In addition to the usual horizontal maps of characteristics at the surface and at 200 m, vertical sections of various properties measured on CalCOFI line 90 appear in this report.
STANDARD PROCEDURES
Hydrographic and Rosette Cast Data
The hydrographic casts usually consisted of 20 three-liter plastic
(PVC) bottles lowered to a maximum sampling depth of 500 meters, bottom
depth permitting. A Sea-Bird Electronics, Inc. CTD and General Oceanics
rosette was used successfully on 17 stations on cruise 9108 to a maximum
sampling depth of 500 m, bottom depth permitting. Water samples were collected
from 10 five-liter Niskin rosette bottles tripped at various depths from
the maximum CTD depth to the surface on the up cast. Temperature, salinity,
oxygen and nutrients were determined at sea for all depths sampled and
chlorophyll-a and phaeopigments were usually determined at sea from the
top 14 depths sampled on the hydrographic casts and on all 10 rosette cast
bottles. Special near-bottom casts were done in the Santa Barbara and Santa
Monica Basins.
Paired protected reversing thermometers read by two observers were used on the hydrographic casts to determine temperatures which were then recorded to hundredths of a degree Celsius. The temperatures are reported relative to the International Practical Temperature Scale of 1968 (IPTS-68). The new International Temperature Scale of 1990 (ITS-90) differs from the IPTS-68 by less than 0.01ºC over oceanic temperature ranges, so the distinction between the two scales is of marginal significance for temperatures listed to the nearest hundredth of a degree. Most hydrographic sampling bottles used below a depth of about 75 meters were equipped with unprotected thermometers for determination of the depth of sampling, using the Saunders (1981) pressure-to-depth conversion technique. For rosette casts, pressures and temperatures were derived from the CTD at the time of the rosette bottle trip.
Salinity samples were analyzed at sea using inductive-type salinometers standardized with substandard seawater. Periodic checks on the concentration of the substandard were made by comparison with IAPSO Standard Seawater batch P-78. Salinity values have been calculated from the algorithms for the Practical Salinity Scale, 1978 (UNESCO, 1981a) and were reported to three decimal places, provided that accepted standards were met. If only one determination per sample was obtained, or there was doubt concerning the accuracy of the analytical results, the salinities were reported to two decimal places.
Dissolved oxygen was determined by the Winkler method, as modified by Carpenter (1965), using the equipment and procedure outlined by Anderson (1971). Percent oxygen saturation was calculated from the equations of Weiss (1970).
Silicate, phosphate, nitrate and nitrite nutrients were determined at sea using an automated analyzer. The procedures used are similar to those described in Atlas et al. (1971).
Samples for chlorophyll-a and phaeopigments were filtered onto GF/F filters. The pigments were extracted with a cold extraction technique in 90% acetone (Venrick and Hayward, 1984), and the fluorescence determined before and after acidification with a Turner Designs fluorometer (Yentsch and Menzel, 1963; Holm-Hansen et al., 1965).
* The first two digits represent the year and the last digits the month
of the cruise.
Evaluation of the data involved comparisons with adjacent stations
and consideration of the variation of a property as a function of density
or depth and the relationships with other properties (Klein, 1973). Estimates
of precision of the standard techniques are given in SIO, 1991.
Primary Productivity Casts
Primary productivity casts were taken each day shortly before local apparent noon (LAN). Primary production was estimated from 14C uptake using a simulated in situ technique. Light penetration was estimated from the Secchi depth (assuming that the 1% light level is three times the Secchi depth). The depths, with ambient light intensities corresponding to light levels simulated by the on-deck incubators, were identified and sampled with five-liter Niskin bottles attached to the hydrowire on cruise 9108. The Niskin bottles were equipped with epoxy-coated springs and silicone-rubber O-rings. Where the productivity casts occurred at non-standard CalCOFI sampling locations on 9108, additional hydrographic bottles were added to extend the observations to 200 m. On cruise 9110 the Niskin bottles were tripped on the rosette cast. Pressures and temperatures reported in the 9110 productivity data were derived from the CTD at the time of the Niskin bottle trip. Triplicate samples (two light and one dark control) were drawn from each productivity sample depth into 250 ml polycarbonate incubation bottles. Samples were innoculated with10 µCi of 14C as NaHCO3 (2OO µl of 50 µCi/ml stock) prepared in a 0.3 g/liter solution of sodium carbonate (Fitzwater et al., 1982). Samples were incubated from LAN to civil twilight in seawater-cooled incubators with neutral-density screens which simulate in situ light levels. At the end of the incubation, the samples were filtered onto Millipore HA filters and placed in scintillation vials. One-half ml of 10% HC1 was added to each sample. The sample was then allowed to sit, without a cap, at room temperature for 12 hours (after Lean and Burnison, 1979). Following this, 10 ml of scintillation fluor were added to each sample and the samples were returned to SIO where the radioactivity was determined with a scintillation counter. Temperature, salinity, oxygen, nutrients, chlorophyll-a, and phaeopigments were determined for all depths.
Macrozooplankton Net Tows
Macrozooplankton was sampled with a 71 cm mouth diameter paired
net (bongo net) equipped with 0.505 mm plankton mesh. Bottom depth permitting,
the nets were towed obliquely from 210 m to the surface. The tow time for
a standard tow was 21.5 minutes. Volumes filtered were determined from
flowmeter readings and the mouth area of the net. Only one sample of each
pair was retained and preserved. The biomass, as wet displacement volume,
after removal of large (>5 ml) organisms, was determined in the laboratory
ashore. These procedures are summarized in greater detail in Kramer et
al. (1972).
TABULATED DATA
Hydrographic and Rosette Cast Data
On cruise 9108, CTD/Rosette cast data are included with the hydrographic
cast data. The time reported is Coordinated Universal Time (UTC). For CTD/Rosette
casts the time reported is the time of the first bottle trip on the up
cast, for wire casts it is the time of the messenger release. Bottom depths,
determined acoustically, have been corrected using British Admiralty Tables
(Carter, 1980) and are reported in meters. Weather conditions have been
coded using WMO code 4501. Secchi depths, taken on most daylight stations,
are also reported.
Observed and interpolated standard depth data from hydrographic casts have been interspersed and are presented together sequentially by depth. Interpolated or extrapolated standard level data are noted by the footnote "ISL" printed after the depth. No interpretations were done on the rosette casts taken on cruise 9108. Density-related parameters have been calculated from the International Equation of State of Seawater 1980 (UNESCO,1981, b). Computed values of potential temperature, sigma-theta, specific volume anomaly (SVA), dynamic height or geopotential anomaly, and pressure are included with both observed and interpolated standard depth levels.
Primary Productivity Casts
In addition to the normal hydrographic data, the tabulated data
include: the in situ light levels at which the samples were collected,
the uptake from each of the replicate light bottles (uptake 1 and uptake
2) which have been corrected for dark uptake by subtracting the dark value,
the mean of the two uptake values, the dark uptake, chlorophyll-a and phaeopigments.
The uptake values are totals for the incubation period. Also shown are
the times of LAN, civil twilight, and the value of the mean uptake
integrated from the surface to the deepest sample, assuming that the shallowest
value continues to the surface and that negative values (when dark uptake
exceeds light uptake) are zero. The uptake data have been presented to
two significant digits (values <1.00) or one decimal (values >1.00).
The higher production values may not warrant all of the digits presented.
Incubation time, LAN, and civil twilight are given in local Pacific Standard
Time (PST); to convert to UTC, add eight hours to the PST time. Incubation
light intensities are listed in a footnote at the bottom of each page.
Macrozooplankton Data
Macrozooplankton biomass volumes are tabulated as total biomass
volume (cm3/lOOO m3 strained) and as the total volume
minus the volume of larger organisms under the heading "Small."
Tow times are given in local PST (+8) time.
FOOtnOTES
In addition to footnotes, special notations are used without footnotes
because the meaning is always the same.
ISL: After a depth value indicates that this is an interpolated or extrapolated
standard level.
P: After a depth value indicates that the bottle pretripped.
U: Uncertain value. Values which are not used in interpolation because
they seem to be in error without apparent reason.