
—5
tcgs)
If -
1
150
-
a
I
350
I
I
—1.0
—5
I
—0
I
5
10
buoyancy frequency
398
0A425C 005
.
log
—5
(dissipation rate)
-2
—3
—4
fcgs]
150
-
200
-
1
-
350
0
5
10
buoyancy frequency
-
399
DA425C.006
log
(dissipation
I
-
(cgs]
—2
—3
—4
—5
rate)
I—
I
100-
I
I
I
150
I
E
I
I
250
I
300
350
I
I
I
—10
—5
—0
I
5
10
buoyancy frequency
400
0A425C.007
log
(dissipation rate)
[cgs]
50
100
150
E
I
—10
I
I
—5
—o
5
buoyancy
10
frequency
_
______
401
DA4250 .001
log (dissipation rate)
—2
—3
—4
—5
(cgs]
50100-
I
150
I
200
a
I
03
I
I
I
300
I
I
350
I
—10
I
I
—5
—0
5
10
buoyancy frequency
402
0A4250 002
.
log
(dissipation rate)
—3
—4
—5
[cgs]
—2
50
100
150
E
C 200
.1-J
a
03
250
300
350
—10
—5
—0
5
10
buoyancy frequency
___
____________________
___________________________________________
403
0A425D 003
log (dissipation rate)
.
—2
—3
—4
—5
(cgs]
±—
50-
1
I
I
I
100
I
j5Q
I
I
-
I
a
250
I
300
I
I
I
I
I
I
—10
—5
—0
—
I
5
buoyancy
I
10
frequency
404
0A4250 . 004
log (dissipation rate)
—5
—3
—4
[cgs)
—2
I
I
350
I
—10
I
I
—5
—o
I
5
buoyancy
I
10
frequency
405
0A4250.OO5
log
(dissipation rate)
—2
—3
—4
—5
(cgsl
50
100
150
E
C 200
.1J
a
a,
250
300
350
—10
—5
—0
5
10
buoyancy frequency
C)
CD
CD
-3
0
(
0
0
(31
W
0
0
(a)
0
U)
EU
0
0
CU
depth,
m
0
(31
0
0
0
(31
CU
(0
C,
CD
0
WQ)o)
00
ctrt)
U)
U)
$.J.
0.
(31(0
_
407
0A425D 007
.
log
rate)
—2
—3
—4
—5
(cgs]
50
100
150
E
200
250
300
350
—1.0
—5
—o
5
10
buoyancy frequency
408
0A425E .001
log
(dissipation rate) [cgs]
—5
—2
—3
—4
50
100
150
E
a
a,
250
300
350
—10
—5
—0
5
10
buoyancy frequency
409
0A425E 002
.
log (di.ssipati.on rate)
—2
—3
—4
—5
[cgs]
50
100
150
E
5200
0.
a,
250
300
350
—10
—5
—0
5
10
buoyancy frequency
410
0A425E.003
log
(dissipation rate)
—2
—3
—4
—5
(cgs]
50
100
150
E
a
03
V
250
300
350
—10
—5
—0
5
10
buoyancy frequency
411
DA425E.004
log (dissipation rate)
'-.3
—4
—5
(cgs]
—2
50
100
150
E
0.
a,
'0
250
300
350
—10
—5
—o
5
10
buoyancy frequency
0
CD
.0
CD
1
-h
(.)
0
c
0
(31
0
0
0
(3)
LA)
0
0
Li)
0
01
0
0
Ct)
depth.
m
0
(31
0
0
0
U)
rn
0
0
I-,
WO)
0
(0
CD
(ii
0
rt)
D
I-I.
a)
e-J.
(I)
U)
0.
0
-a
413
0A425E.006
log
(dissipation rate)
—2
—3
—4
—5
(cgs]
50
100
150
E
5200
250
300
350
—10
—5
—0
5
10
buoyancy frequency
414
0A425E 007
.
log (dissipation rate)
—3
—4
—5
(cgs]
—2
50
100
150
E
r
4-I
a
200
0.)
D
250
300
350
—10
—5
—O
5
10
buoyancy frequency
415
0A425F .001
log
(dissipation
—5
—4
rate)
[cgs]
—2
—3
50
100
150
E
250
300
350
—10
—5
—o
5
10
buoyancy frequency
416
0A425F. 002
log
(dissi.paUon
(cgs]
—2
—3
—4
—5
rate)
50
100
150
E
a
250
300
350
—10
—5
—0
5
10
buoyancy frequency
417
0A425F. 003
log
(dissipation rate) (cgsl
—2
—3
—4
—5
50
100
150
E
C 200
.1-I
a,
250
300
350
—10
—5
—0
5
10
buoyancy frequency
418
0A425F.004
log
(cli.ssipati.on
—5
rate)
—3
—4
(cgs]
—2
50
100
150
E
r200
a
03
250
300
350
'-10
—5
—0
5
10
buoyancy frequency
419
0A425F.005
log
(dissipation
—5
rate)
—2
—3
—4
[cgs]
50
100
150
E
200
U,
250
300
350
—10
—5
—0
5
10
buoyancy frequency
0
UI
0
0
U)
0
:3
0
0)
I-i.
Cl)
U)
0.
(0
l-J
I-'
Wa;
I
C)
:3
CD
Co
CD
-3
C)
0
0
VU
-h
0
(3)
VU
CD
0
0
(a)
m
:3
Dl
0
0
(31
0
0
01
W
depth.
0)
0
0
fl
(SI
Ri
0
CD
.0
CD
-,
-h
C.)
Di
0
0
(31
0
UI
0
0
(31
UI
0
0
UI
0
01
0
0
RI
depth.
m
0
(31
0
0
0
(3%
0
0
I-,
Wa)
CD
-n
UI
F')
D
0
I.J.
rP
Dl
U)
U)
s-i.
0.
0
ND
C)
CD
C
CD
-,
-h
C-)
0)
0
C
a
0
(31
0
(31
0
0
w
0
0
w
0
(31
ru
0
0
depth,
m
0
U)
0
0
0
(31
LB
ru
>
D
CD
0
0
0 a)
J
0)
i.J.
I-'
I
U)
U)
0.
ID
N)
N)
C)
CD
C
.0
CD
-h
C,
0)
0
C
0
Ui
0
U)
I
0
I
0
Ui
La)
0
0
LU
0
(31
P.)
0
0
it)
depth,
m
0
01
0
0
0
ID
C-)
CD
P.)
0
0
0
I-,
WW
>
D
UI
rt
Cl)
I-i.
I
I.J.
U)
0.
,Lo
CD
C
.0
CD
C-)
0)
'<
0
c
0
('I
0
01
0
0
En
o
0
w
0
ru
Ui
0
0
depth.
m
0
Ui
0
0
0
Ui
C-)
CD
I-'
Wa)
0
0)
(fi
(I)
e.J.
C.
10
L&)
0
0
(31
It)
>
D
1<
C)
CD
Co
CD
-,
-h
Di
0
C
a.
0
0
(31
W
0
0
W
0
(31
ru
0
0
iu
depth,
m
0
(31
0
0
0
01
ID
C-)
CD
0
30
WO)
rtPJ
(I)
U)
(C
e-J
0•1
426
0A425G.005
log
(dissipation rate)
—5
—2
—3
—4
[cgs]
50
100
150
E
03
250
300
350
—10
—5
—0
5
10
buoyancy frequency
w
427
0A425G.006
(cgs]
log (dissipation rate)
—2
—3
—4
—5
50
100
150
E
C 200
4-I
a
a)
V
250
300
350
—1.0
—5
—0
5
10
buoyancy frequency
428
0A425G.007
log (dissipation rate)
—5
—4
[cgs]
—2
—3
50
100
150
E
200
0.
03
V
250
300
350
—10
—5
—o
5
10
buoyancy frequency
r)
:3
CD
.0
CD
-3
C,
a)
0
c
0•
0
Ui
0
0
0
(31
w
00
0
(31
0
0
depth,
m
0
(31
0
0
0
(31
'—a
to
CD
r1
I-,
:3
0
rP
Dl
Cl)
U)
0.
I-'
0
0
0-I
rt)
0
N)
430
0A426A 002
.
log (dissipation rate)
—3
—4
—5
(cgsl
—2
50
100
150
E
C
200
V
250
300
350
—10
-5
—o
5
10
buoyancy frequency
431
0A426A 003
.
log
(dissipation
—2
—3
—4
—5
(cgs]
rate)
50
100
150
E
250
300
350
—10
—5
—0
5
10
buoyancy frequency
0
(D
C
.0
CD
1
-K
(1
a)
0
C
0
0
0
0
0
0
0
Ui
0
0
0
0
0
0
0
rt
0)
(0
CD
I-,
Li)03
I
U)
0
0
rt)
0
N,)
C-)
CD
.0
CD
-3
-h
C,
:3
03
0
0•
0
(3)
0
0
0
Lfl
alto0
0
0
I
I
ID
C,
CD
rt
:3
0
rP
a-a.
(I)
U)
0
0
IV
01
0
0)
IU
I—'
0
0
Cal
m
0
0
(3)
depth.
In
0
0
0,
ru
0
434
0A426A.006
log
(dissipation
—5
—4
rate)
—3
[cgs]
—2
50
100
150
E
a
200
a,
250
300
350
—10
—5
—o
5
10
buoyancy frequency