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THE OCEANIC PERIOD OFF THE CENTRAL
iiRQY ANTHONY SOLUM
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A COMPARISON OF OCEANIC PARAMETERS |
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DURING THE OCEANIC PERIOD OFF THE |
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CENTRAL COAST OF CALIFORNIA |
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by |
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Elroy Anthony Soluri |
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s Advisor: S. P. Tucker |
MAR 1971
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TE SCHOOL 93940
A Comparison of Oceanic Parameters During the Oceanic Period Off the Central Coast of California
by
Elroy Anthony Soluri Lieutenant Commander, United States Navy E.S., New York State Maritime College, 1962
Submitted in partial fulfillment of the requirements for the degree of
MASTER OF SCIENCE IN OCEANOGRAPHY
from the
NAVAL POSTGRADUATE SCHOOL March 1971
scroot
ABSTRACT
A detailed examination of the coastal region between Monterey Bay and San Francisco Bay was conducted from 1 to 6 November 1970. Measurements of temperature, salinity, sound velocity, beam transmittance , Coulter particle size distri- butions, chlorophyll a, phosphate, and oxygen were obtained at 86 stations from the surface to 100 meters. The data collected are presented in the form of contours in horizontal and vertical sections and depth profiles which indicate:
1. a distinctive off-shore region, which exhibited high values of oxygen, chlorophyll a, and particle count and low values of temperature and beam transmittance was present;
2. the areas with the highest standing crop are inshore, within five miles of the coast;
3. a peak in the size distribution of particles did not always occur in the surface layer within the observable range of diameters of from 1.59u to 32. Ou;
4. a plot of oxygen versus phosphate yielded a slope of yg-at/1 P04
-2.4
ml/1 02
5. there appears to be no simple correlation in the scatter of points plotted for chlorophyll a as a function of oxygen ; and
6. a plot of chlorophyll a versus beam transmittance indicates similarly that no simple relationship between these parameters exists.
TABLE OF CONTENTS
I. INTRODUCTION 9
A. PURPOSE 9
B. MARINE CLIMATOLOGY 9
C. PREVIOUS INVESTIGATIONS 11
II. OBSERVATIONAL PROCEDURES 14
A. STATION LOCATIONS 14
B. DATA COLLECTION 14
C. INSTRUMENTATION 18
1. Sound Velocity-Temperature- Depth Probe 18
2. Beam Transmissometer 18
3. Particle Counter 18
4. Fluorometer 19
D. DATA REDUCTION 19
III. DATA ANALYSIS 22
A. INTRODUCTION . 22
B. DESCRIPTIVE TECHNIQUES . 22
1. Horizontal Contours 22
a. Temperature 23
b. Phosphate 25
c. Oxygen 26
d. Salinity 26
e. Chlorophyll a 27
f. Beam Transmittance 29
g. Particulates 31
2. Vertical Contours 32
a. Sections A and B 32
b. Section E 34
c. Section G 35
d. Section I 35
e. Section K 36
f. Section M 37
3. Depth Profiles 37
4. Graphical Comparisons 38
IV. CONCLUSIONS 54
V. SUGGESTIONS FOR FUTURE RESEARCH 56
TABLE I - Fortran IV Computer Program 214
Table II - Station Data 223
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BIBLIOGRAPHY 360
INITIAL DISTRIBUTION LIST 362
FORM DD 1473 368
LIST OF TABLES Table
I Fortran IV Computer Program for Data
Analysis 214
II Station Data: Location, Time, Date, Depth,
Weather, Sound Velocity, Temperature,
Transmittance , Oxygen, Phosphate and
Chlorophyll 223
III Particle Size Distribution 309
LIST OF FIGURES
Figure
1. Cruise Chart and Approximate Station
Locations 15
2. Arrangement of SV/T/D Probe and Beam
Transmissometer 16
3. U.S. Coast Guard Airborne Radiation
Thermometer Temperature Chart for
October 1970 24
4. Location of CALCOFI and NPS Stations in
Monterey Bay 28
5. Particle Size Distribution Observed at
Station E-2 at 100 m 40
6. Particle Size Distribution Observed at
Station A-6 in Monterey Bay, from
0-80 m 41
7. Particle Size Distribution Observed at
Station B-l in Monterey Bay, from
0-14 m 43
8. Particle Size Distribution Observed at
Station B-6 in Monterey Bay from
0-75 m 44
9. Particle Size Distribution Observed at
Station K-9 Off Point Montara from
0-80 m ■ 45
10. Chlorophyll a as a Function of Oxygen 46
11. Beam Transmittance as a Function of
Chlorophyll a 48
12. Oxygen as a Function of Phosphate with
Pytkowicz' Empirical Relation
Superimposed 49
13. Best Fit Curve Superimposed for Oxygen
as a Function of Phosphate 50
14. Beam Transmittance as a Function of
Total Particle Count 52
15. Beam Attenuation Coefficient (Alpha)
as a Function of Cumulative Particle
Volume 53
16-45 Horizontal Contours for 0, 10, 20, 40 and 75 m Depths for Chlorophyll a Oxygen, Beam Transmittance , Phosphate, Temperature, and Total Particle Count 58
46-87 Verticle Sections Temperature Oxygen,
Phosphate, Chlorophyll a, Total Particle
Count and Beam Transmittance for
Station Groupings A, B, E, G, I, K,
and M 88
88-171 Station Profiles of Oxygen, Phosphate Density Chlorophyll a, Cumulative Particle Volume and LN Transmittance 130
ACKNOWLEDGEMENTS
I wish to extend my sincere gratitude to the many people who helped put this thesis together. First, I wish to thank Stevens P. Tucker, under whose direct supervision I worked, who willingly gave of his time and technical knowledge in enabling me to overcome the difficulties confronted while writing this report. Secondly, I wish to thank Professor Eugene Traganza for his help and understand- ing. Sincere thanks go out to all the members of OP9 4 and several of OP02. Without their assistance in collecting and analyzing samples during the at-sea period it would
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schedule. I wish also to thank the officers and crew of the USNS DE STEIGUER (T-AGOR-12) and Mr. Jerry Norton of the Oceanography Department who offered invaluable assis- tance both during and after the cruise. Lastly, to my wife, Alice, profound gratitude for her endless encourage- ment and assistance and for the cheerful manner in which she accepted my neglect during the preparation of this report.
I. INTRODUCTION
A. PURPOSE
The purpose of this investigation was to examine the coastal waters off Central California during the oceanic period and to compare the oceanographic parameters measured with those observed previously by Baker during this period and by Labyak and Shepard during the spring upwelling period. In particular it was desired to obtain further knowledge of the spatial and temporal variability of beam transmittance and its relation to other oceanographic parameters in the region.
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were occupied during the period 1-5 November 1970 and 2749 water samples were collected and analyzed.
B. MARINE CLIMATOLOGY
Skogsberg [5] was the first to describe the annual thermal rhythm of the Monterey Bay area in terms of three major seasonal features, namely, the "cold water" phase, the "warm water" phase, and the "low thermal gradient" phase. Bolin [4] later described these features and labeled them as the "upwelling," the "oceanic," and the "Davidson Current" periods.
The upwelling period is the most persistent of the three periods. It is usually initiated in the latter part of January by a change in the wind direction from the south
to north-northwest. This change gives rise to a transport of water away from the coast and its subsequent replacement by colder, subsurface layers from depths which depend on a number of factors but do not exceed about 200 m at most.
The major properties of this period are a normal sea surface temperature of 10 to 11°C/ the lowest of the annual cycle, and the absence of clearly defined isotherms.
In September there is a transition period during which the calm of the oceanic period becomes pronounced. As the strong north-northwest wind dies out, the upwelling becomes intermittent and breaks into irregular eddies. The cold, dense, surface water causes the formation of a very sharp thermocline at depths of only a few meters. During this
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observed, the highest of the year. Bolin and Abbot [3] have described the effect of this intermittent upwelling on the plankton volumes observed in the Central California coastal region.
In November the upwelling ceases with the onset of southerly winds. In the surface layers a countercurrent called the Davidson Current is developed. This current normally lasts until late January and serves to reinforce the wind driven circulation. Sea surface temperatures decrease slightly during this period, which is characterized by a weak thermocline depressed to 50 to 100 m.
10
C. PREVIOUS INVESTIGATIONS
Skogsberg (1936) was the first to carry out an intensive investigation of the hydrography of Monterey Bay. His five- year study revealed that the thermal properties of this region are remarkably consistent from year to year.
Bolin (1964) also conducted a five-year study but localized his area of interest to that of the Monterey Submarine Canyon. His results confirm the three-phase annual cycle of the marine climate described by Skogsberg and indicate the variations of parameters such as salinity, oxygen, and plant nutrients during the annual cycle. He found that each of the variables he studied also undergoes an annual cyclic alteration, but that the changes during the oceanic period were less pronounced than those of the upwelling and Davidson periods.
From the mid-1960 's observations of the effects of various oceanic variables on the waters of the Central California coast have been made by the Naval Postgraduate School.
The first of a series of studies was conducted in 1964 by Bassett and Fuminger [8] . They examined the vertical variation of light attenuation within Monterey Bay and its relation to phosphate content, salinity, temperature and light scattering. They did not, however, find clear-cut relationships between relative volume scattering coefficients, density, and phosphate for the stations they occupied.
11
Yeske and Waer [7] in 1968 examined in some detail the temporal variation of oceanic parameters on light attenua- tion at two stations within Monterey Bay during a complete lunar cycle. Their measurements indicated among other things that approximately 96% of the suspended particles contributing to this attenuation were less than 8.5u in diameter.
Labyak [6] in 1969 was the first to investigate in detail the beam transmittance of the coastal waters between Monterey Bay and San Francisco Bay during the upwelling period. In general he found fairly good correlation between beam transmittance, temperature, and particle count. He found poor or no correlation between these, however, in the near-shore and upwelling areas. He observed that approxi- mately 90% of the particles were less than 12y.
Baker [2] in November 1969 made further observations of the optical properties of these coastal waters during the oceanic period. He also found a fairly good correlation between beam transmittance and particulate count but found no strong relationship between beam transmittance and temperature. He concluded that approximately 74% of all the particulate matter observed was less than 6.2y in diameter.
Shepard [1] in May 19 70 was the first to conduct a com- prehensive survey of the variation of oceanic parameters during the upwelling period. He dealt not only with the effects of temperature and particle count on light
12
attenuation, but also considered the effects of oxygen, phosphate, and chlorophyll a on beam transmittance. His work contains a review of these parameters and their observed variations along the California coast. He concluded that upwelling during May 19 70 was taking place on a larger scale than that observed the previous year by Labyak. He found a fairly good relationship between beam transmittance and particulate matter.
13
II. OBSERVATIONAL PROCEDURES
A. STATION LOCATIONS
During the period 1-6 November 1970, station data were collected aboard the USNS DE STEIGUER (T-AGOR-12). The study area, the coastal area between Monterey Bay and San Francisco Bay, is depicted in Figure 1 along with the approximate locations of the eighty-six stations occupied. The exact position, time, and weather conditions for each station are presented in Table II. These stations were selected to cover approximately the same areas and stations occupied by Shepard [1], Baker [2] and Labyak [6]. Stations vers occupied in reverse alphabetical and n\HT©rica] ordeT* starting with station M-6 at the entrance to San Francisco Bay and ending with station A-l in Monterey Bay. Station positions were determined every 15 minutes by loran A, radar, or visual bearings.
B. DATA COLLECTION
At least two hydrographic casts were made at each sta- tion. However, at 5 7 of the stations occupied, near bottom samples were also obtained by means of a third cast. On the first cast the sound velocity/temperature/depth probe and the beam transmissometer were arranged so as to allow the beam transmissometer to pass through undisturbed water. Figure 2 is a sketch of this arrangement. During the lower- ing readings of depth, temperature, sound velocity, and
14
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HYDRO- WIRE-
ELECTRICAL CABLE
SV/T/D PROBE
BEAM TRANSMISSOMETER
Figure 2
16
beam transmittance were recorded for selected depths down to 100 m. These observed values/ along with station weather data, are presented in Table II, which begins on page 223. Continuous readings were recorded as the cast was returned to the surface. Expendable or mechanical bathythermographs were taken at many stations to provide an additional measure of the temperature.
Graphical plots of temperature, sound velocity, and beam transmittance as functions of depth were made, and, on the basis of these, optimum positions for the Nansen bottles were determined. The water samples collected were divided into five groups: (1) 250 ml for oxygen analysis, (2) 100ml for phosphate analysis, (3) 320 ml for salinity determina- tion, (4) 120 ml for particulate cinalvsi^g , an^ (5) t-h<? remainder for chlorophyll a determination. All samples taken, with the exception of those for chlorophyll a, were analyzed aboard the DE STEIGUER. The chlorophyll a samples were filtered through Whatman GF/C glass filters with a small amount of magnesium carbonate added to prevent acidity. The filters were then folded in half, sealed in plastic bags, and immediately frozen. These samples were kept frozen until the analysis was carried out about four weeks later.
The third cast was made using a bottom sampler [6] to collect samples for phosphate, oxygen, salinity, and partic- ulate determinations.
17
C. INSTRUMENTATION
1. Sound Velocity /Temperature/Depth Probe
A Ramsey Engineering Company MK-1 Sound Velocity/ Temperature/Depth (SV/T/D) probe was utilized at nearly all stations curing the cruise. This instrument is similar to the one described by Labyak [6].
2. Beam Transmissometer
A Marine Advisors model C-2 beam transmissometer ("Alpha-meter" or "C-meter") was used throughout the entire cruise. This instrument is similar to that described by Yeske and Waer [7] and is the one used by Labyak [6], Baker [2] and Shepard [1] . A tungsten lamp was used as the light source, and the optical pass-band was determined by a com-
kinaf i rS -P T-T ■ *- J — « /r"1 — > ~ ^ o ~ v ^» 4- 4- r> /-• _ 1 O -f A 1 4- /^ v o
dominant wavelength of approximately 5 3 8.8 nm.
The instrument was zeroed prior to each cast and never lowered below 5 meters from the bottom.
3. Particle Counter
A Model T Coulter counter was used to carry out the. analysis for particulate matter in the seawater sample. It
The total beam attenuation coefficient c = (a+b) is given by c = - (l/l)dl/dx, where I is the radiant flux incident on a thin layer of thickness dx normal to the beam, and dl is the radiant flux lost to the beam due to the effects of scatter- ing and absorption. If this equation is integrated, I (x) = l(0)e~cx, where I (x) is the radiant flux of the beam at a distance x in the direction of propagation from a point where the flux has the value 1(0). Normally x is taken to be 1 m, so that 1(1) =I(0)e~c. The transmittance_per meter, T, is then defined as the ratio T = I(1)/I(0) = e c. Sometimes the term "beam attenuation," A, is used. It is related to the transmittance: T+A=l. It is to be emphasized that c is wavelength-dependent, i.e. c = c(A).
18
is the same instrument used and described by Shepard [1] . Electrical noise prevented the use of Channel 14 at the small-size end of the range. With the lOOu diameter orifice used the range of sizes detected was from 1.5u to 32. Oy. 4 . Fluorometer
A Turner Model 111 Fluorometer was utilized in the determination of chlorophyll a. This instrument is the one described and used by Shepard [1] .
D. DATA REDUCTION
A Fortran IV program for the Naval Postgraduate School's IBM 360 computer, the core of which was drafted by LCDR Miller and LT Garcia in 19 70 was modified somewhat to calculate values of salinity, oxygen and phosphate. A copy of the program is presented as Table I. It is capable of processing 9 stations per run with a maximum of 40 cards per station. Statement cards are located throughout the program to provide an indication of what each section does. The program contains seven subroutines, four of which are used to calculate salinity, oxygen, phosphate and density; a fifth one prints the station heading, and the last two interpolate the Nansen cast data and SV/T/D - transmission data to standard depths. SV/T/D, transmission, particle, and chlorophyll a data are read directly into the program and no calculations other than the interpolations are carried out on this information. The computer output is presented in Tables I, II, III.
19
A draw subroutine was utilized to plot depth profiles for individual stations for the following parameters: density, oxygen, phosphate, chlorophyll a, cumulative par- ticle volume, and alpha = [-In (transmittance) ] . Since the values of cumulative particle volum-3 covered a large range, it was difficult to choose a common scaling function and at the same time avoid the loss of detail by the crowding of points along one axis. Therefore, a common scale was used only for individual station lines, e.g. 1-1 to 1-9 rather than for all 86 stations.
The scales used in each case are depicted in the heading format of the individual station depth profiles.
The amount of chlorophyll a present was determined from
a procedure ouLIineu by Holm— Hansen, et al , [14] using
f luorometeric techniques. One can also determine the amount
of phaeo-pigments present from this procedure; I did not,
2
however, make the actual calculation. In the analysis of
chlorophyll a carried out by Shepard [1] it was assumed that no phaeo-pigments were present; I did not make this assump- tion.
A program for a WANG Model 360 K desk calculator was used to solve the following equation for each sample:
3 T mg chlorophyll a/m = F — y (R ~ RA)
mg phaeophytin/m = FD -^ZJ ^tRa ~ RB^
20
where F = door factor
RB = fluormetric reading before acidification
R, = fluormetric reading after acidification
t = the ratio of R„/R,
B' A
An attempt was also made to determine chlorophyll a con- centration by means of a continuous flow analysis at several stations while at sea. These attempts were unsuccessful in producing any results that compared with those obtained by individual analysis. The presence of air bubbles in the system was a constant problem, and this was believed to be the cause of our inaccuracies.
In summary., the use of the computer is an ideal, quick and efficient, method of processing large amounts of station data. Although the equation for chlorophyll a is not presently in the program, it could easily be added as an additional subroutine.
21
III. DATA ANALYSIS
A. INTRODUCTION
To depict the distributions of temperature, phosphate, oxygen, chlorophyll a, beam transmittance/ and suspended particle matter during the oceanic period in some detail, horizontal and vertical contours were drawn. In addition, depth profiles of density, phosphate, chlorophyll a, cumulative particle volume, oxygen, and beam attenuation coefficient (alpha) were plotted to facilitate comparisons between these parameters.
The computer outputs of station data, including weather, pcciuicn, oimc , «ui.c, an^ c^gcivcu values arc -ic^c- in Table II.
Table III contains a listing by oceanographic station of the particulate count data observed for each Coulter counter channel for each depth sampled.
Graphical comparisons were also made between various pairs of parameters to determine what quantitative relation- ships, if any, exist between them.
B. DESCRIPTIVE TECHNIQUES 1. Horizontal Contours
Horizontal contours at depths of 0, 10, 20, 40, and 75 m were drawn. The depths were chosen for ease of com- parison with Shepard's analysis. These contours will be discussed in order from the surface to 75 m, according to
22
the following list: temperature, phosphate, oxygen, chlorophyll a, beam transmittance , and total particles.
The extreme horizontal isopleths for all parameters did not always occur at the surface, but they were generally within the upper 20 meters. Some predominant features were observed at the northern end of Monterey Bay near Santa Cruz (Station B-l) , in an area approximately 15 nmi off Point Montara (Station K-9) , in an area approximately 10 nmi off Point Ano Nuevo (Station G-7) , and to the west of the entrance to San Francisco Bay.
These features generally persisted down to a depth of nearly 40 meters.
a. Temperature
The surface temperature con •hours fFiaurp l.f>) depict a uniform temperature structure with very weak thermal gradients. The most dominant aspect of this figure is the presence of a cool patch of water off Point Montara. This pool is also shown on the U.S. Coast Guard Airborne Radiation Thermometer chart for October 19 70 (Figure 3) . The average sea surface temperature during this period was 13.45°C, which is in agreement with Bolin's [4] description of the oceanic period. However, the surface was approxi- mately 1°C colder than observed by Baker [2] for a similar period in 1969. The CALCOFI temperature contours for the first half of November 1970 show that the onset of the Davidson Current period had not yet taken place. That is, the surface water was being influenced largely by the cold
23
Figure 3
24
California Current, resulting in a lowered sea surface temperature. There was a decrease in temperature with increasing depth and a general increase seaward. The strongest horizontal gradient appeared at a depth of 75 m off the Monterey Peninsula. The nearly isothermal water observed by Shepard in the northern, inshore portion of Monterey Bay was also observed during this investigation. It is interesting to note that, whereas Baker [2] observed only 6 of 25 Bay stations with temperatures less than 14.0°C, the warmest temperature during my investigation was 13.9°C at Station A-l off Monterey. b. Phosphate
The phosphate contours (Figures 21 to 25) show
exceptions to this were noted: the first was a patch of phos- phate rich water located some 15 nmi off Point Ano Nuevo; and the second, not indicated by the surface contours, was located approximately 15 nmi off Point Montara at Station K-9 within the pool of colder water previously mentioned. Riley and Skirrow [16] observed that autumn blooms are very unpredictable and can arise when a period of autumn winds and cooling surface waters allow phosphates to mix into the euphotic zone. Such mixing may be followed by sufficient stability for rapid plant growth to recommence. The phos- phates decrease with depth. Generally, values of phosphate were fairly uniform throughout the region of interest and much lower than those of the upwelling period. The highest
25
values of phosphate, 2 yg-at/1, first appeared at 75 m. Shepard observed a high of 2.5 yg-at/1 at 40 m.
c. Oxygen
The oxygen contours (Figures 26-30) show four distinct regions, namely the area in the vicinity of K-9 previously described, the region just offshore of Point Ano Nuevo (Station 1-8), the Monterey Canyon (Station B-9) and southwest of the Monterey Peninsula (Station C-3). These regions are "anomalous" in that they are either highly saturated (Station K-9) or under-saturated (Stations 1-8, B-9, C-3) for a given salinity and temperature. All but Station K-9 have a relatively high sea surface temperature. The large concentrations of chlorophyll a and phosphate observed at K-9 may be due to the entrapment of water ohoto- synthetically enriched in oxygen. The best agreement between temperature and oxygen, i.e. low temperature and low oxygen content, was found in the regions between Pigeon Point and Point Ano Nuevo and along the axis of the Monterey Canyon approximately seven nautical miles from shore. The expected decrease of oxygen with depth was generally not observed above about 20 m. At most stations conditions remained fairly constant above about 75 m. The only "anomalous" increase in dissolved oxygen occurred at Station K-9 at depths of from about 10 to 30 m.
d. Salinity
Observed salinity values were compared with the ten year mean values of the California Cooperative Oceanic
26
Fisheries Investigations (CALCOFI) and generally good agree- ment was noted. Using our observed salinities and corres- ponding temperatures, the saturation percentage of oxygen for the four distinct regions mentioned were calculated. 100% saturation of oxygen was assumed to occur at 6.1 ml/1, which is approximately correct for the study area. The maximum observed value of 7.5 ml/1 at Station K-9 gave a saturation value of 117%. At station C-3 southwest of the Monterey Peninsula the value was 69% of saturation, while at B-9 in the Monterey Canyon it was 82%. In the area off Point Ano Nuevo the cruise minimum of 3.72 ml/1 was observed, which corresponds to 64% saturation.
The dissolved oxygen and phosphate values
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V^A^ uUxilUU *_i U J^uuXull Xj'^j tmCiC Ov>ntj->*-4. j_ U-v-a vVa-UJ.1 uUk.u o ^ ^ ^ j- v„ ^ v> i i
a concurrent, independent, CALCOFI cruise of the Hopkins Marine Station. These values were in excellent agreement. In Figure 4 Station 3 denotes the location of the Hopkins CALCOFI cruise station which corresponds most nearly to the time frame of this report. The cross marks the position of NPS Station B-8. The corresponding values of oxygen and phosphate are shown in the figure within parentheses. e. Chlorophyll a
Concentration of chlorophyll a at the surface (Figure 31) was fairly constant from Point Montara south to Monterey Bay and somewhat variable off the entrance to San Francisco Bay. The highest values were observed at Stations M-3 and M-5 outside the entrance to San Francisco Bay, and
27
I22°00' I2I°55' I2I°50'
I22°00'
I2I°55'
I2I°50'
Figure 4. Location of CALCOFI and NPS Stations in Monterey Bay.
28
at station B-l in northern Monterey Bay, just off Santa Cruz. The maximum values of chlorophyll a were generally confined to the upper 10 m, but there were scattered pockets of high concentrations below this level. A patch of unusually high values was observed near Station K-9 at a depth of 40 m.
The high surface value observed at Station B-l still persisted near the bottom. In both cases low light transmission and fairly high values of total particle count are observed. This process may best be explained by a cessation or slackening of upwelling in these areas with the onset of the Davidson Current Period.
Offshore numerical values agree well with Shsr?2rd ' s ob£6rv?.tions but the inshore values ?. re rTenera!My an order of magnitude lower.
f. Beam Transmittance
Beam Transmittance (Trans) contours from the surface to 75 m (Figures 36-40) did not display the effects of coastal turbidity (Trans < 50 %/m) except near the entrance to San Francisco Bay. The northern and southern ends of Monterey Bay were clear (Trans = 80 %/m) areas with a patch of relatively clear water (Trans = 60 %/m) in the vicinity of Monterey Canyon. This is contrasted with the extremely low values of beam transmittance observed for these regions by both Labyak and Shepard during the upwelling period. During the November 1970 cruise the surface trans- mittance values ranged from 50-80 %/m; these are slightly
29
higher than those observed by Baker for a similar period in 1969. The surface contours show two areas where the trans- mission is slightly less than 50 %/m. One of these occurs at station M-5 off the entrance to San Francisco Bay. Station M-5 occupied at 1545 on 1 November 1970. A maximum flood tide of 2.2 kts. occurred at 1100 on 1 November 1970; thus, at the time this station was sampled, slack water conditions existed. The difference existing between the low values on the May 1970 cruise and the relatively higher
values on the November 19 70 cruise may be attributed to the
3 transport of coastal water into the Bay by the flood tide.
The second region where transmission was lower
than 50 %/m was located at Station K-9. Considering the
ri T rrll TJ^1 HOC <■% -P /"\ t^t t •t^-* v. rNVvrvr<*-«V* -^4-/> -n ft /-l r»K 1 ArnnhTrl 1 r> t.t V» "i oVx
occur in that region, one may conclude that the low values of light transmission are the result of the relatively large standing crop. Looking at the successive depths one finds that this condition is confined to the upper 20 m, beneath which the water becomes clearer. A study of the 20 and 40 m contours reveals the effects of shallowness along the inshore portion of the study area. Generally there was a decrease of light transmission with depth along the entire region from Point Montara to Santa Cruz, and even into the northern part of Monterey Bay. The K-station line is unique
3 Further discussion of this tidal effect is to be found in
Shepard (1970) , p. 30.
30
in that high values of transmission (Trans = 90 %/m) are found in the upper 20 m nearshore and below this level off- shore.
g. Particulates
It was found that the November 19 70 maximum particle counts were less than those observed by Shepard but generally greater than those for the November 1969 cruise.
At the surface an extremely strong horizontal gradient is evident near the entrance to San Francisco Bay (Figure 41) .
Two additional areas of high particulate count occurred off Santa Cruz Harbor at Station B-l and off Point Ano Nuevo (Station G-7) . Both of these regions had cor- responding relatively high values for dissolved oxygen and chlorophyll a. Outside these three regions lower counts were observed. Below the surface l£iyer an increase of total particle count with depth was observed between Point Montara and Pigeon Point. There was also a decrease in counts as the distance from shore increased. This is in agreement with the rapid decrease of beam transmittance exhibited in this area. Monterey Bay, except as noted above, was an area of rather low particle count down to 75 m. The 75 m contour depicts the first pocket of high particle count on the wall of the Monterey Bay Canyon at Station A-4. This can be attributed perhaps to the transport of bottom sediments down the canyon.
31
2. Vertical Contours
Vertical sections were drawn for station lines A, B, E, G, I, K, and M (Figures 46 to 87). These station lines were contoured in a fashion identical to that described by Shepard. The contours were drawn to the data at each sta- tion in a given line from the surface to 100 m, except where interrupted by the bottom. Contour intervals were modified in regions of strong gradients to avoid crowding the isopleths .
a. Sections A and B
The influence of the Monterey Submarine Canyon on these parameters is indicated by the upward bulge below 20 m in the contours over the Canyon region and the north and southward spreading at the surface (Figures 46 to 49). Bolin and Abbot [3] noted that the Canyon causes a funneling of deep water into the Bay and a subsequent fanning out at the surface. Two contrasting features are displayed at the northern end of Monterey Bay. At Station A-l the water is oxygen-rich, phosphate-poor with a small standing crop, clear, and of a low particle count. At Station B-l, which is located approximately 3 nmi west-southwest of A-l, the water is oxygen-rich, phosphate-poor, and has a large stand- ing crop (i.e. it has chlorophyll a contents between 0.7 and 1.7 mg/m ) and has a transmission of about 80 %/m and a high particle count. A similar situation was observed by Shepard for the entire northern end of the Bay.
32
Values of beam transmittance between 70 and
90 %/m and relatively low particle count (i.e. about
_3 10 x 10 /2ml) may be observed throughout most of the Bay,
and even over the Monterey Submarine Canyon, except as noted above and within a few meters of the bottom of the Canyon. The rapid change in particle content near the bottom is characterized by a strong gradient in which con- ditions deteriorate rapidly; e.g. particle counts increased at Station A-3 from 5K particles per 2ml to 94K particles per 2ml in a distance of but 10 m. The area at the southern end of the Bay, where transmission is about 80 %/m, may be seen along both the A and B station lines, and the profiles show that this water is being transported northward and is gradually moving toward the northern edge of the Monterey Canyon, where the influence of the bottom on transmissivity begins. This is very probably due to the influence of the Davidson Current. The isotherms below approximately 12.5°C extend across the entire Bay. This is in agreement with
both Labyak's and Shepard's observations. The water of
3 relatively large standing crop (chlorophyll a - 1.0 mg/m )
observed near the surface at Station B-l, spreads out and
sinks to a depth of 40 m at Station B-4. A possible cause
for this is the circular eddy pattern described for northern
Monterey Bay during the oceanic period in the Bay-Delta
Study prepared for the California State Water Quality Control
Board [15, Fig. VI-10] . The eddy would tend to isolate this
feature within the area.
33
b. Section E
The surface waters along the E station line depict high values of beam transmittance and low particle count. These conditions remain unchanged with depth sea- ward of Station E-3. Shoreward of this station, however, at depths below about 15 m, low values of transmittance and high particle counts are found. Sediment disturbance by near bottom currents apparently sharply increases the amount of suspended particulate matter. Bolin [4] observed that, as the Davidson Current starts its northward flow in November, the Coriolis force causes the surface waters to move shoreward, where they sink. The increase in turbidity may result from this downwelling. Generally, the profiles are fairly uniform along the E station line. A contrasting feature is the humping of two oxygen isopleths at Station E-3 (Figure 60) . This possibly may be the result of an error in analysis, since no verification for its existence can be found in the other profiles. A relatively large standing crop (e.g. chlorophyll a) is apparent in the inshore region from the surface to 30 m. Shepard found this to be the region most productive in terms of chloro- phyll a during the May 1970 cruise, whereas the levels were fairly constant during the November cruise. There is, how- ever, good agreement with the observations of beam trans- mission obtained by Baker for this region during November 1969.
34
c. Section G
Station G-7 provides a striking contrast between total particle count and beam transmittance. Extremely high counts are observed with corresponding high values of beam transmittance. Because the other parameters do not indicate: upwelling or a plankton bloom, the high particle counts could possibly be a result of ship's electrical interference not noted during the measurements at sea. The apparent sinking of surface water at Stations G-3, G-4, and G-5 (Figures 6 5 to 67) is a phenomenon also noted by Shepard. Again, the inshore region appears to have a somewhat higher standing crop in the upper 20 m. This is evidenced by a decrease in transmissivity and increased Coulter counts along the sloping bottom. Inshore values of transmission agree well with those of Baker, but the offshore water was generally "clearer" during the November 1970 cruise. There was very little agreement in magnitude with the observations of Shepard.
d. Section I
The profile of oxygen along the I~station line shows an increase of dissolved oxygen content from the coast seaward. This is similar to the profile observed by Baker, which he suggests indicates the presence of the east- ward edge of the southward flowing California Current. A tongue of water having high transmittance and low particle content may be observed (Figures 7 4 and 75) extending shore- ward from Station 1-1 to 1-6, the axis of which is located
35
at about 55 m. The cold temperature of this "clear" water thus gives some verification to the suggestion of Baker that this region is influenced by the California Current. The upward bulge below 20 m in the isopleths of oxygen, chlorophyll a, phosphate, and particle count at Station 1-8 may indicate that some weak, localized upwelling is taking place. The water in the inshore region has low oxygen content, low particulate counts, a high phosphate level and is relatively cold at the surface. e. Section K
As was also the case during the November 1969 and May 1970 cruises, the highest values of dissolved oxygen for the entire cruise were found off Point Montara along the K— station line 'Ficurss 76 to 81^ . ^be h-irrVi vainpR of oxygen, chlorophyll a, and particle count, along with low values of transmission and phosphate, delimit the region where the standing crop was largest for the entire cruise, i.e. between Stations K-8 and K-9. The K-station line is also characterized by the strongest gradients for oxygen, chlorophyll a, total particulate count, and transmissivity . Below the upper 10 m the beam transmittance increases rapidly to a value of 80 %/m at 30 m (Figure 80). At Station K-9 a pocket of water of relatively high chlorophyll a content and high Coulter count is to be noted at a depth of 45 m. Station K-9 was occupied at 0900 hours, and the effect could be due to diurnal phytoplankton sinking. There is some indication of upwelling provided by the sharp rise of the
36
various isopleths in the vicinity of Stations K-7 and K-8.
f. Section M
The "time axis" method used by Shepard to describe the profiles along the M-station lines will be utilized here. Station M-6 was occupied one hour before slack water. The tide was at a maximum ebb when Station M-3 was occupied at 1745 on 1 November 1970. The tidal currents in this region are directed toward the Bay for approximately 3 hours at decreasing velocities until a slack water condition is reached. A similar period is to observed for the onset of the ebb tide until maximum ebb is reached. Thus, stations M-5 and M-4 were occupied during r~v*-i>~-ir>>£ir- of -'nr"rc:'SsiTirT ^irrs"^ ^'^l^cities
Figures 82 to 87 depict the converse of the observations of Shepard, which were for a slack to maximum flood time period. High values of temperature, oxygen, chlorophyll a, and particulate counts coupled with low transmission were observed at Stations M-3 to M-7. The stations occupied after the maximum ebb show a complete reversal in the levels of the above parameters, except at the bottom, where the strong gradients of high particles and low transmissivity were maintained. 3. Depth Profiles
Depth profiles of density, chlorophyll a, phosphate, oxygen, cumulative particle volume, and beam attenuation coefficient are presented in Figures 88 to 171. With few
37
exceptions an increase in cumulative particle volume is associated with a corresponding decrease in transmittance and vice versa. Most of the profiles depict an increase of dissolved oxygen in the upper 20 m followed by a decrease. Phosphate, to the contrary, decreases slightly in the upper 20 m and then increases rapidly below this depth 4 . Graphical Comparisons
To establish numerical relationships between the data observed on the November 1970 cruise and those of Shepard, our data are presented in the same way his are. Simple scatter diagrams were drawn to depict what relation- ships, if any, exist between various pairs of parameters. It should be noted here that, because of the disparity in
vanrfoo <~>f da^a Kofwoon -HV\ci Maw ^^d NOT'
Dtnhcr 1 O "7 fl <-,r-n-i eoc
3 (e.g. chlorophyll a ranged from 0.2 to 10 mg/m , while in
3 November 1970 it ranged from 0.1 to 1.2 mg/m ), November- May comparisons cannot be made over the entire ranges observed.
While working with the Coulter counter, Bader [11] observed that many natural collections of small particles, such as mineral and organic particles suspended in seawater and fine sediments, have hyberbolic cumulative population distributions of the form N = kv , where k and m are con- stants and v is particle volume. He observed further that if log, N is plotted as a function of log1QD, where D is spherical particle diameter, the result is linear with slopes of -3m, which range from 0.88 to 1.45 counts/y for
38
seawater samples from Abaco Bight, Bahamas. For a compari- son with our November 1970 data a log differential population plot was made for the clearest water observed on the cruise, i.e. 92.4 %/m for Station E-2 at a depth of 100 m (Figure 5). This plot indicates a slope of -2.52 for our data. For purposes of comparison Bader's number distribution curve for "wave-agitated seawater masses" [11, Fig. 4] is plotted as a dashed line in Figure 5.
To examine the natural truncation of the large diameter particles plots similar to those of Figure 6 were drawn. Shepard observed a rather abrupt change and dip at approximately 15u for Station A- 6 within Monterey Bay. This station was again plotted to see if such a change was present foi bhe November data. No abrupt changes for this station or for Stations B-l, B-6 and K-9 were noted (Figures 6 to 9). A decrease in particle count with an increase in diameter was the trend in all cases. The largest count plotted occurs at Station K-9 at a depth of 30 m for par- ticles with a diameter of 1.59y. Points where crossovers occurred were compared with the vertical profiles in an attempt to explain how this feature fits into the general station trend. For Station A- 6 (Figure 6) this crossover occurs at 1.5K counts/2 ml and a diameter of 7.5y for the 20, 35, 80 m curves. The depth profile for this station shows the area to have high values of transmissivity (70 %/m to 80 %/m) , low particle count, relatively low values of chlorophyll a, and increasing values of phosphate. The plot
39
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41
for Station B-l (Figure 7) shows two crossovers. The first occurs at 4K counts/2 ml and 5y; the second, at 200 counts/ 2 ml and 13y. The vertical contours show this to be an area of relatively high values of chlorophyll a and phosphate, low transmittance , and high Coulter count. Station B-l was occupied at 2200 hours; thus, the first point is possibly due to the presence of phytoplankton at the surface and the second the result of bottom sediment. Figure 8 reveals a slight peak in the surface curve at 2.52y. All the curves from 0 to 75 m cross at approximately 200 counts/ 2ml and a diameter of 6.4y. The profiles indicate that generally the values of chlorophyll a, phosphate, and beam transmittance increase with depth. The particle size dis- tribution for Station K— 9 (Figure 9) depicts irreaular curves for 0, 10, 30 m and a smoothing to 80 m. These possibly indicate two phytoplankton populations of charac- teristic sizes 3y and 8y. The vertical profiles reveal that the upper 30 m of this station is an area of high particle count and low transmissivity .
Chlorophyll a was plotted as a function of oxygen for more than two hundred points (Figure 10). These points consist of data from both inshore and offshore stations and include the high and low values of oxygen previously mentioned. No clear-cut relationship is apparent between these two parameters. Relatively high values of chlorophyll a can be seen for both high and low values of oxygen. Margalef [13] suggests that high concentrations of
42
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chlorophyll a associated with low oxygen may be a result of the inactivation of chlorophyll a as phaeophytin. One feature occurring both for the May and November 1970 data is the absence of chlorophyll a where dissolved oxygen levels were below 2 ml/1. This suggests that perhaps 2 ml/1 is the lower limit of oxygen required to support the production of chlorophyll a.
Beam transmittance as a function of chlorophyll a was also plotted using data from the Monterey Bay area and several of the northern stations. Figure 11 again reveals no apparent correlation between parameters. High values of chlorophyll a can be observed at both high and low values of transmissivity . The indication here is that a knowledge
enough to determine the corresponding value of beam trans-
4
mittance. That is, factors besides chlorophyll are sig- nificant in contributing to light attenuation.
Pytkowi.cz [10] recorded various slopes in oxygen vs. phosphate plots for a period before upwelling, at the onset of upwelling, and after it had been established. He assumed the changes in slope to be the result of a mixing of water masses characterized by varying amounts of phosphate and oxygen. Figures 12 and 13 represent plots of oxygen as a function of phosphate for the same stations plotted by Shepard, namely, J-l, J-2, K-l (inshore) and L-l, K-10, 1-1 (offshore) . The plot reveals that fairly uniform conditions existed at all these stations. Pytkowicz's best fit for his
47
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50
September data for Oregon coastal waters is represented by the heavy .line. Figure 13 represents a best fit for the November 19 70 data.
Scatter diagrams were also constructed to investigate if a relationship between particulate count and light trans- missivity exists.
Figure 14 is a plot of beam transmittance vs. the log,n (total particle count per 2 ml) . All data from all the stations in the A, B, K, L, and M station lines were plotted. No simple, linear relationship is apparent from this figure. However, for the narrow range of values observed and plotted, Figure 14 is not unreasonable in that a trend toward lower transmission with increase in counts is indicated.
Fignrp 1 5 J s a plot of the beam attenuation coefficient
2/3 (alpha) versus (cumulative particle volume) f A poor
correlation was exhibited between these two parameters. Th<5
plot shows that, in general, low values of alpha (high
transmissivity) are associated with low total particle
volumes (or projected particle area) per 2 ml sample. With
a larger range of beam transmittance and cumulative volume
it appears that a better correlation between these parameters
could be reached.
51
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52
IV. CONCLUSIONS
This study represents a continuation of a series of surveys being conducted by the Naval Postgraduate School and others off the Central California coastal region. For ease of comparison the analysis of data was approached in a quasi-synoptic manner. This method provides a subjective aid to the understanding of the processes taking place during the oceanic period. From the data presentations it was concluded:
1. The study area during the November 19 70 cruise indi- cates a distinctive offshore region located approximately
15 nmi off Poirt Montara which exhibited inw surfcics temperatures and beam transmission, and high values of dissolved oxygen, Coulter counts, and chlorophyll a.
2. The average sea surface temperature during the period 1-6 November 1970 was 13.45°C, approximately 1°C lower than that for 7-14 November 1969.
3. The Monterey Bay area exhibited high values of transmissivity (80 %/m) during the cruise period. This is in contrast to the low values (10 %/m) observed during the May 1969 and 1970 cruises and the slightly lower values observed during the cruise of November 1969.
4. The areas having the highest standing crop in terms of chlorophyll a are located within 5 nmi of the coast.
54
Offshore all the observed parameters are fairly constant except as noted in (1) above.
5. The spread of particle diameters counted was from 1.59 to 25.4 ]i .
6. A poor correlation between cumulative particle volume and the beam attenuation coefficient seems to exist.
7. Most of the surface waters were 100 % saturated with respect to dissolved oxygen. The area off Pt. Montara is supersaturated. Three regions, off Point Ano Nuevo, along the axis of the Monterey Canyon, and southwest of the Monterey Peninsula were undersaturated
8. The tidal currents in the vicinity of the entrance to San Francisco Bay definitely affect the variability of
observed by Shepard.
9 . Ocean water having high values of beam transmittance (80 %/m to 9 0 %/m) and low particle counts was observed at the seaward ends of the station lines at depths of 40 to
65 m. It appears that these stations are influenced by the California Current.
55
V. SUGGESTIONS FOR FUTURE RESEARCH
There is a continuing need for both raw and processed data for the coastal region between Monterey Bay and San Francisco Bay. The Central California coast is blessed with many natu^il resources , including a pleasant year-round climate and unlimited recreational facilities. These resources encourage both tourism and rapid population growth. The ever increasing number of people in the area makes it urgent to improve and develop coastal waste disposal facilities. The region includes the Sacramento River system, the largest in the state, and the Salinas River, both of
. ,1-. -I -*V* « •«»-* d~* - -' ^ 4- ^ i-'K^. ^ ^, -, T/r ,' 4-W 4- V-> t <— tw m-»>-*/^ 4-V\/^ -Pa*I 1 /->tt *» v» rr
recommendations are made:
Coastal water investigations should be continued to include the Davidson Current period, that is, the period from late November through January.
Values of phaeophytin for the November 1970 cruise should be calculated so that the pigment-to-oxygen ratios may be explained in terms of the inactivation of chlorophyll a as phaeophytin.
Continuous flow determinations of chlorophyll a should be made. This will require the installation of a bubble trap to remove the source of error we experience. These
56
determinations should be conducted to concur with airborne spectrophotometry analyses.
The density profiles for this period should be examined to determine the effects of advection on the water column. These should be examined further to observe what correlations, if any, between density, beam transmission, and particulate maxima exist.
Finally, enough data is presently available so that an investigation into possible relationships between multiple parameters may be conducted. Several regression and corre- lation programs are available for use on the IBM 360. These are listed in the IBM Scientific Subroutine Package.
57
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131
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FIGURE 90
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FIGURE 91
133
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Depfh Profiles
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FIGURE 92
134
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FIGURE 93
135
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FIGURE 94
136
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5.0
DENSITY
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40
60
80
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FIGURE 95
137
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FIGURE 96
138
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(A)
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(°)
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20
40
60
80
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FIGURE 97
139
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DENSITY
CHLOROPHYLL
PHOSPHATE
OXYGEN
(X)
(A)
(*)
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Di2
20
40
60
80
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FIGURE 98
140
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FIGURE 99
141
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142
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(0)
.0
30.0
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20
40
60
80
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Depth Prof
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FIGURE 101
143
5.0
STATION B4
DENSITY
25.0
CHLOROPHYLL
m
1^0
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PHOSPHATE
(A)
2.5
Ui
2.0
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(°)
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201
40
- LN TRANSMITTANCE
(0)
1.0
30.0
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FIGURE 102
144
J
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0.
ui
:-
5.0
STATION B5
DENSITY
25.0
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(*)
UP
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(*)
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2.0
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(o)
10.0
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30.0
20
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(0)
1.0
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40*
60
80
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FIGURE 103
145
FIGURE 104
146
STATION U7
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DENSITY CHLOROPHYLL PHOSPHATE
25.0
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(A)
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(°)
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LN TRANSMITTANCE__J0] JL0.
pATTiaFToLTlME^uM^^^
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10C
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FIGURE 105
147
STATION B8
5.0
DENSITY
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(X)
25.0
1.0
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(A)
2.5
2.0
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(°)
10.0
o 0
10C
.2
- LN TRANSMITTANCE
(0)
30.0
Depth P r o f i I
e s
FIGURE 106
1.0
PARTICLE VOLUME (CUM.V+) 150.0
148
S T A T I O N B9
5.0
DENSITY
25.0
.2
CHLOROPHYLL
(X)
L0_
0- UI
O
.5
2.0
.2
30.0
PHOSPHATE
(A)
OXYGEN
(°)
- LN TRANSMITTANCE
(0)
2.5
10.0
1.0
PARTICLE VOLUME (CUM.)f+) 150.0
80
Depth P r o f i I
e s
FIGURE 107
149
J
I
o. a
40
60
80
10C
5.0
A.
.5
2.0
.2
30.0
STATION BIO
DENSITY
25.0
•i
CHLOROPHYLL PHOSPHATE
(X)
1.0
OXYGEN
2.5
JOJL
-LN TRANSMITTANCE
(0)
1.0
PARTICLE VOLUME (CUM.)f+) 150.0
[1
tl
D e
I h
f i I
e s
FIGURE 108
150
S T A T I O N B11
a. ui
a
5.0
DENSITY
25.0
.2
CHLOROPHYLL.
(X)
^0.
.5
PHOSPHATE
(a:
2.5
2.0
OXYGEN
(°)
}££_
.2
30.0
LN TRANSMITTANCE
(0)
1.0
PARTICLE VOLUME (CUM.)f+) 150.0
20
40
60
80
D e p I h P r o f i
e s
FIGURE 109
151
IT[>nRANSMiTTANi-- PARTICLE VOLUME (CUM.X+T.
80
10C
D e p I
h Profiles
FlGUR E 110
132
S T A T I O N B13
5.0
.2
DENSITY
25.0
CHLOROPHYLL
on
1.0
.5
PHOSPHATE
(A)
2,5
2.0
OXYGEN
(°)
10.0
- LN TRANSMITTANCE
(0)
.0
PARTICLE VOLUME (CUM.)^+) 150.0
60
80
10C
D e p J h Pr oli I
e s
FIGURE 111
153
S T A T I O N C1
5.0 .2
DENSITY OjLQR.QPHY.LL
(x)
25.0 l.Q
.5
PHOSPHATE
M
Ul
2.0
9XYQEN.
(d)
,10. Q
-feM TRANSMITTANCE
(0)
_LH
PARTICIF VOLUME (CUM.) (»
Depth P r o f i I
e $
40.0
FIGURE 112
154
S T A T I O N C2
5.0
■&ENS11Y.
25. Q
.2
■CHLQRQPHYLJL
(X)
.5
PHOSPHATE
W
-XL
2*5.
2.0
QXYQEN
(o)
JQJL
.2
-LN TRANSMITTANCE
CO)
.JL
20
4Q
60
8.0
PARTI.TIF VOI I IMF (CIlM.'i (+)
40.0
80
D e p » h Prof
iles
FIGURE 113
155
S T A T I O N C3
5.0
DENSITY
25. Q
.2
CHLOROPHYLL
(X)
AJL
.5
PHOSPHATE
M
1*L
2.0
OXYGEN
(o)
10-0
.2
-!lN transmittance
CO)
-A
PARTICLE VOLUME (CUM.) (+)
40.0
20
40
60
80
Depth Pro!
lies
FIGURE 114
156
S T A T I O N D1
.2
—PENS 111
CHLOROPHYLL
(X)
25.0., 1,0
PHOSPHATE
(*)
757
1A
2.0
OXYGEN
l&SL
.2
4.0
-LN TRANSMITTANCE
(0)
.LH
PARTICLE VOLUME (CUM.) (+) 20.0
Depth Prof
e s
FIGURE 115
157
STATION D2
5..0 |
DENSITY |
25.0 |
||||
.2 |
CHLOROPHYLL |
(X) |
1.0 |
|||
.5 |
PHOSPHATE |
(4 |
2.5 |
|||
2.0 |
OXYGEN |
<M |
10.0 |
|||
.2 |
-LN |
TRANSMITTANCE • |
(0) |
1.0 |
||
4.0 . — *— — " * — |
PARTICLE VOLUME (CUM.) |
(+) |
20.0 |
■ . X. |
/
X.
<£
\.
\
*
/
/
'X
4
A
\ A
X
.
¥
.;--"■
S
X
N
i \
Depth P r o f i I
e s
FIGURE 116
158
S T A T I O N D3
5J0
DENSITY
2SJL
.y
CHLOROPHYLL
(X)
PHOSPHATE
w
H
.LO.
2.5
2.0
OXYGEN
10. Q
-LN TRANSMUTANCE
(0)
2JL
4.0
PARTICLE VOLUME (CUM.) (+) 20.0
X
<
rfv*
•£
D e p ! h P r o f i
e s
F I G U R E 117
159
5.0
STATION E1
DENSITY
25.0
CHLOROPHYL!
(X)
1.0
PHOSPHATE
(A)
2.5
OXYGEN
(<=>)
1Q^_
LN TRANSMITTANCE
(0)
1.0
PARTICLE VOLUME (CUM,)f+) 150.0
r
80
D e p f h Prof
lies
FIGURE 118
160
STATION E2
5.0
DENSITY
25.0
.2
CHLOROPHYLL
(X)
1.0
a.
Ui
a
.5
PHOSPHATE
(A)
2.5
2.0
OXYGEN
(=>)
ifiJI
.2
- LN TRANSMITTANCE
(0)
1.0
PARTICLE VOLUME (CUM.)^+) 150.0
FIGURE 119
161
STATION E3
x
5.0
.2
DENSITY
chlorophyll"
(*)
25.0 1,0
.5
PHOSPHATE
(*>
2.5
2.0
OXYGEN
(°)
SLSL
.2
-LN TRANSMITTANCE
(0)
1.0
PARTICLE VOLUME (CUM.)f+) 150.0
20
40
•^ a>
\
-/
./
\
'A
60
80
D e p I h P r o ! i I
e $
FIGURE 120
162
X
5.0
.2
STATION E4
DENSITY
25.0
CHLOROPHYLL
(X)
1.0
.5
PHOSPHATE
(A)
2.5
L'J
o
20
40
2.0
.2
30.0
OXYGEN
(«)
J0JL
- LN TRANSMITTANCE
(0)
1.0
PARTICLE VOLUME (CUM.)M 150.0
60
80
D e p I h Pr oli I
e $
FIGURE 121
16 3
X
Ul
a
5.0
STATION E5
DENSITY
25.0
.2
CHLOROPHYLL
(X)
1.0
.5
PHOSPHATE
(A)
2.5
2.0
OXYGEN
(°)
10.0
.2
LN TRANSMITTANCE
(0)
30.0
1.0
PARTICLE VOLUME (CUM.)^) 150.0
80
10C
Depth Profile
FIGURE 122
164
40
60
80
10G
Depth Profile
FIGURE 123
165
I ►—
0- UJ
O
5.0
S T A T I O N E7
DENSITY
25.0
.2
CHLOROPHYLI
(X)
1.0
.5
PHOSPHATE
(A)
2.5
2.0
OXYGEN
C°)
!0x£_
.2
- LN TRANSMITTANCE
(0)
0
30.0
20
PARTICLE VOLUME (CUM.)(» 150.0
40
60
80
iod
Depth P r o f i I
e s
F I G U R E 124
166
5.0
STATION F1
DENSITY
25.0
.2
CHLOKUKHYLL
i*l
1.0
.5
PHOSPHATE
(*,
2.5
"77T
OXYGEN
M
10.0
!0
"2"
40.0
-LN TRANSMITTANCE (0)
_Lfl.
PARTICLE
-& v5
VOLUME (CUM.)(+) 200.0
10
)C
D e p » h P r o f i I
e s
FIGURE 125
167
I
0. UJ
O
STATION F2
density""
25.0
.2
CHLOKOKHYLL
s*±
1.0
.5 "2TTT
PHOSPHATE
(a)
2.5
OXYGEN
(°)
0.0
zz
40.0
- LN TRANSMITTANCE (0) 1.0
PARTICLE
VOLUME (CUM.)(+) 200.0
D e p f h P r o I i
e s
F I G U R E 126
168
D e p Ih P r o f i
e $
FIGURE 127
169
STATION G2 |
||||||
J |
5.0 |
DENSITY |
25.0 |
|||
I |
.2 |
CHLOROPHYLL |
(*) |
1.0 |
||
t— |
.5 |
PHOSPHATE |
(A) |
2.5 |
||
0- L'J |
2.0 |
OXYGEN |
(&) |
10.0 |
||
a |
.2 |
-LN TRANSMITTANCE |
(0) |
1.0 |
||
0 |
• 30.0 , _ , rrx-i — |
-K— |
PARTICLE VOLUME (CUM -J- — — — fT —X |
.)(+) |
150.0 |
i rri <_ |
20
40
60
80
10C
Depth Profile
FIGURE 128
170
S Y A T 1 O N G3 |
||||||
5.0 |
DENSITY |
25.0 |
||||
.2 |
CHLOROPHYLL |
(*) |
1.0 |
|||
.5 |
PHOSPHATE |
(A) |
2.5 |
|||
2.0 |
OXYGEN |
(<=>) |
10.0 |
|||
.2 |
- LN TRANSMITTANCE |
(0) |
1.0 |
|||
. 30.0 . . ■ — (-X |
PARTICLE VOLUME . ^i- . »^4 |
(CUM.)M |
150.0 |
1— |
0
20
40
Depth P r o f i
e $
FIGURE 129
171
.0
STATION G4
density""
25.0
.2
CHLOROPHYLL
(*)
1,0
0-
.5
PHOSPHATE
(*>
2.5
2.0
OXYGEN
(a)
10.0
.2
- LN TRANSMITTANCE
(0
1.0
30.0
PARTICLE VOLUME (CUM.V+) 150.0
Depth P r o I i I
FIGURE 130
172
J,
X »— o-
o 0
5.0
STATION G5
DENSITY
25.0
.2
CHLOROPHYLL
(*)
_L0
.5
PHOSPHATE
(A)
2.5
2.0
OXYGEN
M
10^0
.2
-LN TRANSMITTANCE
(0)
1.0
30.0
PARTICLE VOLUME (CUM.)M 150.0
80
10C
Depth P r o f i I
FIGURE 131
173
J
X D-
UJ
a
5.0 .2
STATION G6
density""" chlorophyll
(X)
25.0
1,0
.5
2.0
.2
30.0
PHOSPHATE
(A)
2.5
OXYGEN
(«)
JO^H.
- LN TRANSMITTANCE
(0)
1.0
PARTICLE VOLUME (CUMJM 150.0
Depth Profile
FIGURE 132
174
2.0 — T"
- LN TRANSMITTANCE
60.0
PARTICLE VOLUME (CUlO (+ ^____2^;_n__
Dep*h Profiles
FIGURE 133
175
STATION HI
J
X
5,0
DENSITY
2UL
.2
CHLOROPHYLL
i*L
1.0
.5
PHOSPHATE
r^)
2.5
2.0
OXYGEN
(CO)
10.0
.2
10.0
- LN TRANSMITTANCE
(0)
PARTICLE VOLUME (CUM.) (+)
V V-^
-- ■? -X! J
1.0
■m
50.0
.J-
Depth P r o f i
e s
FIGURE 134
176
5,0
.2
STATION H2
PENSJIY.
CHLOROPHYLL
M
25l>£l
1.0
.5
PHOSPHATE
(A)
2.5
2.0
OXYGEN
(a)
10.0
.2
10.0
K &
LN TRANSMITTANCE
(0)
PARTICLE VOLUME (CUM.)(+)
1.0
50.0
Depth Profile
FIGURE 135
177
STATION H3
.2
DENSITY CHLOROPHYLL .. PHOSPHATE
i*i
(A)
1-9. .2
OXYGEN
(a)
- LN TRANSMITTANCE
(0)
,25^0_
1.0
2.5
10.0
1.0
lO^F" PARTICLE VOLUME (CUM.) O) 50.0
Depth Profiles
FIGURE 136
178
5.0. .2
STATION 11
DENSITY
CHLOROPHYLL
.5 2.0
PHOSPHATE OXYGEN
0=0
- LN TRANSMITTANCE
(0)
60.0
25.0.
1.0
2.5
10.0
1.0
PARTICLE VOLUME (COM.) (+Y J^Ll
10C
Depth P r o I i I « »
FIGURE 137
179
STATION 12
E
x
o.
LU
o
5.0
DENSITY
2ZJL
.2
CHLOROPHYLL
-Gil
1.0
.5
PH,QSPH&XE_
(A)
2.0 "72"
OXYGEN
Co;
10.0
LN TRANSMITTANCE
(0)
1.0
60.0
PARTICLE VOLUME (CUM.) (+)' 300.0
D e p f h Profit
e s
OS.
FIGURE 138
180
STATION 13
5.0
DENSITY
25tQ
.2
CHLOROPHYLL
1*1
1.0
.5
PHOSPHAIE.
(A)
2.5
2.0
OXYGEN
CO
10.0
o 0
- LN TRANSMITTANCE
(0)
1,0
• 60.0 rr-i — j>*— **— sf —
PARTICLE VOLUME (CUM.) (+)' 300.0
P
80
oc
Depth Profile
FIGURE 139
181
5.0
STATION 14
DENSITY
25_J2_
CHLOROPHYLL
£11
1.0
PHOSPHATE
(*)
2.5
2.0
OXYGEN
(o)
10.0
- LN TRANSMITTANCE
(0)
1.0
60.0
PARTICLE VOLUME (CUM.) (+) 300.0
od
Depth Profile
FIGURE 140
182
Depth Profile
FIGURE 141
183
S T A T 1 O N 16 |
|||||
J |
5.0 |
DENSITY |
25.0 |
||
I |
.2 |
CHLOROPHYLL |
00 |
1.0 |
|
>- |
.5 |
PHOSPHATE |
(A) |
2.5 |
|
UJ |
2.0 |
OXYGEN |
(a) |
10.0 |
|
O |
.2 |
- LN TRANSMITTANCE |
(0) |
1.0 |
|
0 |
■ 60.0 ___ y j^j ,£_ _. |
PARTICLE VOLUME (GUM.) |
(+) |
300.0 |
t_. |
30
oc
D e p t h P r o f i I
e s
FIGURE 142
184
STATION 17
5.0
DENSITY
25,0
CHLOROPHYLL
_<*!
1.0
.PHOSPHATE
(A)
2.5
2.0
OXYGEN
CO
10.0
-LN TRANSMITTANCE
CO)
1.0
60.0
PARTICLE VOLUME (CUM.) (+) 300.0
D e p t h Prof
lies
FIGURE 143
185
STATION 18
5.0
DENSITY
25,0
CHLOROPHYLL
£1
1.0
PHOSPHATE
(A)
2.5
2.0
OXYGEN
CO)
10.0
- LN TRANSMITTANCE
(0)
1.0
60.0
PARTICLE VOLUME. (CUM.) (+) 300.0
^1
Depth P r o I i I
e $
FIGURE 144
186
STATION 19 |
! |
||||
J 5.0 |
DENSITY |
25.0 |
|||
.2 |
CHLOROPHYLL (X) |
1.0 |
|||
o. *5 |
PHOSPHATE (» |
2.5 |
|||
2.0 |
OXYGEN (o) |
10.0 |
|||
2 |
- LN TRANSMITTANCE (0) |
1.0 |
|||
• 60.0 |
.^.*v__. |
PARTICLE VOLUME (CUM.) (+) |
300.0 |
||
\) |
Lit |
\ |
L .. * - , |
■',■■ |
|
20 7 |
\ |
Vd v, \ |
|||
40 |
|||||
60 |
|||||
80 |
|||||
IOC |
Depfh Profiles |
FIGURE 145
187
STATION J1
5.0
DENSITY
2LJL
.2
CHLOROPHYLL
S*L
1.0
PJPSTOIL
(*)
2.5
2.0
~2™
OXYGEN
CO
10.0
- LN TRANSMITTANCE
(0)
1.0
60.0
PARTICLE VOLUME (CUM.) (+) 300.0
x-- f
'
Depth Profit
e s
FIGURE 146
188
STATION J2
5.0
DENSITY
25,9
.2
CHLOROPHYLL
1*1
1.0
PHOSPHATE
(A)
2.5
UJ
D
2.0
OXYGEN
CO)
- LN TRAN SM I TTAN C E
(0)
10.0
1.0
20
PARTICLE VOLUME (CUM.) (+) 300.0
40
60
80
10C
Depth Prof
lies
FIGURE 147
189
J
I
*- a.
Ui
a
5.0
.2
2.0
60.0
STATION J3
DENSITY
CHLOROPHYLL
1*1
PHQSPHATE
fA)
OXYGEN
CO)
— LN TRANSMITTANCE
(0)
>-i
25rQ
1.0
2.5
10.0
1.0
PARTICLE VOLUME (CUM.) (+)' 300.0
Deplh Profiles
FIGURE 148
190
STATION J4
5.0
DENSITY
25, 0
CHLOROPHYLL
<*1
1.0
.5
P20S£HAJIL
(*)
2.5
2.0
OXYGEN
CO)
10.0
- LN TRANSMITTANCE
(0)
1.0
• 60.0
PARTICLE VOLUME (CUM.) (+) 300.0
■. y
rX
S
Depth Profiles
FIGURE 149
191
X
UJ
a
5.0
STATION K1
DENSITY
25.0
CHLOROPHYLL
(X)
1.0
PHOSPHATE
(A)
20
2.0
80.0
OXYGEN
M
- LN TRANSMITTANCE
(0)
10.0 1.0
PARTICLE VOLUME (CUM.)(+)
400.0
40
60
80
10C
Depth Profiles
FIGURE 150
192
J
X
►-
a.
UJ
a
5.0
STATION K2
DENSITY
25.0
CHLOROPHYLL
(X)
1.0
PHOSPHATE
(A)
2.5
2.0
.2
8-0.0
OXYGEN
M
- LN TRANSMITTAIICE
(0)
10.0
1.0
PARTICLE VOLUME (CUM.)(+) 400.0
80
Dep*h Profiles
FIGURE 151
193
STATION K3 |
|||||
J |
5.0 |
DENSITY |
25.0 |
||
I |
.2 |
CHLOROPHYLL (X) |
1.0 |
||
►- |
.5 |
PHOSPHATE (A) |
2.5 |
||
Ul |
2.0 |
OXYGEN (a) |
10.0 |
||
a |
.2 |
- LN TRANSMITTANCE (0) |
1.0 |
||
0 |
. 80.0 |
PARTICLE VOLUME (CUM.)f» |
400.0 |
||
y ^ / |
• - . |
||||
20 40 |
X |
Y |
y\ / |
||
60 |
i 1 |
||||
60 |
1 i |
||||
lUC |
Depth Profiles |
FIGURE 152
194
STATION K4
5.0
DEN SI IT
25.0
CHLOROPHYLL
(X)
1.0
.5
PHOSPHATE
(*)
2.5
2.0
.2
OXYGEN
(a)
- LN TRANSMITTANCE
(0)
10.0 1.0
VOLUME (CUM.)fr)
400.0
D e p I h Prof
e s
FIGURE 153
195
5.0
STATION K5
DENSITY
25.0
CHLOROPHYLL
(X)
1.0
PHOSPHATE
(A)
2.5
2.0
OXYGEN
M
LN TRANSMITTAL CE
(0)
10.0
1.0
80.0
PARTICLE VOLUME (CUM.)(+) 400.0
^^~
20
40
K^ XT
Deplh Profiles
FIGURE 154
196
s |
T A T 1 O N K6 |
|||||
J |
5.0 |
DENSITY |
25.0 |
|||
X |
.2 |
CHLOROPHYLL |
(X) |
1.0 |
||
h- |
.5 |
PHOSPHATE |
M |
2.5 |
||
CL. Ill |
2.0 |
OXYGEN |
(a) |
10.0 |
||
O |
.2 |
-LN |
TRANSMITTANCE |
(0) |
1.0 |
|
0 |
.80.0 |
PA RTI CLE VOLUME ( CUM . ) (+ ) |
400.0 |
|||
•:: "--■ \l |
s:vs |
*> ,' h ■ |
3'* ' |
o [ - |
Depth Profile
FIGURE 155
197
p ' h
f/G
P r
" R
1 ''' I
156
198
3.0
STATION K3
DENSITY
25.0
.2
CHLOROPHYLL
00
1.0
20
40
60
80
10C
PHOSPHATE
(A)
2.5
2.0
OXYGEN
M
10.0
.2
- LN TRANSMITTAXCE
(0)
1.0
.80.0
rtrr—
PARTICLE VOLUME (CUM. ) (+) 400.0
_C^_ l ^ — — -- A. . —
Depth P r o I i
FIGURE 157
199
S |
T A T 1 O N |
K9 |
||||
J |
5.0 |
DENSITY |
25.0 |
|||
X |
.2 |
CHLOROPHYLL |
(X) |
1.0 |
||
»— |
.5 |
PHOSPHATE |
M) |
2.5 |
||
UJ |
2.0 |
OXYGEN |
(a) |
10.0 |
||
a |
.2 |
- LN |
TRANSMITTANCE |
(0) |
1.0 |
20
40
(CUM.)(+) 400.0
Depfh Profile
FIGURE 158
200
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FIGURE 160
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FIGURE 161
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TABLE II
STATION DATA: LOCATION, TIME, DATE, DEPTH, WEATHER, SOUND VELOCITY, TEMPERATURE, TRAMSMITTANCE , OXYGEN, PHOSPHATE AND CHLOROPHYLL
STATICN: Al DEPTH: 69M D4TE 6 NOV 70 TIME: 1C15 LA7: 36-39. ON LONG: 121-54. 1V\ WIND: 190 SPEED: 12 AIR TEMP(DRY): 58 BARO: 30. C9 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 190-1 SWELL: 240-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (MJ |
SALINITY (O/OO) |
0 |
32.965 |
10 |
32.967 |
30 |
33.084 |
50 |
33.450 |
68 |
33.479 |
OXYGEN (ML/L)
6.21 6.31 6.45 5.83 5.95
PHCSPHATE (MG-ATM/L)
0.39 0.40 0.49 0.90 C.97
CHLOROPHYLL (MG/M3)
0.140 0.169 0.173 0.371
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (MJ |
TEMP (C) |
SC. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.93 |
1500.5 |
85.7 |
10 |
13.42 |
1500.5 |
63.8 |
18 |
13.30 |
15CC.3 |
84.8 |
28 |
13.08 |
1499.9 |
87.0 |
38 |
12.63 |
14S£.7 |
83.7 |
48 |
12.38 |
1498.2 |
81.5 |
56 |
12.20 |
1497.9 |
79.5 |
61 |
12.17 |
1497.9 |
79.1 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 |
13.93 |
1500.5 |
85.7 |
10 |
13.42 |
1500.5 |
83.8 |
20 |
13.26 |
1500.2 |
85.2 |
30 |
12.99 |
1499.7 |
86.3 |
50 |
12.33 |
1498.1 |
81.0 |
32.965 6.21 0.39 C.140 24.65
32.967 6.31 0.40 0.169 24.76
33.025 6.38 0.45 0.171 24.83
33.C64 6.45 0.49 0.173 24.93
33.450 5.83 0.90 0.371 25.34
o o "}
STATION: A2 DEPTH: 76M DATE: 1 NOV 70 TIME: 0920 LAT: 36-40. 7N LONG: 121-54. 2W HIND: 190 SPEED: 12 AIR TEMP(DRY): 58 BARO: 30.09 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 190-1 SWELL: 240-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
32.992 |
18 |
32.997 |
35 |
33.135 |
57 |
33.469 |
75 |
33.539 |
OXYGEN (ML/L)
5.62 6.26 5.27 5.23 5.52
PHOSPHATE (MG-ATM/L)
0.39 0.40 0.50 0.97 1.22
CHLOROPHYLL (MG/M3)
0.361 0.595 0.008 0.418 0.536
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.48 |
1500.5 |
84.9 |
10 |
13*47 |
15CC.6 |
84.0 |
21 |
13.39 |
15CC.5 |
83.0 |
28 |
13.19 |
1500.2 |
85.0 |
38 |
12.57 |
1496.5 |
84.5 |
47 |
12.42 |
1498.4 |
81.2 |
57 |
12.19 |
14 9 7.7 |
80.3 |
67 |
11.84 |
1496.8 |
82.3 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.48 |
1500.5 |
84.9 |
10 |
13.47 |
1500.6 |
84.0 |
20 |
13.40 |
1500.5 |
83.1 |
30 |
13.07 |
1499.9 |
84.9 |
50 |
12.35 |
1498.2 |
80.9 |
75 |
32.992 5.62 0.39 0.361 24.76
32.994 5.98 0.39 0.491 24.77
33.C13 6.14 0.41 C.526 24. 8C
33.094 5.56 0.47 C.181 24.93
33.363 5.25 0.82 0.288 25.27 33.539 5.52 1.22 0.536
224
STATION: A3 DEPTH: 78M DATE: 6 NOV 70 TIME: 0835
LAT: 36-42. IN LONG: 121-54.,21-i WIND: 135 SPEED: 10
AIR TEMP(DRY): 54 BARO: 30. C4 CLOUD AMT: 8
HEIGHT(FT): 1500 SEA: 135-1/2 SWELL: 230-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHvLL (MG/M3) |
|
0 |
33.000 |
5.65 |
0.43 |
0.174 |
|
15 |
32.995 |
6.34 |
0.2C0 |
||
35 |
33.064 |
5.7C |
0.46 |
0.142 |
|
50 |
33.226 |
5.26 |
0.59 |
0.266 |
|
65 |
33.434 |
5.99 |
0.89 |
0.442 |
|
77 |
33.635 |
4.40 |
1.83 |
OBSERVED VALUES ( SV/T/D-TRANSMISSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO., VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
1 3 ■ 4 5 |
1 5 0 C . 4 |
80. t> |
8 |
13.45 |
15C0.6 |
80.2 |
24 |
13.40 |
1 5 G C . 7 |
81.3 |
38 |
13.09 |
15CC.1 |
84.9 |
48 |
12.71 |
1499.1 |
86. 1 |
58 |
12.18 |
1497.6 |
84.6 |
67 |
11.61 |
1495.6 |
82.2 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHCS CHLOR SIG-T
0 |
13.45 |
1500.4 |
80.5 |
10 |
13.44 |
1500.6 |
80.3 |
20 |
13.41 |
1500.7 |
81.0 |
30 |
13.27 |
1500.4 |
82.8 |
50 |
12.60 |
1498.8 |
85.8 |
75 |
33.000 5.65 0.43 0.174 24.78
32.997 6.11 0.191 24.77
33.C12 6.18 0.185 24.79
33.C47 5.86 0.156 24.85
33.226 5.26 0.59 0.266 25.12 33.6C1 4.66 1.67 0.C74
225
STATION: A4 DEPTH: 87M DATE: 6 NOV 70 TIME: 3745
LAT: 36-43. 7N LONG: 121-54. 5W WIND: 135 SPEED: 10
AIR TEMP(DRY): 54 8AR0: 30.04 CLOUD AMT: 8
HEIGHT(FT): 1500 SEA: 135-1/2 SWELL: 230-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLCPCPHYLL (MG/M3) |
|
0 |
32.984 |
6.00 |
0.42 |
0.176 |
|
15 |
32.979 |
5.92 |
0.42 |
0.197 |
|
35 |
32.036 |
6.00 |
0.43 |
0.205 |
|
55 |
33.285 |
5.61 |
0.68 |
0.198 |
|
70 |
33.531 |
5.19 |
1.08 |
0.734 |
|
86 |
33.719 |
4.21 |
1.92 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SC. VEL (M/SEC) |
TRANSMITTANCt. (0/0) |
0 |
13.60 |
15CC.2 |
76.8 |
10 |
13.35 |
1500.3 |
79.0 |
24 |
13.32 |
150C.4 |
79.5 |
38 |
13.18 |
15CC.3 |
85.0 |
47 |
12.72 |
1499.2 |
87.7 |
56 |
12.15 |
1497.4 |
87.4 |
65 |
11.96 |
1497.2 |
80.3 |
69 |
11.52 |
1495.7 |
60.7 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.60 |
1500.2 |
78.8 |
10 |
13.35 |
1500.3 |
79.0 |
20 |
13.33 |
1500.4 |
79.4 |
30 |
13.26 |
1500.4 |
81.9 |
50 |
12.53 |
1498.6 |
87.6 |
75 |
32.984 6.00 0.42 0.176 24.73
32.981 5.95 0.42 0.190 24.78
32.993 5.94 0.42 0.199 24.80
33.021 5.98 0.43 0.203 24.83
33.223 5.71 0.62 0.200 25.13 33.59C 4.89 1.34 0.505
226
STATION: A5 DEPTH: 82M DATE: 6 NOV 70 TIME: 0632 LAT: 36-45. 5N LONG: 121-54. 4h WIND: 130 SPEED: 1C AIR TEMP(DRY): 53 BARO: 30.01 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 130-1 SWELL:27C-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
33.008 |
20 |
33.019 |
40 |
33.102 |
65 |
33.320 |
81 |
33.785 |
OXYGEN (ML/L)
0.0
6.24
6.44
6.26
5.07
PHGSPHATE (MG-ATM/L)
0.42 0.43 0.4 7 0.76 1.98
CHLOROPHYLL (MG/M3)
0.173 0.249
0.244 0.293
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.27 |
1499.9 |
77.2 |
7 |
13.27 |
15C0.C |
77.4 |
19 |
13.24 |
15C0.1 |
77.1 |
29 |
13.26 |
1500.3 |
78.2 |
38 |
13. C9 |
15CC.1 |
79.2 |
47 |
12.81 |
1499.4 |
79.1 |
62 |
11.95 |
1496.9 |
80.7 |
71 |
11.86 |
1497. C |
69.5 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.27 |
1499.9 |
77.2 |
10 |
13.26 |
1500.0 |
77.3 |
20 |
13.24 |
1500.1 |
77.2 |
30 |
13.24 |
1500.3 |
78.3 |
50 |
12.64 |
1498.9 |
79.4 |
75 |
33.008 0.0 0.42 0.173 24.82
33.014 3.12 0.42 0.211 24.82
33.019 6.24 0.43 0.249 24.83
33.C6C 6.34 0.45 C.246 24.86
33.189 6.37 0.59 C.264 25.08 33.611 5.52 1.52 C.11C
227
STATION: A6 DEPTH: 450M DATE: 6 NOV 70 TIKE: 0450 LAT: 36-46. 6N LONG: 121-54.'^ WIND: LIGHT AIRS AIR TEMP(DRY): 54 BARO: 30.05 CLOUD AMT: 2 HEIGHT(FT): 1500 SEA: CALM SWELL: 27C-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
33.084 |
20 |
33.131 |
35 |
33.300 |
60 |
33.533 |
80 |
33.692 |
105 |
33.871 |
OXYGEN (ML/L)
6.47 6.42 6.56 5.37 3.73 2.86
PHOSPHATE (MG-ATM/L)
0.45 0.50 0.56 1.20 1.75 2.12
CHLOROPHYLL (MG/M3I |
|
0, |
,213 |
0, |
,369 |
0, |
,651 |
0, |
,461 |
0, |
,161 |
0, |
.077 |
OBSERVED VALUES { SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO., VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.28 |
i c;rn n |
*70 O |
9 |
13.30 |
1500.2 |
78.6 |
18 |
13.28 |
15CC.3 |
77.1 |
31 |
13.06 |
1499.9 |
73.4 |
46 |
12.69 |
1499.2 |
76.6 |
55 |
11.03 |
14 94.8 |
80. 6 |
74 |
10.33 |
1491.9 |
52.7 |
84 |
9.89 |
14S0.6 |
59.2 |
100 |
9.15 |
1488.2 |
68.7 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 |
13.28 |
1500.0 |
79.8 |
10 |
13.30 |
1500.2 |
78.4 |
20 |
13.25 |
1500.2 |
76.5 |
30 |
13. C8 |
1499.9 |
73.7 |
50 |
11.95 |
1497.2 |
78.4 |
75 |
10.29 |
1491.8 |
53.3 |
00 |
9.15 |
1488.2 |
68.7 |
33.084 6.47 0.45 0.213 24.88
33.108 6.44 0.48 0.291 24.89
33.131 6.42 0.50 0.369 24.92
33.243 6.52 0.54 0.557 25.04
33.439 5.85 0.94 0.537 25.41
33.652 4.14 1.61 0.236 25.87
33.835 3.03 2.04 0.094 26.20
228
STATION: A7 DEPTH: I46M DATE: 6 NOV 70 TIME: 0315 LAT: 36-49. 6N LONG: 121-54. 2k WIND: LIGHT AIRS AIR TEMP(DRY): 54 BARO: 30-06 CLOUD AMT: 2 HEIGHT(FT): 1500 SEA: CALM SWELL: 27C-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PFCSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.284 |
6.19 |
0.53 |
0.353 |
|
10 |
33.288 |
6.45 |
0.52 |
0.118 |
|
25 |
33.386 |
6.26 |
0.63 |
0.6C5 |
|
50 |
33.457 |
5.44 |
1.07 |
0.327 |
|
60 |
33.571 |
4.68 |
1.40 |
0.286 |
|
85 |
33.663 |
3.95 |
1.71 |
0.229 |
|
100 |
33.873 |
3.19 |
2.19 |
0.075 |
OBSERVED VALUES ( SV/T/D-TR ANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
12.95 |
1499.1 |
70.9 |
10 |
12.84 |
1499.0 |
81.1 |
20 |
12.59 |
1498.4 |
75.1 |
48 |
11.53 |
1495.2 |
82.8 |
58 |
11.06 |
1494. C |
82.1 |
77 |
10.64 |
1493.0 |
57.7 |
87 |
10.23 |
1491.6 |
50.0 |
107 |
9.03 |
1488.0 |
54.3 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
12.95 |
1499.1 |
70.9 |
10 |
12. 84 |
1499.0 |
81.1 |
20 |
12.59 |
1498.4 |
75.1 |
30 |
12.21 |
1497.3 |
77.8 |
50 |
11.44 |
1495.0 |
82.7 |
75 |
10.68 |
1493. 1 |
60.3 |
100 |
9.45 |
1489.3 |
52.8 |
33.284 6.19 0.53 0.353 25.10
33.288 6.45 0.52 0.118 25.12
33.353 6.33 0.60 0.443 25.22
33.400 6.10 0.72 C.549 25.33
33.457 5.44 1.07 0.327 25.52
33.626 4.24 1.59 0.252 25.78
33.873 3.19 2.19 C.075 26.18
229
STATION: A8 DEPTH: 73M DATE: 6 NOV 70 TIME: C230 LAT: 36-49. 7N LONG: 121-54. 3W WIND: LIGHT AIRS AIR TEMP(DRY): 54 BARO: 30.06 CLOUD AMT: 2 HEIGHT(FT): 1500 SEA: CALM SWELL: 270-2
. OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.231 |
6.56 |
0.51 |
0.697 |
|
5 |
33.308 |
6.51 |
0.54 |
0.666 |
|
25 |
33.389 |
6.24 |
0.69 |
0.691 |
|
45 |
33.408 |
5.22 |
1.07 |
0.292 |
|
65 |
33.523 |
4.89 |
1.31 |
0.234 |
|
72 |
33.564 |
4.74 |
• |
1.47 |
OBSERVED VALUES ( SV/T/D- TRANSMI S SOMETE R CAST)
CEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
1 ?.8A |
1498.8 |
77.8 |
4 |
12.84 |
1496.9 |
76.9 |
15 |
12.48 |
1496.0 |
73.8 |
30 |
12.23 |
1497.5 |
76.1 |
50 |
11.31 |
1494.6 |
86. C |
69 |
11.13 |
1494.5 |
52.9 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLCR SIG-T
0 12.84 1498.8
10 12.64 1498.4
20 12. 4C 1497.8
30 12.23 1497.5
50 11.31 1494.6
77.8 33.231 6.56 0.51 0.697 25.08
75.2 33.32£ 6.44 0.58 0.672 25.19
74.6 33.369 6.30 0.65 C.685 25.27
76.1 33.394 5.98 0.79 0.591 25.32
86.0 33.437 5.14 1.13 0.277 25.52
230
STATION: A9 DEPTH: 59M DATE: 6 NOV 70 TIKE: C130 LAT: 36-51. 2N LONG: 121-54. 3W KIND: LIGHT AIRS AIR TEMP(DRY): 54 BARO: 30. C6 CLOUD AMT: 2 HEIGHT(FT): 1500 SEA: CALM SWELL: 27C-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PhCSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.150 |
6.28 |
0.51 |
0.234 |
|
10 |
33.175 |
6.35 |
0.49 |
0.4C5 |
|
20 |
33.331 |
6.24 |
0.64 |
0.493 |
|
30 |
33.352 |
6.15 |
0.74 |
0.456 |
|
40 |
33.358 |
5.83 |
0.93 |
0.530 |
|
50 |
33.474 |
5.43 |
1.14 |
0.473 |
|
58 |
5.50 |
1.25 |
0.591 |
OBSERVED VALUES ( SV/T/D- fRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.18 |
1499.8 |
77.5 |
4 |
13.13 |
1499.8 |
77.9 |
10 |
12.96 |
1499.3 |
77.5 |
20 |
12. 64 |
1498.5 |
81.0 |
30 |
12.34 |
1497.5 |
80. 1 |
4C |
11.56 |
1495.1 |
86.9 |
43 |
11.67 |
1495.5 |
50.5 |
49 |
11.96 |
1496. C |
33.7 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.18 1499.8
10 12.96 1499.3
20 12.64 1498.5
30 12.34 1497.5 50
77.5 33.150 6.28 0.51 0.234 24.95
77.5 33.175 6.35 0.49 0.405 25.01
81.0 33.331 6.24 0.64 C.493 25.19
80.1 33.352 6.15 0.74 0.456 25.27 33.474 5.43 1.14 0.473
231
STATION: AlO DEPTH: 36M DATE: 6 NOV 70 TIME: 0040 LAT: 36-52. 7N LONG: 121-54. 3W WIND: CALM AIR TEMP(DRY): 54 BARO: 30.10 CLOUD AMT: 10 TYPE: FOG SEA: CALM SWELL: 270-3
DEPTH (M)
SALINITY (0/00)
OBSERVED VALUES (NANSEN CAST)
OXYGEN (ML/L)
PHOSPHATE (MG-ATM/L)
CHLCROPHYLL
(MG/M3)
0 5 10 20 30 35
33.134 33.130 33.136 33.323 33.397 33.401
6.32 6.33 6.43 6.37 6.14 6.20
0.51 0.49 0.52 0.60 0.7C 0.79
0.450 0.318 0.334 0.372 0.654
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M)
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (C/0)
n 5 9
14 20 30
13, 14 13.14 13.12 12.70 12.45 12.40
1499.6 14 99.7 1499.7 1499.7 1497.9 1497.9
80.3 78.9 78.4 81.0 82.8 64.2
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.14 1499.6
10 13.04 1499.7
20 12.45 1497.9
30 12. 4C 1497.9
80.3 33.134 6.32 0.51 C.450 24.94
78.9 33.136 6.43 0.52 0.334 24.96
82.8 33.323 6.37 0.60 C.372 25.22
64.2 33.397 6.14 0.70 0.654 25.29
232
STATION: All DEPTH: 22M DATE: 6 NOV 70 TIME: 0005 LAT: 36-54. 2N LONG: 121-54. 3W WIND:CALM AIR TEMP(DRY): 54 BARO: 30. iC CLOUD AMT: 10 TYPE: FOG SEA: CALM SWELL: 270-3
DEPTH <M)
SALINITY (0/00)
OBSERVED VALUES (NANSEN CAST)
OXYGEN (ML/L)
PHOSPHATE (MG-ATM/L)
CHLOROPHYLL (MG/M3)
0 10 18 21
33.242 33.303 33.326
6.68 6.60 6.52 6.49
0.52 0.56 0.61 0.65
0.259 0.539 0.467
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M)
TEMP <C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
0
5 • in
17
13.07 12.89 1 2.82 12.74
1499.5 1499.0 1498.9 1498.8
84.1 77.7 73.6 55.6
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13. C7 1499.5 84.1 33.242 6.68 0.52 0.259 25.04
10 12.82 1498.9 73.6 33.303 6.60 0.56 0.539 25.14
20 6.50 0.64 0.156
233
STATION: A12 DEPTH: 17M DATE: 5 NOV 70 TIME: 2320 LAT: 36-55. 7N LONG: 121-54. 4W WIND: CALM AIR TEMP(DRY): 54 BARO: 30.10 CLOUD AMT: 10 TYPE: FOG SEA: CALM SWELL: 27C-3
DEPTH (M)
SALINITY
(0/00)
OBSERVED VALUES (NANSEN CAST)
OXYGEN (ML/L)
PHOSPHATE (MG-ATM/L)
CHLOROPHYLL (MG/M3)
0
6
12
15
32.243 33.259 33.268 32.273
6.41 6.53 6.49 6.45
0.55 0.53 0.56 0.63
0.282 0.265 0.401
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SC VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
12.95 |
1499. 1 |
78.0 |
3 |
12.95 |
1499.2 |
78.8 |
6 |
12.93 |
1499.2 |
77.8 |
C |
12.92 |
1499.1 |
74.9 |
12 |
12.91 |
1499.2 |
70.3 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 12.95 1499.1 10 12.93 1499.2
78.0 33.243 6.41 0.55 0.282 25.06 77.7 33.265 6.50 0.55 0.356 25.08
234
STATION: Bl DEPTH: 15M DATE: 5 NOV 70 TIME: 2214 LAT: 36-56. 3N LONG: 121-59. Ik WIND: CALM AIR TEMP(DRY): 54 BARO: 30.10 CLOUD AMT: 10 TYPE". FOG SEA: CALM SWELL: 270-2
OBSERVED VALUES (NANSEN CAST)
EPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL ( MG/M3) |
|
0 |
33.168 |
6.29 |
1.17 |
1.032 |
|
3 |
33.188 |
6.21 |
1.18 |
1.188 |
|
6 |
33.177 |
6.07 |
1.12 |
0.790 |
|
8 |
33.246 |
6.13 |
0.84 |
0.7C5 |
|
10 |
33.337 |
6.34 |
1.05 |
1.059 |
|
14 |
33.412 |
6.11 |
1.17 |
1.685 |
OBSERVED VALUES ( SV/T/D-T RANSMISSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
n |
13.17 |
149 9.6 |
63.0 |
3 |
13.17 |
1499.7 |
68.0 |
6 |
13.14 |
1499,9 |
79. C |
9 |
12.99 |
1499.5 |
45.0 |
12 |
12.70 12.70 |
149 8.7 |
25.2 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. GXY PHOS CHLOR SIG-T
0 13.17 1499.6 10 12.89 1499.2
68.0 33.168 6.29 1.17 1.032 24.96 38.4 33.337 6.34 1.05 1.C59 25.15
235
STATION: B2 DEPTH: 29M DATE: 5 NOV 70 TIME: 2115 LAT: 36-54. 8N LONG: 121-59. lvJ WIND: CALM AIR TEMP(DRY): 54 BARC: 30. C7 CLOUC AMT: 10 TYPE: FOG SEA: CALM SWELL: 27C-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
33.372 |
5 |
33.372 |
10 |
33.375 |
20 |
33.435 |
25 |
33.450 |
OXYGEN (ML/L)
6.66 6.71 6.7C 6.39 6.10
PHOSPHATE (MG-ATM/L)
0.48 0.50 0.48 0.70 0.86
CHLOROPHYLL (MG/M3)
0.697 0.694 0.839 0.965 1.029
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
12.84 |
1496.9 |
62.8 |
c; |
L 2 e 8 1 |
14 9 8.9 |
61.3 |
10 |
12.80 |
1498.9 |
61.3 |
14 |
12.77 |
1499.0 |
65.3 |
19 |
12.47 |
149 7.4 |
45.8 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 12.84 1498.9 62.8 33.372 6.66 0.48 0.697 25.19 10 12.80 1498.9 61.3 33.375 6.70 0.48 0.839 25.19 20 33.435 6.39 0.70 0.965
236
STATION: B3 DEPTH: 36M DATE: 5 NOV 70 TIKE: 2005 LAT: 36-53. 4N LONG: 121-59. IV. WIND: CALM AIR TEKP(DRY): 54 BARO: 30. C7 CLOUD AMT: 10 TYPE: FOG SEA: CALM SWELL: 270-2
DEPTH (M)
SALINITY
(0/00)
OBSERVED VALUES (NANSEN CAST)
OXYGEN (ML/L)
PHOSPHATE (MG-ATM/L)
CHLOROPHYLL (MG/M3)
0 5 10 15 25 35
33.370 33.360 33.364 33.355 33.457 33.480
6.65 6.44 6.52 6.45 6.33 5.79
0.47 0.47 0.56 0.57 0.67 0.97
0.488 0.531 0.475 0.521 0.999
OBSERVED VALUES ( S V/T/D- TRANSMIS SOMETE R CAST)
DEPTH (M)
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
Q
5 9 14 19 24 29
12,9^ 12.89 12.71 12.46 12.47 12.44 12.34
1499-1 1499.0 1498.5 1498.2 1498.0 1498.0 1497.9
75.0 77.7 81.2 81.1 64.9 55.5 39.5
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 12.93 1499.1
10 12.66 1498.4
20 12.46 1498.0 30
75.0 33.370 6.65 0.47 0.488 25.17
81.2 33.364 6.52 0.56 0.475 25.21
63.0 33.406 6.39 0.62 0.760 25.28
33.466 6.06 0.82 0.499
237
STATION: 84 DEPTH: 68M DATE: 5 NOV 70 TIME: 1847
LAT: 36-51. 6N LONG: 121-59. 4W WIND: LIGHT AIRS
AIR TEMP(DRY): 54 BARO: 30.05 CLOUD AMT: 7
HEIGHT(FT): 5000 SEA: RIPPLES SWELL: 215-3
DEPTH (M)
SALINITY (0/00)
OBSERVED VALUES (NANSEN CAST)
OXYGEN (ML/LI
PHOSPHATE (MG-ATM/L)
CHLOROPHYLL (MG/M3J
0 15 25 40 60 66
33.257 33.361 33.449 33.516 33.490
6.51 6.63 5.91 5.86 5.66 5.66
0.48 0.54 C.87 0.96 1.06
0.347 0.521 1.278 1.277 0.641 1.022
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M)
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
0 4 9 14 19 28 38 48 58
12.84 12.83 12.78 12.77 12.77 12.22 12.07 12.09 12.10
1498.8 1498.8 1498.8 1498.9 1499.0 1497.4 1497.1 1497.4 1497.6
80.0 76.8 73.5 65.2 62.5 80.1 64.7 47.8 31.9
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 12.84 1498.8
10 12.78 1498.8
20 12.71 1498.8
30 12.19 1497.3
50 12.09 1497.4
80.0 33.257 6.51 0.48 0.347 25.10
71.8 33.326 6.59 0.52 0.463 25.16
64.5 33.405 6.27 0.70 0.899 25.24 77.0 33.471 5.90 0.90 1.278 25.39
44.6 33.503 5.76 1.01 0.959 25.43
238
STATION: B5 DEPTH: 86M DATE: 5 NOV 70 TIME: 1710
LAT: 36-50. 5N LONG: 121-59. 1W WIND: LIGHT AIRS
AIR TEMP(DRY): 54 BARO: 30. C5 CLOUD AMT: 7
HEIGHT(FT): 5000 SEA: RIPPLES SWELL: 215-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.213 |
6.34 |
0.55 |
0.441 |
|
5 |
33.242 |
6.53 |
0.55 |
0.425 |
|
10 |
33.272 |
6.44 |
0.55 |
0.649 |
|
15 |
33.285 |
6.15 |
0.53 |
0.821 |
|
20 |
33.316 |
6.51 |
0.55 |
0.849 |
|
30 |
33.407 |
6.32 |
0.67 |
0.551 |
|
50 |
33.490 |
5.52 |
1.08 |
0.376 |
|
70 |
33.577 |
4.62 |
1.51 |
0.296 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M) |
TPMP (C) |
<: n . \/ r- 1 (M/SECT |
TRAN^MTTTAMPF (0/0) |
0 |
13.32 |
15CC.2 |
60.1 |
7 |
13.28 |
15C0.2 |
59.5 |
10 |
13.25 |
15CC.C |
58.7 |
19 |
12.77 |
1498.9 |
61.9 |
27 |
12.56 |
1498.5 |
65.8 |
48 |
11.84 |
1496.2 |
77.8 |
69 |
11.06 |
1494.6 |
52.1 |
73 |
11.04 |
1494.2 |
55.4 |
DEPTH
INTERPOLATED VALUES TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.32 1500.2
10 13.25 1500. C
20 12.74 1498.8
30 12.46 1498.2
50 11.77 1496.0
60.1 33.213 6.34 0.55 0.441 24.97
58.7 33.272 6.44 0.55 0.649 25.03
62.4 33.316 6.51 0.55 0.649 25.16
67.5 33.407 6.32 0.67 0.551 25.29 75.4 33.490 5.52 1.08 0.376 25.48
239
STATION: B6 DEPTH: 549M DATE: 5 NOV 70 TIME: 1545
LAT: 36-48. 9N LONG: 122-59. 1W WIND: LIGHT AIRS
AIR TEMP(DRY): 66 BARO: 30. C5 CLOUD AMT: 7
HEIGHT(FT): 3000 SEA: RIPPLES SWELL: 180-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (K) |
SALINITY (0/00) |
0 |
33.042 |
15 |
33.075 |
35 |
33.388 |
45 |
33.431 |
75 |
33.613 |
100 |
33.669 |
OXYGEN (ML/L)
6.22 6.16 6.38 6.11 4.02 3.62
PHOSPHATE (MG-ATM/L)
0.44 0.47 0.53 0.66 1.61 1.75
CHLOROPHYLL (MG/M3)
0.233 0.251 0.757 1.0C9 0.210 0.262
OBSERVED VALUES ( SV/T/D- TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
Q |
1 ?r3] |
1 5CC.1 |
75.6 |
10 |
13.28 |
1500.1 |
74.9 |
25 |
13.08 |
1499.9 |
69.2 |
40 |
12.64 |
1498.9 |
72.1 |
48 |
12.25 |
1497.8 |
70.9 |
59 |
11.52 |
1496.3 |
77.7 |
78 |
10.75 |
1493.3 |
88.4 |
98 |
10.38 |
1492.5 |
66.1 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-1
0 |
13.31 |
1500.1 |
75.6 |
10 |
13.28 |
1500.1 |
74.9 |
20 |
13.15 |
1500.0 |
71.1 |
30 |
12.93 |
1499.6 |
7C.2 |
50 |
12. 12 |
1497.5 |
72.1 |
75 |
10.87 |
1493.8 |
86.7 |
100 |
33.042 6.22 0.44 0.233 24.84
33.064 6.18 0.46 0.245 24.86
33.153 6.22 0.48 0.377 24.96
33.310 6.33 0.52 0.630 25.12
33.462 5.76 0.82 0.876 25.39
33.613 4.02 1.61 0.210 25.74
33.669 3.62 1.75 0.262
240
STATION: B7 DEPTH: M DATE: 5 NOV 70 TIME: 1515
LAT: 36-47. 2N LONG: 121-58. f.W WIND: 270 SPEED: 6
AIR TEMP(DRY): 66 BARO: 30.06 CLOUD AMT: 7
HEIGHT(FT): 3000 SEA: RIPPLES SWELL: 180-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.012 |
6.14 |
0.47 |
0.186 |
|
10 |
33.016 |
6.31 |
0.46 |
0.181 |
|
25 |
32.083 |
6.28 |
0.47 |
0.345 |
|
50 |
33.410 |
6.C8 |
0.69 |
1.099 |
|
75 |
33.505 |
4.84 |
1.27 |
0.5C9 |
|
100 |
33.638 |
3.81 |
1.64 |
0.244 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO., VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.42 |
15CC.5 |
76.2 |
10 |
13.29 |
150C.2 |
73.0 |
25 |
13.18 |
1500.1 |
71.9 |
49 |
12.29 |
1498.0 |
67.5 |
59 |
11.88 |
1496.6 |
78.0 |
78 |
10.82 |
1493.6 |
84.2 |
97 |
10.47 |
1492.7 |
50.8 |
INTERPOLATED VALUES
DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
33.012 6.14 0.47 0.186 24.79
33.016 6.31 0.46 C.181 24.82
33.061 6.29 0.47 C.290 24.87
33.149 6.24 0.51 0.496 24.98
33.41C 6.08 0.69 1.C99 25.33
33.5C5 4.84 1.27 C.509 25.63 33.638 3.81 1.64 0.244
0 |
13.42 |
1500.5 |
76.2 |
10 |
13.29 |
1500.2 |
73.0 |
20 |
13.22 |
1500.1 |
72.3 |
30 |
12.99 |
1499.7 |
71.0 |
50 |
12.25 |
1497.9 |
68.5 |
75 |
10.99 |
1494.1 |
83.2 |
100 |
241
STATION: B8 DEPTH: 805M DATE: 5 NOV 70 TIME: 1245 LAT: 36-45. 9N LONG: 121-59. 1W WIND: 230 SPEED: 12 AIR TEMP(DRY): 56 BARO: 30.08 CLOUD AMT: 10 HEIGHT(FT): 100C SEA: 200-2 SWELL: 180-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.016 |
6.14 |
0.46 |
0.222 |
|
15 |
33.011 |
6.39 |
0.48 |
0.175 |
|
37 |
33.166 |
6.32 |
0.51 |
0.461 |
|
57 |
33.448 |
5.99 |
0.78 |
0.570 |
|
85 |
33.592 |
4.26 |
1.49 |
0.076 |
|
110 |
33.686 |
3.57 |
1.78 |
0.153 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
C |
13-^5 |
1 5 0 C - 3 |
77.3 |
14 |
13.27 |
1500.1 |
76.6 |
28 |
13.17 |
1500.1 |
78.5 |
38 |
12.78 |
1499.2 |
77.1 |
58 |
12.00 |
1497.1 |
79.1 |
85 |
10.74 |
1493.5 |
91.4 |
104 |
10.43 |
1492.8 |
63.1 |
INTERPOLATED VALUES
DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
33.016 6.14 0.46 0.222 24.79
33.013 6.30 0.47 0.191 24.61
33.047 6.37 0.49 0.240 24.86
33.117 6.34 0.50 C.370 24.94
33.35C 6.10 0.68 C.532 25.27
33.541 4.88 1.24 0.252 25.62
33.649 3.85 1.67 0.122 25.83
0 |
13.45 |
1500.3 |
77.3 |
10 |
33.32 |
1500.2 |
76.8 |
20 |
13.23 |
1500.1 |
77.4 |
30 |
13.09 |
1499.9 |
78.2 |
50 |
12.31 |
1497.9 |
78.3 |
75 |
11.21 |
1494.8 |
86.8 |
ICO |
10.50 |
1492.9 |
69.1 |
242
STATION: B9 DEPTH: 622M DATE: 5 NOV 70 TIME: 1117 LAT: 36-44. 2N LONG: 122-59. 2W WIND: 230 SPEED: 12 AIR TEMP(DRY): 56 BARO: 30.08 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 200-2 SWELL: 180-3
DEPTH (M)
SALINITY (0/00)
OBSERVED VALU-ES (NANSEN CAST)
OXYGEN (ML/L)
PHOSPHATE (MG-ATM/L)
CHLOROPHYLL (MG/M3)
0 10 25 50 75 100
32.981 32.982 32.985 33.259 33.484 33.603
4.71 4.60 6.32 7.34 4.93 4.20
C.48 0.45 0.45 0.59 1.30 1.56
0.187 0.191 0.241 0.228 0.136 0.169
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M>
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
c
8 28 48 57 77 96
1 3,33 13.31 13.26 13.16 11.48 10.90 10.75
1 500. C 15CC.1 1500.3 15CC.5 1495.3 1493.8 1493.7
78 78 79 82
88 87
89.7
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.33 |
1500.0 |
78.0 |
10 |
13.30 |
1500.1 |
78.4 |
20 |
13.28 |
1500.2 |
79.0 |
30 |
13.25 |
1500.3 |
79.8 |
50 |
12.79 |
1499.3 |
84.3 |
75 |
10.96 |
1493.9 |
88.6 |
100 |
32.981 4.71 0.48 0.187 24.79
32.982 4.60 0.45 0.191 24.79 32.984 5.75 0.45 0.224 24.80 33.04C 6.53 0.48 0.238 24.85 33.259 7.34 0.59 C.228 25.11 33.484 4.93 1.30 0.136 25.62 33.6C3 4.20 1.56 C. 169
243
STATION: BIO DEPTH: 247M DATE: 5 NOV 70 TIME: 10C0 LAT: 36-42. 8N LONG: 122-59. Ik WIND: 180 SPEED: 22 AIR TEMP(DRY): 57 BARO: 30. C5 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 180-3 SWELL: 180-3
DEPTH (Ml
SALINITY (0/00)
OBSERVED VALUES (NANSEN CAST)
OXYGEN (ML/L)
PHOSPHATE (NG-ATM/L)
CHLCROPHY.L (MG/M3 )
0 15
40 55 70
100
32.968 32.973 33.009 33.282 33.202 33.659
6.24 6.51 6.31 6.42 5.42 4.06
0.45 C.45 0.46 0.58 0.86 1.64
0.169 0.107 0.187 0.194 0.179 0.135
OBSERVED VALUES ( SV/T/D- T RANSMI SSOMETE R CAST)
DEPTH (M)
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
0 9 14 20 3 9 57 76 99
13.30 13.29 13.29 13.29 13.30 12.90 10.95 10.57
1499.9 1500.0 1500.2 150C.2 15CC.7 1499.8 1494.0 1494.9
77.4 77.4 77.4 77.4 79.2 82.5 85.5 77.7
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.30 |
1499.9 |
77.4 |
10 |
13.29 |
1500.0 |
77.4 |
20 |
13.29 |
1500.2 |
77.4 |
30 |
13.30 |
1500.5 |
78.3 |
50 |
13.06 |
1500.1 |
81.2 |
75 |
11.05 |
1494.3 |
85.3 |
100 |
32.968 6.24 0.45 0.169 24.78
32.971 6.42 0.45 C.128 24.79
32.980 6.47 0.45 0.123 24.79
32.995 6.39 0.46 0.155 24.80
33.191 6.39 0.54 C.192 25.00
33.278 5.19 0.99 0.172 25.45
33.659 4.C6 1.64 0.135
244
STATION: Bll DEPTH: 109M DATE: 5 NOV 70 TIME: 0855 LAT: 36-41. 3N LONG: 122-59. 1W WIND: 190 SPEED: 20 AIR TEMP(DRY): 58 BARO: 30. CO CLGUD AMT: 10 HEIGHT(FT): 1000 SEA: 190-3 SWELL: 180-5
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
32.980 |
6.22 |
0.44 |
0.154 |
|
25 |
32.972 |
6.23 |
0.44 |
0.2C9 |
|
60 |
33.229 |
0.64 |
0.225 |
||
75 |
33.330 |
5.71 |
0.92 |
0.228 |
|
95 |
33.543 |
5.14 |
1.28 |
0.355 |
|
108 |
33.701 |
3.7C |
2.15 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.43 |
15CC.3 |
79.6 |
20 |
13.42 |
15C0.7 |
79.5 |
50 |
13.33 |
15CC.9 |
81.3 |
59 |
12.86 |
1498.8 |
84.9 |
74 |
11.71 |
1496.0 |
87.7 |
99 |
11.12 |
1494.9 |
84.0 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.43 |
1500.3 |
79.6 |
10 |
13.42 |
1500.5 |
79.5 |
20 |
13.42 |
1500.7 |
79.5 |
30 |
13.39 |
1500.8 |
80.1 |
50 |
13.33 |
150C.9 |
81.3 |
75 |
11.69 |
1496. C |
87.6 |
100 |
32.980 6.22 0.44 0.154 24.76
32.977 6.23 0.44 0.176 24.76
32.974 6.23 0.44 C.198 24.76
33.C09 5.34 0.47 C.211 24.80
33.156 1.78 0.58 C.220 24.92
33.33C 5.71 0.92 0.228 25.37
33.604 4.59 1.61 0.218
245
STATION: B12 DEPTH: 99M DATE: 5 NOV 70 TIME: 0750 LAT: 36-39. 8N LONG: 122-59. 2W WIND: 190 SPEED: 20 AIR TEMP(DRY): 58 BARO: 30.00 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 190-3 SWELL: 18C-5
. OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
32.971 |
6.22 |
0.43 |
0.197 |
|
20 |
32.982 |
5.78 |
0.43 |
0. 169 |
|
45 |
33.105 |
4.18 |
0.54 |
0.175 |
|
60 |
33.414 |
2.27 |
0.96 |
0.332 |
|
80 |
33.499 |
4.55 |
1. 11 |
0.446 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 • |
13.46 |
150C.5 |
77.9 |
2 I |
I 3 - 4 5 |
15CC.8 |
78.5 |
46 |
13.13 |
1500.4 |
83.2 |
55 |
12.52 |
1498.6 |
80.8 |
70 |
12.05 |
1497.5 |
79.4 |
88 |
11.50 |
1496.1 |
82.3 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-1
0 |
13.46 |
1500.5 |
77.9 |
10 |
13.46 |
1500.6 |
78.2 |
20 |
13.45 |
1500.8 |
78.5 |
30 |
13.33 |
1500.7 |
8C.2 |
50 |
12.86 |
1499.6 |
82.1 |
75 |
11.90 |
1497. 1 |
80.2 |
32.971 6.22 0.43 0.197 24.75
32.977 6.00 0.43 0.183 24.76
32.962 5.78 0.43 0.169 24.76
33.032 5.14 0.47 0.171 24.82
33.208 3.54 0.68 0.227 25.05
33.478 3.98 1.07 0.417 25.45
246
STATION: B13 DEPTH: 82M DATE: 5 NOV 70 TIME: 0655 LAT: 36-38. 8N LONG: 121-58. 7W WIND: 160 SPEED: 30 AIR TEMP(DRY): 50 BARO: 29.95 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 160-5 SWELL: 170-12
DEPTH (M)
SALINITY (0/00)
OBSERVED VALUES (NANSEN CAST)
OXYGEN (ML/L)
PHOSPHATE (MG-ATM/L)
CHLORCPHYLL (MG/M3)
0 20 50 60 81
32.961 32.961 33.163 33.382 33.533
6.23 6.37 6.16 5.81 5.35
0.49
0.51 0.64 0.89
0.167 0.199 0.160 0.358
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M)
TEMP (C)
SC. VEL (M/SEC)
TRANSMITTANCE (0/0)
0 9 18 27 35 44 53 63 67
13.36 13.35 13.32 13.34 13.30 13.18 12.57 12.23 11.82
150C.2 150C.3 1500.4 1500.6 15CC.7 150C.4 149 8.7 1497.9 1496.8
81.3 81.6 80.8 80.2 80.2 81.9 78.8 80.0 77.8
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.36 |
1500.2 |
81.3 |
10 |
13.35 |
1500.3 |
81.5 |
20 |
13.32 |
1500.4 |
80.7 |
30 |
13.32 |
1500.6 |
8C.2 |
50 |
12.77 |
1499.3 |
79.8 |
75 |
32.961 6.23 0.49 0.167 24.76
32.961 6.30 0.50 0.183 24.77
32.961 6.37 0.51 0.199 24.77
33.C29 6.30 0.55 0.186 24.82
33.163 6.16 0.64 C.160 25.04 33.490 5.48 0.25 0.102
247
STATION: CI DEPTH: 444M DATE: 5 NOV 70 TIME: 0545 LAT: 36-36. 2N LONG: 122-01. 7W WIND: 160 SPEED: 30 AIR TEMP(DRY): 50 BARO: 29.95 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 160-5 SWELL: 170-12
t
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY OXYGEN (0/00) (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|||||
0 |
32.965 |
6. |
,26 |
0, |
,44 |
0.149 |
||
20 |
32.965 |
6, |
,29 |
0, |
.48 |
0.275 |
||
50 |
33.367 |
6. |
,10 |
C, |
.79 |
0.459 |
||
70 |
33.490 |
5. |
,91 |
1. |
,00 |
0.839 |
||
80 |
33.494 |
5. |
,85 |
1, |
.02 |
0.725 |
||
100 |
33.602 |
4, |
,65 |
1, |
,31 |
0.443 |
||
OBSERVED VALUES |
(SV/T/D-TRANSMISSOMETER |
CAST) |
||||||
DEPTH TEMP (M) (C) |
SC. VEL (M/SEC) |
TRANSMITTANCE (C/0) |
||||||
0 13.30 |
1499.9 |
82. C |
||||||
13 13.30 |
15C0.2 |
82.1 |
||||||
23 13.30 |
1500.4 |
82.1 |
||||||
38 12.99 |
1499.8 |
80.7 |
||||||
46 12.73 |
1499.3 |
77.5 |
||||||
69 11.95 |
1497.1 |
71.2 |
||||||
93 10.65 |
1492.7 |
79.3 |
||||||
102 9.97 |
1491.1 |
85.6 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.30 |
1499.9 |
82.0 |
10 |
13.30 |
1500.1 |
82.1 |
20 |
13.30 |
1500.3 |
82.1 |
30 |
13.16 |
1500.1 |
81.4 |
50 |
12.59 |
1498.9 |
76.4 |
75 |
11.62 |
1496.0 |
73.2 |
100 |
10.12 |
1491. 5 |
84.2 |
32.965 6.26 0.44 0.149 24.78
32.965 6.29 0.48 0.275 24.78
32.965 6.29 0.48 0.275 24.78
33.367 6.10 0.79 C.459 25.12
33.367 6.10 0.79 C.459 25.23
33.4<;2 5.88 1.01 0.782 25.51
33.602 4.65 1.31 0.443 25.86
248
STATION: CI DEPTH: 444M DATE: 5 NOV 70 TIME: 0545 LAT: 36-36. 2N LONG: 122-01. 7W WIND: 160 SPEED: 30 AIR TEMP(DRY): 50 BARO: 29.95 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 160-5 SWELL: 170-12
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
32.965 |
6.26 |
0.44 |
0.149 |
|
20 |
32.965 |
6.29 |
0.48 |
0.275 |
|
50 |
33.367 |
6.10 |
C.79 |
0.459 |
|
70 |
33.490 |
5.91 |
1.00 |
0.839 |
|
80 |
33.494 |
5.85 |
1.02 |
0.725 |
|
100 |
33.602 |
4.65 |
1.31 |
0.443 |
OBSERVED VALUES ( SV/T/D-T RANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SG. VEL (M/SEC) |
TRANSMITTANCE (C/0) |
0 |
1 ^.30 |
1499.9 |
82. C |
13 |
13.30 |
15C0.2 |
82.1 |
23 |
13.30 |
1500.4 |
82.1 |
38 |
12.99 |
1499.8 |
80.7 |
46 |
12.73 |
1499.3 |
77.5 |
69 |
11.95 |
1497.1 |
71.2 |
93 |
10.65 |
1492.7 |
79.3 |
102 |
9.97 |
1491.1 |
85.6 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.30 |
1499.9 |
82.0 |
10 |
13.30 |
1500.1 |
82.1 |
20 |
13.30 |
1500.3 |
82.1 |
30 |
13.16 |
1500.1 |
81.4 |
50 |
12.59 |
1498.9 |
76.4 |
75 |
11.62 |
1496.0 |
73.2 |
100 |
10.12 |
1491.5 |
84.2 |
32.965 6.26 0.44 0.149 24.78
32.965 6.29 0.48 0.275 24.78
32.965 6.29 0.48 0.275 24.78
33.367 6.10 0.79 C.459 25.12
33.367 6.10 0.79 C.459 25.23
33.4S2 5.88 1.01 0.782 25.51
33.602 4.65 1.31 0.443 25.86
248
STATION: C2 DEPTH: 823M DATE: 5 NOV 70 TIME: 0437 LAT: 36-34. IN LONG: 122-04. 1W WIND: 160 SPEED: 35 AIR TEMP(DRY): 50 BARO: 29.90 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 160-6 SWELL: 170-12
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY OXYGEN (0/00) (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
||||
0 |
32.927 |
4, |
,65 |
0, |
,42 |
0.227 |
|
20 |
32.936 |
4, |
,67 |
0, |
,42 |
0.245 |
|
50 |
32.961 |
4, |
,70 |
0, |
.43 |
0.2C0 |
|
65 |
33.280 |
5, |
,93 |
0. |
.71 |
0.296 |
|
80 |
33.578 |
3. |
,70 |
1, |
.42 |
0.267 |
|
100 |
33.604 |
2, |
.95 |
1. |
.57 |
0.106 |
|
OBSERVED VALUES |
(SV/T/D-7RANSMISS0METER |
CAST) |
|||||
DEPTH TEMP ( M ) ( C ) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
|||||
0 13-44 |
15CG.4 |
77.7 |
|||||
4 13.45 |
150C.5 |
78.8 |
|||||
14 13.43 |
15C0.6 |
78.4 |
|||||
23 13.44 |
15 CO. 8 |
78.4 |
|||||
37 13.41 |
15C1.0 |
77.9 |
|||||
54 13.19 |
1 5 0 C . 7 |
81.8 |
|||||
64 12.17 |
1493.7 |
80.5 |
|||||
79 10.84 |
1493.7 |
83.1 |
|||||
94 9.85 |
1490.2 |
89.0 |
INTERPOLATED VALUES
DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
32.927 4.65 0.42 0.227 24.72
32.936 4.67 0.42 0.245 24.73
32.936 4.67 0.42 0.245 24.73
32.961 4.70 0.43 0.200 24.75
32.961 4.70 0.43 0.200 24.79
33.478 4.44 1.19 0.277 25.58
33.604 2.95 1.57 0.106
0 |
13.44 |
1500.4 |
77.7 |
10 |
13.44 |
1500.6 |
78.6 |
20 |
13.44 |
1500.7 |
78.4 |
30 |
13.42 |
1500.9 |
78.1 |
50 |
13.24 |
1500.8 |
80.9 |
75 |
11.19 |
1493.7 |
82.4 |
100 |
249
STATION: C3 DEPTH: 1280M DATE: 5 NOV 70 TIME: 0305 LAT: 36-31. 5N LONG: 122-07. 4W WIND: 160 SPEED: 35 AIR TEMP(DRY): 50 BARO: 29.90 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 160-6 SWELL: 170-12
. OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
32.831 |
3.95 |
0.41 |
0.1C7 |
|
10 |
32.864 |
4.94 |
0.41 |
0.175 |
|
25 |
32.872 |
5.20 |
0.41 |
0.156 |
|
40 |
33.315 |
4.80 |
0.68 |
0.195 |
|
60 |
33.403 |
4.18 |
0.98 |
0.189 |
|
70 |
33.155 |
4.22 |
• |
1.01 |
0.C71 |
90 |
33.477 |
4.03 |
1.43 |
0.031 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.56 |
1500.7 |
78.8 |
9 |
13.55 |
15CC.9 |
79.2 |
28 |
13.49 |
1501.0 |
79.9 |
38 |
13.27 |
150C.2 |
80.6 |
58 |
11.66 |
1496.0 |
88.8 |
67 |
9.47 |
1487. S |
91.4 |
85 |
9.37 |
1486.3 |
91.7 |
96 |
8.69 |
1486.2 |
92.4 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.56 |
1500.7 |
78.8 |
10 |
13.55 |
1500.9 |
79.2 |
20 |
13.52 |
1501. C |
79.6 |
30 |
13.45 |
1500.8 |
80.0 |
50 |
12.30 |
1497.7 |
85.5 |
75 |
9.43 |
1488. 1 |
91.5 |
32.831 3.95 0.41 0.107 24.62
32.864 4.94 0.41 0.175 24.65
32.86<5 5.11 0.41 C.162 24.66
33.C2C 5.07 0.50 0.169 24.79
33.359 4.49 0.83 0.192 25.28
33.236 4.18 1.12 0.C61 25.69
250
STATION: Dl DEPTH: 1737M DATE: 5 NGV 7C TIME: OlOO LATr. 36-35. 5N LONG: 122-10. 8W WIND: 160 SPEED: 35 AIR TENP(DRY): 55 BARC: 29.95 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 160-6 SWELL: 170-1C
OBSERVED VALUES (KANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHCSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
32.920 |
5.92 |
0.47 |
0.193 |
|
10 |
32.916 |
5.42 |
0.48 |
0.157 |
|
25 |
32.909 |
5.33 |
0.50 |
0.142 |
|
40 |
33.126 |
5.26 |
0.52 |
0.151 |
|
60 |
33.372 |
4.95 |
0.68 |
0.215 |
|
70 |
33.431 |
A. 35 |
0.99 |
0.154 |
|
90 |
33.415 |
4.08 |
0.C29 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.16 |
1499.4 |
78.5 |
10 |
13.15 |
1499.5 |
79.0 |
19 |
13. 04 |
1499.4 |
79.9 |
27 |
13.03 |
1499.5 |
81. 1 |
37 |
13.23 |
15C1.4 |
85.2 |
57 |
12.23 |
1497.8 |
89.2 |
77 |
10.26 |
1491.5 |
90.3 |
96 |
9.37 |
1488.7 |
91.2 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13. 16 |
1499.4 |
78.5 |
10 |
13.15 |
1499.5 |
79.0 |
20 |
13.04 |
1499.4 |
8C.0 |
30 |
13.09 |
1500.1 |
82.3 |
50 |
12.58 |
1499.1 |
87.8 |
75 |
10.46 |
1492. 1 |
90.2 |
32.920 5.92 0.47 0.193 24.77
32.916 5.42 0.48 0.157 24.77
32.911 5.36 0.49 0.147 24.79
32.981 5.31 0.51 C.145 24.83
33.249 5.11 0.60 0.183 25.14
33.427 4.28 0.74 0.123 25.67
251
STATION: D2 DEPTH: 1370M DATE: 4 NOV 70 TIME: 2300 LAT: 36-39. 2N LONG: 122-14. 6W WIND: 160 SPEED: 30 AIR TEMP(DRY): 53 BARO: 29.97 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 160-4 SWELL: 170-9
OBSERVED VALUES (NANSEN CAST)
DEPTH (MJ |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.230 |
6.38 |
0.55 |
0.177 |
|
10 |
33.231 |
6.51 |
0.53 |
0.122 |
|
30 |
33.231 |
6.45 |
0.52 |
0.249 |
|
40 |
33.224 |
3.58 |
0.55 |
0.175 |
|
55 |
33.170 |
6.24 |
0.57 |
0.089 |
|
70 |
33.109 |
5.84 |
0.79 |
0.088 |
|
90 |
33.483 |
4.72 |
1.37 |
0.215 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO., VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.50 |
1501.0 |
76.8 |
1C |
13.45 |
1 5 C C . 9 |
77.6 |
20 |
13.41 |
1 5 C 1 . C |
78.1 |
28 |
13.27 |
1500.6 |
78. 1 |
39 |
13.03 |
1499.9 |
80. A |
58 |
10.60 |
1491.5 |
88.7 |
76 |
10.42 |
1492.0 |
90.0 |
89 |
9. 41 |
1488.5 |
91.9 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 |
13.50 |
1501.0 |
76.8 |
10 |
13.45 |
1500.9 |
77.6 |
20 |
13.41 |
1501.0 |
78.1 |
30 |
13.23 |
1500.5 |
78.5 |
50 |
11.62 |
1495. C |
85.2 |
75 |
10.43 |
1492. C |
89.9 |
33.230 6.38 0.55 0.177 24.94
33.231 6.51 0.53 0.122 24.95 33.231 6.45 0.52 0.249 24.96 33.231 6.45 0.52 0.249 25.00 33.188 5.36 0.56 C.118 25.27 33.2C3 5.56 0.94 0.120 25.50
252
STATION: 03 DEPTH: 1262M DATE: 4 NOV 70 TIME: 2100
LAT: 36-43. ON LONG: 122-18. 5W WIND: 210 SPEED: 25
AIR TEMP(DRY): 55 BARO: 29.93 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 200-7 SWELL: 190-9
DEPTH (M)
SALINITY
(0/00)
OBSERVED VALUES (KANSEN CAST)
OXYGEN (ML/L)
PHOSPHATE (MG-ATM/L)
CHLOROPHYLL (MG/M3)
0 15 30 40 60
32.243 32.243 33.251 33.341 33.397
6.41 6.16 6.42
5.70 4.99
0.52 0.46 0.52 0.93 1.24
0.142 0.171 0.167 0.179 0.059
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M)
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
0 o
18 27 46 64 76 82
13.77 12.77 13.74
13.68
11.53
10.02
9.74
9.71
1501.8 15C2.1 15C2.1 1502.1 1495.4 1490.4 149C.0 1489.7
77 77
77 77
85 89
90.0 90.0
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.77 1501.8
10 13.77 1502.1
20 13.73 1502.1
30 13.34 1501.0
50 11.19 1494.3
77.2 33.243 6.41 0.52 0.142 24.90
77.2 33.243 6.25 0.48 C.161 24.90
77.3 33.251 6.42 0.52 0.167 24.91 78.8 33.251 6.42 0.52 0.167 24.99 86.5 33.369 5.34 1.08 0.119 25.49
253
STATION: El DEPTH: 841M DATE: 4 NOV 70 TIME: 1853 LAT: 36-47. 4N LONG: 122-14. 5b WIND: 170 SPEED: 25 AIR TEMP(DRY): 55 BARO: 29.93 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 170-7 SWELL: 17C-1C
DEPTH (M)
SALINITY (0/00)
OBSERVED VALUES (NANSEN CAST)
OXYGEN (ML/L)
PhQSPHATE (MG-ATM/L)
CHLOROPHYLL (MG/M3)
0 30 50 70 80
33.084 33.085 33.116 33.058 33.278
6.18 6.27 6.21 4.50 4.42
0.48 0.48 C.50 0.69 1.16
0.160 0.134 0.177
0el56
0.058
OBSERVED VALUES ( SV/T/D-T RANSMI SSOMETE R CAST)
DEPTH (M)
TEMP (C)
SC. VEL (M/SEC)
TRANSMITTANCE (0/0)
0 9 26 44 59 66 77
13.07 13.06 13.11 11.83 11.41 10.30 9.97
1499.4
149Q r <s 15CC.C 1495.9 1495.1 1491. C 1490.3
77.8
78.8 78.1 85.3 88.5 90.7 90.7
INTERPOLATED VALUES DEPTH TEMP' SO. VEL TRANS. SAL. GXY PHOS CHLOR SIG-T
0 |
13.07 |
1499.4 |
77.8 |
10 |
13.06 |
1499.5 |
78.8 |
20 |
13.09 |
1499.8 |
78.3 |
30 |
12.83 |
1499. 1 |
79.7 |
50 |
11.66 |
1495.6 |
86.6 |
75 |
10. C3 |
1490.4 |
9C.7 |
33.084 6.18 0.48 0.160 24.92
33.084 6.21 0.48 0.151 24.92
33.C65 6.24 0.48 0.143 24.91
33.C85 6.27 0.48 0.134 24.97
33.116 6.21 0.50 0.177 25.21
33.168 4.46 0.92 0.107 25.54
254
STATION: E2 DEPTH: 192M DATE: 4 NOV 70 TIME: 1000 LAT: 36-50. 7N LONG: 122-10. 6W WIND: 170 SPEED: 25 AIR TEMP(DRY): 54 BARO: 29.98 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 170-2 SWELL: 180-5
OBSERVED VALUES (KANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.049 |
6.29 |
0.46 |
0.163 |
|
5 |
33.061 |
6.45 |
0.43 |
0. 178 |
|
10 |
33.061 |
6.27 |
0.43 |
0.135 |
|
20 |
33.068 |
6.37 |
0.45 |
0.162 |
|
30 |
33.256 |
6.24 |
0.62 |
0.221 |
|
50 |
33.348 |
5.60 |
1.06 |
0.137 |
|
75 |
33.629 |
3.82 |
1.68 |
0.047 |
|
100 |
33.777 |
3.55 |
1.84 |
0.044 |
OBSERVED VALUES ( S V/T/D-TRANSMI S SOMET ER CAST)
EPTH (M) |
T CM D icT |
cnt \/ci (m/secT |
TRAN^MITTAMf.F (0/0) |
0 |
13.38 |
15C0.3 |
79.7 |
4 |
13.37 |
15CC.3 |
79.2 |
9 |
13.38 |
1500.4 |
78.5 |
19 |
13.31 |
1 5 C C • C |
79.8 |
30 |
12.91 |
1499.5 |
83.2 |
49 |
11.04 |
1493.6 |
91.5 |
74 |
10.10 |
1490. 8 |
93.7 |
98 |
9.21 |
1488.3 |
94. 1 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.38 |
1500.3 |
79.7 |
10 |
13.37 |
1500.4 |
78.6 |
20 |
13.27 |
1500. C |
80.1 |
30 |
12.91 |
14 99.5 |
83.2 |
50 |
11 .CO |
1493.5 |
91.6 |
75 |
10.06 |
1490.7 |
93.7 |
100 |
33.C49 6.29 0.46 0.163 24.83
33.061 6.27 0c43 0.135 24.84
33.068 6.37 0.45 0.162 24.86
33.256 6.24 0.62 0.221 25.08
33.348 5.60 1.06 0.137 25.51
33.629 3.82 1.68 0.C47 25.89
33.777 3.55 1.84 0.044
255
STATION: E3 DEPTH: 109M DATE: 4 NOV 70 TIME: 1055 LAT: 36-51. 9N LONG: 122-09. oh WIND: 170 SPEED: 25 AIR TEMP(DRY): 54 8ARO: 29.98 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 170-2 SWELL: 180-5
OBSERVED VALUES (NANSEN CAST)
DEPTH (Ml |
SALINITY (0/00) |
0 |
33.014 |
10 |
33.014 |
20 |
33.096 |
50 |
33.380 |
70 |
33.567 |
OXYGEN (ML/L)
5.69 6.12 5.11 5.10 4.05
PHOSPHATE (MG-ATM/L)
0.46 0.46 0.51 1.04 1.47
CHLOROPHYLL (MG/M3)
0.180 0.226 0.215 0.182 0.091
OBSERVED VALUES ( SV/T/D- TRANSMI S SCMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 • |
13.21 |
1499.6 |
77.2 |
in |
1 3. ?l |
u;9^ |
77. 3 |
19 |
13.12 |
1499.7 |
77.2 |
39 |
12.27 |
14 97.5 |
86.8 |
49 |
11.19 |
1493.8 |
89.3 |
68 |
9.88 |
1490.5 |
90.2 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 13.21 1499.6
10 13.21 1499.9
20 13.08 1499.6
30 12.65 1498.5
50 11.12 1493.6
77.2 33.014 5.69 0.46 0.180 24.83
77.3 33.014 6.12 0.46 0.226 24.83 77.7 33.096 5.11 0.51 0.215 24.92 82.5 33.190 5.11 0.69 0.204 25.08 89.3 33.3EC 5.10 1.04 0.182 25.51
256
STATION: E4 DEPTH: 89M DATE: 4 NOV 70 TIME: 1155 LAT: 36-53. 2N LONG: 122-08. 5W WIND: 170 SPEED: 12 AIR TEMP(DRY): 55 BARO: 29.98 CLOUD AMT: 10 HEIGHT(FT): 100C SEA: 170-2 SWELL: 170-4
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.073 |
6.30 |
0.45 |
0.223 |
|
5 |
33.053 |
6.36 |
0.47 |
0.278 |
|
10 |
32.053 |
6.16 |
0.4 8 |
0.274 |
|
20 |
33.115 |
6.29 |
0.50 |
0.276 |
|
30 |
33.371 |
6.23 |
0.7 8 |
0.379 |
|
50 |
33.506 |
4.83 |
1.35 |
0o312 |
|
75 |
33.680 |
3.45 |
1.87 |
0.132 |
|
86 |
33.706 |
3.34 |
OBSERVED VALUES ( SV/T/D-T RANSMI SSOMETE R CAST)
n c p t u "(Mi" |
TCMD (cV |
en \/pi (M/SEC) |
TR AN9M JTTANCF (0/0) |
0 |
13.28 |
1499.9 |
74.2 |
5 |
13.26 |
1500.0 |
74.5 |
10 |
13.26 |
1 5 C C . C |
74.1 |
19 |
13.16 |
1520.0 |
74.9 |
28 |
12.53 |
1498.2 |
77.8 |
48 |
11.49 |
1495.2 |
75.0 |
57 |
10.72 |
1492.8 |
86.5 |
73. |
10.08 |
149C.4 |
82.1 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-1
0 |
13.28 |
1499.9 |
74.2 |
10 |
13.26 |
1500.0 |
74.1 |
20 |
13.09 |
1499.8 |
75.2 |
30 |
12.43 |
1497.9 |
77.5 |
50 |
11.32 |
14 94. 7 |
77.6 |
75 |
33.073 6.30 0.45 0.223 24.87
33.053 6.16 0.48 0.274 24.85
33.115 6.29 0.50 0.276 24.94
33.371 6.23 0.78 0.379 25.26
33.5C6 4.83 1.35 0.312 25.58
33.68C 3.45 1.87 C.132
257
STATION: E5 DEPTH: 65M DATE: 4 NOV 70 TIKE: 1245 LAT: 36-54. 2N LONG: 122-06. E-W WIND: 170 SPEED: 12 AIR TEMP(DRY): 55 BARO: 29.98 CLOUC AMT: 10 HEIGHT(FT): 1000 SEA: 170-2 SWELL: 170-4
OBSERVED VALUES (NANSEN CAST)
DEPTH (MJ |
SALINITY tO/00) |
0 |
33.069 |
10 |
33.107 |
25 |
33.372 |
45 |
33.534 |
55 |
33.572 |
63 |
33.610 |
OXYGEN (ML/L) |
PHGSPHATE (MG-ATM/L) |
|
6.24 |
0.48 |
|
6.46 |
0.50 |
|
6.24 |
0.70 |
|
4.57 |
1.48 |
|
4.15 |
1.66 |
|
3.89 |
CHLOROPHYLL (MG/M3)
0.3C5 0.357 0.717 0.510 0.349
OBSERVED VALUES { SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SC, VEL (M/SEC) |
TRANSMITTANCE (C/0) |
0 |
13,30 |
1500.0 |
7 6. 6 |
10 |
13.24 |
150C.C |
75.9 |
29 |
12.33 |
1497.7 |
63.3 |
39 |
11.66 |
1495.7 |
29.8 |
49 |
11.20 |
1494.3 |
32.2 |
53 |
10.94 |
1493.4 |
40.3 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 |
13.30 |
1500.0 |
76.6 |
10 |
13.24 |
15C0.C |
75.9 |
20 |
12.76 |
1498.8 |
69.3 |
30 |
limit |
1497.5 |
59.9 |
50 |
11.13 |
1494.1 |
34.2 |
33.069 6.24 0.48 0.305 24.86
33.1C7 6.46 0.50 0.357 24.90
33.264 6.31 0.64 0.597 25.13
33.412 5.82 0.90 0.665 25.33
33.553 4.36 1.57 0.429 25.65
258
STATION: E6 DEPTH: 45M DATE: 4 NOV 70 TIME: 1330 LAT: 36-55. 5N LONG: 122-05. 9W WIND: 170 SPEED: 12 AIR TEMP(DRY): 56 BARO: 29.95 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 170-2 SWELL: 17G-4
OBSERVED VALUES (NANSEN CAST)
DEPTH (Ml |
SALINITY (0/00) |
0 |
33.106 |
15 |
33.144 |
25 |
33.347 |
35 |
33.471 |
43 |
OXYGEN (ML/L)
6.34 6.46 6.27 5.44 4.7C
PHOSPHATE (MG-ATM/L)
0.52 0.52 0.73 1. 15
CHLOROPHYLL (MG/M3)
0.281 0.361 0.658 0.451
OBSERVED VALUES ( SV/T/D-TRAN SMI SSOMETE R CAST)
DEPTH ( M )
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
0 1^ 27 32 36
13.23 1 2 : 79 12.11 12.05 11.54
1499.9 1498.9
1496.9 1496.9 1495.3
76.2 68.7 34.7 41.4 35.5
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.23 1499.9
10 12.92 1499.2
20 12.48 1498.0
30 12.07 1496.9
76.2 33.1C6 6.34 0.52 C.281 24.90
70. 8 33.131 6.42 0.52 0.334 24.98
53.0 33.246 6.37 0.62 0.509 25.16
38.7 33.4C9 5.86 0.94 0.554 25.36
259
STATION: E7 DEPTH: 35M DATE: 4 NOV 70 TIME: 1355 LAT: 36-56. 4N LONG: 122-05. OW WIND: 170 SPEED: 12 AIR TEMP(DRY): 56 BARC: 29.95 CLOUD AMT: 10 HEIGHT(FT): 100C SEA: 170-2 SWELL: 170-4
OBSERVED VALUES (NANSEN CAST)
DEPTH (Ml |
SALINITY (0/00) |
0 |
33.121 |
5 |
33.121 |
12 |
33.144 |
25 |
33.425 |
33 |
33.472 |
OXYGEN (ML/L)
6.37 6. 08 5.50 5.16 4.97
PHOSPHATE (MG-ATM/L)
0.55 0.53 0.58 1.02
CHLOROPHYLL (MG/M3)
0.510 0.782 0.5C8 0.479
OBSERVED VALUES ( SV/T/D-TRANSMI SSQMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.13 |
149 9.6 |
74.3 |
4 |
13.08 |
14 9 9.6 |
73.7 |
13 |
12.98 |
1499.4 |
70.2 |
23 |
12.41 |
14 9 8.0 |
38.3 |
27 |
12.02 |
1496.8 |
28.5 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.13 1499.6
10 13.01 1499.5
20 12.58 1498.4 30
74.3 33.121 6.37 0.55 0.510 24.93
71.4 33.137 5.67 0.57 0.586 24.97 47.9 33.316 5.29 0.86 0.490 25.19
33.454 5.04 0.36 C.180
260
STATION: Fl DEPTH: 49M DATE: 4 NOV 70 TIME: C839 LAT: 36-57. 8N LONG: 122-10. lb WIND: 180 SPEED: 15 AIR TEMP(DRY): 54 BARO: 29.96 CLOUD AMT: 10 HEIGHT(FT): 700 SEA: 165-2 SWELL: 180-5
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
33.216 |
10 |
33.220 |
20 |
33.276 |
25 |
33.430 |
35 |
33.528 |
47 |
OXYGEN (ML/L)
4.30 5.98 5.83 5.35 4.67 3.90
PHOSPHATE (NG-ATM/L)
0.54 0.54 0.55 0.74 1.31 1.76
CHLOROPHYLL (MG/M3)
0.343 0.442 0.679
0.381
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
C |
12.97 |
1499. i |
75,9 |
6 |
12.96 |
1499.2 |
76.1 |
11 |
12.95 |
1499.2 |
76.1 |
15 |
12.93 |
1499.2 |
75.6 |
20 |
12.72 |
1 4 <; 8 . 7 |
70.9 |
25 |
12.12 |
1496.9 |
63.9 |
29 |
11.71 |
1495.5 |
48.5 |
39 |
11.30 |
14 94.5 |
37.3 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 12.97 1499.1
10 12.95 1499.2
20 12.72 149 8.7
30 11.67 1495.4
75.9 33.216 4.30 0.54 0.343 25.04
76.1 33.22C 5.98 0.54 0.442 25.05
7C.9 33.276 5.83 0.55 0.679 25.13
47.4 33.479 5.01 1.03 25.49
261
STATION: F2 DEPTH: 36M DATE: 4 NOV 70 TIME: 0725 LAT: 37-01. ON LONG: 122-14. 8W WIND: 180 SPEEC: 15 AIR TEMP(DRY): 54 BARO: 29.96 CLOUD AMT: 10 HEIGHT(FT): 700 SEA: 165-2 SWELL: 180-5
OBSERVED VALUcS (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
33.322 |
5 |
3 3.324 |
15 |
33.367 |
25 |
33.522 |
OXYGEN (ML/L)
6.36 6.50 6.60 5.19
PHOSPHATE (MG-ATM/L)
0.59 0.59 0.63 1.27
CHLCPOPHYLL (MG/M3)
0.477 0.615 G.990 0.533
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
:epth (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 • |
12.78 |
1496.6 |
75.1 |
5 |
1 2 . 77 |
1^96-7 |
71 .? |
9 |
12.66 |
1498.5 |
71.2 |
14 |
12.33 |
1497.4 |
60. C |
19 |
11.83 |
1497.4 |
46.6 |
24 |
11.61 |
1496.1 |
41.6 |
30 |
11.21 |
1495.3 |
32.5 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR S IG-T
0 12.78 1498.6
10 12.59 1498.3
20 11.79 1497.1
30 11.21 1495.3
75.1 33.322 6.36 0.59 0.477 25.16
69.0 33.34fc 6.55 0.61 0.802 25.21
45.6 33.445 5.89 0.95 0.761 25.44
32.5 14.849 2.31 0.55 C.237 11.17
262
STATION: F3 DEPTH: 63M DATE: 4 NOV 70 TINE: C630 LAT: 37-043N LONG: 122-17. 5W WIND: 165 SPEED: 10 AIR TEMP(DRY): 55 BARO: 29.92 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 165-1 SWELL: 180-5
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLCROPHY..L (MG/M3) |
|
0 |
33.360 |
6.42 |
0.59 |
0.455 |
|
5 |
33.357 |
6.39 |
0.58 |
0.445 |
|
12 |
33.360 |
6.46 |
0.59 |
0.549 |
|
22 |
33.361 |
6.38 |
0.62 |
0.5C3 |
|
27 |
33.389 |
6.31 |
0.73 |
0.665 |
|
34 |
33.399 |
5.84 |
0.94 |
OBSERVED VALUES ( SV/T/D-7RANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SC. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
1^- 31 |
lA'JR-6 |
80.6 |
4 |
12.70 |
14 9 8.7 |
80.8 |
10 |
12.60 |
1498.4 |
79.3 |
15 |
12.36 |
1497.7 |
68.8 |
19 |
12.27 |
14 9 7.6 |
66. C |
24 |
12.27 |
1497.6 |
63.3 |
29 |
12.27 |
1497.7 |
49.5 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. CXY PHOS CHLOR S1G-T
0 13.31 1498.6
10 12.60 1498.4
20 12.27 1497.6 30
80.6 33.360 6.42 0.59 0.455 25.06
79.3 33.359 6.44 0.58 0.519 25.22
65.5 33.361 6.40 C.62 0.512 25.29 33.393 6.11 0.82 0.380
26 3
STATION: Gl DEPTH: 56M DATF: 4 NOV 70 TIKE: 053G LAT: 37-C3.0N LONG: 122-19. Ok WIND: 165 SPEEC: 10 AIR TEMP(DRY): 55 BARO: 29.92 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 165-1 SWELL: 180-5
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.365 |
6.35 |
0.56 |
0.362 |
|
5 |
33.365 |
6.40 |
0.57 |
0.329 |
|
10 |
33.367 |
6.30 |
0.98 |
0.3C0 |
|
20 |
33.469 |
5.68 |
1.25 |
1.069 |
|
30 |
33.525 |
4.97 |
1.45 |
0.691 |
|
40 |
33.547 |
4.94 |
1.38 |
0.546 |
|
54 |
33.596 |
4.22 |
OBSERVED VALUES ( SV/T/D-T RANSMI SSOMETER CAST)
DEPTH (Ml |
TEMP (C) |
SOc VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.03 |
1498.6 |
82.0 |
4 |
12.78 |
1498.6 |
81.5 |
10 |
12.78 |
1498.7 |
81.6 |
18 |
12.30 |
1497.5 |
74.6 |
28 |
11.52 |
1494.9 |
56.8 |
37 |
11.27 |
1494.3 |
58.9 |
11.21 |
1494.3 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 13.03 1498.6
10 12.78 1498.7
20 12.14 1497.0
30 11.46 1494.8 50
82.0 33.365 6.35 0.56 C.362 25.14
81.6 33.367 6.30 0.98 0.300 25.19
71.0 33.469 5.68 1.25 1.C69 25.39
57.3 33.525 4.97 1.45 0.691 25.56 33.562 4.43
264
STATION: G2 DEPTH: 75M DATE: 4 NOV 70 TIME: 0425 LAT: 37-02. 2N LONG: 122-20. 5W WIND: 180 SPEED: 6 AIR TEMP(DRY): 54 BARO: 29.87 CLOUD AMT: 0 HEIGHT(FT): CLEAR SEA: 180-1 SWELL: 180-4
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (NG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.345 |
6.34 |
0.56 |
0.320 |
|
5 |
33.345 |
6.34 |
0.57 |
0.4 27 |
|
10 |
33.346 |
6.37 |
0.58 |
0.385 |
|
20 |
33.373 |
6.33 |
0.63 |
0.357 |
|
40 |
33.580 |
4.36 |
1.64 |
0.278 |
|
60 |
33.629 |
4.03 |
1.79 |
0.294 |
|
73 |
33.637 |
3.93 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH- (MJ
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
73.8 73.8 74.0 80.1 88.5 37.0 33.0
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 10 20 30 50
73.8 33.345 6.34 0.56 C.320
33.346 6.37 0.58 0.385
33.373 6.33 0.63 0.357
33.476 5.34 1.14 0.317
33.604 4.19 1.72 0.286
265
STATION: G3 DEPTH: 97M DATE: 4 NOV 70 TIME: 0305 LAT: 37-01. 5N LONG: 122-21. 7W WIND: 180 SPEED: 6 AIR TEMP(DRY): 54 BARO: 29.87 CLOUD AMT: 0 HEIGHT(FT): CLEAR SEA: 180-1 SWELL: 180-4
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
32.353 |
6.36 |
0.59 |
0.392 |
|
5 |
33.356 |
6.47 |
0.60 |
0.364 |
|
20 |
33.421 |
6.15 |
0.78 |
0.347 |
|
40 |
33.508 |
5.06 |
1.21 |
0.576 |
|
50 |
33.520 |
4.90 |
1.28 |
0.391 |
|
65 |
33.653 |
4. 10 |
1.59 |
0.207 |
|
75 |
33.725 |
3.38 |
0.215 |
||
95 |
33.729 |
3.52 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M>
T F M P
(C)
sn. vfi
(M/SEC)
TRANSMITTANCE (0/0)
62.0 72.1 78.6 81.6 86.1 88.2 48.0 46.9
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50 75
62.0 33.353 6.36 0.59 0.392
33.377 6.36 0.66 C.358
33.421 6.15 0.78 0.347
33.464 5.61 1.00 0.461
33.52C 4.90 1.28 0.391
33.725 3.38 0.215
266
STATION: G4 DEPTH: 155M DATE: 4 NOV 70 TIME: 0200 LAT: 37-00. 5N LONG: 122-23. 1W WIND: 180 SPEED: 6 AIR TEMP(DRY): 54 BARO: 29.88 CLOUD AMT: 3 HEIGHT(FT): 150C SEA: 180-1 SWELL: 18C-5
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLCROPHYLL (MG/M3) |
|
0 |
33.355 |
6.32 |
0.63 |
0.404 |
|
10 |
33.353 |
6.34 |
0.69 |
0.456 |
|
30 |
33.396 |
5.73 |
1.04 |
0.435 |
|
40 |
33.448 |
5.54 |
1.06 |
0.414 |
|
60 |
33.7C0 |
3.37 |
1.67 |
0.727 |
|
80 |
33.770 |
3.46 |
1.81 |
0.097 |
|
100 |
33.806 |
3.22 |
1.89 |
0.076 |
|
153 |
33.827 |
3.16 |
OBSERVED VALUES ( S V/T/D-T RANSMI SSOMETER CAST)
HEPTH (M)
TCMP
(C)
(M/SEC)
TR ANSM r TTANf.F (0/0)
74.3 74.8 82.7 86.1 91.6 89.4 80.7 74.7
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50 75 100 150
74.3 33.355 6.32 0.63 0.404
33.353 6.34 0.69 C.456
33.374 6.04 0.87 0.445
33.396 5.73 1.04 C.435
33.574 4.7C 1.37 0.57C
33.752 3.57 1.77 0.254
33..1C6 3.22 1.89 0.076
33.825 3.16 O.C04 267
STATION: G5 DEPTH: 155M DATE: 4 NOV 70 TIME: C045 LAT: 36-59. 5N LONG: 122-24. 5W WIND: 160 SPEED: 30 AIR TEMP(DRY): 51 BARO: 29,87 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 160-8 SWELL: CCNFUSED-10
OBSERVED VALUES (NANSEN CAST)
DEPTH (MJ |
SALINITY (0/00) |
0 |
33.411 |
10 |
33.407 |
20 |
33.487 |
35 |
33.524 |
55 |
33.638 |
75 |
33.863 |
95 |
33.862 |
OXYGEN (ML/L)
6.40 6.31 5.92 4.95 4.05 3.07 2.99
PHOSPHATE (MG-ATM/L)
0.67 0.66 C.92 1.28 1.59 1.92 1.96
CHLOROPHYLL (MG/M3)
0.267 0.374 0.377 0.221 0.0 64 0.077 0.094
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETE R CAST)
DEPTH- (M) |
TEMP (C) |
SC. VEL (M/SEC) |
TRANSMITTANCE (0/0) 72.4 72.2 74.2 82.2 88.8 90.0 83.2 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50 75
72.4 33.411 6.40 0.67 0.287
33.4C7 6.31 0.66 0.374
33.487 5.92 0.92 0.377
33.512 5.27 1.16 C.273
33.61C 4.27 1.51 C.103
33.863 3.07 1.92 0.077
268
STATION: G6 DEPTH: 733M DATE: 3 NOV 70 TIKE: 2312 LAT: 36-56. 3N LONG: 122-32. 8h WIND: 150 SPEED: 30 AIR TEMP(DRY): 51 BARO: 29.33 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 150-8 SWELL: CCNFUSED-12
OBSERVED VALUES (NAMSEN CAST)
DEPTH (Ml |
SALINITY (0/00) |
OXYGEN (ML/LI |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.457 |
6.31 |
0.69 |
0.496 |
|
10 |
33.454 |
6.42 |
0.71 |
0.559 |
|
20 |
33.484 |
5.94 |
0.85 |
0.542 |
|
35 |
33.317 |
5.13 |
1. 16 |
0.137 |
|
55 |
33.571 |
4.34 |
1.48 |
0.172 |
|
75 |
33.529 |
4.71 |
1.42 |
0.114 |
|
95 |
33.688 |
4.38 |
1.57 |
0.041 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (Ml
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
72.7 73.0 82.5 89.0 88.7 90.2 90.6
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. CXY PHCS CHLOR SIG-T
0 10 20 30 50 75
72.7 33.457 6.31 0.69 C.496
33.454 6.42 0.71 0.559
33.4C4 5.94 0.85 0.542
33.373 5.4C 1.06 C.272
33.5C7 4.54 1.40 C.163
33.529 4.71 1.42 C.114
269
STATION: G7 DEPTH: 1370M DATE: 3 NOV 70 TIKE: 2204 LAT: 36-53. 3N LONG: 122-32. 8h WIND: 150 SPEED: 30 AIR TEMP(DRY): 51 BARO: 29.83 CLOUD AMT: 10 HEIGHT(FT): 1000 SEA: 150-8 SWELL: CONFUSED-12
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.386 |
6.51 |
1.13 |
0.348 |
|
5 |
33.384 |
6.46 |
0.79 |
0.283 |
|
10 |
33.337 |
6.22 |
1.12 |
0.411 |
|
20 |
33.395 |
6.33 |
0.92 |
0.475 |
|
30 |
33.401 |
5.21 |
0,67 |
0.215 |
|
50 |
3 3.49 8 |
4.46 |
1.45 |
0.189 |
|
75 |
33.515 |
4.84 |
1.76 |
0.094 |
|
100 |
33.679 |
4.79 |
1.49 |
0.051 |
OBSERVED VALUES (SV/T/D- RANSMISSOME ER CAST)
IEPTH (M)
TEMP (C)
en mci
(M/SEC)
TP AM CM TTT A M£ P
' (6/0) '
71.9 74.2 74.2 82.2 92.0 92.2
DEPTH TEMP
0 10 20 30 50 75 100
INTERPOLATED VALUES
SO. VEL TRANS. SAL. GXY PHCS CHLOR SIG-T
71.9 33.326 6.51 1.13 0.348
33.3E7 6.22 1.12 C.411
33.395 6.33 0.92 0.475
33.401 5.21 0.67 C.215
33.49c 4.46 1.45 0.189
33.515 4.84 1.76 C.C94
33.679 4.79 1.49 0.C51
270
STATION: HI DEPTH: 825M DATE: 3 NOV 70 TIME: 180C LAT: 36-58. 3N LONG: 122-41. CW WIND: 140 SPEED: 25 AIR TEMP(DRY): 53 BARO: 29. 8C CLOUD AMT: 10 HEICHT(FT): 1000 SEA: 140-5 SWELL: CCNFUSED-7
. OBSERVED VALUES (NANS EN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/LJ |
CHLOROPHYLL (MG/M3) |
|
0 |
33.299 |
6.45 |
0.56 |
0.438 |
|
10 |
33.310 |
6.47 |
0.54 |
0.349 |
|
25 |
33.327 |
6.35 |
0.57 |
0.414 |
|
35 |
33.434 |
6.09 |
0.77 |
0.452 |
|
50 |
33.510 |
5.68 |
1.02 |
0.441 |
|
75 |
33.567 |
4.63 |
* |
1.43 |
0.295 |
100 |
33.750 |
3.7C |
1.86 |
0. 102 |
OBSERVED VALUES ( S V/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
12.94 |
1499.2 |
68.4 |
5 |
12.94 |
14 99.3 |
68. 1 |
13 |
12.90 |
1499.4 |
67.3 |
23 |
12.71 |
1499.4 |
68.1 |
39 |
11.67 |
1497.2 |
74.6 |
48 |
11.67 |
1495.8 |
74. 5 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 10 20 30 50 75 100
12.94 1499.2 68.4
12.91 1499.4 67.6
12.77 1499.4 67.9
12.25 1498.4 7C.9
33.299 6.45 0.56 0.438 25.11
33.310 6.47 0.54 C.349 25.12
33.321 6.39 0.56 C.392 25.16
33.380 6.22 0.67 0.433 25.30
33e51C 5.68 1.02 0.441
33.567 4.63 1.43 0.295
33.75C 3.70 1.86 C.102
271
STATION: H2 DEPTH:llOOM DATE: 3 NOV 70 TIME: 1430 LAT: 37-02. 7N LONG: 122-48. 5W WIND: 140 SPEED: 25 AIR TEMP(DRY): 55 BARO: 29.84 CLOUD AMT: 10 HEIGHT(FT): 50C SEA: 140-3 SWELL: 300-5
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
32.938 |
10 |
32.939 |
30 |
33.005 |
70 |
33.290 |
105 |
33.724 |
OXYGEN (ML/L)
6.16 6.22 6.37 5.56 3.41
PHOSPHATE (MG-ATM/L)
0.35 0.34 0.38 0.96 1.72
CHLOROPHYLL (MG/M3)
0.151 0.157 0.158 0.067 0.051
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
CEPTH (M) |
TEMP (C) |
SC, VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.99 |
1502.1 |
78.0 |
9 |
13 *98 |
1502.3 |
79.5 |
28 |
12.23 |
1496.9 |
88.2 |
37 |
11.94 |
1496.3 |
89.2 |
69 |
10.46 |
1491.9 |
92.9 |
83 |
10.73 |
1493.4 |
93.0 |
97 |
10.33 |
1492.2 |
90.0 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.99 |
1502.1 |
78.0 |
10 |
13.89 |
1502.0 |
80.0 |
20 |
12.97 |
1499.2 |
84.5 |
30 |
12.17 |
1496. 8 |
88.4 |
50 |
11.34 |
1494.5 |
90.7 |
75 |
10.58 |
1492.5 |
92,9 |
100 |
32.938 6.16 0.35 0.151 24.62
32.939 6.22 0.34 0.157 24.64 33.0C5 6.37 0.38 C.158 24.88 33.0C5 6.37 0.38 0.158 25.03 33.147 5.96 0.67 C.122 25.29 33.352 5.25 1.07 0.C82 25.59 33.662 3.71 1.61 0.056
272
STATION: H3 DEPTH: 629M DATE: 3 NOV 70 TIME: 1250 LAT: 37-07. 2N LONG: 122-56. 6W WIND: 140 SPEED: 20 AIR TEMP(DRY): 55 BARC: 29.94 CLOUD AMT: 10 HEIGHT(FT): 500 SEA: 140-2 SWELL: 30C-5
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
32.914 |
20 |
32.940 |
60 |
33.235 |
85 |
33.646 |
105 |
33.748 |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
|
5.06 |
0.35 |
|
5.37 |
0.36 |
|
5.59 |
0.94 |
|
3.71 |
1.57 |
|
3.60 |
1.77 |
CHLOROPHYLL (MG/M3)
0.1C0 0.178 0.068 0.052 0.065
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
14.15 |
15C2.6 |
85.0 |
1 /. IT |
1 5 C 2 . 8 |
83.7 |
|
35 |
12.64 |
1498.5 |
85.1 |
48 |
11.58 |
1495. C |
92.6 |
69 |
10.25 |
1491.2 |
92.4 |
86 |
10.05 |
1491.0 |
90.2 |
98 |
10.02 |
1491.2 |
84.6 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 |
14.15 |
1502.6 |
85.0 |
10 |
14. 12 |
1502.8 |
83.7 |
20 |
14.12 |
1502.8 |
83.7 |
30 |
13. 13 |
1499.9 |
84.6 |
50 |
11.45 |
1494.6 |
92.6 |
75 |
10.18 |
1491.1 |
91.6 |
100 |
32.914 5.06 0.35 0.100 24.57
32.940 5.37 0.36 C.178 24.59
32.940 5.37 0.36 0.178 24.59
33.014 5.43 0.51 0.150 24.85
33.161 5.53 0.79 0.C95 25.28
33.481 4,46 1.31 C.C58 25.76
33.723 3.62 1.72 0.062
273
STATION: II DEPTH: 120M DATE: 3 NOV 70 TIKE: 1020 LAT: 37-11. ON LONG: 122-46. CW WIND: 140 SPEED: 15 AIR TEMP(DRY): 55 BARO: 29.94 CLOUD AMT: 10 HEIGHT(FT): 500 SEA: 140-2 SWELL: 3CC-4
. OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLGBOPHYLL CM6/M3I |
0 |
32.978 |
6.20 |
0.37 |
0.139 |
5 |
32.979 |
6.32 |
0.39 |
0.145 |
10 |
32.986 |
6.23 |
0.39 |
0.148 |
20 |
33.045 |
6.38 |
0.43 |
0.169 |
30 |
33.147 |
6.20 |
0.63 |
0.113 |
50 |
33.146 |
5.81 |
0.89 |
0.055 |
75 |
33.639 |
4.04 |
1.59 |
0.056 |
100 |
33.795 |
3.31 |
1.87 |
0.070 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
r, f p t h ( M ) |
TFMP (C) |
<; r r \/ p i (M/SEC) |
tram<;mttta n C (; (6/o) |
0 |
13.96 |
1502.1 |
80.5 |
4 |
13.94 |
1502. C |
81.3 |
9 |
13.93 |
1502.1 |
79.3 |
20 |
13.68 |
1501.6 |
79.3 |
28 |
13.00 |
1499.4 |
80.4 |
47 |
10.96 |
1492.9 |
90.5 |
77 |
9.92 |
149C.4 |
89.2 |
97 |
9.57 |
1489.7 |
82.8 |
INTERPOLATED VALUES
DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
32.978 6.20 0.37 0.139 24.56
32.936 6.23 0.39 C.148 24.67
33.C45 6.38 0.43 0.169 24.76
33.147 6.20 0.63 0.113 25.02
33.146 5.81 0.89 0.C55 25.3 8
33.639 4.04 1.59 C.C56 25.91
33.795 3.31 1.87 0.07C
0 |
13.96 |
1502.1 |
80.5 |
10 |
13.91 |
1502.1 |
79.3 |
20 |
13.68 |
1501.6 |
79.3 |
30 |
12.79 |
1498.7 |
81.5 |
50 |
10.8 6 |
1492.6 |
90.4 |
75 |
9.99 |
1490.6 |
89.3 |
100 |
274
STATION: 12 DEPTH: 120M DATE: 3 NOV 70 TIME: C950 LAT: 37-11. 2N LONG: 122-42. 8W WIND: 140 SPEED: 15 AIR TEMP(DRY): 55 BARO: 29.94 CLOUD AMT: 10 HEIGHT(FT): 500 SEA: 140-2 SWELL: 300-4
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN PHCSPHATE (ML/L) (HG-ATM/L) |
CHLGPOPHYLL (MG/M3) |
|
0 |
32.913 |
6.30 0, |
,37 |
0.132 |
5 |
32.911 |
6.21 0, |
,37 |
0.154 |
10 |
32.911 |
6.34 0, |
.38 |
0.141 |
20 |
32.976 |
6.41 0, |
,41 |
0.155 |
30 |
33.123 |
6.15 0, |
,68 |
0.112 |
50 |
33.595 |
4.08 1, |
.48 |
0.076 |
75 |
33.701 |
3.57 1 |
.71 |
0.050 |
100 |
33.756 |
3.35 1, |
.84 |
0.068 |
118 |
33.820 |
3.18 |
||
HDCCDWCn \J i UU ^U in**-*-/ V r |
\ L U E S { S V / T / D— T P. A N S M ! |
rCCOMPTf-R fA<;TI |
||
DEPTH (M) |
TEMP SC. VEL (C) (M/SEC) |
TRANSMITTANCE (0/0) 75.0 75.0 75.0 80.0 82.2 89.4 90.4 86.3 86.4 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50 75 100
75.0 32.913 6.30 0.37 0.132 32.911 6.34 0.38 0.141 32.976 6.41 0.41 0.155 33.123 6.15 0.68 0.112 33.595 4.C8 1.48 0.C76 33. 7C1 3.57 1.71 C.C5C 33.756 3.35 1.84 C.C68
STATION: 13 DEPTH: 100M DATE: 3 NOV 70 TIME: 0735 LAT: 37-11. ON LONG: 122-38. CW WIND: 140 SPEED: 15 AIR TEMP(DRY): 52 BARO: 29.<=4 CLOUD AMT: 10 HEIGHT(FT): 500 SEA: 140-2 SWELL: 240-5
OBSERVED VALUES (N'ANSEN CAST)
DEPTH (M> |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
0 |
32.902 |
6.33 |
0.40 |
0.114 |
10 |
32.909 |
6.30 |
0.40 |
0.133 |
30 |
33.060 |
6.37 |
0.58 |
0.178 |
60 |
33.279 |
5.38 |
1.10 |
0.065 |
75 |
33.465 |
- |
0.041 |
|
90 |
33.680 |
3.62 |
0.061 |
|
98 |
33.760 |
3.37 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO., VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.76 |
1501.3 |
81.8 |
10 |
13.75 |
15CC.5 |
81.5 |
25 |
13.45 |
1496.0 |
86.4 |
49 |
12.02 |
1494.2 |
91.4 |
60 |
1492.5 |
92.6 |
|
87 |
1490.8 |
88.9 |
|
93 |
, |
149C.2 |
78.7 |
INTERPOLATED VALUES
DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
32.902 6.33 0.40 0.114 24.64
32.909 6.30 0.40 0.133 24.65
32.985 6.33 0.49 0.155 24.74
33.060 6.37 0.58 C.178 24.88
33.2C6 5.71 0.92 0.103 25.41
33.465 0.041
0 |
13.76 |
1501.3 |
81.8 |
10 |
13.75 |
1500.5 |
81.5 |
20 |
13.55 |
1497. 5 |
84.8 |
30 |
13. 15 |
1495.6 |
87.4 |
50 |
10.93 |
1494.0 |
91.5 |
75 |
1491.6 |
90.5 |
276
STATION: 14 DEPTH: 95M DATE: 3 NOV 7C TIME: 0615 LAT: 37*11. ON LONG: 122-34. 6k WIND: 150 SPEED: 12 AIR TEMP(DRY): 51 BARO: 29.95 CLOUD AMT: 10 HEIGHT(FT): 500 SEA: 150-1 SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
32.943 |
6.23 |
0 |
0.38 |
0. 146 |
10 |
32.948 |
6.28 |
0.39 |
0.158 |
|
35 |
33.210 |
6.01 |
0.75 |
0. 158 |
|
50 |
33.250 |
5.54 |
1.00 |
0.C98 |
|
75 |
33.625 |
3.86 |
1.61 |
0.055 |
|
93 |
33.746 |
3.35 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH 1 M ) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
o |
13. 69 |
] 501. 1 |
80. 2 |
10 |
13.41 |
15CC.4 |
81.3 |
29 |
11.98 |
1496.2 |
85.2 |
48 |
10.44 |
1491.2 |
92.2 |
78 |
10.20 |
1491.3 |
|
81 |
10.19 |
1491.2 |
83.4 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. €XY PHOS CHLOR SIG-T
0 |
13.69 |
1501.1 |
80.2 |
10 |
13.41 |
1500.4 |
81.3 |
20 |
12.66 |
1498.2 |
83.4 |
30 |
11.90 |
1495.9 |
85.6 |
50 |
10.42 |
1491.2 |
86.1 |
75 |
10.22 |
1491.3 |
9.2 |
32.943 6.23 0.38 C.146 24.68
32.948 6.28 0.39 0.158 24.74
33.053 6.17 0.53 0.158 24.97
33.158 6.06 0.68 0.158 25.20
33.250 5.54 1.00 C.098 25.54
33.625 3.86 1.61 0.055 25.86
277
STATION: 15 DEPTH: 93M DATE: 3 NOV 70 TIME: 0445 LAT: 37-10. 6N LONG: 122-33. GW WIND: LIGHT AIRS AIR TEMP(DRY): 50 BARO: 29.94 CLOUD AMT: 10 HEIGHT(FT): 500 SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
32.962 |
10 |
32.965 |
25 |
33.144 |
45 |
33.480 |
70 |
33.714 |
80 |
33.720 |
91 |
33.722 |
OXYGEN (ML/L)
5.67 5.38 6.42 5.11 3.50 3.46 3.33
PHOSPHATE (MG-ATM/L)
0.39 0.40 0.48 1.20 1.21 1.93 1.91
CHLOROPHYLL (MG/M3) |
|
0. |
, 186 |
0, |
,172 |
0. |
,185 |
0. |
,095 |
0. |
,068 |
0, |
,116 |
OBSERVED VALUES ( SV/T/D- TR ANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SC. VEL (M/SEC) * |
TRANSMITTANCE (0/0) 76.9 76.6 78.1 90.5 72. C 55.4 49.4 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50 75
76.9 32.962 5.67 0.39 0.186
32.965 5.38 0.40 0.172
33.084 6.07 0.45 0.181
33.228 6.09 0.66 0.162
33.527 4.79 1.20 0.C94
33.717 3.48 1.57 C.102
278
STATION: 16 DEPTH: 8AM DATE: 3 NOV 70 TIME: 0350 LAT: 37-10. 8N LONG: 122-30. 8H WIND: LIGHT AIRS AIR TEMP(DRY): 50 BARO: 29.54 CLOUD AMT: 10 HEIGHT(FT): 500 SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHCSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
32.958 |
4.08 |
0.39 |
0.214 |
|
10 |
33.024 |
4.04 |
0.41 |
0.238 |
|
25 |
33.360 |
5.72 |
0.59 |
0.495 |
|
45 |
33.417 |
4.61 |
0.95 |
0.226 |
|
60 |
33.603 |
3.54 |
1.54 |
0.C80 |
|
82 |
33.700 |
3.29 |
1.99 |
OBSERVED VALUES ( SV/T/D-TR ANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
n U |
13.57 |
1 5 C C t 8 |
76.1 |
9 |
13.20 |
15 00.1 |
65.8 |
29 |
12.40 |
1498.0 |
74.4 |
50 |
11.55 |
1495.4 |
91.4 |
60 |
10.71 |
1452.7 |
100.0 |
78 |
10.16 |
14 91.3 |
82.6 |
INTERPOLATED VALUES
DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
32.958 4.08 0.39 0.214 24.72
33.C24 4.04 0.41 0.238 24.85
33.248 5.16 0.53 C.409 25.10
33.374 5.44 0.68 0.428 25.28
33.475 4.25 1.14 0.177 25.51
33.669 3.37 1.85 0.C25 25.85
0 |
13.57 |
1500.8 |
76.1 |
10 |
13. 16 |
1500. C |
66.2 |
20 |
12.76 |
149 8.9 |
7C.5 |
30 |
12.36 |
1497.9 |
75.2 |
50 |
11. 55 |
1495.4 |
91.4 |
75 |
10.25 |
1491.5 |
85.5 |
279
STATION: 17 DEPTH: 77M DATE: 3 NOV 70 TIME: 0300 LAT: 37-10. 7N LONG: 122-29. CW WIND: LIGHT AIRS AIR TEMP(DRY): 49 BARO: 30. CO CLCUC AMT: 10 HEIGHT(FT): 500 SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.158 |
5.26 |
0.44 |
0.448 |
|
10 |
33.339 |
6.41 |
0.53 |
0.521 |
|
20 |
33.411 |
5.76 |
0.66 |
0.343 |
|
40 |
33.508 |
5.37 |
1.04 |
0.339 |
|
60 |
33.632 |
3.66 |
1.72 |
0.266 |
|
65 |
33.651 |
3.62 |
1.82 |
0.254 |
|
75 |
33.671 |
3.45 |
2.18 |
OBSERVED VALUES ( SV/T/D-TPANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO.. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.35 |
150C.5 |
68.8 |
10 |
13.12 |
1500.3 |
67.9 |
20 |
12.83 |
1499.1 |
71.6 |
40 |
11.84 |
1496.3 |
78.1 |
50 |
11.15 |
14 94.1 |
56.0 |
61 |
10.60 |
1492.5 |
59.2 |
7C |
10.28 |
1491.6 |
34.7 |
INTERPOLATED VALUES
DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
33.15E 5.26 0.44 0.448 24.92
33.339 6.41 0.53 0.521 25.10
33.411 5.76 0.66 C.343 25.22
33.459 5.57 0.85 0.341 25.35
33.570 4.51 1.38 C.312 25.66
33.671 3.45 2.18
0 |
13.35 |
1500.5 |
68.8 |
10 |
13. 12 |
1500.3 |
67.9 |
20 |
12.83 |
1499. 1 |
71.6 |
30 |
12.33 |
1497.7 |
74.8 |
50 |
11.15 |
1494.1 |
56.0 |
75 |
280
STATION: 18 DEPTH: 60M DATE: 3 NOV 70 TIME: 0200 LAT: 37-10. 4N LONG: 122-27. Ch WIND: LIGHT AIRS AIR TEMP(DRY): 49 BARO: 30. CO CLOUD AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.388 |
3.72 |
0.56 |
0.673 |
|
5 |
33.440 |
4.74 |
0.66 |
0.792 |
|
20 |
33.579 |
4.60 |
1.43 |
0.361 |
|
25 |
33.594 |
3.28 |
1.50 |
0.457 |
|
35 |
33.614 |
3.52 |
1.59 |
0.293 |
|
50 |
33.637 |
3.21 |
1.73 |
0.336 |
|
59 |
33.654 |
3.83 |
2.00 |
OBSERVED VALUES ( SV/T/D- IRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SC. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.05 |
1499.5 |
68.1 |
5 |
12.94 |
1499.3 |
66.0 |
20 |
11.81 |
1495.7 |
66.6 |
25 |
11.45 |
1494.7 |
61.0 |
30 |
11.25 |
1494.2 |
56.4 |
50 |
10.73 |
1492.7 |
43.5 |
56 |
10.70 |
1492.7 |
41.2 |
DEPTH TEMP SO,
INTERPOLATED VALUES VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.05 1499.5
10 12.56 1498.1
20 11.81 1495.7
30 11.25 1494.2
50 10.73 1492.7
68.1 33.388 3.72 0.56 C.673 25.16
66.2 33.486 4.69 0.92 0.655 25.33 66.6 33.579 4.60 1.43 0.381 25.54
56.4 33.6C4 3.40 1.55 0.375 25.66
43.5 33.637 3.21 1.73 0.336 25.78
281
STATION: 19 DEPTH: 55M DATE: 3 NOV 70 TIME: 0100 LAT: 37-10. 5N LONG: 122-25. 6W WINO: LIGHT AIRS AIR TEMP(DRY): 49 BARO: 30. CC CLOUD AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH CM) |
SALINITY (0/00) |
0 |
33.455 |
5 |
33.455 |
10 |
33.483 |
20 |
33.534 |
30 |
33.556 |
45 |
3 3.5 64 |
54 |
33.612 |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
|
4.13 |
0.85 |
|
3.79 |
0.84 |
|
4.94 |
C.92 |
|
4.60 |
1.24 |
|
4.07 |
1.43 |
|
3.63 |
1.56 |
|
3.98 |
2.06 |
CHLOROPHYLL (MG/M3)
0.551 0.616 0.371 0.354 0.4C5 0.477
OBSERVED VALUES ( SV/T/D-YRANSMl SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
S0„ VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 ] |
.2.61 |
1498.2 |
59.5 |
5 ] |
12.25 |
14 9 7.2 |
57.2 |
10 ] |
L2.12 |
1496.7 |
61.3 |
15 J |
LI. 81 |
1495.8 |
52.5 |
19 ] |
LI. 61 |
149 5.3 |
54.1 |
25 ] |
LI. 47 |
1495.0 |
47.2 |
34 ] |
LI. 37 |
14 94.8 |
44.4 |
45 ] |
LI. 13 |
1494.1 |
13.8 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 12.61 1498.2
10 12.12 1496.7
20 11.59 1495.2
30 11.41 1494.9 50
59.5 33.455 4.13 0.85 0.551 25.29 61.3 33.483 4.94 0.92 C.371 25.41 52.9 33.534 4.60 1.24 0.354 25.55
45.6 33.556 4.07 1.43 0.405 25.60 33.599 3.83 1.84 0.212
282
STATION: Jl DEPTH: 35M DATE: 2 NOV 70 TIME: 2315 LAI: 37-16. 2N LONG: 122-27. 4W WIND: LIGHT AIRS AIR TEMP(DRY): 50 6AR0: 30.02 CLOUD AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.319 |
6.29 |
0.52 |
0.596 |
|
5 |
33.355 |
6.45 |
0.54 |
0.691 |
|
10 |
33.397 |
6.48 |
0.58 |
0.597 |
|
15 |
33.399 |
6.51 |
0.59 |
0.865 |
|
20 |
33.418 |
6.49 |
0.63 |
0.633 |
|
25 |
33.461 |
6.18 |
0.78 |
0.361 |
|
34 |
33.576 |
4.59 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M) |
TEMP (C) |
SC. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.09 |
1499.6 |
63.9 |
3 |
13.09 |
14 9 9.7 |
63.0 |
7 |
13. 09 |
149 9.7 |
63. C |
10 |
12.98 |
1499.5 |
65.6 |
16 |
12.87 |
1499.3 |
67.6 |
20 |
12.80 |
1499.1 |
68.6 |
25 |
12.49 |
1498.1 |
64.7 |
30 |
12.15 |
1497.5 |
37.5 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.09 1499.6
10 12.98 1499.5
20 12. 8C 1499.1
30 12.15 1497.5
63.9 33.319 6.29 0.52 0.596 25.09
65.6 33.397 6.48 0.58 0.597 25.18
68.6 33.416 6.49 0.63 0.633 25.23
37.5 33.525 5.29 0.35 C.160 25.44
283
STATION: J2 DEPTH: 40M DATE: 2 NOV 70 TIME: 2145 LAT: 37-21. 5N LONG: 122-29. 5W WIND: LIGHT AIRS AIR FEMP(DRY): 50 BARO: 30.02 CLOUD AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
0 |
33.434 |
6.48 |
0.53 |
0.5C9 |
5 |
33.430 |
6.48 |
0.55 |
0.728 |
10 |
33.481 |
6.30 |
0.71 |
0.413 |
20 |
33.540 |
5.63 |
1.02 |
0.369 |
30 |
33.555 |
5.20 |
1.18 |
0.295 |
35 |
33.593 |
4.57 |
1.44 |
0.397 |
39 |
33.635 |
4.07 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETE R CAST)
DEPTH- (MJ |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.04 |
1499.5 |
70.9 |
5 |
12.98 |
1499.5 |
66.9 |
9 |
12.61 |
1496.7 |
72.3 |
14 |
12.37 |
1497.6 |
76.2 |
19 |
12.16 |
1496.9 |
78.0 |
26 |
11.81 |
1495. 9 |
78.2 |
30 |
11.65 |
1495.4 |
75.3 |
35 |
11.57 |
1495.3 |
60.3 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.04 1499.5
10 1.2.56 1498.5
20 12.11 1496.8
30 11.65 1495.4
70.9 33.434 6.48 0.53 0.509 25.19
73.1 33.481 6.30 0.71 0.413 25.32
78.0 33.540 5.63 1.02 0.369 25.46
75.3 33.555 5.20 1.18 0.295 25.55
284
STATION: J3 DEPTH: 40M DATE: 2 NOV 70 TIME: 2045 LAT: 37-26. 6N LONG: 122-31. 4W WIND: LIGHT AIRS AIR TEMP(DRY): 49 BARO: 29.99 CLOUD AMT: 1C TYPE: FOG SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.310 |
6.49 |
0.60 |
0.289 |
|
5 |
33.310 |
6.46 |
0.56 |
0.276 |
|
10 |
33.373 |
6.34 |
0.58 |
0.170 |
|
20 |
33.517 |
6.02 |
0.87 |
0.175 |
|
25 |
33.533 |
5.40 |
1.14 |
0.146 |
|
39 |
33.607 |
3.87 |
OBSERVEO VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M) |
TEMP (C) |
SC. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
1? w 14 |
i 4^ .<; |
70.9 |
5 |
13.02 |
1499.4 |
79.9 |
10 |
12.95 |
1499.4 |
79.7 |
15 |
12.82 |
1499.0 |
86.5 |
20 |
12.48 |
1498. 1 |
83.7 |
24 |
12.30 |
64.8 |
|
30 |
11.82 |
1496.2 |
71.3 |
35 |
11.57 |
1495.4 |
67.1 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.14 1499.9
10 12.95 1499.4
20 12.48 1498.1
30 11.82 1496.2
70. 9 33.310 6.49 0.60 0.289 25.08
79.7 33.373 6.34 0.58 C.170 25.16
83.7 33.517 6.02 0.87 0.175 25.37
71.3 33.559 4.85 0.73 0.C94 25.53
285
STATION: J4 DEPTH: 45M DATE: 2 NOV 70 TIME: 1830 LAT: 37-31. 9N LONG: 122-33. 5W WIND: LIGHT AIRS AIR TEMP(DRY): 49 BARO: 29.99 CLOUD AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.339 |
6.60 |
0.68 |
0.234 |
|
5 |
33.336 |
6.39 |
0.55 |
0.176 |
|
10 |
33.339 |
6.30 |
0.58 |
0.238 |
|
20 |
33.438 |
6.16 |
0.72 |
0.127 |
|
30 |
33.561 |
4.75 |
1.54 |
0.127 |
|
43 |
32.583 |
4.15 |
OBSERVED VALUES ( SV/T/D-TRANSM I SSOMETER CAST)
DEPTH (M)
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
13
n /,
W»CQvA
1499.3
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. CXY PHOS CHLOR SIG-T
0 10 20 30
13.06 1499.6
33.339 6.60 0.68 0.234 25.12
33.339 6.30 0.58 0.238
33.438 6.16 0.72 C. 127
33.561 4.75 1.54 0.127
286
STATION: Kl DEPTH: 45M DATE: 2 NOV 70 TIKE: 1745
LAT: 37-31. 8N LONG: 122-35. OW WIND: LIGHT AIRS
AIR TEMP(DRY): 52 BARO: 29,99 CLOUD AMT: 10
TYPE: FCG SEA: RIPPLES SWELL: 240-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (KG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.329 |
6.51 |
0.52 |
0.565 |
|
7 |
33.334 |
6.39 |
0.52 |
0.645 |
|
14 |
33.394 |
6.16 |
0.61 |
0.354 |
|
25 |
33.473 |
5.95 |
0.79 |
0.649 |
|
35 |
33.561 |
4.64 |
1.42 |
0.431 |
|
44 |
33.608 |
3.89 |
■ |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
1 3 « ° ° |
1499,4 |
75. *> |
6 |
13.02 |
1499.4 |
78.0 |
13 |
12.97 |
1499.4 |
79.3 |
19 |
12.45 |
1497.9 |
99.4 |
31 |
12.16 |
1497.2 |
100.0 |
41 |
11.02 |
1493.5 |
24.9 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.02 1499.4
10 12.99 1499.4
20 12.43 1497.8
30 12.18 1497.3
75.5 33.329 6.51 0.52 0.565 25.12
78.7 33.360 6.29 0.56 C.520 25.15
99.4 33.437 6.04 0.71 0.515 25.32
99.9 33.517 5.29 1.11 C.540 25.42
287
STATION: K2 DEPTH: 49M DATE: 2 NOV 70 TIME: 1640
LAT: 37-31. 4N LONG: 122-37. C)W WIND: LIGHT AIRS
AIR TEMP(DRY): 55 BARO: 30.00 CLOUD AMT : 10
TYPE: FCG SEA: RIPPLES SWELL: 240-3 RAMSEY MECHANISM INOPERATIVE
OBSERVED VALUE |
S (NANSEN CAST) |
|||
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
0 |
33.301 |
4.35 |
0.52 |
0.731 |
5 |
33.303 |
3.31 |
0.49 |
0.721 |
15 |
33.377 |
3.96 |
0.82 |
0.287 |
25 |
33.533 |
3.99 |
1.06 |
0.192 |
40 |
33.621 |
2.20 |
1.81 |
0.289 |
45 |
33.640 |
1.84 |
2.09 |
OBSERVED VALUES ( SV/T/D-TRANSMl SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) 65 r 3 68.6 71.0 82.0 100.0 100.0 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30
65.3 33.301 4.35 0.52 0.731
33.340 3.63 0.66 C.504
33.455 3.97 0.94 0.239
33.562 3.39 1.31 0.224
288
STATION: K3 DEPTH: 53M DATE: 2 NOV 70 TIME: 1550 LAT: 37-32. ON LONG: 122-r38.9h HIND: LIGHT AIRS AIR TEMP(DRY): 55 BARO: 30.00 CLOUD AMT: 10 TYPE: FOG SEA: RIPPLES SWELL: 240-3 RAMSEY MECHANISM INOPERATIVE
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
0 |
33.246 |
6.62 |
0.48 |
0.393 |
5 |
33.282 |
6.55 |
0.49 |
0.6C7 |
10 |
33.317 |
6.53 |
0.57 |
0.633 |
25 |
33.411 |
5.67 |
0.97 |
0.329 |
45 |
33.611 |
3.98 |
1.64 |
0.170 |
52 |
33.650 |
2.79 |
2.07 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M)
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
54.1
54.3 56.5 73.8 84.2 91.2
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50
54.1 33.246 6.62 0.48 0.393
33.317 6.53 0.57 0.633
33.380 5.96 0.84 0.430
33.461 5.25 1.14 0.289
33.639 3.13 1.94 C.049
289
STATION: K4 DEPTH: 55M DATE: 2 NOV 70 TIKE: 1505
LAT: 37-31. 7N LONG: 122-41. OW WIND: LIGHT AIRS
AIR rEMP(DRY): 55 BARO: 30.00 CLOUD AMT: 10
TYPE: FOG SEA: RIPPLES SWELL: 240-3 RAMSEY MECHANISM INOPERATIVE
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
33.154 |
10 |
33.281 |
20 |
33.330 |
30 |
33.408 |
45 |
33.561 |
OXYGEN (ML/L)
6.58 6.63 6.34 5.73 4.53
PHOSPHATE (MG-ATM/L)
0.47 0.49 0.68 1.04 1.46
CHLOROPHYLL (MG/M3)
0.429 0.868 0.560 0.216 0.089
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETE R CAST)
DEPTH (M)
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
66.8
59 e 1
54.9 57.0 74.5
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30
66.8 33.154 6.58 0.47 0.429 33.281 6.63 0.49 0.868 33.330 6.34 0.68 C.580 33.408 5.73 1.04 0.216
290
STATION: K5 DEPTH: 60M DATE: 2 NOV 70 TIME: 1420 LAT: 37-32. ON LONG: 122-42. 7W WIND: LIGHT AIRS AIR TEMP(DRY): 55 BARO: 30. C2 CLOUD AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 240-2 RAMSEY MECHANISM INOPERATIVE
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.162 |
6.44 |
0.41 |
0.436 |
|
10 |
33.296 |
6.51 |
0.62 |
0.754 |
|
20 |
3 3.2 84 |
6.18 |
0.72 |
0.447 |
|
30 |
33.226 |
5.50 |
0.99 |
0.139 |
|
50 |
33.592 |
3.89 |
1.66 |
0.143 |
|
58 |
33.651 |
3.54 |
OBSERVED VALUES ( SV/T/D^"f RANSMI S SOMETER CAST)
DEPTH (M)
TEMP (C)
SO- VEL (M/SEC)
TRANSMITTANCE (0/0)
67.1 64.2 59.4 73.6 88.8 90.7
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50
67.1 33.162 6.44 0.41 0.436
0.0 33.296 6.51 0.62 0.754
0.0 33.284 6.18 0.72 0.447
0.0 33.226 5.50 0.99 0.139
0.0 33.5S2 3.89 1.66 0.143
291
STATION: K6 DEPTH: 73M DATE: 2 NOV 70 TIME: 1310 LATE: 37-32. ON LCNG : 122-45 . 7W WIND: LIGHT AIRS AIR TEMP(DRY): 58 BARO: 30.04 CLOUD AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 240^2 RAMSEY MECHANISM INOPERATIVE
OBSERVED VALUES (NANSEN CAST) |
||||
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLCROPHYLL (MG/M3) |
0 |
33. 146 |
6.44 |
0.42 |
0.433 |
10 |
33.371 |
6.23 |
0.73 |
0.555 |
20 |
33.212 |
5.49 |
1.04 |
0.127 |
30 |
33.413 |
4.92 |
1.30 |
0.094 |
55 |
33.695 |
3.7C |
1.87 |
0.218 |
73 |
33.699 |
3.29 |
OBSERVED VALUES ( SV/T/D-1 RANSMI SSOMETER CAST)
DEPTH (M)
TEMP (C)
SO. VEL (M/SEC)
TRANSMITTANCE (0/0)
69.6 65.2 68.9 85.3 89.8 91.2
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50
69.6 33.146 6.44 0.42 0.433 33.371 6.23 0.73 0.555 33.212 5.49 1.04 0.127 33.413 4.92 1.30 0.C94 33.639 3.94 1.76 0.193
292
STATION: K7 DEPTH 91M DATE: 2 NOV 70 TIME: 1110 LAT: 37-31. 7N LONG: 122-50. AW WIND: LIGHT AIRS AIR rEMP(DRY): 58 BARO: 30. C4 CLOUD AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 240-2 RAMSEY MECHANISM INOPERATIVE
. OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOPOPHYi.L (MG/M3) |
|
0 |
33.262 |
6.86 |
0.45 |
0.656 |
|
5 |
33.286 |
6.90 |
0.45 |
0.980 |
|
10 |
33.386 |
6.81 |
0.5 8 |
0.955 |
|
15 |
33.460 |
5.82 |
0.92 |
0.549 |
|
20 |
33.449 |
5.31 |
1.12 |
0.253 |
|
35 |
33.407 |
0.0 |
* |
1.34 |
0.069 |
50 |
33.724 |
3.39 |
1.86 |
0.229 |
|
90 |
2.77 |
2.02 |
OBSERVED VALUES ( S V/T/D-TRANSMI S SOMETE R CAST)
ng DTM
TFMP
(C)
<;n, vfi
(M/SEC)
TR ANSMITTANCE (0/0) |
|
51, |
► 2 |
53, |
,3 |
65, |
.0 |
81, |
.8 |
85, |
.4 |
86, |
.5 |
56, |
,6 |
68, |
.9 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50 75
51.2 33.262 6.86 0.45 0.656 33.386 6.81 0.58 0.955 33.449 5.31 1.12 0.253 33.421 1.77 1.27 0.130 33.724 3.39 1.86 C.229 3.01 1.96 0.C86
293
STATION: K8 DEPTH: 101M DATE: 2 NOV 70 TIME: 0945
LAT: 37-32. ON LONG: 122-54. 3 V> WIND: LIGHT AIRS
AIR TEMP(DRY): 60 BARO: 30.03 CLOUD AMT: 10
TYPE: FCG SEA: RIPPLES SWELL: 240-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
33.392 |
7 |
33.391 |
25 |
33.488 |
35 |
33.531 |
60 |
33.762 |
85 |
33.836 |
95 |
33.861 |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
|
4.31 |
0.47 |
|
6.7C |
0.69 |
|
5.77 |
0.9C |
|
3.91 |
1.16 |
|
3.48 |
1.84 |
|
2.14 |
1.97 |
|
2.24 |
2.01 |
CHLOROPHYLL
(MG/M3) |
|
0. |
,633 |
0. |
,766 |
0, |
.679 |
0, |
,249 |
0, |
.698 |
0, |
.101 |
OBSERVED VALUES ( SV/T/D-TRANSM I SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO, VEL (M/SEC) |
TRANSMITTANCE (0/0) |
C |
12.94 |
1499.3 |
40.0 |
9 |
12.64 |
1498.6 |
45.4 |
28 |
11.00 |
1493.2 |
85.2 |
39 |
10.47 |
1491.6 |
81.5 |
60 |
9.56 |
1489.0 |
86.4 |
81 |
9.37 |
1498.7 |
83.0 |
94 |
9.24 |
1488.5 |
74.9 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
12.94 |
1499.3 |
40.0 |
10 |
12.55 |
1498.3 |
47.5 |
20 |
11.69 |
1495.5 |
68.4 |
30 |
10. 9C |
1492.9 |
84.5 |
50 |
9.99 |
1490.2 |
84.1 |
75 |
9.42 |
1488.8 |
84.0 |
33.392 4.31 0.47 0.633 25.18
33.407 6.54 0.72 0.751 25.27
33.461 6.03 0.84 0.703 25.47
33.51C 4.84 1.03 0.464 25.65
33.670 3.65 1.57 0.518 25.94
33.8C6 2.67 1.92 0.340 26.14
294
STATION: K9 DEPTH: 210M DATE: 2 NOV 70 TIKE: 0845
LAT: 37-32. ON LONG: 122-58.11* WIND: LIGHT AIRS
AIR TEMP(DRY): 51 BARO: 30.02 CLOUD AMT: 10
TYPE: FCG SEA: RIPPLES SWELL: 280-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLCROPHYLL (MG/M3) |
|
0 |
32.293 |
6.85 |
0.49 |
0.829 |
|
10 |
33.271 |
7.50 |
0.47 |
0.794 |
|
30 |
33.307 |
6.48 |
0.56 |
0.7C5 |
|
40 |
33.470 |
5.06 |
1.03 |
1.170 |
|
60 |
33.610 |
4.40 |
1.54 |
0.289 |
|
80 |
33.743 |
3.26 |
1.77 |
0.127 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
1 |
to no |
1499,3 |
54.0 |
14 |
12.69 |
1498,5 |
58.8 |
26 |
12.44 |
1496.5 |
72.2 |
40 |
11.33 |
1494.5 |
80.7 |
50 |
10.89 |
1493.3 |
84.2 |
61 |
10.53 |
1492.3 |
84.2 |
102 |
9.23 |
1488.6 |
90.3 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHCS CHLOR SIG-T
0 |
|||
10 |
12.76 |
149 8.7 |
57.3 |
20 |
12.56 |
1497.5 |
65.5 |
30 |
12.12 |
1495.9 |
74.6 |
50 |
10.89 |
1493.3 |
84.2 |
75 |
10.09 |
1491.0 |
86.3 |
32.293 6.85 0.49 0.829 33.271 7.50 0.47 0.794 33.289 6.99 0.52 0.749 33.3C7 6.48 0.56 0.705 33.54C 4.73 1.28 0.729 33.71C 3.54 1.71 0.167
295
STATION: KIO DEPTH: 600M DATE: 2 NOV 70 TIME: 0723 LAT: 37-32. ON LONG: 123-03. 6W WIND: LIGHT AIRS AIR TEMP(DRY): 51 BARQ: 30.02 CLOUD AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 280-2
■ OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33. 195 |
6.32 |
0.44 |
0.219 |
|
10 |
33.212 |
6.43 |
0.46 |
0.430 |
|
20 |
33.218 |
6.43 |
0.47 |
0.296 |
|
37 |
33.367 |
6.46 |
0.68 |
0.951 |
|
50 |
33.429 |
5.42 |
1.08 |
0.405 |
|
60 |
33.564 |
4.77 |
' |
1.39 |
0.442 |
100 |
33.7C9 |
3.38 |
1.81 |
0.288 |
OBSERVED VALUES ( S V/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.54 |
15C1.8 |
75.8 |
10 |
13.52 |
15C1.6 |
76.2 |
20 |
13.17 |
15C1.0 |
86.4 |
40 |
11.97 |
1496.9 |
62.1 |
50 |
11.17 |
1494.3 |
82.5 |
60 |
11.18 |
1494.6 |
82.7 |
80 |
10.27 |
1491.9 |
82.9 |
99 |
9.99 |
1491.1 |
79.8 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.54 |
1501.8 |
75.8 |
10 |
13.52 |
1501.6 |
76.2 |
20 |
13.17 |
1501.0 |
86.4 |
30 |
12.57 |
1498.9 |
84.2 |
50 |
11.17 |
1494.3 |
82.5 |
75 |
10.50 |
1492.6 |
82.8 |
100 |
33.195 6.32 0.44 0.219 24.91
33.212 6.43 0.46 C.430 24.93
33.216 6.43 0.47 C.296 25. CO
33.3C6 6.45 0.59 0.681 25.19
33.429 5.42 1.08 C.405 25.54
33.619 4.25 1.55 C.384 25.81
33.7C9 3.38 1.81 C.288
296
STATION: Kll DEPTH: 680M DATE: 2 NOV 70 TIME: 0610 LAT: 3Y-32.CN LONG: 123-07. 7Vv WIND: LIGHT AIRS AIR TEMP(DRY): 51 BARO: 29.^9 CLOUC AMT: 10 TYPE: FCG SEA: RIPPLES SWELL: 280-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (MJ |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHY.L (MG/M3) |
|
0 |
33.028 |
5.38 |
0.37 |
0. 159 |
|
5 |
33.030 |
6.29 |
0.36 |
0.149 |
|
10 |
33.023 |
6.33 |
0.36 |
0.139 |
|
15 |
33.045 |
6.32 |
0.39 |
0.176 |
|
40 |
33.330 |
5.79 |
0.89 |
0.143 |
|
57 |
33.628 |
3.90 |
1.56 |
0.057 |
|
80 |
33.755 |
3.22 |
1.81 |
0.080 |
|
100 |
33.830 |
2.97 |
1.89 |
0.062 |
OBSERVED VALUES ( SV/T/D-T RANSMI SSCMETER CAST)
r< c r» tu i > i_ i iii (MJ |
T CM D (C) |
SO. \/ p i Tm/secT |
TR ANI^MTTTANf.F (0/0) |
13.83 |
1503.6 |
74.9 |
|
13.83 |
1503.7 |
75.3 |
|
13.69 |
1503.4 |
80.6 |
|
13.34 |
1502.8 |
82.2 |
|
11.32 |
1496.0 |
88.8 |
|
10.15 |
1491.8 |
88.7 |
|
9.89 |
1491. C |
82.0 |
|
9.49 |
1489.9 |
86.6 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50 75 100
13.83 1503.6
74.9 33.028 5.38 0.37 0.159
33.023 6.33 0.36 0.139
33.102 6.22 0.49 0.169
33.216 6.01 0.69 0.156
33.506 A. 68 1.28 0.C92
33.728 3.37 1.76 0.075
33.830 2.97 1.89 0.062
24.7 2
297
STATION: LI DEPTH: 110M DATE: 2 NOV 70 TIME: C342
LAT: 37-37. 5N LONG: 123-15. 9W WIND: LIGHT AIRS
AIR TEMP(DRY): 51 BARO: 30.00 CLOUD AMT: 0 HEIGHT(FT): CLEAR SEA: RIPPLES SWELL: 280-2 RAMSEY MECHANISM INOPERATIVE
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.015 |
6.12 |
0.43 |
0.122 |
|
5 |
33.014 |
6.16 |
0.41 |
0.131 |
|
15 |
33.087 |
6.32 |
0.45 |
0.154 |
|
25 |
33.146 |
6.08 |
0.62 |
0.227 |
|
50 |
33.283 |
5.48 |
1.01 |
0.078 |
|
75 |
33.659 |
4.04 |
1.56 |
0.079 |
|
100 |
33.792 |
3.27 |
1.84 |
0.047 |
OBSERVED VALUES ( S V/T/D-TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SC. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
76.7 |
||
10 |
76.3 |
||
25 |
78.4 |
||
40 |
64.8 |
||
60 |
88.3 |
||
75 |
86.3 |
||
100 |
85.6 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 10 20 30 50 75
76.7 33.015 6.12 0.43 0.122
76.3 33.05C 6.24 0.43 0.142
77.7 33.116 6.20 0.53 0.19C
80.5 33.263 5.48 1.01 0.078
86.5 33.659 4.04 1.56 0.079
86.3 33.792 3.27 1.84 0.047
298
STATION: L2 DEPTH: 113M DATE: 2 NOV 70 TIME: 0100
LAT: 37-42. 4N LONG: 123-07. 7W WIND: LIGHT AIRS
AIR TEMP(DRY): 51 BARO: 30.00 CLOUD AMT: 0
HEIGHT(FT): CLEAR SEA: RIPPLES SWELL: 280-2
- OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/U |
CHLCROPHY'.L (MG/M3) |
|
0 |
33.119 |
6.16 |
0.46 |
0.155 |
|
10 |
33.154 |
6.14 |
0.41 |
0.216 |
|
25 |
33.333 |
6.05 |
0.67 |
0.282 |
|
40 |
33.435 |
5.01 |
1.23 |
0.642 |
|
60 |
33.650 |
3.46 |
1.80 |
0.285 |
|
87 |
33.722 |
3.11 |
1.98 |
0.204 |
|
100 |
3 3.79 8 |
3.05 |
2.10 |
0.175 |
OBSERVED VALUES ( SV/T/D-TRANSMI SSOMETER CAST)
DEPTH- CM) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
13.57 |
1501.1 |
76.4 |
8 |
13.56 |
1501.2 |
76.9 |
13 |
13.31 |
15CC.6 |
80.1 |
27 |
12.59 |
1498.4 |
81.1 |
47 |
11.22 |
1494.3 |
78.2 |
67 |
10.11 |
1491.1 |
87.1 |
86 |
9.64 |
1489.7 |
66.6 |
100 |
9.21 |
1488.5 |
68.7 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.57 |
1501. 1 |
76.4 |
10 |
13.46 |
1501.0 |
78.2 |
20 |
12.95 |
1499.5 |
80.6 |
30 |
12.38 |
1497.8 |
80.7 |
50 |
11.05 |
1493.8 |
79.5 |
75 |
9.91 |
1490.5 |
78.5 |
100 |
9.21 |
1488. 5 |
68.7 |
33.119 6.16 0.46 0.155 24.84
33.154 6.14 0.41 0.216 24.89
33.274 6.08 0.58 0.260 25.09
33.367 5.71 0.86 0.402 25.27
33.542 4.24 1.51 0.463 25.65
33.69C 3.27 1.90 C.240 25.97
33.796 3. 05 2.10 0.175 26.16
299
STATION: L3 DEPTH: 71M DATE: 1 NOV 70 TIME: 2308 LAT: 37-47. 6N LONG: 123-00. 4W WIND: 320 SPEED: 8 AIR TEMP(DRY): 53 BARO: 30.05 CLOUD AMT: 2 HEIGHT(FT): 1000 SEA: 320-1 SWELL: 280-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.224 |
2.26 |
0.46 |
0.916 |
|
10 |
33.222 |
2.38 |
0.49 |
1.114 |
|
20 |
33.246 |
2.62 |
0.65 |
0.892 |
|
30 |
33.457 |
1.86 |
1.10 |
0.697 |
|
43 |
33.483 |
2.56 |
1.18 |
1.241 |
|
50 |
33.642 |
2.13 |
1.63 |
0.7C7 |
|
60 |
33.676 |
1.71 |
1.82 |
0.797 |
|
65 |
33.696 |
1.51 |
1.97 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
QCDTU (M)" |
TCMD (C) |
en, \/fi Tm/secT |
TR AM<;.M I TTAMfF (C/0) |
0 |
13.20 |
1499.9 |
64.4 |
10 |
12.90 |
1498.8 |
69. 1 |
19 |
12.56 |
149 8.2 |
74.5 |
30 |
11.87 |
1496.1 |
70.9 |
40 |
11.20 |
14 94. C, |
74.9 |
48 |
10.47 |
1492.0 |
80.1 |
59 |
10.03 |
149C5 |
71.3 |
63 |
9.97 |
1490.4 |
54.0 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.20 1499.9
10 12.90 1498.8
20 11.87 1496.1
30 11.87 1496.1
50 10.39 1491.7
64.4 33.224 2.26 0.46 C.916 25.00 69.1 33.222 2.38 0.49 1.114 25.06 70.9 33.246 2.62 0.65 0.892 25.27 7C.9 33.457 1.86 1.10 0.697 25.44
78.5 33.642 2.13 1.63 0.707 25.85
300
STATION: L4 DEPTH: 54M DATE: 1 NOV 70 TINE: 2125 LAT: 37-53. 9N LONG: 122-53. 2W WIND: 320 SPEED: 8 AIR TEMP(DRY): 54 BARO: 30. C4 CLOUD AMT: 3 HEIGHT(FT): 1000 SEA: 320-1 SWELL 280-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (Ml |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHCSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
32.588 |
6.73 |
1.27 |
0.6C2 |
|
5 |
32.588 |
6.65 |
1.26 |
0.627 |
|
15 |
33.257 |
4.62 |
0.85 |
0.9C8 |
|
25 |
33.416 |
6.03 |
C.90 |
0.524 |
|
35 |
33.623 |
4.54 |
1.54 |
0.784 |
|
41 |
33.683 |
3.61 |
1.84 |
0.569 |
|
45 |
33.718 |
2.08 |
2.25 |
0.6 59 |
|
50 |
33.727 |
2.61 |
2.23 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETE R CAST)
DEPTH (M) |
T CM p (C) |
SO. V E L (M/SEC) |
TR AKKM TTTANf. F (0/0) |
0 |
13.09 |
14 9 8.8 |
56.0 |
5 |
13.09 |
1 4 <; 8 . 9 |
55.4 |
8 |
12.75 |
14 9 8.6 |
67.9 |
14 |
12.59 |
1498.3 |
74.5 |
23 |
11.79 |
1496.0 |
78.6 |
32 |
10.82 |
1492.6 |
82.1 |
42 |
10.20 |
1491.0 |
60.5 |
47 |
10. OC |
1490.4 |
43.2 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.09 1498.8
10 12.70 1498.5
20 12.06 1496.8
30 11.04 1493.4 50
56.0 32.588 6.73 1.27 0.602 24.53
70. 1 32.922 5.64 1.05 0.767 24.87
77.2 33.336 5.33 0.87 C.716 25.31
81.3 33.519 5.28 1.22 0.654 25.64 33.727 2.61 2.23
301
STATION: Ml DEPTH: 44M DATE: 1 NOV 70 TIME: 2020
LAT: 37-52. 6N LONG: 122-48. 5W WIND: 320 SPEED: 8
AIR TEMP(DRY): 54 BARO: 30.04 CLOUD AMT: 8 HEIGHT(FT): 1000 SEA: 320-1 SHELL: 280-2
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.266 |
5.21 |
0.75 |
0.509 |
|
5 |
33.261 |
4.33 |
0.77 |
0.554 |
|
12 |
33.293 |
4.71 |
0.74 |
0.757 |
|
15 |
33.337 |
6.13 |
0.75 |
1.029 |
|
25 |
33.523 |
3.80 |
2.16 |
1.468 |
|
35 |
33.633 |
2.88 |
1.51 |
0.515 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
12*86 |
1 A C fi O |
70 . 9 |
3 |
12.84 |
1498.9 |
70.9 |
8 |
12.44 |
14 9 8.2 |
71.5 |
13 |
12.44 |
1498. C |
74.8 |
17 |
11.89 |
1497.0 |
80.6 |
22 |
10.86 |
1496.2 |
80.6 |
27 |
1494.5 |
81.8 |
|
32 |
1492.5 |
49.0 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 12.86 1498.9
10 12.44 1498.1
20 11.27 1496.5
30 1493.3
70.9 33.266 5.21 0.75 0.509 25.10
72.8 33.284 4.60 0.75 C.699 25.19
80.6 33.430 4.96 1.46 1.248 25.53
62.1 33.578 3.34 1.84 0.991
302
STATION: M2 DEPTH: 47M DATE: 1 NOV 70 TIME: 1911
LAT: 37-49. 5N LONG: 122-48. 6W WIND: 280 SPEED: 5
AIR TEMP(DRY): 54 BARO: 30.02 CLOUD AMT: 8 HEIGHT(FT): 100C SEA: 290-1 SWELL: 250-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHCSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.271 |
6.29 |
0.72 |
0.781 |
|
5 |
33.255 |
6.82 |
0.75 |
0.883 |
|
10 |
33.274 |
4.92 |
C.65 |
0.739 |
|
15 |
33.311 |
6.31 |
0.69 |
1.390 |
|
20 |
33.363 |
6.49 |
0.76 |
0.989 |
|
25 |
33.517 |
5.70 |
1.61 |
1.106 |
|
32 |
33.624 |
4.34 |
0.3C3 |
OBSERVED VALUES ( SV/T/D-TRAN SMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
12.94 |
1499.2 |
68.2 |
5 |
12.91 |
1499.1 |
63.4 |
10 |
12.91 |
1499. 1 |
61.3 |
16 |
12.51 |
1498.0 |
69.2 |
20 |
12.44 |
1497.8 |
74« 1 |
25 |
11.79 |
1496.1 |
79.0 |
29 |
10.99 |
1494.6 |
79.0 |
33 |
1493.5 |
83.3 |
|
37 |
1491.2 |
52.5 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHGS CHLOR SIG-T
0 |
12.94 |
1499.2 |
68.2 |
10 |
12.91 |
1499. 1 |
61.3 |
20 |
12.44 |
1497.8 |
74.1 |
30 |
8.24 |
1494.3 |
8C.1 |
33.271 6.29 0.72 0.781 25.09
33.274 4.92 0.65 0.739 25.10
33.363 6.49 0.76 0.989 25.26
33.594 4.73 0.46 0.532 26.16
303
STATION: M3 DEPTH: 42M DATE: 1 NOV 70 TIME: 1745
LAT: 37-46. ON LONG: 123-46. 5W WIND: 280 SPEED: 5
AIR TEMP(DRY): 54 BARO: 30.02 CLOUD AMT: 8 HEIGHT(FT): 1000 SEA: 290-1 SWELL: 250-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
0 |
33.082 |
5 |
33.138 |
12 |
33.373 |
15 |
33.396 |
17 |
33.464 |
25 |
33.594 |
30 |
33.606 |
OXYGEN (ML/L) |
PHCSPHATE (MG-ATM/L) |
|
6.62 |
0.89 |
|
6.74 |
0.89 |
|
6.19 |
0.90 |
|
5.76 |
0.94 |
|
4.87 |
1.08 |
|
2.88 |
1.57 |
|
2.87 |
1.64 |
CHLCROPHYLL (MG/M3) |
|
1, |
.005 |
1. |
.185 |
1, |
.182 |
0, |
.689 |
0, |
.630 |
0, |
,4C5 |
OBSERVED VALUES ( SV/T/D- TRANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SC. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
12.82 |
1498.6 |
51.6 |
5 |
12.72 |
1498.2 |
63.7 |
8 |
12.13 |
1497.7 |
70.7 |
12 |
12.13 |
1496.7 |
77.6 |
18 |
11.29 |
1494.1 |
68.7 |
23 |
10.88 |
1492.9 |
67.2 |
27 |
10.55 |
1492.0 |
37.1 |
32 |
1492.0 |
33.2 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 12.82 1498.6
10 12.13 1497.2
20 11.13 1493.6
30 4.22 1492.0
51.6 33.082 6.62 0.89 1.005 24.96
74.1 33.306 6.35 0.90 1.183 25.27
68.1 33.513 4.13 1.26 0.546 25.62
34.8 33.6C6 2.87 1.64 26.68
304
STATION: M4 DEPTH: 40M DATE: 1 NOV 70 TIME: 1635 LAT: 37-43. 5N LONG: 122-44. 5W WIND: 260 SPEED: 6 AIR TEMP(DRY): 58 BARO: 30.03 CLOUD AMT: 9 HEIGHT(FT): 1000 SEA: 260-1 SWELL: 250-3
OBSERVED VALUES (NANSEN CAST)
DEPTH ( M ) |
SALINITY (0/00) |
0 |
32.736 |
4 |
32.919 |
10 |
33.310 |
15 |
33.398 |
22 |
33.560 |
30 |
33.618 |
OXYGEN (ML/L)
6.49 5.82 5.96 5.47 4.46 3.45
PhCSPHATE (MG-ATM/L)
1.32 1.14 0.84 1.01 1.27 1.75
CHLOROPHYLL (MG/M3) |
|
0. |
,718 |
1, |
,076 |
1. |
,566 |
1, |
,515 |
0. |
,612 |
0, |
.550 |
OBSERVED VALUES ( SV/T/D-TRANSM I SSOMETE R CAST)
DEPTH ( M ) |
TEMP <C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
I 3 . no |
4 5*2 |
|
5 |
12.91 |
||
8 |
12.73 |
1497.9 |
55.4 |
14 |
12.31 |
1497.4 |
65.8 |
19 |
11.50 |
1496.2 |
68c8 |
23 |
11.04 |
1495.2 |
72.1 |
28 |
1493.6 |
60.0 |
|
34 |
1493.2 |
46.7 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 |
13.09 |
|
10 |
12.59 |
1497.7 |
20 |
11.38 |
1495.9 |
30 |
1493*5 |
45.2 32.736 6.49 1.32 0.718 24.64
58.9 33.31C 5.96 0.84 1.566 25.19
69.6 33.514 4.75 1.20 0.870 25.57
55.6 33.618 3.45 1.75 C.55C
305
STATION: M5 DEPTH: 39M DATE: 1 NGV 70 TIME: 1545 LAT: 37-40. 3N LONG: 122-42. CW WIND: 260 SPEED: 6 AIR TEMP(DRY): 58 BARO: 30.03 CLOUD AMT: 9 HEIGHT(FT): 1000 SEA: 260-1 SWELL: 250-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (Ml |
SAL INITY (0/00) |
0 |
33.445 |
8 |
33.457 |
15 |
33.498 |
20 |
33.557 |
25 |
33.605 |
30 |
33.592 |
OXYGEN (ML/L)
6.51 6.44 5.93 4.94 1.87 2.14
PHOSPHATE (MG-ATM/L)
C.66 0.71 C.92 1.29 1.74 1.87
CHLOROPHYLL (MG/M3) |
|
0. |
,878 |
1. |
,459 |
1. |
,008 |
0. |
,798 |
0. |
,721 |
0, |
,822 |
OBSERVED VALUES ( SV/T/D-TRANSMI S SOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
transmittance: (0/0) |
n |
1 ^ o^ |
14Q9c 7 |
60-4 |
4 |
12.47 |
1498.6 |
61.6 |
9 |
11.92 |
1498.0 |
66.1 |
14 |
11.09 |
1496.2 |
70.5 |
18 |
1C.93 |
1493.6 |
39.6 |
24 |
10.78 |
1492.2 |
33.4 |
29 |
1492.8 |
37.6 |
|
32 |
1492.5 |
31. 1 |
DEPTH TEMP
INTERPOLATED VALUES SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 13.03 1499.7
10 11.75 1497.6
20 10.88 1493.5
30 1492.7
6C.4 33.445 6.51 0.66 C.878 25.20
67.0 33*466 6.29 0.77 1.330 25.47
37.5 33.557 4.94 1.29 0.798 25.69
35.4 33.592 2.14 1.87 0.822
306
STATION: M6 DEPTH: 40M DATE: 1 NOV 7C TIME: 1225
LAT: 37-37. 5N LONG: 122-40. 2W WIND: 090 SPEED: 6
AIR TEMP(DRY): 66 BARO: 30.06 CLOUD AMT: 6 HEIGHT(FT): 1000 SEA: 090-1 SWELL: 25C-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.430 |
6.31 |
0.63 |
0.631 |
|
4 |
33.416 |
6.49 |
0.72 |
0.597 |
|
11 |
33.450 |
6.40 |
0.72 |
0.933 |
|
16 |
33.469 |
6.34 |
0.75 |
0.641 |
|
23 |
33.539 |
5.78 |
1.03 |
0.652 |
|
35 |
33.598 |
4.04 |
1.73 |
0.6C8 |
OBSERVED VALUES < SV/T/D-TRANSMI SSOMETER CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
n |
12*81 |
1498:9 |
62, ? |
3 |
12.83 |
1498.9 |
61.6 |
5 |
12.62 |
1499. 1 |
62.1 |
10 |
12.53 |
1498.6 |
61.2 |
15 |
11.87 |
1498.2 |
65.9 |
20 |
10.89 |
1497.3 |
73.3 |
25 |
1495.2 |
75.2 |
|
30 |
14 93.9 |
71.9 |
|
33 |
1493.0 |
32.5 |
INTERPOLATED VALUES DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLOR SIG-T
0 12.81 1498.9
10 12.53 1498.6
20 10.89 1497.3
30 1493.9
62.2 33.430 6.31 0.63 0.631 25.24
61.2 33.445 6.41 0.72 0.885 25.30
73.3 33.509 6.02 0.91 0.647 25.66 71.9 33.573 4.77 1.44 0.626
307
STATION: M7 DEPTH: 31M DATE: 1 NOV 70 TIME: 1342 LAT: 37-37. 5N LONG: 122-36. 5W WIND: LIGHT AIR AIR TEMP(DRY): 58 BARO: 30. C4 CLOUD AMT: 6 HEIGHT(FT): 1000 SEA: 090-1 SWELL: 250-3
OBSERVED VALUES (NANSEN CAST)
DEPTH (M) |
SALINITY (0/00) |
OXYGEN (ML/L) |
PHOSPHATE (MG-ATM/L) |
CHLOROPHYLL (MG/M3) |
|
0 |
33.474 |
6.57 |
0.72 |
0.734 |
|
3 |
33.482 |
4.37 |
0.71 |
0.795 |
|
10 |
33.492 |
6.47 |
1.05 |
0.938 |
|
15 |
33.499 |
6.43 |
0.78 |
1.011 |
|
20 |
33.526 |
6.55 |
0.93 |
0.966 |
|
25 |
33.604 |
4.37 |
1.71 |
1.007 |
OBSERVED VALUES ( S V/T/D-l RANSMI SSOMETE R CAST)
DEPTH (M) |
TEMP (C) |
SO. VEL (M/SEC) |
TRANSMITTANCE (0/0) |
0 |
12.-97 |
1499.7 |
59c 2 |
5 |
12.76 |
1498. 2 |
58.2 |
10 |
12.50 |
1498.1 |
57.6 |
15 |
12.49 |
1498.1 |
57.6 |
18 |
12.44 |
1498. C |
63.0 |
23 |
11.85 |
1496.2 |
34.3 |
INTERPOLATED VALUES
DEPTH TEMP SO. VEL TRANS. SAL. OXY PHOS CHLCR SIG-T
0 12.97 1499.7 59.2 33.474 6.57 0.72 0.734 25.24
10 12.50 1498.1 57.6 33.492 6.47 1.05 C.938 25.34
20 12. 2C 1497.3 51.5 33.526 6.55 0.93 C.986 25.43
308
TABLE XEX PARTICLE SIZE DISTRIBUTIONS
Equivalent spherical diaj:eters in micron;
Channel |
0 |
- 32.0 |
Channel |
1 |
- 25. ^ |
Channel |
2 |
- 20.2 |
Channel |
3 |
- 16.0 |
Channel |
H |
- 12.7 |
Channel |
5 |
- 10.1 |
Channel |
6 |
- b.CO |
Channel |
n ( |
- 6.35 |
Channel |
a |
- 5. OH |
Channel |
9 |
- 4.00 |
Channel |
10 |
- 3.17 |
Channel |
11 |
- 2.?2 |
Channel |
12 |
-.2.00 |
Channel |
13 |
- 109 |
309
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359
BIBLIOGRAPHY
1. Shepard, A. B. , A Comparison of Oceanic Parameters
During Upwelling Off the Central Coast of California, M.S. Thesis, Naval Postgraduate School, 1970, 218 p.
2. Baker, R. E. , The Comparison of Oceanic Parameters
with Light Attenuation in the Waters Between San
Francisco Bay and Monterey Bay, California,
M.S. Thesis, Naval Postgraduate School, 1970, 206 p.
3. Bolin, R. L. and Abbot, Donald P., "Studies on the
Marine Climate and Phytoplankton of the Central Coastal Areas of California, 1954-1960." California Cooperative Fisheries Investigations Progress Report 9, 1 July 1960 to 30 June 1962. 1962.
4. Bolin, Rolf L. and Collaborators, "Hydrographic Data
from the Area of the Monterey Submarine Canyon, 1951- 1955." Final Report Hopkins Marine Station, Stanford University, Pacific Grove, California. July 30, 1964.
5. Skogsberg, Tage , "Hydrography of Monterey Bay, Cali-
fornia Thermal Conditions, 1929-1933." Transactions of the American Philosophical Society, New Series, Vol 29, December 1936.
6 Labyak, P. S., An Oceanographic Survey of the Coastal- Waters between San Francisco Bav and Monterey Bay, mTsT Thesis, Naval Postgraduate School, 1969, 317 p.
7. Yeske, L. A. and Waer, R. D. , The Correlation of
Oceanic Parameters with Light Attenuation m nonterey Biv, California, M.S. Thesis, Naval Postgraduate School, 1968. 144 p.
8. Bassett, C. H. and Furminger, H. C, An Investigation
of the vertical Variation of Light Scattering in Monterey Bay, M.S. Thesis, Naval Postgraduate School, 1965, 88 p.
9 Sverdrup, H. U. , Johnson, Martin W. , and Fleming,
lichard H., The Oceans, Prentice Hall, Englewood, New Jersey, 1942. 1087 p.
10. Pytkowicz, Ricardo, "Oxygen Exchange Rates off the Oregon Coast." Deep Sea Research 11 (3), 381 JVJ , 1964.
360
11. Bader, Henri, "The Hyberbolic Distribution of Particle
Sizes." Journal of Geophysical Research 75 (15) , 2822-2830, May 20, 1970.
12. California Cooperative Oceanic Fisheries Investigations,
Atlas Number 1, CALCOFI Atlas of 10-meter Temperatures and Salinities, State of California, Department of Fish and Game, Marine Research Committee, July 196 3.
13. Margalef , R. , "Some Concepts Relative to the Organi-
zation of Plankton." Annual Review of Oceanography and Marine Biology, Harold Barnes (editor) , Vol. 5 , 257-289, 1967.
14. Holm-Hansen, 0., et al., "Fluorometric Determination
of Chlorophyll." Journal du Conseil Permanant Inter- national Pour 1 ' Exploration de la Mer 30 (1) , 3-15, 1965.
15. State of California, State Water Quality Control Board,
San Francisco Bay-Delta Water Quality Control Program Final Report Task Vll-la, Special Oceanographic Studies, by R. C. Carter, 15 June 1968.
16. Riley, J.. P. and Skirrow, G. , Chemical Oceanography,
Vol. 1, Academic Press, 1965.
361
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367
UNCLASSIFIED
Security Classification
DOCUMENT CONTROL DATA -R&D
{Security classification of title, body of abstract and indexing annotation muff be entrred when the nvr^t! tmpoti i -. titBttfiti
ORIGINATING ACTIVITY (Corporate author)
Naval Postgraduate School Monterey, California 93940
2a. REPORT SECURITY Classification
Unclassified
2b. CROUP
3 REPOR T TITLE
A COMPARISON OF OCEANIC PARAMETERS DURING THE OCEANIC PERIOD OFF THE CENTRAL COAST OF CALIFORNIA
4. DESCRIPTIVE NOTES (Type o/ report and.inclusive dates)
Master's Thesis; March 1971
S AUTHORiSI (First name, middle initial, last name)
Elroy Anthony Soluri, Lieutenant Commander, United States Navy
« REPOR T DATE
March 1971
7/1. TOTAL NO. OF PACES
369
7b. NO. OF REFS
16
l«. CONTRACT OR GRANT NO.
6. PROJEC T NO
9a. ORIGINATOR'S REPORT NUMBERO)
9b. OTHER REPORT NO (SI (Any other numbers that may bo . turned this report)
10 DISTRIBUTION STATEMENT
Approved for public release; distribution unlimited,
11. SUPPLEMENTARY NOTES
12. SPONSORING MILITARY ACTIVITY
Naval Postgraduate School Monterey, California 93940
13. ABSTRACT
A detailed examination of the co£istal region between Monterey Bay and San Francisco Bay was conducted from 1 to 6 November 19 70. Measurements of temperature, salinity, sound velocity, beam transn tance, Coulter particle size distributions, chlorophyll a, phosphate, and oxygen were obtained at 86 stations from the surface to IOC r: The data collected are presented in the form of contours in horizontal and vertical sections and depth profiles which indicate:
1. a distinctive off-shore region, which exhibited high values oxygen, chlorophyll a, and particle count and low values of temperatufj and beam transmittance v/as present;
2. the areas with the highest standing crop are inshore, within rive miles of the coast; . ,
3. a peak in the size distribution of particles did not always occur in the surface layers within the observable range of diameters of rrom
1.59y to 32. Oy;
4. a plot of oxygen versus phosphate yielded a slope or
-2.4
yg-at/1 P04 ml/1 0.
5. there appears to be no simple correlation in the scatter of point plotted for chlorophyll a as a function of oxygen; and _ ,
6. a Dlot of chlorophyll a versus beam transmittance indicates si larly that no simple relationship between these parameters exists.
DD,FN0oRvVi473 <PAGE,)
S/N 0101 -807-681 1
UNCLASSIFIED
Security Classification
A-Sl
UNCLASSIFIED
Security Classifirttion
key wo ROS
BEAM TRANSMISSION
CENTRAL CALIFORNIA COAST
CHLOROPHYLL A
COULTER COUNTER
LIGHT TRANSMISSIVITY
LIGHT ATTENUATION
MONTEREY BAY, CALIFORNIA
OCEANOGRAPFIC SURVEY
OXYGEN IN SEA WATER
PARTICULATE MATTER
PARTICLE SIZE DISTRIBUTION
PHOSPHATE
SOUND VELOCITY
SUSPENDED MATERIAL
TEMPERATURE
TURBIDITY
OCEANIC PERIOD
SALINITY
FORTRAN IV OCEANOGRAPHIC DATA PROCESSING
OCEANOGRAPHIC DATA PLOTTING
DD ,F.T..1473 <back.
UNCLASSIFIED
S/N 0101-807-6621
369
Security Classification
»-Ji
I
The S66! c.l
hesi s S6654 Soluri
28160
Thesi s
S6654 c.l
A comparison of oceanic parameters during the oceanic I period off thfi fc<?n$i%l coast of Cal i fornla'.o
128160
Soluri
A comparison of oceanic parameters during the oceanic period off the central coast of California.
m
^.'■•■"■■>.' :t.,.,' -i 'i"'/) 7P:rTv
SllSIBi&SB"
EfiSjSS
thesS6654
A comparison of oceanic parameters durin
3 2768 002 01676 8
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