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CRUISE REPORT: HLY0403
(Updated FEB 2014)



Highlights
                          Cruise Summary Information

          WOCE Section Designation  HLY0403
Expedition designation (ExpoCodes)  32H120040718
                  Chief Scientists  Dr. James Swift
                                    Dr. Louis Codispoti
                             Dates  2004 JUL 18 -- 2004 AUG 26
                              Ship  USCGC Healy
                     Ports of call  Nome, Alaska to Nome, Alaska

                                                    73°54' N
            Geographic Boundaries  168°54'10.8" W             151°52'1" W
                                                  65°39'36" N

                          Stations  60
      Floats and drifters deployed  0
    Moorings deployed or recovered  0

                             Contact Information:

                               Dr. James Swift
                     Scripps Institution of Oceanography
               9500 Gilman Rd. MC 0214 • La Jolla, CA 92093-0214
                  Tel: 858.534.3387 • Email: jswift@ucsd.edu

                              Dr. Louis Codispoti
                             Horn Point Laboratory
                      PO Box 775 • Cambridge, MD 21613
              Tel: 410.221.8479 • Email: codispot@hpl.umces.edu















               HLY-04-03 SERVICE GROUP BOTTLE DATA DOCUMENTATION
                           18 July to 26 August 2004
                          Nome, Alaska to Nome, Alaska

                       Dr. Louis Codispoti, (on board PI)
                              Horn Point Laboratory
                                  PO Box 775
                               2020 Horn Pt. Rd.
                              Cambridge, MD 21613
                              410.221.8479 phone
                            codispot@hpl.umces.edu

                             Dr. James Swift (PI)
                      Scripps Institution of Oceanography
                          Oceanographic Data Facility
                            9500 Gilman Rd. MC 0214
                            La Jolla, CA 92093-0214
                               858.534.3387 phone
                                jswift@ucsd.edu

   On board team: Kristin Sanborn, Rebekah Duncan, Dan Schuller, Erik Quiroz,
                                Robert Palomares
       Other team members: Berit Rabe (ADCP), Dean Stockwell (Chlorophyll)

               Funded by National Science Foundation OPP0125399




Data Set Overview

184 CTD casts on 60 stations were attempted. 4 of these were aborted, with no 
CTD data and no water samples.  These casts were Station 022 Cast 01, Station 
022 Cast 03, Station 022 Cast 04, and Station 049 Cast 01.


Instrumentation 

CTD casts were performed with a rosette system consisting of a 12-place rosette 
frame with 30 liter bottles and a 12-place SBE-32 Carousel pylon.  Underwater 
electronic components consisted of:

• Sea-Bird Electronics, Inc. (SBE) 911plus CTD,
• WETLabs C-Star transmissometer with a 25cm path length and 660nm wavelength,
• Biospherical Instruments, Inc. Photosynthetically Active Radiation (PAR) 
  sensor,
• Chelsea MkIII Aquatracka fluorometer, and
• Simrad, 5 volt - 2-500 meter altimeter.

Additionally, a Dr. Haardt fluorometer designed to detect colored organic 
matter (CDOM) and a Secchi disk were mounted on the CTD package. The CTD, 
transmissometer, and the two fluorometers were mounted horizontally along the 
bottom of the rosette frame. The PAR sensor was located at the top of the 
rosette. The surface PAR sensor was located on a newly installed I-beam antenna 
support atop the helicopter shack.  All sensors except the Secchi disk were 
interfaced with the CTD system. This instrument package provided pressure, dual 
temperature and dual conductivity channels as well as light transmissivity and 
fluorometric signals at a sample rate of 24 scans per second. 

The bottles on the rosette were General Oceanic 30 liter bottles. The bottles 
were equipped with internal nylon coated springs and silicone o-rings which are 
used to minimize toxicity to the sample. Bottle numbering is 1 to 12 with 1 
tripped first usually at the deepest sampling level and 12 tripped last at the 
shallowest sampling level. The rosette system was suspended from a standard 
UNOLS 3 conductor 0.322" electromechanical cable.

The CTD used was serial number 09P24152-0638 and the sensor's model and serial 
numbers are listed in Table 1. At Station 022, cast 1, the CTD failed when 
three connectors were found flooded. The CTD was replaced with 09P24152-0639. 
After cast 8 at Station 022, it was also determined that the Haardt fluorometer 
was damaged and it was removed from service. This data from Station 022 has 
been deleted.


TABLE 1: Instrument/Sensor Serial Numbers

  Primary       Primary     Secondary     Secondary
Temperature  Conductivity  Temperature  Conductivity  Pressure  Transmissometer
-----------  ------------  -----------  ------------  --------  ---------------
 SBE 3plus      SBE 4C      SBE 3plus      SBE 4C     401K-105      C-Star
  03-2796       04-2545      03-2824       04-2568      83009     CST-390DR

             Oxygen  Fluorometer     PAR    Surface PAR  Altimeter
             ------  -----------  --------  -----------  ---------
             SBE 43    Aqua 3     QSP-2300    QSR-240       807
              0459     088233       4643       6367       9711090


Equipment Positions

TABLE 2: Instrument mounting heights in reference to the bottom of the rosette 
         frame.

                       Height above base               Height above base
Sensor                    of rosette         Sensor       of rosette
---------------------  -----------------     --------  -------------------
Altimeter                    2 cm            Pressure        19cm
Transmissometer              8 cm            T (pri)         10 cm 
Fluorometer (Chelsea)       10 cm
Fluorometer (Haardt)         8 cm            Par       215cm Sta. < 2000 m
 	 			

The distance of the mid-points of the 30 L Niskin bottles from the bottom-
mounted sensors was ~1.19m. The 30 Liter Niskin bottles are ~1.0 m long. The 
secchi disk was mounted 2.2m above the bottom of the rosette frame.


Problems and/or Procedural changes

At times small areas of the nylon coating on the Niskin bottle springs broke 
down so there may be some minor iron contamination in some samples. HLY0403 
rosette operations were continually beset by problems with bottle leaks caused 
by Niskin bottle end o-rings falling out of position.  Typically, each cast had 
one such occurrence.  Data from leaking bottles were carefully assessed by 
comparing CTD oxygen and salinity data against bottle salinities and 
temperatures and it was found that spigot leaks normally did not compromise 
sample quality. Samples were usually not taken from bottles with severe leaks 
caused by poorly sealed bottom end-caps, and in other cases data from leaking 
bottles were noted as being questionable.  Thus, the main effect of the leaking 
bottles was to increase the sample spacing of good data on some casts. Some 
bottles were more prone than others to o-ring problems, but no clear-cut 
patterns emerged except that there seemed to be more problems on deeper casts 
which would implicate a pressure effect or prolonged exposure to low 
temperatures.  Since both the bottles and o-rings were purchased just before the 
two 2004 Healy cruises, we suspect a manufacturing defect or change in either 
the bottles or o-rings. Some of the problems were gross, i.e. the o-ring would 
be visible out the side of the end cap, but others were more subtle. Every time 
an o-ring problem was suspected, the o-ring was carefully inspected, and 
replaced if necessary.  Also, at several points during the cruise all o-rings 
were inspected.  During the spring expedition, HLY-04-02, the contents of 
various packages of spare o-rings were measured to locate 'large' or 'small' o-
rings (within the manufacturer's tolerance), and a remedial 'large' set was 
installed.  Another time Coast Guard personnel replaced all the o-rings from 
their own supply.  Yet all these remedial attempts were to no particular avail. 
A different batch of o-rings were procured prior to this cruise (HLY-04-03) but 
they  made minimal difference vis a vis  bottle leaks. 



CTD Data

CTD Laboratory Calibration Procedures

Pre-cruise laboratory calibrations of CTD pressure, temperature and conductivity 
sensors were used to generate coefficients for the calculation of these 
parameters from their respective sensor frequencies. The temperature, 
conductivity and oxygen sensors were recalibrated prior to the HLY-04-3 
expedition. The temperature, conductivity and oxygen calibrations were performed 
at Sea-Bird Electronics, Inc. in Bellevue, Washington.  Calibration of the 
pressure sensor was performed prior to the HLY0402 spring cruise by Scripps 
Institution of Oceanography, Shipboard Technical Support/Oceanographic Data 
Facility (SIO/STS/ODF) personnel. The Sea-Bird laboratory temperature 
calibrations were referenced to the International Temperature Scale of 1990 
(ITS-90). 


CTD Data Acquisition

The CTD 911plus was operated generally as suggested in the Sea-Bird CTD 
Operating and Repair Manual, which contains a description of the system, its 
operation and functions (Sea-Bird Electronics, Inc., 2002). One difference from 
Sea-Bird's operation is that data acquisition was started on deck. This 
procedure allows a check of the pressure offset and an unblocked reading of the 
transmissometer. The Seasoft acquisition program as described in the CTD Data 
Acquisition Software Manual (Sea-Bird Electronics, Inc., 2001) provided a real-
time graphical display of selected parameters adequate to monitor CTD 
performance and information for the selection of bottle-tripping depths. Raw 
data from the CTD were archived on the PC's hard disk at the full 24 Hz sampling 
rate. 

A CTD Station Sheet form was filled in for each deployment, providing a record 
of times, positions, bottom depth, bottle sampling depths, and every attempt to 
trip a bottle, as well as any pertinent comments. When the equipment and 
personnel were ready, data acquisition was started.  The CTD operator pressed a 
control key (flag), which appends a summary line into the files created for 
"inventory" files.  This file contains a summary of the time, ship's position, 
and current scan number each time the control key is pressed.  They are used as 
a reference to mark important events during the cast, such as on deck pressure, 
when the lowering was initiated, when the package was at the bottom, when 
bottles were tripped and the on-deck pressure with ending position.  After the 
initial flag, the rosette/CTD system was lowered into the water and held at 5 
meters wire out for 3-5 minutes to permit activation of the CTD pumps and 
equilibration of the sensors.  Then, the operator had the CTD raised to the 
surface, again created a flag, and simultaneously directed the winch operator to 
begin lowering.  The operator created a flag at the deepest point of the cast. 
Bottom depths were calculated by combining the distance above bottom, reported 
by the altimeter, and the maximum depth of the CTD package when bottom altimeter 
readings were available.  If there was no altimeter reading, then the bottom 
depth is reported from the ship's Bathy 2000 or Knudsen model 320B/R depth 
recorder.  These data, corrected for the draft of the transducer, were logged in 
uncorrected meters (assuming a sound velocity of 1500 m/sec). If the altimeter 
and depth recorder data were unavailable, the final resort was to use depth data 
from the SeaBeam system (corrected sound velocities).

The wire out corresponding to each bottle trip was written on the station log 
and the trips were electronically flagged in the data file.  The performance of 
all sensors was monitored during the cast.  After the rosette recovery, the 
operator created a final flag denoting the end of the cast. Any faulty equipment 
or exceptionally noisy data were noted on the log sheet. 


CTD Data Processing

Pressure

CTD values determined on deck before and after each cast were compared to 
determine a pressure offset correction. The comparison suggested that no 
pressure offset was necessary.


Temperature

The temperature sensors were calibrated in July 2004.  The dual temperature 
sensors were monitored during the expedition and exhibited good agreement.  It 
appears that no additional corrections need to be applied. A post-cruise 
calibration will be performed.

Conductivity

The conductivity sensors were calibrated in July 2004. Corrected CTD pressure 
and temperature values were used with bottle salinities to back-calculate bottle 
conductivities. Comparison of these bottle values with the CTD primary 
conductivity values indicated no additional offset needed to be applied to the 
data.

Transmissometer

A WETLabs calibrated transmissometer was utilized throughout the cruise.  An on 
deck calibration check was performed and even though there was little 
degradation from the last calibration, the new coefficients were applied to the 
data set.

Oxygen, Fluorometer, and PAR

The CTD oxygen data are only intended for qualitative use.  The oxygen sensor 
was calibrated in July 2004. Similarly, the fluorometric and PAR data are not 
calibrated.

Data Processing

Sea-Bird Seasoft CTD processing software was employed. The processing programs 
are outlined below.  A more complete description may be found in the Sea-Bird 
Software Manual which is available from the Sea-Bird website (www.seabird.com).

The sequence of programs that were run in processing CTD data from this cruise 
are as follows:

* DATCNV - Converts data from raw frequencies and voltages to corrected 
  engineering units
* WILDEDIT - Eliminates large spikes
* CELLTM - Applies conductivity cell thermal mass correction
* FILTER - A low pass filter to smooth pressure for LOOPEDIT
* LOOPEDIT - Marks scans where velocity is less than selected value to avoid 
  pressure reversals from ship roll, or during bottle flushing.
* DERIVE - Computes calculated parameters
* BINAVG - Average data into desired pressure bins

The quality control steps included:

* Sensor verification After the CTD was set up and sensor serial numbers and 
  sensor location entered into the computer, another check was made to verify 
  that there were no tabulation errors.
* Seasoft Configuration File was reviewed to verify that individual sensors were 
  represented correctly, with the correct coefficients.
* Temperature was verified by comparing primary and secondary sensor data.
* Conductivity was checked by comparison of the two sensors with each other and 
  with bottle salinity samples. 
* Position Check A chart of the ship's track was produced and reviewed for any 
  serious problems.  The positions were acquired from the ship's GPS (P-code) 
  navigation system. 
* Visual Check Plots of each usable cast were produced and reviewed for any 
  noise and spikes that may have been missed by the processing programs.
* The density profile was checked for inversions that might have been produced 
  by sensor noise or response mismatches.


CTD Data Footnoting

WHP water bottle quality flags were assigned as defined in the WOCE Operations 
Manual (Joyce and Corry, 1994). These flags and interpretation are tabulated in 
the CTD and Bottle Data Distribution, Quality Flags section of this document.

Data Comments 

Fine structure including minor density inversions that may appear in the upper ~ 
10 m of the profiles is most likely caused by ship discharges/turbulence. To 
minimize the ship effect, engine cooling water discharges were restricted to the 
port side of the Healy.  A "yo yo" procedure was adopted to induce bottle 
flushing whenever waves and ship motion were weak.  This procedure was employed 
for all bottle trips under quiescent conditions except for productivity casts, 
and for surface and bottom bottles that were usually kept at depth for ~2 
minutes before tripping whereas the yo yo procedure generally involved a ~30 
second wait, a yo yo and another ~30 second wait. Regardless of the procedure 
employed, the CTD operators were instructed to wait for at least 1 minute 
(typically > 1.5 minutes) before tripping the bottle.

All salinity, nutrient and dissolved oxygen data collected by the "service" team 
have gone through several stages of editing and are not likely to change 
significantly.  The chlorophyll observations reported here may may undergo 
further editing.  Please note that changes in the refractive index of samples 
with salinity, baseline issues, temperature effects, etc. can cause variability 
in the ammonium and urea methods that is not reflective of changes in ambient 
concentrations. Differences of < ~ 0.15 µM should be treated with caution. 
Please contact L. A. Codispoti, if you wish to interpret small differences in 
ammonium and urea data (Codispoti@hpl.umces.edu) The other nutrient data meet 
WOCE/JGOFS standards.  



Bottle Data

There were five generic types of casts performed with differing sampling 
protocols.  Generally speaking, the samplings associated with these casts were 
as follows, but there is some cast-to-cast variation.

* Hydrographic 
  o Oxygen, 
  o Total CO2,
  o Total Alkalinity, 
  o Nutrients
  o Chlorophyll/Phaeophytin
  o Phytoplankton
  o Salinity
  o O18/O16
  o Benthic 
  o Dissolved Organic Matter/Particulate Organic Matter
  o Thorium-234
  o C13/N15
* Productivity/Zooplankton
  o Oxygen 
  o Oxygen Respiration
  o Productivity
  o Nutrients
  o Chlorophyll
  o HPLC
  o Bacteria
  o Micro Zooplankton
  o Particulate Organic Matter
  o Dissolved Organic Matter/Lignin
  o Bio-Optics
  o Taxonomy
  o C13/N15
* Bio-Markers
  o Nutrients
  o Particulate Organic Matter
  o Dissolved Organic Matter/Lignin 
  o C13/N15
  * Radium
  o Nutrients
  o Radium
  o C13/N15
* Zooplankton
  o Nutrients
  o Micro Zooplankton
  o C13/N15

The correspondence between individual sample containers and the rosette bottle 
from which the sample was drawn was recorded on the sample log for the cast. 
This log also included any comments or anomalous conditions noted concerning  
the rosette and bottles. 

Normal sampling practice included opening the drain valve before the air vent on 
the bottle, to check for air leaks. This observation and other diagnostic 
comments (e.g., "lanyard caught in lid", "valve left open") that might later 
prove useful in determining sample integrity were routinely noted on the sample 
log.  

Bottle Data Processing

After the samples were drawn and analyzed, the next stage of processing involved 
merging the different data streams into a common file. The rosette cast and 
bottle numbers were the primary identification for all ODF-analyzed samples 
taken from the bottle, and were used to merge the analytical results with the 
CTD data associated with that bottle.

Diagnostic comments from the sample log, and notes from analysts and/or bottle 
data processors were entered into a computer file associated with each station 
(the "quality" file) as part of the quality control procedure. Sample data from 
bottles suspected of leaking were checked to see if the properties were 
consistent with the profile for the cast, with adjacent stations, and, where 
applicable, with the CTD data. Direct inspection of the tabular data, property-
property plots and vertical sections were all employed to check the data. 
Revisions were made whenever there was an objective reason to delete, annotate 
or re-calculate a datum. WHP water sample codes were selected to indicate the 
reliability of the individual parameters affected by the comments. WHP bottle 
codes were assigned where evidence showed the entire bottle was affected, as in 
the case of a leak, or a bottle trip at other than the intended depth.

Specific data processing and techniques and additional quality control are 
included with the parameter write-up.

Pressure and Temperatures

All pressures and temperatures for the bottle data tabulation were obtained by 
averaging CTD data for a brief interval at the time the bottle was closed and 
then applying the appropriate calibration data. 

The temperatures are reported using the International Temperature Scale of 1990.



Salinity

337 salinity samples were analyzed in 13 analyses runs.

Sampling and Data Processing 

Salinity samples were drawn into 200 ml high alumina borosilicate bottles, which 
were rinsed three times with sample prior to filling. The bottles were sealed 
with custom-made plastic insert thimbles and Nalgene screw caps. This container 
provides very low container dissolution and sample evaporation.  

Equipment and Techniques 

A Guildline Autosal 8400B #65-715, standardized with IAPSO Standard Seawater 
(SSW) batch P-144, was used to measure the salinities. Prior to the analyses, 
the samples were stored to permit equilibration to laboratory temperature, 
usually 8-20 hours.  The salinometer was outfitted with an Ocean Scientific 
International interface for computer-aided measurement. The salinometer was 
standardized with a fresh vial of standard seawater (SSW) at the beginning of 
each analysis run.  Instrument drift was determined by running a SSW vial after 
the last sample was run through the autosal. The salinometer cell was flushed 
until two successive readings met software criteria for consistency; these were 
then averaged for a final result. The estimated accuracy of bottle salinities 
run at sea is usually better than 0.002 PSU relative to the particular standard 
seawater batch used.

Laboratory Temperature

The temperature stability in the salinometer laboratory was moderate; variation 
was no more than 3ºC during a run of samples.  The laboratory temperature was 
generally 2-3ºC lower than the Autosal bath temperature.



Oxygen

974 samples were analyzed for oxygen.

Sampling and Data Processing

Samples were collected for dissolved oxygen analyses as the first sample after 
the rosette was brought on board. Using a Tygon drawing tube, nominal 125ml 
volume-calibrated iodine flasks were rinsed then filled and allowed to overflow 
for approximately 3 flask volumes. The sample draw temperature was measured with 
a small platinum resistance thermometer embedded in the drawing tube. Reagents 
were added to fix the oxygen before stoppering. The flasks were shaken twice to 
assure thorough dispersion of the precipitate, once immediately after drawing, 
and then again after about 20 minutes.  The samples were usually analyzed within 
several hours of collection. 

Thiosulfate normalities were calculated from each standardization and corrected 
to 20ºC. Periodically, the 20ºC normalities and the blanks were plotted versus 
time and were reviewed for possible problems. New thiosulfate normalities were 
recalculated as a linear function of time, if warranted. The oxygen data were 
recalculated using the smoothed normality and an averaged reagent blank. Oxygens 
were converted from milliliters per liter to micromoles per kilogram using the 
sampling draw temperature and the sample's salinity. 



Equipment and Techniques

Dissolved oxygen analyses were performed with an ODF-designed automated oxygen 
titrator using photometric end-point detection based on the absorption of 365nm 
wavelength ultra-violet light. The titration of the samples and the data logging 
were controlled by PC software. Thiosulfate was dispensed by a Dosimat 665 buret 
driver fitted with a 1.0 ml buret. The ODF method used a whole-bottle modified-
Winkler titration following the technique of Carpenter (1965) with modifications 
by Culberson (1991), but with higher concentrations of potassium iodate standard 
(approximately 0.012N) and thiosulfate solution (55 g/l). Standard KIO3 
solutions prepared ashore were run at the beginning of each run. Reagent and 
distilled water blanks were determined, to account for presence of oxidizing or 
reducing materials.


Volumetric Calibration

Oxygen flask volumes were determined gravimetrically with degassed deionized 
water to determine flask volumes at ODF's chemistry laboratory. This was done 
once before using flasks for the first time and periodically thereafter when a 
suspect bottle volume was detected. The volumetric flasks used in preparing 
standards were volume-calibrated by the same method, as was the 10 ml Dosimat 
buret used to dispense standard iodate solution.


Standards

Potassium iodate was obtained from Johnson Matthey Chemical Co. and was reported 
by the supplier to be >99.4% pure.

Nutrients

1567 samples were analyzed for nutrients in 70 analyses runs. 68 of these 
samples were checks of the system and 177 were for 5 of the ancillary shipboard 
programs.

Sampling and Data Processing

Nutrient samples were drawn into 45 ml polypropylene, screw-capped "oak-ridge 
type" centrifuge tubes. The tubes were rinsed with 10% HCl and then with sample 
three times before filling. Standardizations were performed at the beginning and 
end of each group of analyses (4-38 samples) with an intermediate concentration 
mixed nutrient standard, which was prepared prior to each run from a secondary 
standard in a low-nutrient seawater matrix. The secondary standards were 
prepared aboard ship by dilution from primary standard solutions.  Dry standards 
were pre-weighed at the laboratory at ODF, and transported to the vessel for 
dilution to the primary standard. Sets of 7 different standard concentrations 
covering the range of sample concentrations were analyzed periodically to 
determine the deviation from linearity, if any, as a function of absorbance for 
each nutrient analysis.  A correction for non-linearity was applied to the final 
nutrient concentrations when necessary. 

After each group of samples was analyzed, the raw data file was processed to 
produce another file of response factors, baseline values, and absorbances.  
Suspect values were checked for accuracy against values taken from strip chart 
recordings. Sargasso Sea Water and deep seawater were run occasionally to check 
ammonium and urea baselines and assess system performance in all six nutrient 
channels. 

Nutrients, when reported in micromoles per kilogram, were converted from 
micromoles per liter by dividing by sample density calculated at 1 atm pressure 
(0 db), in situ salinity, and the sample temperature measured at the time of 
analysis.

Also reported is N**, a parameter calculated from nitrate, nitrite, ammonium and 
phosphate concentrations.  This parameter is defined as N** = ((N-16P + 2.98)µM) 
0.87, where P = the phosphate concentration in µM, and N = 
(nitrate+nitrite+ammonium in µM).  This parameter is quite similar to the 
original N* parameter defined by Gruber and Sarmiento (1997) except that we 
include ammonium concentrations because of the high ammonium concentrations that 
can occur in the SBI region.  The underlying premise of both N* and N** is that 
the N/P atomic regeneration ratio in seawater is normally close to the 16/1 N/P 
Redfield ratio.  The assumption is that deviations from this ratio in N/P ratios 
in a water mass arise primarily from nitrogen fixation which produces organic 
matter with N/P ratios in excess of 16/1, or denitrification which consumes 
nitrate and other forms of fixed nitrogen and converts these forms into 
elemental dinitrogen gas.  Values less than 2.98 suggest that a water mass has 
experienced net denitrification and higher values suggest net nitrogen fixation.  
The factors 2.98 and 0.87 are explained by Gruber and Sarmiento (1997), and 
there is some debate about whether they should be included, but we do so in 
order to facilitate comparison with the distributions presented by Gruber and 
Sarmiento (1997).


Equipment and Techniques

Nutrient analyses (nitrate+nitrite, nitrite, phosphate, silicate, ammonium, and 
urea) were performed on an ODF-modified 6-channel Technicon AutoAnalyzer II, 
generally within a few hours after sample collection.  The samples were kept in 
the dark by covering with tin foil or refrigerated at 4(C, if necessary, but 
brought to within 5(C of lab temperature before analysis.  The analog outputs 
from each of the six channels were digitized and logged automatically by 
computer (PC) at 2-second intervals. 

A modification of the Armstrong et al. (Armstrong 1967) procedure was used for 
the analysis of nitrate and nitrite. For the nitrate plus nitrite analysis, the 
seawater sample was passed through a cadmium reduction column where nitrate was 
quantitatively reduced to nitrite. The stream was then passed through a 15mm 
flowcell and the absorbance measured at 540nm.  The same technique was employed 
for nitrite analysis, except the cadmium column was bypassed, and a 50mm 
flowcell was used for measurement.  Periodic checks of the column efficiency 
were made by running alternate equal concentrations of NO2 and NO3 through the 
NO3 channel to ensure that column efficiencies were high (> 95%). Nitrite 
concentrations were subtracted from the nitrate+nitrite values to obtain nitrate 
concentrations.

Phosphate was analyzed using a modification of the Bernhardt and Wilhelms 
[Bernhardt 1967.] technique. The reaction product was heated to ~55ºC to enhance 
color development, then passed through a 50mm flowcell and the absorbance 
measured at 820m.

Silicate was analyzed using the technique of Armstrong et al., (Armstrong, 
1967). The sample was passed through a 15mm flowcell and the absorbance measured 
at 660nm.

Ammonium was determined by the Berthelot reaction (Patton and Crouch 1977) in 
which sodium hypochlorite and phenol react with ammonium ion to produce 
indophenol blue, a blue compound.   The solution was heated to 55°C and passed 
through a 50mm flowcell at 640nm.

Urea was analyzed via a modification of the method of Rahmatullah and Boyde 
(1980), which is based on the classic diacetyl monoxime method.  A solution of 
diacetyl monoxime, thiosemicarbizide and acetone is followed by the addition of 
ferric chloride, which acts as a catalyst.  The resultant solution was heated to 
90°C and passed through a 50mm flowcell. The absorbance was measured at 520nm.

Nutrient Standards

Na2SiF6, the silicate primary standard, was obtained from Johnson Matthey 
Company and Fisher Scientific and was reported by the suppliers to be >98% pure. 
Primary standards for nitrate (KNO3), nitrite (NaNO2), and phosphate (KH2PO4) 
were obtained from Johnson Matthey Chemical Company, and the supplier reported 
purities of 99.999%, 97%, and 99.999%, respectively. Ammonia, (NH4(SO4)2), and 
Urea primary standards were obtained from Fisher Scientific and reported to be 
>99% pure. 

Bottle Data Footnoting

WHP water bottle quality flags were assigned as defined in the WOCE Operations 
Manual [Joyce]. These flags and interpretation are tabulated in the Data 
Distribution, Bottle Data, Quality Flags section of this document.

Data Distribution 

The CTD and bottle data can be obtained through NCAR's Earth Observing 
Laboratory website, www.eol.ucar.edu/projects/sbi. The data are reported using 
the WHP-Exchange (WOCE Hydrographic Program) format and the quality coding 
follows those outlined by the WOCE program (Joyce, 1994). In addition, the 
format can be obtained through the WOCE Hydrographic Program website, 
WHPO.ucsd.edu. The descriptions in this document have been edited from the 
reference to annotate the format specific to this data distribution. ASCII files 
for each station were created with comments recorded on the CTD Station Logs 
during data acquisition. These ASCII files include data processing comments 
noting any problems, their resolution, and footnoting that may have occurred.  A 
separate ASCII file was also created with the comments from the Sample Log 
Sheets that include problems with the Niskin bottles that could compromise the 
samples. Comments arising from inspection and checking of the data are also 
included in the ASCII file. These comment files are also in the EOL/JOSS 
database.  Raw (unprocessed) CTD data files are archived in the EOL/JOSS 
database.  The file hly0403_ctd_raw.zip contains ssscc.cfg, ssscc.con, ssscc.dat 
and ssscc.hdr (where sss = station number and cc = cast number) files as 
acquired by the SeaBird SeaSave acquisition program, sbscan.sum file and 
calibration information for all sensors.  The *.cfg file is datcnv.cfg with the 
beginning scan number and *.con files may include a correction based on the 
bottle salinity samples.  The sbscan.sum file is a list of stations and 
beginning scan number.  Configuration files for the various SeaBird CTD 
processing programs are also included where applicable.  


General rules for WHP-exchange:

1. Each line must end with a carriage return or end-of-line.

2. With the exception of the file type line, lines starting with a "#" 
   character, or including and following a line which reads "END_DATA", each 
   line in the file must have exactly the same number of commas as do all other 
   lines in that file.

3. The name of a quality flag always begins with the name of the parameter with 
   which it is associated, followed by an underscore character, followed by 
   "FLAG", followed by an underscore, and then followed by an alphanumeric 
   character, W. 

4. The "missing value" for a data value is always defined as -999, but written 
   in the decimal place format of the parameter in question. For example, a 
   missing salinity would be written -999.0000 or a missing phosphate -999.00.
5. The first four characters of the EXPOCODE are the U.S. National Oceanographic 
   Data Center (NODC) country-ship code, then followed by up to an 8 characters 
   expedition name of cruise number, i.e. 32H1HLY0403.



CTD Data

CTD data is located in file 32H1hly0403_ct1.zip.  This file contains 
ssscc_ct1.csv files for each station and cast where sss=3 digit station 
identifier and cc=2 digit cast identifier.

Description of ssscc_ct1.csv file layout.

1st line   File type, here CTD, followed by a comma and a DATE_TIME stamp

           YYYYMMDDdivINSwho

           YYYY   4 digit year
           MM     2 digit month
           DD     2 digit day
           div    division of Institution
           INS    Institution name
           who    initials of responsible person

# lines      A file may include 0-N optional lines at the start of a data file, 
             each beginning with a "#" character and each ending with carriage 
             return or end-of-line.  Information relevant to file change/update 
             history may be included here, for example.
2nd line     NUMBER_HEADERS = n (n = 10 in this table and the example_ct1.csv 
             file.)
3rd line     EXPOCODE = [expocode] The expedition code, assigned by the user.
4th line     SECT_ID = [section] The SBI station specification. Optional.
5th line     STNNBR = [station] The originator's station number
6th line     CASTNO = [cast] The originator's cast number
7th line     DATE = [date] Cast date in YYYYMMDD integer format.
8th line     TIME = [time] Cast time that CTD was at the deepest sampling point.
9th line     LATITUDE = [latitude] Latitude as SDD.dddd where "S" is sign (blank 
             or missing is positive), DD are degrees, and dddd are decimal 
             degrees. Sign is positive in northern hemisphere, negative in 
             southern hemisphere
10th line    LONGITUDE = [longitude] Longitude as SDDD.dddd where "S" is sign 
             (blank or missing is positive), DDD are degrees, and dddd are 
             decimal degrees. Sign is positive for "east" longitude, negative 
             for "west" longitude
11th line    DEPTH = [bottom] Reported depth to bottom. Preferred units are 
             "meters" and should be specified in Line 2. In general, corrected 
             depths are preferred to uncorrected depths. Documentation 
             accompanying data includes notes on methodology of correction. 
             Optional.
next line    Parameter headings.
next line    Units.
data lines   A single _ct1.csv CTD data file will normally contain data lines 
             for one CTD cast.
END_DATA     The line after the last data line must read END_DATA, and be 
             followed by a carriage return or end of line.
other lines  Users may include any information they wish in 0-N optional lines 
             at the end of a data file, after the END_DATA line.



Parameter names, units, format, and comments 


Parameter       Units     Format   Comments
-------------   -------   ------   -------------------------------------
CTDPRS          DB        F7.1     CTD pressure, decibars
CTDPRS_FLAG_W             I1       CTDPRS quality flag
CTDTMP          ITS-90    F8.3     CTD temperature, degrees C (ITS-90)
CTDTMP_FLAG_W             I1       CTDTMP quality flag
CTDSAL                    F8.3     CTD salinity 
CTDSAL_FLAG_W             I1       CTDSAL quality flag
CTDOXY          UMOL/KG   F7.1     CTD oxygen, micromoles/kilogram
CTDOXY_FLAG_W             I1       CTDOXY quality flag
STHETA                    F8.3     Sigma Theta
STHETA_FLAG_W             I1       Sigma Theta quality flag
XMISS           %TRANS    F7.1     Transmissivity, percent transmittance
XMISS_FLAG_W              I1       XMISS quality flag
FLUOR           VOLTS     F8.3     Fluorometer, voltage
FLUOR_FLAG_W              I1       Fluorometer quality flag
PAR             VOLTS     F8.3     PAR, voltage
PAR_FLAG_W                I1       PAR quality flag
SPAR            VOLTS     F8.3     Surface PAR, voltage
SPAR_FLAG_W               I1       Surface PAR quality flag
FLCDOM          VOLTS     F8.3     CDOM Fluorometer, voltage
FLCDOM_FLAG_W             I1       CDOM Fluorometer quality flag
DEPTH           METERS    F8.0     Depth
               




Quality Flags

CTD data quality flags were assigned to the CTDTMP (CTD temperature), CTDSAL 
(CTD salinity) and XMISS (Transmissivity) parameters as follows:

2 Acceptable measurement.
3 Questionable measurement. The data did not fit the station profile or adjacent 
  station comparisons (or possibly bottle data comparisons). The data could be 
  acceptable, but are open to interpretation.
4 Bad measurement. The CTD data were determined to be unusable.
5 Not reported. The CTD data could not be reported, typically when CTD salinity 
  is flagged 3 or 4.
9 Not sampled. No operational sensor was present on this cast

WHP CTD data quality flags were assigned to the CTDOXY (CTD O2), FLUORO 
(Fluorometer), PAR (PAR), SPAR (Surface PAR), and HAARDT (Haardt Fluorometer CDOM) 
parameter as follows:

1 Not calibrated. Data are uncalibrated.
9 Not sampled. No operational sensor was present on this cast. Either the sensor 
  cover was left on or the depth rating necessitated removal.


Bottle Data

Description of 32H1HLY0403_hy1.csv file layout.

1st line File type, here BOTTLE, followed by a comma and a DATE_TIME stamp  
YYYYMMDDdivINSwho

YYYY    4 digit year 
MM      2 digit month 
DD      2 digit day 
div     division of Institution 
INS     Institution name 
who     initials of responsible person 
 
#lines       A file may include 0-N optional lines, typically at the start of a 
             data file, but after the file type line, each beginning with a "#" 
             character and each ending with carriage return or end-of-line. 
             Information relevant to file change/update history of the file 
             itself may be included here, for example.
2nd line     Column headings. 
3rd line     Units. 
data lines   As many data lines may be included in a single file as is 
             convenient for the user, with the proviso that the number and order 
             of parameters, parameter order, headings, units, and commas remain 
             absolutely consistent throughout a single file. 
END_DATA     The line after the last data line must read END_DATA.
other lines  Users may include any information they wish in 0-N optional lines 
             at the end of a data file, after the END_DATA line.

Header columns

Parameter       Format      Description notes
EXPOCODE        A12         The expedition code, assigned by the user. 
SECT_ID         A7          The SBI station specification. Optional.
STNNBR          A6          The originator's station number. 
CASTNO          I3          The originator's cast number. 
BTLNBR          A7          The bottle identification number.
BTLNBR_FLAG_W   I1          BTLNBR quality flag.
DATE            I8          Cast date in YYYYMMDD integer format. 
TIME            I4          Cast time (UT) as HHMM
LATITUDE        F8.4        Latitude as SDD.dddd where "S" is sign (blank or 
                            missing is positive), DD are degrees, and dddd are 
                            decimal degrees. Sign is positive in northern 
                            hemisphere, negative in southern hemisphere
LONGITUDE       F9.4        Longitude as SDDD.dddd where "S" is sign (blank or 
                            missing is positive), DDD are degrees, and dddd are 
                            decimal degrees. Sign is positive for "east" 
                            longitude, negative for "west" longitude
DEPTH           I5          Reported depth to bottom. Preferred units are 
                            "meters" and should be specified in Line 2. In 
                            general, corrected depths are preferred to 
                            uncorrected depths. Documentation accompanying data 
                            includes notes on methodology of correction. 
                            Optional.


Parameter names, units, and comments:

Parameter            Units    Format  Comments

CTDPRS               DB       F9.1    CTD pressure, decibars
CTDPRS_FLAG_W                 I1      CTDPRS quality flag  
SAMPNO                        A7      Cast number *100+BTLNBR. Optional
CTDTMP               ITS-90   F9.4    CTD temperature, degrees C, (ITS-90)
CTDTMP_FLAG_W                 I1      CTDTMP quality flag
CTDCOND              MS/CM    F9.4    CTD Conductivity, milliSiemens/centimeter
CTDCOND_FLAG_W                I1      CTDCOND quality flag
CTDSAL                        F9.4    CTD salinity 
CTDSAL_FLAG_W                 I1      CTDSAL quality flag
SALNTY                        F9.4    bottle salinity
SALNTY_FLAG_W                 I1      SALNTY quality flag
SIGMA                THETA    F9.4    Sigma Theta
SIGMA_FLAG_W                  I1      Sigma Theta quality flag
CTDOXY               UMOL/KG  F9.1    CTD oxygen, micromoles/kilogram
CTDOXY_FLAG_W                 I1      CTDOXY quality flag
CTDOXY               ML/L     F9.3    CTD oxygen, milliliters/liter 
CTDOXY_FLAG_W                 I1      CTDOXY quality flag
OXYGEN               UMOL/KG  F9.1    bottle oxygen
OXYGEN_FLAG_W                 I1      OXYGEN quality flag
OXYGEN               ML/L     F9.3    bottle oxygen, milliliters/liter
OXYGEN_FLAG_W                 I1      OXYGEN quality flag
O2TEMP               DEGC     F6.1    Temperature of water from spigot during 
                                      oxygen draw, degrees C
O2TEMP_FLAG_W                 I1      O2TEMP quality flag
SILCAT               UMOL/KG  F9.2    SILICATE, micromoles/kilogram 
SILCAT_FLAG_W                 I1      SILCAT quality flag
SILCAT               UMOL/L   F9.2    SILCATE, micromoles/liter
SILCAT_FLAG_W                 I1      SILCAT quality flag
NITRAT               UMOL/KG  F9.2    NITRATE, micromoles/kilogram 
NITRAT_FLAG_W                 I1      NITRAT quality flag
NITRAT               UMOL/L   F9.2    NITRATE, micromoles/liter
NITRAT_FLAG_W                 I1      NITRAT quality flag
NITRIT               UMOL/KG  F9.2    NITRITE, micromoles/kilogram 
NITRIT_FLAG_W                 I1      NITRIT quality flag
NITRIT               UMOL/L   F9.2    NITRITE, micromoles/liter
NITRIT_FLAG_W                 I1      NITRIT quality flag
PHSPHT               UMOL/KG  F9.2    PHOSPHATE, micromoles/kilogram
PHSPHT_FLAG_W                 I1      PHSPHT quality flag
PHSPHT               UMOL/L   F9.2    PHOSPHATE, micromoles/liter
PHSPHT_FLAG_W                 I1      PHSPHT quality flag
NH4                  UMOL/KG  F9.2    AMMONIUM, micromoles/kilogram
NH4_FLAG_W                    I1      NH4 quality flag
NH4                  UMOL/L   F9.2    AMMONIUM, micromoles/liter
NH4_FLAG_W                    I1      NH4 quality flag
UREA                 UMOL/KG  F9.2    UREA, micromoles/kilogram
UREA_FLAG_W                   I1      UREA quality flag
UREA                 UMOL/L   F9.2    UREA, micromoles/liter
UREA_FLAG_W                   I1      UREA quality flag
FLUORO               VOLTS    F8.3    Fluorometer, voltage
FLUORO_FLAG_W                 I1      Fluorometer quality flag
PAR                  VOLTS    F8.3    PAR, voltage
PAR_FLAG_W                    I1      PAR quality flag
SPAR                 VOLTS    F8.3    Surface PAR, voltage
SPAR_FLAG_W                   I1      Surface PAR quality flag
HAARDT               VOLTS    F8.3    CDOM Fluorometer, voltage
HAARDT_FLAG_W                 I1      CDOM Fluorometer quality flag
N**                  UMOL/L   F9.2    N**, micromoles/liter
N**_FLAG_W                    I1      N** quality flag
CHLORO               UG/L     F8.2    Chlorophyll, micrograms/liter
CHLORO_FLAG_W                 I1      Chlorophyll quality flag
PHAEO                UG/L     F8.2    Phaeophytin, micrograms/liter
PHAEO_FLAG_W                  I1      Phaeophytin quality flag
BTL_DEP              METERS   F5.0    bottle depth, meters
BTL_LAT                       F8.4    Latitude at time of bottle trip, decimal 
                                      degrees
BTL_LONG                      F9.4    Longitude at time of bottle trip, decimal 
                                      degrees
JULIAN                        F8.4    Julian day and time as fraction of day of 
                                      the bottle trip.



Quality Flags

CTD data quality flags were assigned to CTDPRS (CTD pressure), CTDTMP (CTD 
temperature), CTDCOND (CTD Conductivity), and CTDSAL (CTD salinity) as defined 
in Data Distribution, CTD Data, Quality Flags section of this document. CTDOXY 
(CTD O2), FLUORO (Fluorometer), PAR (PAR), and SPAR (Surface PAR) parameters are 
flagged with either a 2, acceptable or 9, not drawn.

Bottle quality flags were assigned to the BTLNBR (bottle number) as defined in 
the WOCE Operations Manual [Joyce] with the following additional 
interpretations:

  2  No problems noted.
  3  Leaking.  An air leak large enough to produce an observable effect on a 
     sample is identified by a flag of 3 on the bottle and a flag of 4 on the 
     oxygen.  (Small air leaks may have no observable effect, or may only affect 
     gas samples.)
  4  Did not trip correctly.  Bottles tripped at other than the intended depth 
     were assigned a flag of 4.  There may be no problems with the associated 
     water sample data.
  9  The samples were not drawn from this bottle.  

WHP water sample quality flags were assigned to the water samples using the 
following criteria:

  1  The sample for this measurement was drawn from the water bottle, but the 
     results of the analysis were not (yet) received.
  2  Acceptable measurement.
  3  Questionable measurement. The data did not fit the station profile or 
     adjacent station comparisons (or possibly CTD data comparisons). No notes 
     from the analyst indicated a problem. The data could be acceptable, but are 
     open to interpretation.
  4  Bad measurement. The data did not fit the station profile, adjacent 
     stations or CTD data. There were analytical notes indicating a problem, but 
     data values were reported. Sampling and analytical errors were also flagged 
     as 4.
  5  Not reported. The sample was lost, contaminated or rendered unusable.
  9  The sample for this measurement was not drawn.

Not all of the quality flags are necessarily used on this data set.



References

Armstrong, F. A. J., Stearns, C. R., and Strickland, D. H., "The measurement of 
    upwelling and subsequent biological processes by means of the Technicon 
    AutoAnalyzer and associated equipment," Deep-Sea Research, 14, pp. 381-389, 
    (1967).

Bernhardt, Wilhelms A., "The continuous determination of low level iron, soluble 
    phosphate and total phosphate with the AutoAnalyzer", Technicon Symposia, I, 
    pp. 385-389 (1967).

Carpenter, J. H., "The Chesapeake Bay Institute technique for the Winkler 
    dissolved oxygen method," Limnology and Oceanography, 10, pp. 141-143 
    (1965).

Culberson, C. H., Knapp, G., Stalcup, M., Williams, R.T., and Zemlyak, F., "A 
    comparison of methods for the determination of dissolved oxygen in 
    seawater," Report WHPO 91-2, WOCE Hydrographic Programme Office (Aug 1991).

Gordon, L.I., Jennings, J.C., Ross, A.A. and J.M. Krest, "A Suggested Protocol 
    for Continuous Flow Automated Analysis of Seawater Nutrients in the WOCE 
    Hydrographic Program and the Joint Global Ocean Fluxes Study". 1993. WOCE 
    Hydrographic Programs Office, Methods Manual WHPO 91-1. 

Gruber, N. and J.L. Sarmiento, "Global patterns of marine nitrogen fixation and 
    denitrification." Global Biogeochem. Cycles, 11(2), pp. 235-266, (1997).
    Intergovernmental Oceanographic Commission, Scientific Committee on Oceanic 
    Research Manual and Guides 29 Protocols for the Joint Global Ocean Flux 
    Study (JGOFS) Core Measurements.  UNESCO, 170pp., (1994).

Joyce, T. ed., and Corry, C. ed., "Requirements for WOCE Hydrographic Programme 
    Data Reporting," Report WHPO 90-1, WOCE Report No. 67/91 3.1, pp. 52-55, 
    WOCE Hydrographic Programme Office, Woods Hole, MA, USA (May 1994, Rev. 2), 
    UNPUBLISHED MANUSCRIPT 

Macdonald, R.W., F. A. McLaughlin and C.S. Wong, "The storage of reactive 
    silicate samples by freezing," Limnology and Oceanography, 31, pp. 1139-1142 
    (1986).

Patton, C.J. and Crouch, S.R., "Spectrophotometric and kinetics investigation of 
    the Berthelot reaction for the determination of ammonia," Analytical 
    Chemistry, 49(3), pp.464-469 (1977).

Rahmatullah, Mohammed, and Boyde, T.R.C, "Improvements in the determination of 
    urea using diacetyl monoxime; methods with and without deproteinisation," 
    Clinica Chimica Acta, 107, pp.3-9 1980.

Sea-Bird Electronics, Inc, CTD Data Acquisition Software Manual, March 2001.

Sea-Bird Electronics, Inc., CTD Operating and Repair Manual, February 2002.



APPENDIX A: Bottle Quality Comments

Remarks for deleted samples, missing samples, PI data comments, and WOCE codes 
other than 2 from HLY0403 USCGC Healy. Comments from the Sample Logs and the 
results of ODF's investigations are included in this report. Investigation of 
data may include comparison of bottle salinity and oxygen data with CTD data, 
review of data plots of the station profile and adjoining stations, and 
rereading of charts (i.e. nutrients). Units stated in these comments are degrees 
Celsius for temperature, Practical Salinity Units for salinity, and unless 
otherwise noted, milliliters per liter for oxygen and micromoles per liter for 
Silicate, Nitrate, Nitrite, Phosphate and Urea and Ammounium, if appropriate. 
The first number before the comment is the cast number (CASTNO) times 100 plus 
the bottle number (BTLNBR).

Station 001.001
101 Sample Log: "Leak from bottom cap after O2 drawn." Oxygen as well as other data are acceptable.
102 Oxygen and salinity not drawn.
103 Sample Log: "Slight spit from spigot before top vented." Oxygen as well as other
data are acceptable.
104 Sample Log: "Spigot leak when spigot pushed in before venting." Oxygen as well as
other data are acceptable.
105-111 Salinity not drawn.
106 Sample Log: "Slight spigot leak before venting; rotated spigot smaller leak." Oxygen
as well as other data are acceptable.
107 SampleLog: "Oxygen not drawn."
112 Salinity: "Three readings to obtain two good readings." First reading 0.0005 higher
than average, okay as is. PI: "Bottle salinity greater than CTD, would expect the
opposite." Density inversion, 0.01, in the CTD down trace. However the sensor pairs
agree with one another. Leave as is.

Station 002.001
102 SampleLog: "Oxygen and nutrients not drawn."
103 Oxygen: "Overtitrated and backtitrated; no endpoint found."
103-107 Sample Log: "Salinity not drawn."
104 SampleLog: "Spigot leak before venting."
105 SampleLog: "Oxygen redrawn."
106 SampleLog: "Oxygen redrawn."
107 SampleLog: "Spigot leak spigot, before venting."
108 SampleLog: "Salinity, oxygen and nutrients not drawn." Sampled for POM.
109 SampleLog: "Salinity, oxygen and nutrients not drawn." Sampled for C13/N15.
110-111 Sample Log: "Salinity not drawn."
112 PI:"There is a tendency for surface bottle salinity to be a tad higher than CTD salinity."
Comparison of the pair of sensors shows fairly good agreement. Leave as is

Station 003.001
102 Samples taken for POM only, DOM/Lignin only.
104-111 Sample Log: "Salinity not drawn."
108 Samples taken for POM only, DOM/Lignin only.
109 Sample Log: "Bottom cap leak when vented, stopped during sampling." Samples
taken for C13/N15 only.
112 CTD vs. bottle salinity difference large. Primary and secondary sensors also show a
fairly large difference. Ship's influence apparent in the CTD down trace and even
greater in the up trace. Footnote CTD temperature and salinity questionable.

Station 004.001
101 SampleLog: "Leaking from bottom cap after oxygen drawn." Data are acceptable.
102 Samples taken for POM only.
104 SampleLog: "Spigot leak when vented."
105-107 Salinity not drawn.
107 SampleLog: "Spigot leaking before vented."
108 Samples taken for POM only.
109 Nosamples drawn.
110-111 Salinity not drawn.

Station 005.001
102 Oxygen and salinity not drawn.
103 SampleLog: "Oxygen redraw."
103-105 Salinity not drawn.
104 Oxygen not drawn. Oxygen is acceptable.
106 Sample Log: "Leaking from bottom, bottom cap ajar (o-ring popped out). No samples
taken.
107 SampleLog: "Spigot leak." Data are acceptable.
107-108 Salinity not drawn.
108 See110 CTD comments. Footnote CTD temperature and salinity questionable.
109-110 Oxygen and salinity not drawn.
110 Density inversion at 6 meters. CTD salinity is low compared to bottle. Density inversion
also seen in CTD down trace, probably ship's effect. Difference, 0.1, between
primary and secondary temperatures. Footnote CTD temperature and salinity questionable.
111 Oxygen not drawn.

Station 006.001
101 SampleLog: "Bottom cap not seated properly-readjusted then okay."
102 No samples drawn per sampling strategy.
104-108 Salinity not drawn.
106 Samples taken for C13/N15 only.
107 No samples drawn per sampling strategy.
109 Sample Log: "Large leak from bottom cap, o-ring popped out." Nutrients are reasonable,
okay as is. Salinity not drawn.
110 Difference, 0.1, between primary and secondary temperatures. Footnote CTD temperature
and salinity questionable. Salinity not drawn.
111 Salinity not drawn.

Station 006.002
201 Sample Log: "Bottom cap leak." Oxygen not drawn per sampling schedule. Nutrients
are acceptable.
202 Salinity, oxygen and nutrients not drawn, sampled for Bacteria, POM and
DOM/Lignin only.
204 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
206 Salinity, oxygen and nutrients not drawn, samples for O2 incubation and taxonomy.
207 Difference between CTD oxygen and bottle could be explained by 1 meters offset
between bottle and probe, strong oxygen gradient.
208 Salinity, oxygen and nutrients not drawn, sampled for POM and DOM/Lignin and
O18.
212 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 2 Salinity not drawn, Productivity cast.

Station 006.003
305 Nutrients drawn per sampling schedule, Radium cast.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 007.001
102 Salinity and oxygen not drawn.
103-108 Salinity not drawn.
104 SampleLog: "Small spigot leak." Oxygen as well as other data are acceptable.
105 CTDLog: "Did not yo-yo, ship rolling some." Data are acceptable.
107 SampleLog: "Small spigot leak." Oxygen as well as other data are acceptable.
109 Salinity and oxygen not drawn.
110 Salinity and oxygen not drawn.
112 SampleLog: "Possible bottom leak." Oxygen as well as other data are acceptable.
Cast 1 Sample Log: "Problem with NaOH dispensor. Lots of jellyfish tentacles." Oxygen
dispensor fixed before cast, data are acceptable.

Station 008.001
102-104 No samples were drawn.
105 Salinity not drawn.
106 Oxygen and salinity were not drawn.
107 Salinity not drawn.
108-109 No samples were drawn.
110 Salinity not drawn.
111 Sample Log: "Air vent found open." Oxygen as well as other data are acceptable.
Salinity not drawn.
112 Large difference between CTD and bottle salinity. Gradient at the surface; could be
the 1 meter difference between bottle and CTD. Primary and secondary sensor agreement,
0.007. Okay as is.
Cast 1 Oxygen temperature probe failure, water in connection and battery low. No oxygen
draw temperature.

Station 008.002
201 Salinity, oxygen and nutrients not drawn, sampled taken for POM and DOM/Lignin.
202 Salinity, oxygen and nutrients not drawn, sampled taken for POM only.
203 Salinity, oxygen and nutrients not drawn, sampled taken for O2 incubation only.
206 Salinity, oxygen and nutrients not drawn, sampled taken for O2 incubation only.
206-212 Biological fouling in primary CTD sensors. CTD oxygen is bad; reporting temperature,
conductivity/salinity from secondary sensors.
208 Salinity, oxygen and nutrients not drawn, sampled taken for POM and DOM/Lignin.
212 Salinity, oxygen and nutrients not drawn, sampled taken for O2 incubation only.
Cast 2 Salinity not drawn, Productivity cast.

Station 009.001
102-106 Salinity not drawn.
104 SampleLog: "Small spigot leak." Data are acceptable.
107 SampleLog: "Bad small spigot leak." Data are acceptable.

Station 010.001
103 SampleLog: "Oxygen redrawn." Oxygen is acceptable.
104 SampleLog: "Small spigot leak."
106-102 Salinity not drawn.
107 SampleLog: "Leaking before venting, sampled from bottle 8."
108 Salinity difference, 0.51, large gradient. Data are acceptable. Primary and secondary
sensor agreement, 0.006. Okay as is.
109-112 Bottles tripped for deck safety, samples not drawn.

Station 011.001
103 SampleLog: "Severe leak coming out of water; no water left for sampling."
104-108 Salinity not drawn.
110-112 Bottle tripped for deck safety, samples not drawn.

Station 012.001
101 SampleLog: "Oxygen flask broken on second shake."
103-109 Salinity not drawn.
106 Sample Log: "Leaking when brought on deck, sampled 7 which was scheduled for
HPLC only."
107 SampleLog: "Small spigot leak." Data are acceptable.
111-112 Duplicate trips, samples not drawn.

Station 013.001
102-106 Salinity not drawn.
107 CTD Log: "Replace bottle prior to cast for small spigot repair." Large difference
between CTD and bottle salinity. Gradient at the surface; could be the 1 meter difference
between bottle and CTD. Primary and secondary sensor agreement, 0.009. Okay
as is.
108-112 Bottles tripped for deck safety, but no samples drawn.

Station 014.001
101-103 Oxygen not drawn per sampling schedule.
103 SampleLog: "Leaking from bottom end cap." Data are acceptable.
104 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation, Bio-optics and
DOM/POM, POM.
105 Sample Log: "Bottom cap leak, after oxygen drawn." Oxygen and other data are
acceptable.
107 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
111 SampleLog: "Oxygen redrawn." Oxygen is acceptable.
112 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 1 Salinity not drawn, Productivity cast.

Station 014.002
201 Nutrients drawn per sampling schedule, POM, and DOM/Lignin.
202 Nutrients drawn per sampling schedule, POM, and DOM/Lignin.
203 Nutrients drawn per sampling schedule, Zooplankton.
205 SampleLog: "Bottom cap leak."
212 Nutrients drawn per sampling schedule, Zooplankton.
Cast 2 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.


Station 014.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Radium cast.
303 SampleLog: "Bottom cap leak."
305 SampleLog: "Bottom cap leak."
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 015.001
103-111 Salinity not drawn.
104 SampleLog: "Small spigot leak." Oxygen as well as other samples are acceptable.
105 Sample Log: "Bottom cap leak after oxygen drawn, reseated then okay." Oxygen as
well as other samples are acceptable.
111 SampleLog: "Oxygen redrawn." Oxygen rich, data are acceptable.

Station 015.002
201 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Radium cast.
Cast 2 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 015.003
301 Salinity and oxygen not drawn, sampled for POM.
302 Salinity, oxygen and nutrients not drawn, sampled for DOM/Lignin and O18.
303 Salinity, oxygen and nutrients not drawn, sampled for Bacteria.
304 Salinity and oxygen not drawn, sampled for Bacteria.
305 Salinity and oxygen not drawn, sampled for Bacteria, DOM/Lignin and O18.
307 Salinity, oxygen and nutrients not drawn, sampled for POM, DOM/Lignin and O18.
311 Sample Log: "Bottle cap leak, reseated, then started leaking on venting." Oxygen as
well as other data are acceptable.
Cast 3 Salinity not drawn, Productivity cast.

Station 016.001
103 Salinity and oxygen not drawn per sampling schedule.
104 Salinity not drawn
105 SampleLog: "Bottom cap leak, no oxygen."
105-110 Salinity not drawn.
109 SampleLog: "Small spigot leak." Oxygen and well as other data are acceptable.
112 SampleLog: "Oxygen redrawn. Oxygen and well as other data are acceptable.

Station 017.001
101 CTDLog: "Could not let bottom bottle soak full 2 minutes due to shoaling bottom."
103-111 Salinity not drawn.
104 SampleLog: "Small spigot leak."
105 SampleLog: "Bad bottom leak." Samples not drawn.
110 Density inversion, probably ship effect. Footnote CTD temperature, conductivity/
salinity, and oxygen as questionable.
111 Density inversion, probably ship effect. Footnote CTD temperature, conductivity/
salinity questionable.

Station 018.001
101 CTDLog: "No yo-yo at bottom, could soak only for 1.5 minutes vs. 2 due to shoaling."
Large salinity difference, 0.025, nutrients are acceptable, oxygen is also high
compared with CTD. Leave as is.
103-110 Salinity not drawn.
104 SampleLog: "Small spigot leak." Oxygen as well as other data are acceptable.

Station 019.001
102-111 Salinity not drawn.

Station 020.001
103-111 Salinity not drawn.

Station 021.001
101 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Radium cast.
107 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Radium cast.
Cast 1 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 021.002
201-204 Salinity and oxygen not drawn per sampling schedule.
205 Salinity, oxygen and nutrients not drawn.
206 Oxygen not drawn.
207 Urea lost due to AA malfunction.
Cast 2 Salinity not drawn, Productivity cast.

Station 022.001
Cast 1 Cast aborted, CTD failure.

Station 022.002
201 Sample Log: "Leaked, no samples drawn." Nutrients: "Sample 201 was drawn."
Footnote nutrients bad.
203 SampleLog: "Leaked, no samples drawn."

Station 022.003
Cast 3 Cast aborted, file set up problem.

Station 022.004
504-510 Salinity not drawn.

Station 022.005
504-510 Salinity not drawn.

Station 022.006
601 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Radium cast.
607 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Radium cast.
611 SampleLog: "Leaking from bottom cap, large flow."
Cast 6 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 022.007
701 SampleLog: "Bottom cap leak." Nutrients are acceptable.
701-703 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
705 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
712 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 7 Salinity, oxygen and nutrients not drawn, except as noted, combination Radium and
Bio-Marker cast.

Station 022.008
801-804 Oxygen not drawn per sampling schedule.
803 SampleLog: "Leaking from bottom end cap." Nutrients are acceptable.
804 Nutrients were inadvertently drawn before O2 incubation. Salinity, and oxygen not
drawn, sampled for O2 incubation.
805 Nutrients not drawn from bottle 5, draw was from 4, error in Sample Log.
807 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation.
811 SampleLog: "Leaking from bottom end cap." Bacteria was drawn.
812 Sample Log indicates that sample was taken from bottle, but it was not analyzed.
Footnote nutrients lost.
Cast 8 Salinity not drawn, Productivity cast.

Station 022.009
901 Nutrients drawn per sampling schedule.
9all Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 023.001
104 Sample Log: "Leaking from bottom, no oxygen taken." Bottle is leaking and samples
are bad.
105-111 Salinity not drawn.

Station 023.002
203-212 Salinity not drawn.

Station 023.003
301 SampleLog: "Leaking from bottom cap when came on deck."
303 SampleLog: "Slight leak from bottom cap."
304 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
308 Sample Log: "Leaking from bottom cap." Salinity and oxygen not drawn, nutrients
drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 023.004
409 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 023.005
501-503 Oxygen not drawn and nutrients drawn per sampling schedule.
504 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
505 Analyst entered nutrient sample as 4, but Sample Log says 5. Changed to 5.
508 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
512 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 5 Salinity not drawn, Productivity cast.

Station 024.001
101 PO4 a little high, corrected peak with bubble, but corrected still seems a tad high.
Footnote PO4 questionable.
102 Sample Log: "Leaking when brought on deck, did not sample for O2." Salinity low
and nutrients bad. Footnote bottle leaking and samples bad.
109-111 Salinity not drawn.

Station 024.002
201-203 Nutrients drawn, samples taken for Bacteria.
204 Salinity, oxygen and nutrients not drawn, sampled for Bacteria.
207 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
212 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 2 Salinity not drawn, Productivity cast.

Station 024.003
303-310 Salinity not drawn.
304 NO3appears low, rechecked data and no problems found.
311 SampleLog: "Leaking from bottom, no O2 drawn." Salinity and nutrients are acceptable.
312 Salinity not drawn.

Station 025.001
101-102 Bottle salinity appears low compared with CTD. Temperature gradient, salinity indicates
that there could have been biological fouling. However, the sensors agree with
one another and similar depth on the next cast. There is no real indication that there is
a problem with the bottle salinities, however bottle 1 was run after a very low salinity.
Footnote bottle salinity questionable.
101-104 Sample Log: "Jellyfish tentacles across bottles."
102 Oxygen not drawn per sampling schedule.
103-110 Salinity not drawn.
104 Sample Log: "Bottom cap leak when spigot open." Oxygen not drawn per sampling
schedule. Nutrients are acceptable.
112 Large CTD-bottle salinity difference, large gradient. Data are acceptable.

Station 025.002
202 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
212 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 2 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 025.003
301-303 Nutrients drawn per sampling schedule.
304 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
308 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
312 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 3 Salinity not drawn, Productivity cast.

Station 026.001
101 Sample Log: "Leaking from bottom cap, no oxygen drawn." Salinity not drawn.
Nutrients are acceptable.
102 Oxygen: "Brown precipitate after acidification prevented proper titration-oxygen
lost."
103-104 Salinity not drawn.
104 SampleLog: "Leaking from bottom cap, no oxygen drawn." Nutrients are acceptable.
106-111 Salinity not drawn.

Station 026.002
202 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
211 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 2 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 027.001
103-110 Salinity not drawn.

Station 028.001
101 Salinity, oxygen and nutrients not drawn, sampled for POM, DOM/Lignin and O18.
103-104 Nutrients drawn per sampling schedule, Bacteria.
105 Salinity, oxygen and nutrients not drawn, sampled for POM, DOM/Lignin and O18.
109 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 1 Salinity not drawn, Productivity cast.

Station 028.002
201 Nutrients drawn per sampling schedule.
212 Nutrients drawn per sampling schedule.
Cast 2 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 029.001
103 Salinity not drawn.
104 SampleLog: "Bad bottom leak, no samples drawn."
105-110 Salinity not drawn.

Station 029.002
201 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
207 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 2 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 030.001
103 SampleLog: "Leaking from bottom cap." No samples drawn.
105 SampleLog: "Leaking from spigot when vented." Data are acceptable.
108 Sample Log: "Leaking from bottom cap." Oxygen and salinity not drawn. Footnote
nutrient data bad.
109 Data are questionable. Not certain what is wrong. Footnote data questionable.
110 Sample Log: "Leaking from bottom cap." Oxygen not drawn. Large CTDS-bottle
difference, two sensors agree with one another. Footnote bottle leaking and samples
bad.
112 SampleLog: "Leaking from bottom cap." No samples drawn, except O18.

Station 030.002
204-211 Salinity not drawn.
205 SampleLog: "Leaking from spigot."

Station 030.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 030.004
402 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 030.005
501-503 Nutrients drawn per sampling schedule, Bacteria.
504 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
508 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
512 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 5 Salinity not drawn, Productivity cast.

Station 030.006
601 Nutrients drawn per sampling schedule.
612 Nutrients drawn per sampling schedule.
Cast 6 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 030.007
702 Urea appears high, rechecked data and no problem found.
703 Sample Log: "Top o-ring failure." Probably due to lowering bottles after trip due to
winch problem. No samples drawn.
709 Sample Log: "Top cap failure." Probably due to lowering bottles after trip due to
winch problem. No samples drawn.
Cast 7 Salinity and oxygen not drawn, Bio-Marker cast.


Station 030.008
801 Nutrients drawn per sampling schedule, Radium cast.
812 Nutrients drawn per sampling schedule, Radium cast.
Cast 8 Sample Log: "This started out as a test cast to get rid of crossovers on wire spool and
then became a Radium cast." Salinity, oxygen and nutrients not drawn, except as
noted, Radium cast.

Station 031.001
105 SampleLog: "Bottom cap leak, o-ring popped out." No water for sampling.
105-111 Salinity not drawn.

Station 031.002
201 Oxygen appears high. Gradient, oxygen is acceptable.
202-211 Salinity not drawn.
209 SampleLog: "Small spigot leak when vented, top o-ring not sealed." Data are acceptable.

Station 031.003
301-302 Nutrients drawn per sampling schedule, Bacteria.
303 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
306 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
307 No samples taken from this bottle.
309 SampleLog: "Bottom cap leak, could not sample from spigot."
312 Sample Log: "Bottom cap leak." Salinity, oxygen and nutrients not drawn, Bacteria
sampled from this bottle.
Cast 3 Salinity not drawn, Productivity cast.

Station 031.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
412 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 031.005
502 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
511 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 5 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 032.001
101 SiO3appears high, rechecked data and found no problems.
102 SampleLog: "Large spigot leak, reseated top o-ring then okay."
105-111 Salinity not drawn.

Station 032.002
201-203 Nutrients drawn per sampling schedule, Bacteria.
205 Salinity, oxygen and nutrients not drawn, sampled for C13/N15 only.
211-212 No samples drawn per sampling strategy.
Cast 2 Salinity not drawn, Productivity cast.

Station 032.003
301 Nutrients drawn per sampling schedule.
312 Nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 032.004
403-411 Salinity not drawn.
409 SampleLog: "Air vent open." Data are acceptable.

Station 032.005
503 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
510 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 5 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 032.006
609 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
611 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 6 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 032.007
701 Nutrients drawn per sampling schedule, Bio-Marker cast.
705 SampleLog: "Top cap did not seal." No samples drawn.
706 Sample Log: "Possible top cap leak. Nutrients drawn per sampling schedule, Bio-
Marker cast. Data are acceptable.
707 Sample Log: "Top cap leak. Water rushed out with spigot open and air vent closed."
No samples drawn.
708-709 Nutrients drawn per sampling schedule, Bio-Marker cast.
711 Nutrients drawn per sampling schedule, Bio-Marker cast.
Cast 7 Salinity, oxygen and nutrients not drawn, except as noted, Bio-Marker cast.

Station 033.001
106-110 Salinity not drawn. Nutrients: "NH4 lost due to ship's power outage."
111 Sample Log: "Bottom leak." Oxygen not drawn. All samples affected by bottle leak.
Footnote bottle leaking and samples bad.
112 Salinity not drawn.
Cast 1 Oxygen temperature reading approximately 2.5 low, switched to alternate temperature
sensor on bottle 6. Used 0 for 1-5.

Station 033.002
203-210 Salinity not drawn.
206 SampleLog: "Big leak on small spigot." Data are acceptable.
211 SampleLog: "Small spigot leak." Data are acceptable.

Station 033.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 033.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 033.005
501-503 Oxygen not drawn per sampling strategy, Productivity cast.
504 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
506 SampleLog: "Small spigot leak before venting." Data are acceptable.
507 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
512 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 5 Salinity not drawn, Productivity cast.

Station 034.001
102 Sample Log: "Maybe short squirt with NaOH/NaI." Oxygen is acceptable. Salinity
not drawn.
104 SampleLog: "Leaking from bottom when spigot pushed in." Data are acceptable.
104-108 Salinity not drawn.
106 SampleLog: "Small spigot leak." Data are acceptable.
110 Salinity not drawn.
111 SampleLog: "Slight small spigot leak." Data are acceptable.
112 Salinity not drawn.
Cast 1 Sample Log: "Sampling depths modified to allow 3 double bottles on shallow cast for
Bio-Markers."

Station 034.002
201-202 No oxygen drawn.
204 SampleLog: "Small leak from bottom cap." Data are acceptable.
204-209 Salinity not drawn.
206 SampleLog: "Small spigot leak." Data are acceptable.
208 Nooxygen drawn.
211 SampleLog: "Small spigot leak, significant." Data are acceptable.

Station 034.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 034.004
406 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 034.005
501-503 Oxygen not drawn per sampling strategy, Productivity cast.
504 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
507 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
512 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 5 Salinity not drawn, Productivity cast.

Station 034.006
601 Nutrients drawn per sampling schedule.
612 Nutrients drawn per sampling schedule.
Cast 6 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 035.001
101 Oxygen: "Debris in flask, overtitrated, sample lost." Urea seems high, leave as is.
103 Salinity not drawn.
105 Salinity not drawn.
107 SampleLog: "Bottom cap leaks, large flow." Samples not drawn except O18.
108 SampleLog: "Bottom cap leaks, large flow." Samples not drawn except O18.
109-110 Salinity not drawn.

Station 035.002
203-211 Salinity not drawn.
204 Sample Log: "Slow leak on bottom cap, started after O2 draw, reseated then okay."
Oxygen as well as other data are acceptable.

Station 035.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 035.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 035.005
501-502 No samples drawn per sampling strategy.
509-512 No samples drawn per sampling strategy.
Cast 5 Salinity not drawn, Productivity cast.

Station 035.006
Cast 6 Salinity and oxygen not drawn, Bio-Marker cast.

Station 036.001
103-104 CTD vs. bottle salinity high, suspect bottle salinity. Not analytical problems. Agreement
between the two sensors, primary and secondary, is a little off. The primary has
a slight offset at about 1120 meters but then it drifts back. Footnote CTD primary
salinity questionable.
105 Sample Log: "Leaking from bottom cap, slow leak." Comparison between O2 probe
and bottle oxygen looks okay.
105-110 Salinity not drawn.
109 Sample Log: "Leaking from bottom cap, reseated then slight leak, reventing started
the leak again." Samples not drawn except O18.

Station 036.002
202-211 Salinity not drawn.

Station 036.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 036.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 036.005
501-503 Oxygen not drawn per sampling strategy, Productivity cast.
504 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
507 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
512 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 5 Salinity not drawn, Productivity cast.

Station 036.006
601-602 Nutrients drawn per sampling schedule.
611-612 Nutrients drawn per sampling schedule.
Cast 6 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 037.001
105-110 Salinity not drawn.
106 SampleLog: "Minor spigot leak." Data are acceptable.
111 SampleLog: "Top cap canted significant small spigot leak." Data are acceptable.

Station 037.002
202-205 Salinity not drawn.
207-210 Salinity not drawn.
212 Salinity not drawn.

Station 037.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 037.004
412 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 037.005
501-502 Oxygen not drawn per sampling strategy, Bacteria.
503 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
506-507 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
508 Oxygen appears low compared with CTD. No analytical problem noted. Oxygen is
acceptable.
512 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 5 Salinity not drawn, Productivity cast.

Station 037.006
605 SampleLog: "Bad bottom cap leak." No samples drawn.
607 SampleLog: "Bad bottom cap leak." No samples drawn.
608 SampleLog: "Good size small spigot leak." Nutrients are acceptable.
Cast 6 Salinity and oxygen not drawn, Bio-Marker cast.

Station 038.001
102 Oxygen appears low, strong gradient. Data are acceptable.
103-104 Salinity, oxygen and nutrients not drawn, sampled for C13/N15 only.
109-112 No samples drawn per sampling strategy.
Cast 1 Salinity not drawn, Productivity cast.

Station 038.002
201 All values suspect, poor flushing or leaking bottle. Footnote bottle leaking, data questionable.
203 SampleLog: "Bottom cap leak, small." Data are acceptable.
203-211 Salinity not drawn.
205 Duplicate trip, no samples drawn.
208 Duplicate trip, no samples drawn.
210 Duplicate trip, no samples drawn.

Station 038.003
301-303 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
303 Rechecked Nitrate could not find any analytical problem. Footnote NO3 questionable.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule. Rechecked
Nitrate could not find any analytical problem. Footnote NO3 questionable.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 039.001
102 Duplicate trip samples not drawn.
104 Duplicate trip samples not drawn.
106 Duplicate trip samples not drawn.
108 Duplicate trip samples not drawn.
110 Duplicate trip samples not drawn.
111 SampleLog: "Spigot leak, sampling moved to 12." Duplicate trip samples not drawn.
111-102 Salinity not drawn.

Station 040.001
102 Oxygen not drawn.
102-111 Salinity not drawn.
104 Oxygen not drawn.
106 Oxygen not drawn.
108 Oxygen not drawn.
110 Oxygen not drawn.
111 SampleLog: "Small spigot leak." Data are acceptable.
112 Oxygen not drawn.

Station 041.001
101 SampleLog: "Leaked from bottom cap." Duplicate level, samples not drawn.
103-111 Salinity not drawn.
104 Salinity, oxygen and nutrients not drawn, sampled for thorium.
106 Salinity, oxygen and nutrients not drawn, sampled for thorium.
107 SampleLog: "Bottom cap leak with vent open-check o-ring." Data are acceptable.
108 Salinity, oxygen and nutrients not drawn, sampled for thorium.
110 Oxygen not drawn.
111 SampleLog: "Small spigot leak." Data are acceptable.
112 Oxygen not drawn.

Station 042.001
103-111 Salinity not drawn.
107 Salinity, oxygen and nutrients not drawn, duplicate bottle trip, sampled for C13/N15
only.

Station 042.002
201 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
212 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 2 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 042.003
301-302 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
303 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
305 Oxygen not drawn.
306 Oxygen low, okay strong gradient, interleaving.
307 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
308 Oxygen high, okay strong gradient, interleaving.
312 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 3 Salinity not drawn, Productivity cast.

Station 042.004
401 Nutrients drawn per sampling schedule.
412 Nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 043.001
102 Oxygen not drawn.
103-105 Salinity not drawn.
104 Oxygen not drawn.
106 Oxygen not drawn.
108 Oxygen not drawn.
108-111 Salinity not drawn.
110 Oxygen not drawn.
111 SampleLog: "Small spigot leak." Data are acceptable.
112 Oxygen and salinity not drawn.

Station 044.001
101 SampleLog: "Bottom cap leak." Salinity, oxygen and nutrients not drawn.
102 Salinity not drawn.
104 Salinity not drawn.
105 SampleLog: "Top cap leak." Salinity, oxygen and nutrients not drawn.
106 Salinity not drawn.
109-111 Salinity not drawn.
111 Oxygenl ow, okay large gradient.

Station 044.002
201-202 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Radium cast.
207-208 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Radium cast.
212 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Radium cast.
Cast 2 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 044.003
301-303 Nutrients drawn per sampling schedule.
304 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
307 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
312 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 3 Salinity not drawn, Productivity cast.

Station 045.001
102 Oxygen not drawn.
102-111 Salinity not drawn.
104 Oxygen not drawn.
106 Oxygen not drawn.
107 SampleLog: "Small spigot leak, minor." Data are acceptable.
108 Oxygen not drawn.
110 Oxygen not drawn.
111 SampleLog: "Small spigot leak." Data are acceptable.
112 Oxygen not drawn.

Station 046.001
101 SampleLog: "Bottom cap leak." No samples drawn.
103-111 Salinity not drawn.
104 Oxygen not drawn.
106 Oxygen not drawn.
108 Oxygen not drawn.
110 Oxygen not drawn.
112 Oxygen not drawn.

Station 047.001
102 Oxygen not drawn.
102-105 Salinity not drawn.
108-111 Salinity not drawn.
110 SampleLog: "Small spigot leak, miniscule." Data are acceptable.
111 Sample Log: "Small spigot leak." Rechecked NO3 and found no problems.
Rechecked CTDO, appears to be reasonable, gradient area. Data are acceptable.

Station 047.002
202-204 Salinity not drawn.
206-211 Salinity not drawn.
210 SampleLog: "Small spigot leak." Data are acceptable.
211 SampleLog: "Small spigot leak." Data are acceptable.

Station 047.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
303 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
305 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
307 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
309 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
311 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Bio-Marker cast.

Station 047.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
412 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 047.005
501 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 5 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 047.006
601-603 Oxygen not drawn per sampling strategy.
604 No samples drawn per sampling strategy.
605 SampleLog: "Small spigot leak." Data are acceptable.
607 No samples drawn per sampling strategy.
609 Sample Log: "Small spigot leak when vented, top cap not seated." Data are acceptable.
612 No samples drawn per sampling strategy.
Cast 6 Salinity not drawn, Productivity cast.

Station 048.001
106-111 Salinity not drawn.
108 SampleLog: "Spigot leak." Data are acceptable.
109 SampleLog: "Top cap did not close properly-no samples drawn."
110 SampleLog: "Top cap did not close properly-no samples drawn."
111 SampleLog: "Spigot leak, questionable sample." Data are acceptable.

Station 048.002
203 SampleLog: "Slight bottom cap leak." Data are acceptable.
204-208 Salinity not drawn.
208 SampleLog: "Slight spigot leak." Data are acceptable.
210 SampleLog: "Slight spigot leak." Data are acceptable.
211 SampleLog: "Spigot leak." Data are acceptable.
212 Salinity not drawn.

Station 048.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
311 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 048.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
412 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 048.005
501-503 Oxygen not drawn per sampling strategy.
504 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
507 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
510-512 CTD salinity at duplicate trip +/-0.004 different from each other. Salinity at 10
meters could be a little low. Suspect temperature effect. Within accuracy leave as is.
Ship's effect could be the cause, but usually ship's effect gives higher temperature.
511 SampleLog: "Small spigot leak." Data are acceptable.
512 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 5 Salinity not drawn, Productivity cast.

Station 048.006
601 Nutrients drawn per sampling schedule.
612 Nutrients drawn per sampling schedule.
Cast 6 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 049.001
Cast 1 Cast aborted, bottle 11 bottom cap closed when rosette entered the water.

Station 049.002
206 SampleLog: "Very small spigot leak." Data are acceptable.
206-211 Salinity not drawn.
208 SampleLog: "Spigot leak, bad." Data are acceptable.
210 SampleLog: "Spigot leak." Data are acceptable.
211 SampleLog: "Small spigot leak." Data are acceptable.

Station 049.003
301-302 Salinity not drawn.
304-306 Salinity not drawn.
308 SampleLog: "Bad spigot leak." Data are acceptable.
310 Sample Log: "Spigot leak." Salinity: "Replaced due to repeated failure to hold thimble."
Salinity as well as other data are acceptable.
312 Salinity not drawn.

Station 049.004
401 SampleLog: "Bottom cap leak." Data are acceptable.
401-403 Oxygen not drawn per sampling strategy.
405 Oxygen not drawn per sampling strategy.
406 SampleLog: "Small and big spigot leak, top o-ring popped." Data are acceptable.
408-409 CTDO questionable, slight offset when bottle tripped.
410 Sample Log: "Bottom cap leak." No samples drawn per sampling strategy, duplicate
trip.
410-412 There is a large difference in the temperature for the 3 bottles that were tripped at the
surface. Leave as is.
412 No samples drawn per sampling strategy, duplicate trip.
Cast 4 Salinity not drawn, Productivity cast.

Station 049.005
501 Salinity and oxygen not drawn, nutrients drawn per sampling schedule. Rechecked
urea peaks and data are acceptable.
512 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 5 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 049.006
601 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 6 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 049.007
701 Sample Log: "Bottom cap leak." Salinity, oxygen and nutrients not drawn. Coded
bottle leaking.
702-707 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
705 Sample Log: "Top cap leak." Nutrient duplicate with bottle 4 agree very well. Data
are acceptable.
708 Sample Log: "Bottom cap leak." Salinity, oxygen and nutrients not drawn. Coded
bottle leaking.
709-712 Nutrients drawn per sampling schedule.
710 SampleLog: "Spigot leak." Data are acceptable.
Cast 7 Salinity, oxygen and nutrients not drawn, except as noted, Bio-Marker cast.

Station 050.001
104-105 Salinity not drawn.
107 Salinity not drawn.
108 SampleLog: "Spigot leak." Data are acceptable.
109 SampleLog: "Spigot leak, slight." Salinity not drawn. Data are acceptable.
110 SampleLog: "Spigot leak." Data are acceptable.
111 Salinity not drawn.
112 Salinity: "Replaced bottle due to repeated failure to hold thimble." Salinity appears
high compared with CTD. Footnote salinity bad.

Station 050.002
206 SampleLog: "Spigot leak from top cap, skewed." Data are acceptable.
210 Salinity not drawn.
212 Salinity: "Three readings to obtain two good readings." Salinity is acceptable. Bottle
oxygen appears a little high, gradient. Data rechecked and no problem found with the
analyses.

Station 050.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 050.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 050.005
501-503 Oxygen not drawn per sampling schedule.
504 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
507 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
509 Sample Log: "Bottom cap leak, slight, okay when reseated, noticed after oxygen
draw." Data are acceptable.
512 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 5 Salinity not drawn, Productivity cast.

Station 051.001
108 SampleLog: "Significant small spigot leak." Data are acceptable.
110 SampleLog: "Significant small spigot leak." Data are acceptable.
Cast 1 Salinity and oxygen not drawn, nutrients drawn per sampling schedule, Bio-Marker
cast.

Station 051.002
202-205 Salinity not drawn.
206 Sample Log: "Minor spigot leak." Data are acceptable. CTD salinity if a little low.
Primary and secondary comparison indicate that primary is approximately 0.007 low.
Within accuracy, leave as is.
206-212 CTD oxygen bad.
208 SampleLog: "Significant spigot leak." Data are acceptable.
210 SampleLog: "Just a spigot leak." Data are acceptable.
211-212 Salinity not drawn.

Station 051.003
302-311 Salinity not drawn.

Station 051.004
401-402 Oxygen not drawn per sampling strategy.
403 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
406 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
409 SampleLog: "Small spigot leak." Data are acceptable.
411 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
412 No samples drawn per sampling strategy.
Cast 4 Salinity not drawn, Productivity cast.

Station 051.005
501 Nutrients drawn per sampling schedule.
512 Nutrients drawn per sampling schedule.
Cast 5 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 051.006
601 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
603 SampleLog: "Bottom cap leak."
612 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 6 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 051.007
702 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
711 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 7 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 052.001
102-104 Salinity not drawn.
106 Salinity not drawn.
108 Salinity not drawn.
110-111 Salinity not drawn.

Station 052.002
203 Sample Log: "Leaking from bottom cap, reseated then okay." No samples drawn.
Code bottle leaking.
204 Sample Log: "Leaking from bottom cap, reseated then okay." No oxygen drawn.
Data are not acceptable. Salinities show bad agreement, other data are all wrong.
Footnote bottle leaking and samples bad.
206 SampleLog: "Small spigot leak." Data are acceptable.
208 SampleLog: "Small spigot leak." Data are acceptable.
208-211 Salinity not drawn.

Station 052.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 052.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 053.001
103-105 Salinity not drawn.
105 Sample Log: "Bottom cap leak, small leak, reseated then okay." Data are acceptable.
106 SampleLog: "Small spigot leak." Data are acceptable.
107-109 Salinity not drawn.
112 Salinity not drawn.

Station 053.002
204 Salinity not drawn.
206 SampleLog: "Slow small spigot leak." Data are acceptable.
206-211 Salinity not drawn.
208 SampleLog: "Slow small spigot leak." Data are acceptable.

Station 054.001
103-111 Salinity not drawn.
106 SampleLog: "Slow small spigot leak."

Station 054.002
201-203 Nutrients drawn per sampling schedule, Bacteria. Oxygen not drawn per sampling
strategy.
204 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
206 SampleLog: "Spigot leaks, both." Data are acceptable.
207 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
212 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
Cast 2 Salinity not drawn, Productivity cast.

Station 054.003
303-305 Salinity not drawn.
307 Salinity not drawn.
308 Sample Log: "Spigot leak." Salinity: "Salinity bottle filled too full, above neck."
Data are acceptable.
309 Salinity not drawn.
310 Sample Log: "Spigot leak." Salinity: "Salinity bottle filled too full, above neck."
Data are acceptable.
312 Salinity not drawn.

Station 054.004
406 SampleLog: "Bottom cap leak, when vent open." Data are acceptable.
408 SampleLog: "Minor spigot leak." Data are acceptable.
410 SampleLog: "Bottom cap leak." No samples drawn.
Cast 4 Salinity and oxygen not drawn, Bio-Marker cast.

Station 054.005
501 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
512 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 5 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 054.006
601 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
612 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 6 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 055.001
102-106 Salinity not drawn.
103 SampleLog: "Bad bottom cap leak." No samples drawn.
108 SampleLog: "Spigot leak." Data are acceptable.
109 Salinity not drawn.
110 SampleLog: "Spigot leak."
111 SampleLog: "Possible top cap leak." Data are acceptable.
112 Salinity not drawn.

Station 055.002
201-202 Salinity not drawn.
203 SampleLog: "Small bottom cap leak." Data are acceptable
204-206 Salinity not drawn.
208 SampleLog: "Spigot leak." Data are acceptable
209 Salinity not drawn.
210 Sample Log: "Minor spigot leak." Salinity: "Won't hold thimble, replaced." Data are
acceptable
211-212 Salinity not drawn.

Station 055.003
308 SampleLog: "Spigot leak." Data are acceptable.
Cast 3 Salinity and oxygen not drawn, Bio-Marker cast.

Station 055.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
412 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 055.005
507 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 5 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 055.006
601 Sample Log: "Leaking from bottom cap." Salinity, oxygen and nutrients not drawn.
Bacteria drew from bottom cap.
602-603 Salinity and oxygen not drawn per sampling strategy.
606 Salinity, oxygen and nutrients not drawn, sampled for O2 incubation only.
611-612 No samples drawn per sampling strategy.
Cast 6 Salinity not drawn, Productivity cast.

Station 055.007
701 Nutrients drawn per sampling schedule.
712 Nutrients drawn per sampling schedule.
Cast 7 Salinity, oxygen and nutrients not drawn, except as noted, Zooplankton cast.

Station 056.001
101-105 Salinity not drawn.
104 SampleLog: "Top cap leak." No samples drawn.
106 SampleLog: "Minor bottom cap leak." Data are acceptable.
108 SampleLog: "Spigot leak." Data are acceptable.
110 SampleLog: "Minor spigot leak." Data are acceptable.
111-112 Salinity not drawn.

Station 056.002
201 Sample Log: "Bottom cap leak." Nutrients appear to have been drawn from bottle 2.
Footnote nutrients questionable.
202-204 Salinity not drawn.
205-206 Sample Log: "Slight bottom cap leak." Data are acceptable.
207 Salinity not drawn.
208 SampleLog: "Spigot leak." Data are acceptable.
209 Salinity not drawn.
210 SampleLog: "Spigot leak." Data are acceptable.
211-212 Salinity not drawn.

Station 056.003
303 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
305 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
306 Sample Log: "Bottom cap leak after venting." Bio-Markers switched all sampling to
bottle 5. Nutrients drawn. Data are acceptable. Salinity and oxygen not drawn, nutrients
drawn per sampling schedule.
309 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Bio-Marker cast.

Station 056.004
401 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
412 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 4 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 056.005
501 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 5 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 057.001
101 SampleLog: "Leaking from bottom cap, reseated then okay." Data are acceptable.
101-103 Salinity and oxygen not drawn per sampling strategy.
105 Salinity and oxygen not drawn per sampling strategy, duplicate trip, nutrients only.
111-112 No samples drawn per sampling strategy.
Cast 1 Salinity not drawn, Productivity cast.

Station 058.001
103 Rechecked urea peak and there was no analytical problem.
103-105 Salinity not drawn.
106 SampleLog: "Slight bottom cap leak after spigot was opened." Data are acceptable.
107 Salinity not drawn.
109 Salinity not drawn.
110 SampleLog: "Slight spigot leak." Data are acceptable.
111 Salinity not drawn.

Station 058.002
201 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
212 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 2 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 059.001
101 SampleLog: "Bottom cap leak on venting, reseated then okay." Data are acceptable.
103-111 Salinity not drawn.
106 Sample Log: "Bottom cap leak after oxygen draw, reseated then okay." Data are
acceptable.
109 SampleLog: "Slight spigot leak." Data are acceptable.

Station 059.002
201 Salinity and oxygen not drawn per sampling strategy.
202 Nutrients sampled before oxygen. Data are acceptable.
203 Salinity and oxygen not drawn per sampling strategy.
204 No samples drawn per sampling strategy, duplicate trip.
208 No samples drawn per sampling strategy, duplicate trip.
210 No samples drawn per sampling strategy, duplicate trip.
212 No samples drawn per sampling strategy, duplicate trip.
Cast 2 Salinity not drawn, Productivity cast.

Station 059.003
301 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
312 Salinity and oxygen not drawn, nutrients drawn per sampling schedule.
Cast 3 Salinity, oxygen and nutrients not drawn, except as noted, Radium cast.

Station 060.001
101 SampleLog: "Bottom cap leak." Data are acceptable.
102-107 Salinity not drawn.
106 SampleLog: "Slight bottom cap leak." Data are acceptable.
109 SampleLog: "Slight bottom cap leak." Data are acceptable. Salinity not drawn.
111 Salinity not drawn.

Station 060.002
Cast 2 Salinity, oxygen and nutrients not drawn, Radium cast. Bottles were sampled and
drained before nutrients were drawn.



CCHDO DATA PROCESSING NOTES

Date        Person        Data Type   Action          Summary

2009-05-08  Fields, J     BTL         Replaced        Replaced bottle file
            Dr. Bob Key: Final TCO2 and Alk from N. Bates 1/30/09. Values 
            merged and file reprinted. This file supersedes that included 
            in CARINA tarball

2014-01-09  Staff, CCHDO  CrsRpt      Website Update  Available under 'Files as received' 
            The following files are now available online under 'Files as 
            received', unprocessed by the CCHDO.
              32H1HLY0403_final.doc

2014-01-09  Barna, A      BTL/CrsRpt  Website Update  Bottle Data online 
            The bottle and cruise report have been coppied over from the 
            CARINA collection

2014-01-23  Lee, Rox      maps        Website Update  Maps created 
            ==============================
            32H120040718 processing - Maps
            ==============================
            2014-01-23
            R Lee
            .. contents:: :depth: 2
            Process
            =======
            Changes
            -------
            - Maps created from 32H120040718_hy1.csv
            Directories
            ===========
            :working directory:
              /data/co2clivar/arctic/HLY0403/original/2014.01.23_maps_RJL
            :cruise directory:
              /data/co2clivar/arctic/HLY0403
            Updated Files Manifest
            ======================
            ==================== =====
            file                 stamp
            ==================== =====
            32H120040718_trk.gif      
            32H120040718_trk.jpg      
            ==================== =====

2014-02-07  Kappa, Jerry  CrsRpt      Website Update  PDF version online
            I've placed a new PDF version of the cruise report: 32H120040718do.pdf
            into the directory: http://cchdo.ucsd.edu/data/co2clivar/arctic/HLY0403/ .
            It includes all the reports provided by the cruise PIs, summary pages and 
            CCHDO data processing notes, as well as a linked Table of Contents.


