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A.  CRUISE REPORT:  A0603
    (Last Update 2006 06)


A.1.  HIGHLIGHTS

                           CRUISE SUMMARY INFORMATION

             WOCE section designation  A0603
    Expedition designation (EXPOCODE)  09AR20060102
        Chief Scientist & affiliation  Mark Rosenberg/ACE CRC*
                                Dates  2006 JAN 02 - 2006 MAR 12
                                 Ship  R/V Aurora Australis
                        Ports of call  Fremantle, Australia; Mawson, Antarctica;
                                       Davis, Antarctica; Hobart, Australia
                   Number of stations  120
                                                  43°38.05'S
Geographic boundaries of the stations  29°56.04'E            93°04.56'E
                                                  69°12.25'S

         Floats and drifters deployed  0 Floats,   0 Drifters
       Moorings deployed or recovered  0 Deployed, 0 recovered


                  *Mark Rosenberg • University of Tasmania
        Antarctic Climate and Ecosystems Cooperative Research Center
             Private Bag 80 Hobart, Taasmania, 7001 • AUSTRALIA 
Tel: +61 3 6226 7651 • Fax: +61 3 6226 2973 Email: Mark.Rosenberg@aad.gov.au





BROKE West Survey, Marine Science Cruise AU0603
- Oceanographic Field Measurements and Analysis


MARK ROSENBERG
ACE CRC, Hobart, Australia
July, 2006



1.  INTRODUCTION

Oceanographic measurements around the "BROKE West" survey area along the 
Antarctic continental margin between 30° and 80° south were conducted 
aboard Aurora Australis cruise au0603 (voyage 3 2005/2006, 2nd January to 
12th March 2006). A total of 120 CTD vertical profile stations were taken, 
most to within 15 m of the bottom. Over 2500 Niskin bottle water samples 
were collected for the measurement of salinity, dissolved oxygen, nutrients 
(phosphate, nitrate+nitrite, silicate and ammonia), ^(18)O, dissolved 
inorganic carbon, alkalinity, particulate organic carbon/nitrogen/silicate, 
dimethyl sulphide, and biological parameters, using a 24 bottle rosette 
sampler. Full depth current profiles were collected by an LADCP attached to 
the CTD package, while near surface current profile data were collected by 
a ship mounted ADCP. Data from the array of ship's underway sensors are 
included in the data set. 

This report describes the processing/calibration of the CTD and ADCP data, 
and details the data quality. An offset correction is derived for the 
underway sea surface temperature and salinity data, by comparison with near 
surface CTD data. LADCP data are not discussed in this report. Note that 
the data processor was not a cruise participant, thus this report does not 
describe all details of the shipboard field data collection or the problems 
encountered. CTD station positions are shown in Figures 1a and b, while CTD 
station information is summarised in Table 1. Niskin bottle sampling at 
each station is summarised in Table 2.



2.  CTD INSTRUMENTATION

SeaBird SBE9plus CTD serial 704, with dual temperature and conductivity 
sensors and a single SBE43 dissolved oxygen sensor (on the primary sensor 
pump line), was used for the entire cruise, mounted on a SeaBird 24 bottle 
rosette frame, together with a SBE32 24 position pylon and 22 x 10 litre 
General Oceanics Niskin bottles. The following additional sensors were 
mounted:

  • Benthos model 2110 altimeter
  • Tritech 200 kHz and 500 kHz altimeters
  • Wetlabs fluorometer serial 296
  • photosynthetically active radiation (i.e. PAR) sensor
  • Wetlabs C-star transmissometer serial 899DR
  • Sontek lowered ADCP (i.e. LADCP) with upward and downward looking 
    transducer sets

CTD data were transmitted up a 6 mm seacable to a SBE11plusV2 deck unit, at 
a rate of 24 Hz, and data were logged simultaneously on 2 PC's using 
SeaBird data acquisition software "Seasave". The LADCP was powered by a 
separate battery pack, and data were logged internally and downloaded after 
each CTD cast. Note that physical mounting of the upward looking LADCP 
transucer set requires removal of 2 Niskin bottles, thus only 22 Niskins 
were fitted for the cruise. 

The CTD deployment method was as follows:

  • CTD initially deployed down to ~20 m
  • after confirmation of pump operation, CTD returned up to just below the 
    surface (depth dependent on sea state)
  • after returning to just below the surface, downcast proper commenced
  • For most casts, the package was stopped for 5 minutes on the upcast at 
    ~50 m above the bottom, for logging of LADCP bottom track data.

Pre cruise temperature, conductivity and pressure calibrations were 
performed by the CSIRO Division of Marine and Atmoshperic Research 
calibration facility (Table 3) (July to August 2005). Manufacturer supplied 
calibrations were used for the dissolved oxygen, fluorometer, 
transmissometer and altimeters. PAR data are uncalibrated. Final 
conductivity and dissolved oxygen calibrations derived from in situ Niskin 
bottle samples are listed later in the report. 



3.  CTD DATA PROCESSING AND CALIBRATION

CTD data were processed in Hobart. The first step is application of a suite 
of the SeaBird "Seasoft" processing programs to the raw data, in order to:

  • convert raw data signals to engineering units
  • remove the surface pressure offset for each station
  • realign the oxygen sensor with respect to time (note that conductivity 
    sensor alignment is done by the deck unit at the time of data logging)
  • remove conductivity cell thermal mass effects
  • apply a low pass filter to the pressure data
  • flag pressure reversals
  • search for bad data (e.g. due to sensor fouling)

Further processing and data calibration were done in a UNIX environment, 
using a suite of fortran programs. Processing steps here include:

  • forming upcast burst CTD data for calibration against bottle data, 
    where each upcast burst is the average of 10 seconds of data prior to 
    each Niskin bottle firing
  • merging bottle and CTD data, and deriving CTD conductivity calibration 
    coefficients by comparing upcast CTD burst average conductivity data 
    with calculated equivalent bottle sample conductivities
  • forming pressure monotonically increasing data, and from there 
    calculating 2 dbar averaged downcast CTD data
  • calculating calibrated 2 dbar averaged salinity from the 2 dbar 
    pressure, temperature and conductivity values
  • deriving CTD dissolved oxygen calibration coefficients by comparing 
    bottle sample dissolved oxygen values (collected on the upcast) with 
    CTD dissolved oxygen values from the equivalent 2 dbar downcast 
    pressures

Full details of the data calibration and processing methods are given in 
Rosenberg et al. (in preparation), referred to hereafter as the CTD 
methodology.

Final station header information, including station positions and sounder 
depths at the start, bottom and end of each CTD cast, were obtained from 
underway data for the cruise (see section 6 below). Note the following for 
the station header information:

  • All times are UTC.
  • "Start of cast" information is at the commencement of the downcast 
    proper, as described above.
  • "Bottom of cast" information is at the maximum pressure value.
  • "End of cast" information is when the CTD leaves the water at the end 
    of the cast, as indicated by a drop in salinity values.
  • "Start of cast" and "end of cast" sounder depths are calculated at a 
    sound speed of 1456 m/s, with a ship's draught of 7.3 m added.
  • For cases where depth information is missing in the underway bathymetry 
    data set, depth values recorded at the time of CTD logging are used 
    (i.e. as read from the Echogram display, with sound speed 1456 m/s).
  • "Bottom of cast" depths are calulated from CTD maximum pressure and 
    altimeter value at the bottom of the casts.

Lastly, data were converted to MATLAB format, and final data quality 
checking was done within MATLAB.



4.  CTD AND BOTTLE DATA RESULTS AND DATA QUALITY

Data from the primary CTD sensor pair (temperature and conductivity) were 
used for this cruise.


4.1.  CONDUCTIVITY/SALINITY

The conductivity calibration and equivalent salinity results for the cruise 
are plotted in Figures 2 and 3, and the derived conductivity calibration 
coefficients are listed in Tables 4 and 5. International standard seawater 
batch numbers P144 and P146 were used for salinometer standardisation. The 
salinometer (Guildline Autosal serial 62549) appeared very stable 
throughout the cruise, however significant sample scatter occurred during 
calibration of the CTD conductivity, particularly for shallower samples. 
The problem was eventually traced to a poor refit of the salinometer, 
during servicing of the instrument by a contractor prior to the cruise. 
From Neale Johnston's cruise hydrochemistry report:

"....salinometer gave symptoms of the water bath overheating....when 
(salinometer) last serviced the sample inlet line was placed too close to 
the electronics inside the Guildline, which was heating the sample above 
the bath temperature before the sample was introduced into the bath. The 
inlet line was moved and the overheating problem did not reoccur."

In general, the problem was worse for shallower samples, as they were 
typically warmer already. As a result, large station groupings were 
required for the CTD calibration (Table 4), to ensure sufficient sample 
coverage for the lower conductivity values in the shallow part of the 
vertical profiles. Thus the salinity standard deviation value of ~0.0013 
(PSS78) from the the salinity calibration in Figure 3 is considered an 
overestimate of CTD salinity accuracy. Overall, CTD salinity for the cruise 
should only be considered accurate to 0.002 (PSS78).

Prior to calibration, a small "step" in the CTD/bottle conductivity 
comparison was noted for stations 60 to 64. The reason for this step could 
not be determined (i.e. salinometer or CTD? real or error?), particularly 
as the profile shapes for these stations were different to surrounding 
stations. The samples were retained for the conductivity calibration, 
however CTD salinity for these stations should only be considered accurate 
to 0.0025 (PSS78).

Salinometer instabilities occurred for stations 15 and 48; salinity samples 
from these stations were rejected for the CTD calibration. In both cases 
there is sufficient sample coverage from surrounding stations, and thus 
there is no significant diminishing of salinity accuracy.


4.2.  TEMPERATURE

Primary and secondary CTD temperature data (t(p) and t(s) respectively) are 
compared for the cruise in Figure 4. CTD upcast burst data, obtained at 
each Niskin bottle stop, are used for the comparison. From the figure, 
there is a very small pressure dependency of t(p)-t(s) for CTD704 of the 
order 0.0005oC over 5500 dbar. Without some temperature standard for 
comparison, it cannot be determined whether the 2 temperature sensors have 
the same or different pressure dependencies. Nevertheless, this pressure 
dependence lies within the assumed temperature accuracy of 0.001oC (i.e. 
the accredited temperature accuracy of the CSIRO calibration facility).


4.3.  PRESSURE

Surface pressure offsets for each cast (Table 6) were obtained from 
inspection of the data before the package entered the water.

When creating the 2 dbar bin averages, a minimum attendance of 8 data scans 
per bin was required. Data transmission faults and buffer overloads 
resulted in pressure spikes and small data gaps for several stations. As a 
result several 2 dbar bins have no data, for the following stations:

7, 18, 37, 46, 76, 88, 95, 98


4.4.  DISSOLVED OXYGEN

For casts deeper than 1400 dbar the profiles were split into a shallow and 
deep part for separate calculation of oxygen calibration coefficients, with 
a linear interpolation between the 2 calibrations around the split point 
(see the CTD methodology for full details). Casts shallower than 1400 dbar 
were calibrated as whole profile fits. The CTD oxygen calibration results 
are plotted in Figure 5, and the derived calibration coefficients are 
listed in Table 7. Overall the calibrated CTD oxygen agrees with the bottle 
data to well within 1% of full scale (where full scale is ~400 μmol/l 
above 750 dbar, and ~270 μmol/l below 750 dbar). Suspect bottle oxygen 
samples and 2 dbar CTD data (not deleted from the bottle and CTD files) are 
listed in Tables 8 and 9 respectively. 

A significant number of bad bottle oxygen samples occurred for the first 
half of the CTD stations - specifically, 89 bad samples occurred up to 
station 58, a much higher bad sample rate than usual. Many of these bad 
samples were due to sampling error i.e insufficient shaking of samples 
following addition of reagents. The sampling problem was corrected, and 
after station 58 only a further 8 bad samples occurred. Bad samples were 
deleted from the data files. In most cases, sufficient bottle samples 
remained for calibration of CTD oxygen data.

Further dissolved oxygen data processing notes:

  • For station 31, a split point of 1300 dbar was used for the split 
    profile calibration.
  • For station 43, all oxygen bottle samples were bad, therefore the CTD 
    oxygen data were unusable.
  • For station 58, the top 5 oxygen bottle samples were bad, so the top 36 
    dbar of CTD oxygen data were unusable.
  • For station 97, the bottom 8 bottle oxygen samples were bad, thus the 
    CTD oxygen data below 228 dbar were unusable. 
  • No bottle oxygen samples were taken at station 119 and 120, thus the 
    CTD oxygen data were unusable.


4.5.  FLUORESCENCE, PAR, TRANSMITTANCE

All fluorescence and transmittance data have a calibration as supplied by 
the manufacturer (Table 3). PAR sensor data are uncalibrated. The data have 
not been verified by linkage to other data sources (e.g. chlorophyll-a 
concentration data, particulate data, etc). For example, unusually high CTD 
fluorescence values evident at stations 100, 101 and 102 must be verified 
from Niskin bottle pigment data (P.I. Simon Wright).


4.6.  NUTRIENTS

Nutrients measured on the cruise were phosphate, total nitrate (i.e. 
nitrate+nitrite), silicate, and ammonia (only up to station 85). At the 
time of writing, all phosphate data for the cruise are bad.

Initial phosphate analysis results, using a phosphate standard made in the 
lab prior to the cruise (referred to as "lab standard" in the following 
discussion), were all ~10% low. During phosphate analysis runs on the 
Lachat instrument, samples of standard reference material (SRM) were 
inserted into each run. Following analysis a "phosphate recovery" 
correction was attempted for each station, on the assumption that the lab 
standard was low and the SRM was correct. Note that these corrected 
phosphate values still showed a scatter of ±3% between different groups of 
stations. On return to Hobart, both the lab standard and SRM were checked - 
the lab standard appeared to be correct, and the SRM gave inconsistent 
results on repeat checks. Thus no explanation was found for the low results 
on the ship, and all phosphate data were unrecoverable.

Suspect nitrate+nitrate and silicate values not deleted from the bottle 
data files are listed in Table 10.

Further data quality notes:

  • Nitrate+nitrite values for stations 82 to 88 were all low by ~5 to 8%, 
    and have been removed from the files. 
  • Nitrate+nitrite values for station 46 are all low by ~3%.
  • All nutrient data for station 20 were bad.
  • Ammonia data are unverified, and should be used with caution.


4.7.  ADDITIONAL CTD DATA PROCESSING/QUALITY NOTES

  • Station 10 - The final elevation at the bottom of the cast is unknown, 
    as the altimeter never came in range. Future processing of the LADCP 
    bottom track data may reveal whether the bottom was within 192 m (i.e. 
    bottom detection range of the LADCP).
  • Station 95 - The minimum reliable altimeter reading at the bottom of 
    the cast was 1.6 m, however the CTD operators from the cruise believe 
    there may have been bottom contact. There is no noticeable shift in 
    temperature and conductivity sensor data at the bottom, thus the data 
    are unaffected.
  • Station 103 - The CTD was lifted out of the water prematurely, before 
    bottle 24 was fired. It was lowered back down to 10 dbar to fire the 
    bottle.



5.  ADCP

The hull mounted ADCP on the Aurora Australis is described in Rosenberg 
(unpublished report, 1999), with the following updates:

 (i) There is no longer a Fugro differential GPS system - all GPS data, 
     including heading, come from the Ashtech 3D system.
(ii) Triggering of the 12 kHz sounder and the higher frequency 
     hydroacoustics array are now separate, resulting in a higher ping rate for 
     the ADCP (linked to the higher frequency hydroacoustics array). 

Logging parameters and calibration coefficients for the cruise are 
summarised in Table 11. Current vectors for the cruise are plotted in 
Figures 6a and b; the apparent vertical current shear error for different 
ship speed classes is plotted in Figure 7.

Several gaps in the ADCP data occur over the cruise, due to GPS and/or ADCP 
logging failure. The main gaps are:

1600 on 27th January to 0200 on 28th January
0033 on 31st January to 2233 on 31st January
0000 on 5th February to 2227 on 5th February
1728 on 18th February to 0706 on 19th February

These data gaps cover the times of the following CTD's:  46, 59, 66 
(upcast), 67, 68, 69, 70, 71, 91 and 92.

In general, ADCP data are contaminated by ship's motion when the ship 
accelerates i.e. changes direction or speed. Noise and turbulence often 
diminish ADCP data quality when the ship travels at speeds greater than ~13 
knots, or during rough sea states. Thus the best quality ADCP data is when 
the ship is steaming in a straight line at a suitable constant speed, and 
during milder sea conditions. The most reliable data are collected when the 
ship is "on station" (on station data is defined here as data where ship 
speed ≤ 0.35 m/s).

An erroneous vertical ADCP current shear occurs when the ship is underway. 
This shear has a magnitude for this cruise of up to ~0.08 m/s over the ADCP 
current profile (Figure 7). A likely cause for this error is acoustic 
ringing against a small air/water interface inside the transducer seachest. 
From Figure 7, when the ship is underway the effect is most significant 
over bins 1 to 10, and data from these bins should be treated with caution. 
Also from the figure, when the ship is travelling at ≤ 1 m/s the effect is 
no longer significant.



6.  UNDERWAY MEASUREMENTS

Underway data were logged to an Oracle database on the ship. For more 
information, see the AADC (Antarctic Division Data Centre) website, and the 
cruise dotzapper (i.e. data quality controller) report for AU0603:

Marine Science Support Data Quality Report, RSV Aurora Australis Voyage 1 
2005-2006, Voyage 2 2005-2006, Voyage 3 2005-2006 (BROKE WEST), Belinda 
Ronai, March 2006. Antarctic Division unpublished report.

1 minute averaged underway data are contained in the files brokewest.ora 
(column formatted text file) and brokewestora.mat (matlab format). 10 
second instantaneous position and depth data are contained in the files 
brokewestbath.alf (column formatted text file) and brokewestbathalf.mat 
(matlab format). 

Bathymetry data were processed by Esmee Van Wijk (Antarctic Division). A 
sound speed of 1456 m/s was used for ocean depth calculation, and the 
ship's draught of 7.3 m was accounted for (i.e. depths are from the water 
surface). Data were only processed from along the transect lines in the 
BROKE West survey area. In addition, during the cruise 12 kHz data below 
5000 m were not logged. As a result, there are many gaps in the underway 
bathymetry data.

Underway temperature data from the Antarctic Division hull mounted 
temperature sensor near the sea water inlet are considered reliable. 
Underway salinity data from the Antarctic Division thermosalinograph in the 
oceanographic lab have a significant error in colder waters, due to iceing 
effects in the debubbler (Bronte Tilbrook, CSIRO, personal communication); 
these salinity data should not be used. Alternative underway salinity data 
were obtained from a separate CSIRO thermosalinograph in lab 1 (P.I. Bronte 
Tilbrook, CSIRO), and these data are considered reliable. A correction for 
the hull mounted temperature sensor and the lab 1 salinity was derived by 
comparing the underway data to CTD temperature and salinity data at 8 dbar 
(Figures 8a and b). The following corrections were then applied to the 
underway data:

                            T = T(dls) - 0.038
                            S = S(dls) + 0.041

for corrected underway temperature and salinity T and S respectively, and 
uncorrected values T(dis) and S(dis). 


REFERENCES

Rosenberg, M., unpublished. Aurora Australis ADCP data status. Antarctic 
    Cooperative Research Centre, unpublished report, November 1999. 51 pp.
Rosenberg, M., Fukamachi, Y., Rintoul, S., Church, J., Curran, C., Helmond, 
    I., Miller, K., McLaughlan, D., Berry, K., Johnston, N. and Richman, 
    J., in preparation. Kerguelen Deep Western Boundary Current Experiment 
    and CLIVAR I9 transect, marine science cruises AU0304 and AU0403 - 
    oceanographic field measurements and analysis. ACE CRC Research Report.


ACKNOWLEDGEMENTS

Thanks to all scientific personnel who participated in the cruise, and to 
the crew of the RSV Aurora Australis. Special thanks to the oceanography 
team for a great job collecting the data. 


TABLE 1:  Summary of station information for cruise au0603. All times UTC; 
          "leg" = BROKE West CTD leg number, "TEST" = test cast, "FSIcal" 
          = calibration cast for the FSI CTD from the Amery Ice Shelf 
          borehole work; "alt" = minimum altimeter value (m), "maxp" 
          = maximum pressure (dbar).

__________________________________________________________________________________________________________________________________________________________________
                                   start of CTD                                      bottom of CTD                           end of CTD             
 station           date      time    latitude     longitude   depth    time    latitude    longitude   depth    time    latitude    longitude   depth   alt   maxp
 ------------   -----------  -----  -----------  -----------  -----   ------  ----------  -----------  -----   ------  ----------  -----------  -----   ----  ----
 001 TEST       06 Jan 2006  064038  43 38.10 S  093 04.95 E    -     074348  43 38.26 S  093 05.67 E  2679    084817  43 38.34 S  093 06.19 E  2761    17.4  2701
 002 leg12.1    10 Jan 2006  154918  60 36.08 S  078 32.22 E  2971    165713  60 36.01 S  078 32.51 E  3037    181920  60 35.98 S  078 32.96 E    -     10.6  3078
 003 leg12.2    11 Jan 2006  003342  60 12.10 S  077 03.89 E  2478    013525  60 12.16 S  077 04.14 E  2432    024403  60 12.08 S  077 04.40 E  2481     8.1  2462
 004 leg12.3    11 Jan 2006  070804  59 47.89 S  075 36.03 E  1730    074107  59 47.82 S  075 35.88 E  1685    084210  59 47.68 S  075 35.77 E  1722    10.2  1698
 005 leg12.4    11 Jan 2006  120219  59 59.68 S  075 13.12 E  2091    124037  59 59.62 S  075 12.97 E  2048    134622  59 59.64 S  075 12.43 E  2081    10.4  2068
 006 leg12.5    11 Jan 2006  164931  60 19.24 S  074 35.55 E  2554    174018  60 19.24 S  074 35.26 E  2486    185632  60 19.22 S  074 35.22 E  2553    11.9  2513
 007 leg12.6    11 Jan 2006  203923  60 23.51 S  074 27.76 E  2944    214155  60 23.53 S  074 28.03 E  2898    230923  60 23.29 S  074 28.20 E  2921    14.2  2932
 008 leg12.7    12 Jan 2006  013236  60 40.69 S  073 54.17 E    -     025055  60 40.69 S  073 53.98 E  3247    040712  60 40.57 S  073 54.29 E  3341    13.3  3290
 009 leg12.8    12 Jan 2006  074519  61 12.11 S  072 53.99 E    -     090423  61 12.23 S  072 54.14 E  4118    103725  61 12.36 S  072 54.73 E  4237    14.6  4184
 010 leg12.9    12 Jan 2006  160632  61 18.80 S  070 20.63 E    -     173156  61 18.59 S  070 20.93 E    -     192316  61 18.02 S  070 21.58 E  4163      -   4105
 011 leg12.10   13 Jan 2006  014127  61 25.60 S  067 47.35 E  4360    025647  61 25.20 S  067 47.50 E  4359    044708  61 24.70 S  067 47.74 E  4356     9.6  4437
 012 leg12.11   13 Jan 2006  101028  61 32.60 S  065 13.78 E  4458    113208  61 32.63 S  065 14.41 E  4459    132912  61 32.55 S  065 15.10 E  4459    18.5  4532
 013 leg12.12   13 Jan 2006  185254  61 39.49 S  062 40.29 E  4447    201125  61 39.59 S  062 40.22 E  4450    221628  61 39.58 S  062 40.28 E  4447     7.5  4534
 014 leg12.13   14 Jan 2006  032913  61 46.19 S  060 07.01 E  4698    050051  61 46.19 S  060 07.04 E  4699    070755  61 45.68 S  060 07.77 E  4697     5.7  4793
 015 leg12.14   14 Jan 2006  122433  61 53.07 S  057 33.33 E  4805    135303  61 53.06 S  057 33.76 E  4829    155024  61 52.96 S  057 34.37 E  4827    15.4  4917
 016 leg12.15   14 Jan 2006  211615  62 00.06 S  055 00.25 E  4984    225735  62 00.05 S  055 00.89 E  4990    011530  62 00.16 S  055 01.42 E  4986     9.4  5089
 017 leg12.16   15 Jan 2006  063034  61 59.94 S  052 30.31 E   -      081138  62 00.25 S  052 30.83 E  5137    101125  62 00.37 S  052 31.05 E    -     14.9  5235
 018 leg12.17   15 Jan 2006  202144  61 59.99 S  049 59.64 E   -      220350  62 00.34 S  049 59.58 E  5123    235206  62 00.72 S  049 59.76 E    -     10.6  5225
 019 leg12.18   16 Jan 2006  074621  61 59.99 S  047 30.10 E  5067    091326  62 00.06 S  047 30.64 E  5069    111625  62 00.03 S  047 31.29 E  5068    13.7  5167
 020 leg12.19   16 Jan 2006  180138  61 59.99 S  045 00.02 E  5012    193227  62 00.14 S  044 59.99 E  5016    212621  62 00.50 S  045 00.44 E  5004    10.5  5114
 021 leg12.20   17 Jan 2006  033135  61 59.93 S  042 30.22 E   -      051555  62 00.04 S  042 29.89 E  5142    071647  62 00.02 S  042 29.20 E    -     13.0  5243
 022 leg12.21   17 Jan 2006  131310  62 00.02 S  040 00.10 E   -      143957  61 59.95 S  040 00.04 E  5170    164100  61 59.68 S  040 00.31 E  5170    14.8  5270
 023 leg12.22   17 Jan 2006  232628  61 59.87 S  037 30.05 E  5159    011938  61 59.53 S  037 30.35 E  5163    031332  61 59.34 S  037 30.98 E  5166    12.2  5265
 024 leg12.23   18 Jan 2006  085024  62 00.02 S  034 59.90 E  5094    101957  62 00.23 S  034 59.71 E  5090    120034  62 00.40 S  034 59.24 E  5086    15.7  5186
 025 leg12.24   18 Jan 2006  175539  61 59.71 S  032 29.16 E    -     191628  61 59.30 S  032 29.83 E  5150    211809  61 58.79 S  032 31.80 E    -     12.4  5252
 026 leg12.25   19 Jan 2006  042454  62 00.01 S  030 00.05 E    -     060130  62 00.05 S  030 00.27 E  5175    075423  62 00.30 S  030 01.01 E    -     15.9  5274
 027 leg1.1     19 Jan 2006  133538  62 40.00 S  030 00.36 E    -     150715  62 40.05 S  030 01.31 E  5160    164552  62 40.06 S  030 02.09 E    -     15.8  5258
 028 leg1.2     19 Jan 2006  213013  63 19.91 S  030 00.64 E    -     231114  63 19.87 S  030 01.52 E  5131    005803  63 19.90 S  030 02.60 E    -      7.3  5238
 029 leg1.3     20 Jan 2006  062621  64 00.00 S  030 00.05 E  5088    080606  64 00.02 S  030 00.19 E  5086    093902  64 00.07 S  030 00.66 E  5083    14.5  5184
 030 leg1.4     20 Jan 2006  150417  64 39.99 S  030 00.20 E  4965    163110  64 40.03 S  030 00.02 E  4972    180408  64 40.05 S  029 59.96 E  4964    13.9  5067
 031 leg1.5     20 Jan 2006  231322  65 20.03 S  030 00.26 E  4804    004732  65 19.91 S  030 01.06 E  4811    023217  65 19.66 S  030 01.61 E  4806     6.9  4908
 032 leg1.6     21 Jan 2006  073819  65 59.96 S  030 00.01 E  4484    085619  65 59.83 S  029 59.76 E  4500    102438  65 59.59 S  029 59.38 E  4486    16.5  4577
 033 leg1.7     21 Jan 2006  144415  66 30.01 S  029 59.89 E  4224    160607  66 29.93 S  029 59.51 E  4271    173612  66 29.88 S  029 59.05 E  4250    14.6  4343
 034 leg1.8     21 Jan 2006  211339  66 59.97 S  029 59.93 E  4029    223530  66 59.87 S  029 59.42 E  4092    000114  66 59.87 S  029 59.12 E  4080     8.4  4166
 035 leg1.9     22 Jan 2006  044146  67 30.04 S  029 59.97 E  3559    055128  67 29.93 S  029 59.38 E  3584    071223  67 29.92 S  029 58.94 E  3591    11.5  3640
 036 leg1.10    22 Jan 2006  112726  67 59.84 S  030 00.81 E  3707    123040  67 59.90 S  030 00.88 E  3716    135912  67 59.93 S  030 00.56 E  3713    15.6  3772
 037 leg1.11    22 Jan 2006  204954  68 29.92 S  029 59.88 E    -     215754  68 29.98 S  029 59.51 E  3506    231859  68 30.01 S  029 59.49 E    -     10.8  3561
 038 leg1.12    23 Jan 2006  020457  68 41.71 S  030 00.27 E  2982    030214  68 41.50 S  030 00.56 E  3000    042041  68 41.24 S  030 00.79 E  2956    10.1  3043
 039 leg1.13    23 Jan 2006  062654  68 49.86 S  030 00.08 E  2512    071854  68 49.80 S  030 00.40 E  2593    083310  68 49.74 S  030 00.56 E  2532    10.0  2626
___________________________________________________________________________________________________________________________________________________________________


TABLE 1: (cntd)
__________________________________________________________________________________________________________________________________________________________________

                                  start of CTD                                   bottom of CTD                               end of CTD
 station          date       time    latitude    longitude   depth    time   latitude     longitude   depth    time    latitude    longitude   depth   alt   maxp
 -----------   -----------  ------  ----------  -----------  -----   ------  ---------   -----------  -----   ------  ----------  -----------  -----   ----  ----
 040 leg1.14   23 Jan 2006  103800  68 55.36 S  029 59.88 E  1959    111114  68 55.47 S  029 59.69 E  1977    121113  68 55.67 S  029 59.74 E  1922    16.8  1990
 041 leg1.15   23 Jan 2006  133853  69 00.69 S  029 58.63 E  1254    140309  69 00.80 S  029 58.15 E  1333    145526  69 01.15 S  029 56.85 E  1437    15.7  1336
 042 leg1.16   23 Jan 2006  162058  69 04.72 S  029 59.81 E   820    163835  69 04.73 S  029 59.62 E   865    172005  69 04.76 S  029 59.12 E   908    15.1   860
 043 leg1.17   23 Jan 2006  185502  69 06.64 S  029 59.90 E   267    190110  69 06.66 S  029 59.87 E   267    193530  69 06.77 S  029 59.32 E   279    10.8   260
 044 leg1.18   23 Jan 2006  235015  69 12.43 S  029 56.07 E   211    235830  69 12.45 S  029 56.05 E   228    002731  69 12.41 S  029 55.81 E   252     7.6   223
 045 leg3.1    27 Jan 2006  121931  62 39.96 S  040 00.17 E  5014    140627  62 40.03 S  040 00.32 E  5017    155628  62 40.07 S  040 00.37 E  5014    13.8  5112
 046 leg3.2    27 Jan 2006  202659  63 19.89 S  039 59.74 E  4930    220401  63 19.58 S  039 59.55 E  4936    233924  63 19.25 S  039 59.56 E  4933     9.0  5035
 047 leg3.3    28 Jan 2006  044749  63 59.98 S  040 00.05 E  4829    062059  63 59.89 S  040 00.52 E  4830    075821  63 59.81 S  040 01.58 E  4807     7.5  4926
 048 leg3.4    28 Jan 2006  132711  64 40.06 S  040 00.34 E  4726    145146  64 40.07 S  040 00.42 E  4726    164601  64 39.91 S  040 00.60 E  4719    14.4  4812
 049 leg3.5    28 Jan 2006  215940  65 20.28 S  040 00.23 E  4735    233258  65 20.41 S  040 00.69 E  4745    011222  65 20.56 S  040 01.03 E  4740    10.4  4836
 050 leg3.6    29 Jan 2006  053407  66 00.05 S  040 00.25 E  4484    065903  66 00.20 S  040 00.30 E  4488    084702  66 00.04 S  039 59.75 E  4489     7.4  4575
 051 leg3.7    29 Jan 2006  125754  66 30.03 S  040 00.04 E  4520    141935  66 30.00 S  040 00.09 E  4524    160250  66 29.93 S  040 00.02 E  4519     9.4  4610
 052 leg3.8    29 Jan 2006  193243  67 00.08 S  039 59.81 E  3632    204614  66 59.98 S  039 59.17 E  3656    222118  67 00.05 S  039 57.74 E  3704     8.8  3716
 053 leg3.9    30 Jan 2006  030751  67 29.96 S  039 59.56 E  3222    041051  67 30.10 S  039 58.99 E  3244    054327  67 30.16 S  039 58.22 E  3207     8.4  3294
 054 leg3.10   30 Jan 2006  094828  67 56.49 S  039 59.78 E  2216    102545  67 56.47 S  039 59.96 E  2244    112404  67 56.51 S  039 59.68 E  2141    13.0  2267
 055 leg3.11   30 Jan 2006  132348  68 02.87 S  039 59.95 E  1521    140339  68 03.08 S  039 59.68 E  1804    144947  68 03.21 S  039 59.58 E  1800    14.1  1817
 056 leg3.12   30 Jan 2006  164232  68 07.89 S  040 00.11 E   979    170149  68 07.98 S  040 00.04 E   999    174236  68 08.21 S  040 00.04 E   798    10.6  1001
 057 leg3.13   30 Jan 2006  191333  68 08.66 S  040 00.05 E   508    192922  68 08.77 S  039 59.91 E   485    201311  68 08.83 S  039 59.58 E   415    10.8   480
 058 leg3.14   30 Jan 2006  215649  68 11.83 S  040 00.35 E   309    220832  68 11.83 S  040 00.20 E   323    224556  68 11.68 S  040 00.34 E   313     6.9   320
 059 leg3.15   31 Jan 2006  003447  68 20.86 S  039 59.74 E   310    004549  68 20.86 S  039 59.63 E   315    011755  68 20.78 S  039 59.33 E   315     9.0   310
 060 leg5.1    03 Feb 2006  014151  62 40.06 S  049 59.99 E  4995    032859  62 40.37 S  049 59.96 E  4994    051629  62 40.58 S  049 59.59 E  4992    10.4  5093
 061 leg5.2    03 Feb 2006  094942  63 20.08 S  050 00.00 E  4843    112128  63 19.99 S  049 59.74 E  4845    132041  63 19.87 S  049 59.42 E  4842    15.8  4933
 062 leg5.3    03 Feb 2006  185425  64 00.13 S  049 59.80 E    -     202249  63 59.92 S  049 59.44 E  4392    215300  63 59.62 S  049 59.17 E  4410    10.8  4471
 063 leg5.4    04 Feb 2006  031904  64 30.65 S  049 59.60 E    -     044527  64 30.73 S  049 58.99 E  4272    061244  64 30.66 S  049 58.52 E    -     10.8  4348
 064 leg5.5    04 Feb 2006  115030  65 00.05 S  049 59.81 E  2542    123726  64 59.97 S  049 59.54 E  2563    134342  64 59.98 S  049 59.15 E  2542    15.7  2588
 065 leg5.6    04 Feb 2006  183056  65 22.80 S  049 59.90 E    -     190657  65 22.76 S  049 59.74 E  2029    201805  65 22.78 S  049 58.97 E    -      4.3  2055
 066 leg5.7    04 Feb 2006  231535  65 37.14 S  049 59.20 E  2001    235949  65 37.24 S  049 59.10 E  2018    010113  65 37.40 S  049 59.04 E  1999    10.6  2038
 067 leg5.8    05 Feb 2006  025740  65 51.76 S  049 59.09 E  1557    033807  65 52.03 S  049 59.09 E  1658    043509  65 52.30 S  049 58.45 E  1685    10.4  1671
 068 leg5.9    05 Feb 2006  061618  66 00.47 S  049 59.64 E   935    063955  66 00.57 S  049 59.02 E   934    072103  66 00.68 S  049 58.19 E   854    13.6   932
 069 leg5.10   05 Feb 2006  085454  66 01.63 S  049 59.82 E   489    090909  66 01.66 S  049 59.65 E   514    094447  66 01.73 S  049 59.32 E   496     7.7   512
 070 leg5.11   05 Feb 2006  130609  66 05.57 S  049 59.33 E   253    131208  66 05.53 S  049 59.24 E   265    133829  66 05.45 S  049 58.93 E   253    12.6   255
 071 leg5.12   05 Feb 2006  160834  66 20.35 S  050 09.22 E   172    161414  66 20.35 S  050 09.23 E   181    164429  66 20.32 S  050 09.22 E   172    12.1   171
 072 leg7.1    08 Feb 2006  045508  62 19.91 S  059 59.91 E  4664    063043  62 19.98 S  060 00.14 E  4672    082722  62 20.44 S  060 00.24 E    -     16.1  4754
 073 leg7.2    08 Feb 2006  153231  62 59.96 S  060 00.28 E    -     164924  62 59.95 S  060 00.42 E  4466    184222  63 00.20 S  060 00.94 E    -     10.1  4548
 074 leg7.3    09 Feb 2006  010614  63 40.07 S  060 00.11 E  4368    023022  63 40.20 S  060 00.28 E  4375    040756  63 40.26 S  060 00.52 E  4376    10.4  4454
 075 leg7.4    09 Feb 2006  090136  64 19.99 S  059 59.99 E  4226    101920  64 20.23 S  059 59.98 E  4229    120327  64 20.62 S  060 00.05 E  4224    10.8  4304
 076 leg7.5    09 Feb 2006  182418  65 00.14 S  060 00.25 E  4039    194401  65 00.32 S  060 00.56 E  4042    211210  65 00.66 S  060 00.94 E  4040     4.9  4117
 077 leg7.6    10 Feb 2006  005654  65 29.95 S  059 59.86 E  3801    021117  65 29.97 S  059 59.87 E  3812    034101  65 30.06 S  059 59.77 E  3799     6.0  3879
 078 leg7.7    10 Feb 2006  083215  65 59.99 S  059 59.84 E  2676    092259  66 00.17 S  059 59.68 E  2675    103404  66 00.18 S  059 59.53 E  2657    11.5  2708
 079 leg7.8    10 Feb 2006  141345  66 18.89 S  059 59.95 E    -     150809  66 18.86 S  059 59.97 E  2675    163150  66 18.82 S  059 59.95 E  2686    12.9  2706
 080 leg7.9    10 Feb 2006  193215  66 30.03 S  059 59.61 E  1783    201230  66 30.01 S  059 58.87 E  1845    211812  66 29.90 S  059 57.64 E  1717    15.7  1856
__________________________________________________________________________________________________________________________________________________________________


TABLE 1: (cntd)
___________________________________________________________________________________________________________________________________________________________________

                                    start of CTD                                  bottom of CTD                            end of CTD
   station         date       time    latitude    longitude   depth    time    latitude    longitude   depth    time    latitude    longitude   depth    alt  maxp
 ------------   -----------  ------  ----------  -----------  -----   ------  ----------  -----------  -----   ------  ----------  -----------  -----   ----  ----
 081 leg7.10    10 Feb 2006  230902  66 33.41 S  059 59.28 E  1327    234538  66 33.41 S  059 58.73 E  1391    003852  66 33.43 S  059 58.07 E  1318     9.4  1400
 082 leg7.11    11 Feb 2006  021048  66 39.70 S  059 59.71 E   895    023431  66 39.63 S  059 59.07 E   936    032215  66 39.68 S  059 58.03 E   861    11.1   937
 083 leg7.12    11 Feb 2006  051757  66 40.94 S  059 59.58 E   453    053148  66 40.94 S  059 59.44 E   472    060511  66 40.84 S  059 58.51 E   457    10.0   468
 084 leg7.13    11 Feb 2006  080532  66 54.04 S  060 00.03 E   409    081321  66 54.04 S  059 59.98 E   475    085250  66 54.14 S  059 59.52 E   586    15.7   465
 085 leg7.14    11 Feb 2006  104905  66 55.94 S  059 56.39 E   931    111141  66 55.96 S  059 56.38 E   940    115829  66 55.99 S  059 56.35 E   933    15.8   936
 086 leg9.1     17 Feb 2006  003704  61 59.95 S  069 59.99 E  4119    015426  61 59.90 S  069 59.60 E  4124    032828  62 00.01 S  069 59.24 E    -      8.4  4196
 087 leg9.2     17 Feb 2006  100350  62 40.04 S  070 00.01 E  4036    120702  62 40.03 S  069 59.28 E  4045    135135  62 40.04 S  069 59.74 E  4038    11.3  4113
 088 leg9.3     17 Feb 2006  202006  63 20.21 S  069 59.36 E  3830    213831  63 20.24 S  069 59.12 E  3840    225856  63 20.17 S  069 59.17 E  3835     6.2  3907
 089 leg9.4     18 Feb 2006  063006  63 59.77 S  070 00.04 E  3506    073553  63 59.49 S  070 00.02 E  3510    090639  63 59.34 S  070 00.05 E  3507     6.8  3568
 090 leg9.5     18 Feb 2006  123138  64 29.99 S  069 59.89 E  3237    133424  64 29.98 S  069 59.98 E  3241    144642  64 29.90 S  070 00.07 E  3235    12.1  3287
 091 leg9.6     18 Feb 2006  222317  64 59.87 S  069 59.80 E  2907    231658  64 59.68 S  069 59.33 E  2918    002859  64 59.56 S  069 58.73 E  2907     4.7  2963
 092 leg9.7     19 Feb 2006  035616  65 30.10 S  069 59.78 E  2707    045337  65 30.13 S  069 59.91 E  2727    061229  65 30.17 S  069 59.38 E  2692     9.4  2763
 093 leg9.8     19 Feb 2006  113534  66 00.04 S  069 59.78 E  2409    121638  66 00.07 S  069 59.64 E  2423    132119  66 00.05 S  070 00.14 E  2424    11.0  2451
 094 leg9.9     19 Feb 2006  154312  66 14.99 S  069 59.69 E  2291    162819  66 14.96 S  069 59.03 E  2295    172624  66 14.90 S  069 58.34 E  2287     8.6  2322
 095 leg9.10    19 Feb 2006  202839  66 30.38 S  069 59.99 E  1984    210058  66 30.35 S  069 59.93 E  1991    220604  66 30.20 S  069 59.44 E  1983     1.6  2020
 096 leg9.11    19 Feb 2006  235953  66 43.68 S  069 59.95 E  1520    002536  66 43.64 S  069 59.89 E  1533    011742  66 43.70 S  069 59.47 E  1520     8.1  1546
 097 leg9.12    20 Feb 2006  041205  66 49.19 S  070 00.27 E  1039    043051  66 49.24 S  069 59.97 E  1031    051558  66 49.39 S  069 59.49 E   950     7.1  1037
 098 leg9.13    20 Feb 2006  072453  66 52.56 S  069 59.96 E   500    073712  66 52.59 S  069 59.98 E   508    080950  66 52.67 S  070 00.09 E   495    13.4   501
 099 leg9.14    20 Feb 2006  105028  67 10.84 S  070 00.35 E   267    105652  67 10.81 S  070 00.37 E   273    112915  67 10.61 S  070 00.27 E   281    15.6   260
 100 leg9.15    20 Feb 2006  181730  67 18.80 S  070 59.47 E   383    182619  67 18.73 S  070 59.38 E   394    190957  67 18.25 S  070 59.53 E   394     9.4   390
 101 leg9.16    20 Feb 2006  234408  67 19.29 S  071 58.69 E   565    235826  67 19.29 S  071 58.75 E   571    003611  67 19.19 S  071 58.59 E   567     8.1   570
 102 leg9.17    21 Feb 2006  042559  67 19.16 S  073 00.12 E   546    043559  67 19.19 S  073 00.01 E   554    051852  67 19.29 S  072 59.76 E   549     7.8   553
 103 leg11.1    24 Feb 2006  030200  60 59.97 S  080 00.26 E  2628    035022  60 59.72 S  080 00.24 E  2634    045617  60 59.46 S  080 00.08 E  2629     6.6  2670
 104 leg11.2    24 Feb 2006  101434  61 39.77 S  080 00.14 E  2328    110047  61 39.77 S  080 00.05 E  2332    120214  61 39.74 S  079 59.77 E  2328    16.2  2352
 105 leg11.3    24 Feb 2006  174755  62 20.01 S  079 59.91 E  2468    183019  62 20.04 S  079 59.60 E  2480    193957  62 20.14 S  079 59.12 E  2478     6.1  2513
 106 leg11.4    25 Feb 2006  102953  63 00.07 S  079 59.97 E  3495    113437  63 00.16 S  080 00.14 E  3504    125337  63 00.16 S  080 00.62 E  3470    10.6  3558
 107 leg11.5    25 Feb 2006  172259  63 29.98 S  079 59.75 E    -     182226  63 30.09 S  080 00.05 E  3538    194037  63 30.11 S  080 00.14 E  3522     9.8  3593
 108 leg11.6    25 Feb 2006  232200  64 00.05 S  079 59.65 E  3642    001935  64 00.13 S  080 00.13 E  3650    013636  64 00.20 S  080 00.73 E  3645     8.2  3710
 109 leg11.7    26 Feb 2006  060242  64 30.03 S  079 59.86 E  3603    071538  64 29.99 S  079 59.66 E  3608    084047  64 29.92 S  079 59.77 E  3604    13.5  3662
 110 leg11.8    26 Feb 2006  124756  65 00.02 S  079 59.96 E  3535    135709  65 00.08 S  079 59.82 E  3546    151217  65 00.36 S  079 59.18 E  3539    13.4  3598
 111 leg11.9    26 Feb 2006  194141  65 30.28 S  080 00.12 E  3221    203655  65 30.64 S  079 59.98 E  3227    220027  65 31.07 S  079 59.39 E  3223     7.9  3277
 112 leg11.10   27 Feb 2006  014929  65 49.13 S  079 59.64 E    -     022701  65 49.28 S  079 59.52 E  2223    033324  65 49.54 S  079 59.27 E  2203    11.0  2246
 113 leg11.11   27 Feb 2006  053254  65 51.10 S  079 59.96 E  1962    061503  65 51.10 S  079 59.81 E  2003    070824  65 51.01 S  079 59.43 E  1998     6.9  2026
 114 leg11.12   27 Feb 2006  095456  65 57.10 S  079 59.78 E  1512    102646  65 57.18 S  079 59.51 E  1554    112255  65 57.37 S  079 58.83 E  1499     9.4  1567
 115 leg11.13   27 Feb 2006  131325  66 01.42 S  079 59.77 E  1097    133422  66 01.47 S  079 59.80 E  1097    141618  66 01.54 S  079 59.67 E  1064    10.3  1101
 116 leg11.14   27 Feb 2006  161113  66 07.91 S  079 58.50 E   518    163012  66 07.97 S  079 58.20 E   524    170942  66 08.06 S  079 57.61 E   513     5.0   526
 117 leg11.15   27 Feb 2006  210958  66 24.63 S  079 59.40 E   223    211702  66 24.59 S  079 59.29 E   228    215023  66 24.50 S  079 58.64 E   222    11.7   219
 118 leg11.16   28 Feb 2006  014437  66 44.71 S  080 00.62 E   324    015103  66 44.72 S  080 00.63 E   328    022204  66 44.83 S  080 00.53 E   326     7.7   324
 119 FSIcal     03 Mar 2006  073651  66 04.97 S  079 27.91 E  1497    080319  66 05.04 S  079 27.74 E  1541    084731  66 05.10 S  079 27.38 E  1504    10.3  1552
 120 FSIcal     03 Mar 2006  092302  66 05.11 S  079 27.58 E  1476    095403  66 05.24 S  079 27.24 E  1522    104741  66 05.45 S  079 27.03 E  1570    12.1  1531
___________________________________________________________________________________________________________________________________________________________________



TABLE 2:  Cruise au0603 summary of samples drawn from Niskin bottles at 
          each station, including salinity (sal), dissolved oxygen (do), 
          nutrients (nut) (i.e. phosphate, nitrate+nitrite, silicate), 
          ammonia (NH3), dissolved inorganic carbon (dic) and alkalinity 
          (alk), oxygen-18 (^(18)O), particulate carbon and particulate 
          nitrogen and particulate silicate (POC/N/Si), dimethyl sulphide 
          (dms), HPLC (i.e. pigments), lugols iodine fixed algal counts 
          (lug), gluteraldehyde fixed samples for electron microscopy (em), 
          gluteraldehyde fixed samples for bacteria (gbac), carbon-14 
          (^(14)C), and viruses from Wright et al. group (vir). Note that 
          1=samples taken, 0=no samples taken, 2=surface sample only. 
          Additional biological parameters not listed in the table include 
          samples for flow cytometry, bacteria genetics, viruses sampled by 
          Danny Ashcroft, viscosity, and bio-optics. 
_____________________________________________________________________________________________

 stn  sal  do  nut  NH(3)  dic  alk  ^(18)O  POC/N/Si  dms  HPLC  lug  em  gbac  ^(14)C  vir
 ---  ---  --  ---  -----  ---  ---  ------  --------  ---  ----  ---  --  ----  ------  ---
  1   1    1   1    1      1    0    0       0         0    0     0    0   0     0       0
  2   1    1   1    1      1    2    1       0         1    1     0    0   0     0       0
  3   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
  4   1    1   1    1      1    2    1       0         1    1     1    0   0     0       0
  5   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
  6   1    1   1    1      1    2    1       0         0    1     1    0   0     0       0
  7   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
  8   1    1   1    1      1    2    1       0         0    1     1    0   0     0       1
  9   1    1   1    0      0    0    1       1         1    1     0    0   0     0       0
 10   1    1   1    1      1    2    1       0         0    1     1    1   0     0       1
 11   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
 12   1    1   1    1      1    2    1       0         1    1     1    0   0     0       1
 13   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
 14   1    1   1    1      1    2    1       0         0    1     1    0   0     0       1
 15   1    1   1    0      0    0    1       1         0    1     0    0   0     0       0
 16   1    1   1    1      1    2    1       0         0    1     1    0   0     0       1
 17   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
 18   1    1   1    1      1    2    1       0         1    1     0    0   0     0       1
 19   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
 20   1    1   1    1      1    2    1       0         0    1     0    1   0     0       1
 21   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
 22   1    1   1    1      1    2    1       0         1    1     0    0   0     0       0
 23   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
 24   1    1   1    1      1    2    1       0         0    1     1    1   0     0       1
 25   1    1   1    1      0    0    1       1         0    1     0    0   0     0       0
 26   1    1   1    1      1    2    1       0         1    1     1    1   0     0       1
 27   1    1   1    1      0    0    1       1         0    1     0    0   0     1       0
 28   1    1   1    1      1    2    1       0         0    1     1    0   0     0       1
 29   1    1   1    0      1    0    1       1         0    1     0    0   0     0       0
 30   1    1   1    1      1    1    1       0         0    1     1    1   0     1       1
 31   1    1   1    1      1    0    1       1         1    1     0    0   0     0       0
 32   1    1   1    1      1    2    1       0         0    1     0    0   0     1       1
 33   1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
 34   1    1   1    1      1    2    1       0         0    1     0    0   0     1       1
 35   1    1   1    1      1    0    1       1         1    1     0    0   0     0       0
 36   1    1   1    1      1    2    1       0         0    1     1    1   0     1       1
 37   1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
 38   1    1   1    1      1    2    1       0         0    1     0    0   0     0       0
 39   1    1   1    1      1    0    1       1         1    1     0    0   0     0       0
 40   1    1   1    1      1    2    1       0         0    1     0    1   0     1       0
 41   1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
 42   1    1   1    1      1    2    1       0         1    1     0    0   0     0       0
 43   1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
 44   1    1   1    1      1    2    1       1         1    1     0    0   0     0       0
 45   1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
 46   1    1   1    1      1    2    1       0         0    1     1    1   0     0       1
 47   1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
 48   1    1   1    1      1    2    1       0         1    1     0    0   0     0       1
 49   1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
 50   1    1   1    1      1    2    1       0         0    1     1    1   0     0       1
 51   1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
 52   1    1   1    1      1    2    1       0         0    1     0    0   0     0       0
 53   1    1   1    1      1    0    1       1         1    1     0    0   0     0       0
 54   1    1   1    1      1    2    1       0         0    1     1    0   0     1       1
 55   1    1   1    1      1    0    1       1         1    1     0    0   0     0       0
_____________________________________________________________________________________________


TABLE 2:  (cntd)
_____________________________________________________________________________________________

 stn  sal  do  nut  NH(3)  dic  alk  ^(18)O  POC/N/Si  dms  HPLC  lug  em  gbac  ^(14)C  vir
 ---  ---  --  ---  -----  ---  ---  ------  --------  ---  ----  ---  --  ----  ------  ---
  56  1    1   1    1      1    2    1       0         0    1     0    1   0     0       1
  57  1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
  58  1    1   1    1      1    0    1       0         0    1     1    1   0     1       1
  59  1    1   1    1      1    0    1       1         1    1     0    0   0     0       0
  60  1    1   1    1      1    2    1       1         0    1     0    0   0     1       0
  61  1    1   1    1      1    0    1       0         0    1     0    0   0     0       1
  62  1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
  63  1    1   1    1      1    2    1       0         0    1     0    1   0     1       0
  64  1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
  65  1    1   1    1      1    2    1       0         0    1     0    0   0     0       1
  66  1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
  67  1    1   1    1      1    2    1       0         0    1     0    0   0     0       0
  68  1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
  69  1    1   1    1      1    2    1       0         0    1     1    1   0     0       1
  70  1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
  71  1    1   1    1      1    2    1       1         0    1     1    1   0     1       1
  72  1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
  73  1    1   1    1      1    2    1       0         0    1     0    0   0     0       1
  74  1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
  75  1    1   1    1      1    1    1       0         0    1     1    1   0     0       1
  76  1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
  77  1    1   1    1      1    2    1       0         0    1     0    0   0     0       0
  78  1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
  79  1    1   1    1      1    2    1       0         0    1     0    0   0     1       1
  80  1    1   1    1      1    0    1       1         0    1     0    0   0     0       0
  81  1    1   1    1      1    2    1       0         0    1     0    0   0     0       0
  82  1    1   1    1      1    0    1       1         0    1     0    0   0     1       0
  83  1    1   1    1      1    2    1       0         0    1     1    0   0     0       1
  84  1    1   1    1      1    0    1       1         1    1     1    0   0     0       0
  85  1    1   1    1      1    2    1       0         0    1     0    1   0     1       0
  86  1    1   1    0      1    0    1       1         1    1     0    0   0     1       0
  87  1    1   1    0      1    2    1       0         0    1     1    0   0     0       1
  88  1    1   1    0      1    0    1       1         0    1     0    0   0     1       0
  89  1    1   1    0      1    2    1       0         0    1     1    0   0     0       1
  90  1    1   1    0      1    0    1       1         1    1     0    0   0     1       0
  91  1    1   1    0      1    2    1       0         0    1     0    1   0     0       1
  92  1    1   1    0      1    0    1       1         0    1     0    0   0     0       0
  93  1    1   1    0      1    2    1       0         0    1     1    0   0     1       1
  94  1    1   1    0      1    0    1       1         1    1     0    0   0     0       0
  95  1    1   1    0      1    2    1       0         0    1     0    0   0     0       1
  96  1    1   1    0      1    0    1       1         0    1     0    0   0     1       0
  97  1    1   1    0      1    2    1       0         0    1     1    1   0     0       1
  98  1    1   1    0      1    0    1       1         1    1     0    0   0     0       0
  99  1    1   1    0      1    2    1       1         1    1     0    0   0     1       0
 100  1    1   1    0      1    0    1       1         0    1     0    0   0     0       0
 101  1    1   1    0      1    2    1       1         0    1     0    0   0     0       0
 102  1    1   1    0      1    0    1       1         0    1     0    0   0     0       0
 103  1    1   1    0      1    1    1       1         0    1     0    0   1     0       1
 104  1    1   1    0      1    1    1       0         1    1     0    0   1     1       1
 105  1    1   1    0      1    0    1       1         0    1     0    0   1     0       1
 106  1    1   1    0      1    2    1       0         0    1     1    1   1     1       1
 107  1    1   1    0      1    0    1       1         0    1     0    0   1     0       1
 108  1    1   1    0      1    1    1       0         0    1     0    0   1     0       1
 109  1    1   1    0      1    0    1       1         1    1     0    0   1     1       1
 110  1    1   1    0      1    2    1       0         0    1     0    0   1     0       1
 111  1    1   1    0      1    0    1       1         0    1     0    0   1     1       1
 112  1    1   1    0      1    1    1       0         0    1     0    0   1     0       1
 113  1    1   1    0      1    0    1       1         1    1     0    0   1     0       1
 114  1    1   1    0      1    2    1       0         0    1     0    0   1     1       1
 115  1    1   1    0      1    1    1       1         1    1     0    0   1     0       1
 116  1    1   1    0      1    1    1       1         0    1     1    1   1     0       1
 117  1    1   1    0      1    1    1       1         1    1     0    0   1     1       1
 118  1    1   1    0      1    1    1       1         0    1     1    0   1     0       1
 119  1    0   0    0      0    0    0       0         0    0     0    0   0     0       0
 120  1    0   0    0      0    0    0       0         0    0     0    0   0     0       0
_____________________________________________________________________________________________



TABLE 3:  CTD serial 704 calibration coefficients and calibration dates for 
          cruise au0603. Note that platinum temperature calibrations are 
          for the ITS-90 scale. Pressure slope/offset, temperature and 
          conductivity values are from the CSIRO Division of Marine and 
          Atmospheric Research calibration facility. Remaining values are 
          manufacturer supplied.
______________________________________________________________________________________________

 Primary Temperature, serial 4248, 26/07/2005   Secondary Temperature, serial 4246, 26/07/2005
 --------------------------------------------   ----------------------------------------------
 G               : 4.3871123e-003               G               : 3.9792308e-003
 H               : 6.5052040e-004               H               : 6.2199100e-004
 I               : 2.2944734e-005               I               : 1.8925560e-005
 J               : 1.7823539e-006               J               : 1.6721644e-006
 F0              : 1000.000                     F0              : 1000.000
 Slope           : 1.00000000                   Slope           : 1.00000000
 Offset          : 0.0000                       Offset          : 0.0000

 Primary Conductivity, serial 2977, 26/07/2005  Secondary Conductivity, serial 2808, 26/07/2005
 ---------------------------------------------  -----------------------------------------------
 G             : -1.0699102e+001                G                : -9.2842298e+000
 H             : 1.4736757e+000                 H                :  1.4245489e+000
 I             : 3.3457988e-003                 I                :  1.1906212e-004
 J             : -1.8473099e-004                J                :  7.4562350e-005
 CTcor         : 3.2500e-006                    CTcor            :  3.2500e-006
 CPcor         : -9.57000000e-008               CPcor            : -9.57000000e-008
 Slope         : 1.00000000                     Slope            :  1.00000000
 Offset        : 0.00000                        Offset           :  0.00000


 Pressure, serial 89084, 23/07/2004             Oxygen, serial 0178, 26/07/2004
 ----------------------------------             -------------------------------
 C1          : -5.337692e+004                   Soc            : 5.2230e-001
 C2          : -5.768735e-001                   Boc            : 0.0000
 C3          : 1.541700e-002                    Offset        : -0.4914
 D1          : 3.853800e-002                    Tcor          : 0.0021
 D2          : 0.000000e+000                    Pcor           : 1.35e-004
 T1          : 2.984003e+001                    Tau           : 0.0
 T2          : -4.090591e-004
 T3          : 3.693030e-006                    Fluorometer, serial 296, 23/05/2005
 T4          : 3.386020e-009                    -----------------------------------
 T5          : 0.000000e+000                    Vblank          : 0.12
                                                Scale factor    : 7.000e+000

 (22/08/2005 for pressure slope/offset)         Transmissometer, serial 899DR
 --------------------------------------         -----------------------------
 Slope        : 1.00006101                      A0    : -0.0130705
 Offset         : 0.73719                       A1    : 0.214270
 AD590M     : 1.283280e-002              
 AD590B     : -9.705660e+000             
______________________________________________________________________________________________



TABLE 4:  CTD conductivity calibration coefficients. F(1) , F(2) and F(3) 
          are respectively conductivity bias, slope and station-dependent 
          correction calibration terms. n is the number of samples retained 
          for calibration in each station grouping; s is the standard 
          deviation of the conductivity residual for the n samples in the 
          station grouping. 
______________________________________________________________________________

 stn grouping       F(1)            F(2)            F(3)         n      σ 
 ------------  --------------  --------------  ---------------  ---  --------
 001 to 008    0.60848557E-02  0.99970030E-03  -0.52078625E-08  151  0.000830
 009 to 038    0.13009766E-01  0.99942691E-03  -0.88263702E-10  489  0.000794
 039 to 059    0.11348442E-01  0.99958755E-03  -0.19812640E-08  303  0.001237
 060 to 073    0.72429942E-02  0.99947385E-03   0.14586309E-08  248  0.001626
 074 to 120    0.41993984E-02  0.99971942E-03  -0.95881876E-10  791  0.000816
______________________________________________________________________________



TABLE 5:  Station-dependent-corrected conductivity slope term 
          (F(2) + F(2) . N), for station number N, and F(2) and F(3) the 
          conductivity slope and station-dependent correction calibration
          terms respectively.
_____________________________________________________________________________________________________

 stn  (F(2) + F(2) . N)    stn  (F(2) + F(2) . N)    stn  (F(2) + F(2) . N)    stn  F(2) + F(2) . N)
 ---  -----------------    ---  -----------------    ---  -----------------    ---  ----------------
   1   0.99969510E-03       31   0.99942417E-03       61   0.99956282E-03       91   0.99970820E-03
   2   0.99968989E-03       32   0.99942408E-03       62   0.99956428E-03       92   0.99970811E-03
   3   0.99968468E-03       33   0.99942400E-03       63   0.99956574E-03       93   0.99970803E-03
   4   0.99967947E-03       34   0.99942391E-03       64   0.99956720E-03       94   0.99970794E-03
   5   0.99967427E-03       35   0.99942382E-03       65   0.99956866E-03       95   0.99970786E-03
   6   0.99966906E-03       36   0.99942373E-03       66   0.99957012E-03       96   0.99970777E-03
   7   0.99966385E-03       37   0.99942364E-03       67   0.99957157E-03       97   0.99970769E-03
   8   0.99965864E-03       38   0.99942356E-03       68   0.99957303E-03       98   0.99970761E-03
   9   0.99942611E-03       39   0.99951028E-03       69   0.99957449E-03       99   0.99970752E-03
  10   0.99942603E-03       40   0.99950830E-03       70   0.99957595E-03      100   0.99970744E-03
  11   0.99942594E-03       41   0.99950631E-03       71   0.99957741E-03      101   0.99970735E-03
  12   0.99942585E-03       42   0.99950433E-03       72   0.99957887E-03      102   0.99970727E-03
  13   0.99942576E-03       43   0.99950235E-03       73   0.99958033E-03      103   0.99970718E-03
  14   0.99942567E-03       44   0.99950037E-03       74   0.99970963E-03      104   0.99970710E-03
  15   0.99942559E-03       45   0.99949839E-03       75   0.99970955E-03      105   0.99970701E-03
  16   0.99942550E-03       46   0.99949641E-03       76   0.99970946E-03      106   0.99970693E-03
  17   0.99942541E-03       47   0.99949443E-03       77   0.99970938E-03      107   0.99970684E-03
  18   0.99942532E-03       48   0.99949245E-03       78   0.99970930E-03      108   0.99970676E-03
  19   0.99942523E-03       49   0.99949046E-03       79   0.99970921E-03      109   0.99970668E-03
  20   0.99942514E-03       50   0.99948848E-03       80   0.99970913E-03      110   0.99970659E-03
  21   0.99942506E-03       51   0.99948650E-03       81   0.99970904E-03      111   0.99970651E-03
  22   0.99942497E-03       52   0.99948452E-03       82   0.99970896E-03      112   0.99970642E-03
  23   0.99942488E-03       53   0.99948254E-03       83   0.99970887E-03      113   0.99970634E-03
  24   0.99942479E-03       54   0.99948056E-03       84   0.99970879E-03      114   0.99970625E-03
  25   0.99942470E-03       55   0.99947858E-03       85   0.99970870E-03      115   0.99970617E-03
  26   0.99942461E-03       56   0.99947660E-03       86   0.99970862E-03      116   0.99970608E-03
  27   0.99942453E-03       57   0.99947461E-03       87   0.99970853E-03      117   0.99970600E-03
  28   0.99942444E-03       58   0.99947263E-03       88   0.99970845E-03      118   0.99970591E-03
  29   0.99942435E-03       59   0.99947065E-03       89   0.99970837E-03      119   0.99970583E-03
  30   0.99942426E-03       60   0.99956136E-03       90   0.99970828E-03      120   0.99970575E-03
_____________________________________________________________________________________________________



TABLE 6:  Surface pressure offsets (i.e. poff, in dbar). For each station, 
          these values are subtracted from the pressure calibration 
          "offset" value from Table 3. 
________________________________________________________________________

 stn  poff   stn  poff   stn  poff    stn  poff   stn  poff   stn  poff
 ---  ----   ---  ----   ---  -----   ---  ----   ---  ----   ---  ----
  1   0.50   21   0.20   41    0.02   61   0.07    81  0.10   101  0.37
  2   0.21   22   0.17   42   -0.02   62   0.12    82  0.15   102  0.33
  3   0.08   23   0.23   43    0.04   63   0.12    83  0.13   103  0.18
  4   0.09   24   0.24   44    0.32   64   0.24    84  0.15   104  0.21
  5   0.11   25   0.23   45    0.27   65   0.23    85  0.13   105  0.19
  6   0.05   26   0.28   46    0.16   66   0.17    86  0.18   106  0.20
  7   0.09   27   0.27   47    0.14   67   0.16    87  0.26   107  0.22
  8   0.11   28   0.33   48    0.06   68   0.14    88  0.23   108  0.16
  9   0.16   29   0.28   49    0.14   69   0.22    89  0.26   109  0.21
 10   0.26   30   0.33   50    0.17   70   0.26    90  0.18   110  0.23
 11   0.27   31   0.21   51    0.18   71   0.26    91  0.09   111  0.22
 12   0.29   32   0.28   52    0.17   72   0.18    92  0.14   112  0.21
 13   0.33   33   0.18   53    0.26   73   0.20    93  0.20   113  0.20
 14   0.28   34   0.30   54    0.28   74   0.18    94  0.12   114  0.23
 15   0.36   35   0.21   55    0.16   75   0.16    95  0.17   115  0.23
 16   0.30   36   0.27   56    0.14   76   0.26    96  0.17   116  0.23
 17   0.33   37   0.33   57    0.22   77   0.17    97  0.07   117  0.30
 18   0.21   38   0.16   58    0.19   78   0.18    98  0.21   118  0.29
 19   0.10   39   0.17   59    0.17   79   0.16    99  0.25   119  0.30
 20   0.17   40   0.08   60    0.15   80   0.11   100  0.29   120  0.53
________________________________________________________________________



TABLE 7:  CTD dissolved oxygen calibration coefficients for cruise au0603:
          slope, bias, tcor ( = temperature correction term), and pcor 
          ( = pressure correction term). dox is equal to 2.8σ , for σ as
          defined in the CTD Methodology. Note that coefficients are given 
          for both the shallow and deep part of the profile, according to 
          the profile split used for calibration.
______________________________________________________________________________________________________________

      ------------------------shallow-------------------   ----------------------deep------------------------
 stn   slope       bias      tcor       pcor      dox       slope      bias       tcor       pcor      do    
 ---  --------  ---------  ---------  --------  --------   --------  ---------  ---------  --------  --------
  1   0.652755  -0.416852   0.009799  0.000145  0.193244   0.497538  -0.218103   0.022524  0.000130  0.027116
  2   0.653810  -0.429028   0.022044  0.000132  0.179887   0.794188  -0.607257  -0.001306  0.000130  0.013078
  3   0.669730  -0.476656   0.046578  0.000158  0.161050   1.670758  -1.970783   0.015426  0.000364  0.043035
  4   0.684011  -0.507804   0.031222  0.000216  0.152964   0.474102  -0.054474  -0.035472  0.000022  0.040387
  5   0.660470  -0.458257   0.037197  0.000151  0.099698   0.200860   0.200178   0.057777  0.000107  0.040653
  6   0.664130  -0.453189   0.029405  0.000138  0.110466   0.703574  -0.495252   0.013746  0.000133  0.022050
  7   0.642075  -0.403848   0.015855  0.000133  0.162404   0.489549  -0.213434   0.054644  0.000125  0.042457
  8   0.616481  -0.356341   0.015693  0.000116  0.134772   0.495403  -0.205919   0.038437  0.000119  0.066180
  9   0.631571  -0.398517   0.022234  0.000131  0.118930   0.193519   0.198422   0.075632  0.000104  0.058706
 10   0.620268  -0.359728   0.009063  0.000123  0.074635   0.801764  -0.597336  -0.019204  0.000131  0.028403
 11   0.598171  -0.315438   0.002013  0.000120  0.136092   0.500658  -0.202125   0.031330  0.000125  0.028063
 12   0.606874  -0.342114   0.010893  0.000147  0.102842   0.500524  -0.200491   0.034404  0.000134  0.011065
 13   0.616549  -0.334505   0.008346  0.000152  0.083590   0.602834  -0.297027  -0.010808  0.000136  0.029179
 14   0.609348  -0.309621   0.001007  0.000142  0.096908   0.547868  -0.256211   0.052547  0.000155  0.050806
 15   0.620449  -0.330071   0.001473  0.000150  0.117867   0.603617  -0.296561  -0.000917  0.000136  0.016490
 16   0.600951  -0.287909  -0.005711  0.000131  0.162832   0.602477  -0.296491  -0.000050  0.000137  0.010429
 17   0.604975  -0.298162  -0.005566  0.000137  0.054926   0.603059  -0.297845   0.000522  0.000137  0.012943
 18   0.611651  -0.310447  -0.000605  0.000141  0.082575   0.548465  -0.220194   0.001507  0.000128  0.065723
 19   0.624048  -0.338570   0.005064  0.000153  0.085900   0.603465  -0.297339   0.002162  0.000137  0.027155
 20   0.601953  -0.291331  -0.006036  0.000134  0.081647   0.604283  -0.295594  -0.006702  0.000135  0.016391
 21   0.607320  -0.303626  -0.002029  0.000140  0.037882   0.571478  -0.243383  -0.015383  0.000126  0.017508
 22   0.606933  -0.302108  -0.003926  0.000139  0.121606   0.679815  -0.435171   0.050391  0.000176  0.034819
 23   0.497234  -0.129109  -0.019167  0.000106  0.037859   0.553805  -0.202877  -0.045724  0.000112  0.015802
 24   0.604866  -0.296325  -0.005579  0.000137  0.075179   0.551469  -0.206584  -0.030505  0.000116  0.015895
 25   0.611564  -0.303277  -0.008937  0.000133  0.175248   0.603739  -0.296462  -0.008397  0.000136  0.016062
 26   0.607867  -0.305531  -0.001651  0.000142  0.193981   0.603659  -0.296155   0.005274  0.000137  0.016972
 27   0.611695  -0.305354  -0.002364  0.000134  0.136342   0.604025  -0.296690  -0.002167  0.000136  0.019580
 28   0.441625  -0.040731  -0.038812  0.000088  0.198870   0.596224  -0.278708  -0.012324  0.000129  0.047241
 29   0.606304  -0.298373  -0.005789  0.000136  0.076852   0.604678  -0.295820  -0.001486  0.000135  0.012172
 30   0.600522  -0.292956  -0.003656  0.000139  0.038336   0.482959  -0.092064  -0.072161  0.000093  0.033108
 31   0.481758  -0.100581  -0.031258  0.000100  0.098810   0.605291  -0.297417   0.002152  0.000137  0.031703
 32   0.605307  -0.305697   0.000708  0.000144  0.174340   0.603867  -0.296606  -0.007932  0.000136  0.013205
 33   0.506181  -0.141709  -0.023420  0.000109  0.078817   0.603142  -0.297267   0.009979  0.000138  0.013629
 34   0.674393  -0.418004   0.014412  0.000163  0.201932   0.556595  -0.227713   0.003282  0.000128  0.044618
 35   0.425775  -0.008091  -0.041782  0.000083  0.278395   0.600843  -0.295747   0.024181  0.000140  0.033884
 36   0.572987  -0.250838  -0.002823  0.000131  0.187225   0.604056  -0.295987  -0.007590  0.000135  0.013263
 37   0.651226  -0.380097   0.003912  0.000161  0.261881   0.590272  -0.261340  -0.033124  0.000121  0.020805
 38   0.606917  -0.304512  -0.007528  0.000144  0.163422   0.565429  -0.226094  -0.038219  0.000118  0.022693
 39   0.542564  -0.199096  -0.015979  0.000119  0.248078   0.597404  -0.299401   0.105410  0.000149  0.019058
 40   0.596777  -0.290404  -0.006295  0.000142  0.171317   0.603359  -0.295104  -0.010357  0.000136  0.024746
 41   0.523074  -0.157965  -0.018801  0.000100  0.101439   0.523074  -0.157965  -0.018801  0.000100  0.101439
 42   0.753569  -0.565740   0.030918  0.000250  0.244201   0.753569  -0.565740   0.030918  0.000250  0.244201
 43      -          -          -         -         -          -          -          -         -         -
 44   0.297723   0.666462   0.207927  0.000013  0.064569   0.297723   0.666462   0.207927  0.000013  0.064569
 45   0.591743  -0.289417   0.001884  0.000142  0.107771   0.566507  -0.240407  -0.018413  0.000126  0.022519
 46   0.515432  -0.155865  -0.020066  0.000106  0.132540   0.689684  -0.480881   0.123670  0.000204  0.054072
 47   0.612795  -0.321984   0.001446  0.000148  0.160034   0.601484  -0.297538  -0.003295  0.000137  0.009715
 48   0.596912  -0.299352   0.001393  0.000145  0.094305   0.604663  -0.296480  -0.014746  0.000134  0.019194
 49   0.563741  -0.249019   0.000657  0.000137  0.114220   0.685792  -0.446500   0.054654  0.000177  0.019897
 50   0.600806  -0.294675  -0.006552  0.000135  0.157640   0.601274  -0.297353  -0.001412  0.000137  0.016019
 51   0.598651  -0.297996  -0.000556  0.000141  0.038654   0.601152  -0.297928  -0.006161  0.000138  0.024874
 52   0.577671  -0.264776  -0.011079  0.000138  0.187041   0.594936  -0.301189   0.025205  0.000147  0.054034
 53   0.610524  -0.325717  -0.002052  0.000160  0.210539   0.601831  -0.297796  -0.009560  0.000137  0.007939
 54   0.603678  -0.307178  -0.004542  0.000147  0.132689   0.299889   0.099303   0.097307  0.000131  0.009856
 55   0.596082  -0.294671  -0.003413  0.000143  0.145980   0.903046  -0.696019  -0.057099  0.000139  0.006375
 56   0.598722  -0.285248   0.002495  0.000116  0.177874   0.598722  -0.285248   0.002495  0.000116  0.177874
 57   0.566481  -0.229158  -0.003994  0.000070  0.185430   0.566481  -0.229158  -0.003994  0.000070  0.185430
 58   0.573139  -0.205219   0.021613  0.000098  0.128024   0.573139  -0.205219   0.021613  0.000098  0.128024
 59   0.647191  -0.463655  -0.047252  0.000269  0.059516   0.647191  -0.463655  -0.047252  0.000269  0.059516
 60   0.603196  -0.293128  -0.007540  0.000132  0.111865   0.602583  -0.296691  -0.005734  0.000136  0.014881
 61   0.599644  -0.299499   0.000837  0.000140  0.099733   0.599803  -0.298521  -0.002396  0.000139  0.012022
 62   0.583824  -0.247515  -0.027634  0.000112  0.035156   0.604178  -0.297368  -0.009886  0.000134  0.055011
 63   0.622449  -0.352013   0.024063  0.000163  0.184615   0.599301  -0.298173   0.003797  0.000140  0.030850
 64   0.604973  -0.307364  -0.003781  0.000145  0.105261   0.601857  -0.297417  -0.013183  0.000136  0.020213
 65   0.602963  -0.301313  -0.005471  0.000143  0.113575   0.455733  -0.056124  -0.143921  0.000082  0.013079
 66   0.600203  -0.297123  -0.007865  0.000139  0.143704   0.490932  -0.108626  -0.143385  0.000087  0.009735
______________________________________________________________________________________________________________


TABLE 7:  (cntd)
______________________________________________________________________________________________________________

      ---------------------shallow----------------------   -------------------deep---------------------------
 stn   slope       bias       tcor      pcor      dox       slope      bias       tcor       pcor       do   
 ---  --------  ---------  ---------  --------  --------   --------  ---------  ---------  --------  --------
  67  0.605310  -0.304206  -0.009937  0.000138  0.118820   0.370663   0.102580  -0.307390  0.000035  0.019258
  68  0.697366  -0.506755  -0.011861  0.000260  0.102049   0.697366  -0.506755  -0.011861  0.000260  0.102049
  69  0.375713   0.190276   0.026137  0.000003  0.092151   0.375713   0.190276   0.026137  0.000003  0.092151
  70  0.303615   0.363771   0.052605  0.000015  0.065590   0.303615   0.363771   0.052605  0.000015  0.065590
  71  0.508509  -0.085413   0.009181  0.000058  0.050672   0.508509  -0.085413   0.009181  0.000058  0.050672
  72  0.605223  -0.304944  -0.006197  0.000143  0.132656   0.687225  -0.449278   0.043325  0.000177  0.034410
  73  0.599973  -0.304178  -0.005388  0.000147  0.105875   0.607212  -0.294662  -0.030051  0.000133  0.050940
  74  0.618572  -0.352913   0.022386  0.000165  0.024913   0.599063  -0.300304  -0.001880  0.000139  0.016806
  75  0.618511  -0.346235   0.011201  0.000160  0.105645   0.596940  -0.303263   0.005534  0.000143  0.027972
  76  0.620842  -0.349926   0.012375  0.000167  0.175265   0.598596  -0.299286   0.007775  0.000141  0.035382
  77  0.597980  -0.298170   0.003350  0.000140  0.100016   0.629859  -0.338363  -0.000071  0.000142  0.035386
  78  0.588936  -0.281352  -0.004631  0.000137  0.159051   0.602466  -0.298390  -0.007297  0.000136  0.009556
  79  0.588599  -0.272385  -0.001915  0.000120  0.132707   0.450622  -0.065108  -0.068371  0.000103  0.105367
  80  0.604353  -0.310046  -0.000709  0.000147  0.158210   0.553485  -0.216431  -0.008198  0.000120  0.017316
  81  0.570763  -0.247056  -0.004529  0.000128  0.137514   0.570763  -0.247056  -0.004529  0.000128  0.137514
  82  0.511558  -0.096292   0.005107  0.000023  0.227326   0.511558  -0.096292   0.005107  0.000023  0.227326
  83  0.510396  -0.072678   0.027873  0.000085  0.068433   0.510396  -0.072678   0.027873  0.000085  0.068433
  84  0.570697  -0.230352  -0.002830  0.000108  0.124031   0.570697  -0.230352  -0.002830  0.000108  0.124031
  85  0.547824  -0.183512   0.004795  0.000117  0.064202   0.547824  -0.183512   0.004795  0.000117  0.064202
  86  0.591769  -0.286439  -0.002960  0.000131  0.129514   0.599868  -0.299521  -0.009938  0.000137  0.012667
  87  0.625004  -0.356896   0.008294  0.000168  0.160091   0.603100  -0.296711  -0.007172  0.000135  0.010458
  88  0.601416  -0.306277   0.004289  0.000142  0.114731   0.601677  -0.297657  -0.004480  0.000137  0.015879
  89  0.602600  -0.310617   0.005244  0.000148  0.101107   0.601707  -0.297947  -0.007258  0.000136  0.007543
  90  0.607763  -0.314725   0.000526  0.000148  0.097458   0.602825  -0.297146  -0.007817  0.000135  0.007344
  91  0.586840  -0.268034  -0.003737  0.000121  0.174229   0.601409  -0.298020   0.004027  0.000137  0.005347
  92  0.597519  -0.293590  -0.004623  0.000139  0.093166   0.604054  -0.295883  -0.015066  0.000132  0.014515
  93  0.599533  -0.297223  -0.009178  0.000141  0.165715   0.946965  -0.859477   0.084971  0.000265  0.004955
  94  0.597052  -0.290942   0.004882  0.000134  0.108387   0.603024  -0.296559  -0.009702  0.000134  0.031953
  95  0.612679  -0.321346  -0.003832  0.000149  0.113507   0.574600  -0.136006  -0.175431  0.000021  0.027745
  96  0.605893  -0.308061  -0.006174  0.000143  0.054024   0.288212   0.267549  -0.140394  0.000001  0.016164
  97  1.454430  -2.126514  -0.153056  0.000784  0.121560      -          -          -         -         -
  98  0.546056  -0.185231  -0.001644  0.000053  0.172478   0.546056  -0.185231  -0.001644  0.000053  0.172478
  99  0.572271  -0.248816  -0.000119  0.000208  0.165633   0.572271  -0.248816  -0.000119  0.000208  0.165633
 100  0.517196   0.001072   0.079250  0.000165  0.101136   0.517196   0.001072   0.079250  0.000165  0.101136
 101  0.625130  -0.246245   0.063866  0.000166  0.118148   0.625130  -0.246245   0.063866  0.000166  0.118148
 102  0.555191  -0.211816  -0.004539  0.000134  0.085224   0.555191  -0.211816  -0.004539  0.000134  0.085224
 103  0.592115  -0.283174  -0.010276  0.000129  0.125568   0.602435  -0.298428  -0.011751  0.000131  0.031424
 104  0.614509  -0.350635   0.014669  0.000165  0.187176   1.125279  -1.049072  -0.058620  0.000244  0.004938
 105  0.604459  -0.318983  -0.000385  0.000148  0.121836   0.602151  -0.298807  -0.007945  0.000130  0.024139
 106  0.596318  -0.324288   0.021392  0.000150  0.140398   0.596474  -0.303039  -0.003484  0.000140  0.010927
 107  0.587203  -0.277545  -0.009392  0.000129  0.096931   0.597193  -0.302668  -0.001083  0.000141  0.013531
 108  0.595608  -0.304058   0.004371  0.000147  0.075133   0.601981  -0.298302  -0.012235  0.000135  0.009206
 109  0.600617  -0.307316  -0.002693  0.000145  0.169045   0.600348  -0.299597  -0.009992  0.000137  0.014380
 110  0.597901  -0.299653  -0.001489  0.000140  0.114600   0.601728  -0.298972  -0.009008  0.000135  0.029764
 111  0.591275  -0.286424  -0.000584  0.000135  0.188512   0.599104  -0.300809  -0.000619  0.000139  0.015369
 112  0.586880  -0.277070  -0.006406  0.000132  0.098578   0.955418  -1.100285   0.491995  0.000703  0.013512
 113  0.603500  -0.303530  -0.000368  0.000135  0.120229   0.601896  -0.297967  -0.007119  0.000134  0.004760
 114  0.600480  -0.303178  -0.004469  0.000138  0.148337   0.394864  -0.007404   0.009988  0.000115  0.017344
 115  0.594421  -0.293862  -0.005063  0.000146  0.133443   0.594421  -0.293862  -0.005063  0.000146  0.133443
 116  0.600301  -0.302078  -0.010212  0.000122  0.137565   0.600301  -0.302078  -0.010212  0.000122  0.137565
 117  0.720728  -0.679434  -0.099457  0.000341  0.114207   0.720728  -0.679434  -0.099457  0.000341  0.114207
 118  0.496520  -0.122527  -0.031029  0.000036  0.119947   0.496520  -0.122527  -0.031029  0.000036  0.119947
 119      -         -          -         -         -          -          -          -         -         -   
 120      -         -          -         -         -          -          -          -         -         -   
______________________________________________________________________________________________________________



TABLE 8:  Suspect dissolved oxygen bottle values (not deleted from bottle 
          data file). 
          __________________________________
          
           station number  rosette position
           --------------  ----------------
                 3              6
                28              3
                85             11
               116             10, 12
          __________________________________



TABLE 9:  Suspect CTD 2 dbar averages (not deleted from the CTD 2dbar 
          average files) for the indicated parameters: T=temperature; 
          S=salinity and conductivity; O=oxygen; F=fluorsecence.
          _________________________________________
          
           station     questionable     parameters
           number   2 dbar value(dbar)  
           -------  ------------------  ----------
             23           2-28              O
             31           2-18              O
             39           2-20              O
             41           2-18              O
             42           2-18              O
             62          34-64              O
             73          50-56              O
             83           2-12              O
             97          38-62              O
            101           2-18              O
            102           2-24              O
            115           2-16              O
            117           2-20              O
          _________________________________________



TABLE 10:  Suspect nutrient sample values (not deleted from bottle data 
           file) for cruise au0603.
           ___________________________________________________________
           
                PHOSPHATE            NITRATE            SILICATE
            station  rosette    station   rosette   station  rosette 
            number   position   number   position   number   position
            -------  --------   -------  ---------  -------  --------
              5       5           5       5
                                                      6       9,14
              7       4                               7       4
              9       3                               9       3
                                                     11       2
                                                     13      16
                                 15      19,20,21
                                 19      21,24       19      15
             22       5          22       5          22       5
             26       5          26       5          26       5
             28      21
             30       5
                                                     34       5
                                                     41       7
                                                     45      12
                                 46      whole stn   46      15
             47      14          47      14          47      14
             50       8
             52      20
             65       8,11
             73      10                  73          10   
                                 82      whole stn
                                 83      whole stn
                                 84      whole stn
                                 85      whole stn
                      86      whole stn
            108       4,6       108       7         108       4
            110      20         110      21
           ___________________________________________________________



TABLE 11:  ADCP logging and calibration parameters for cruise au0603.
_______________________________________________________________________________

 ping parameters              bottom track ping parameters    
 -----------------------      ---------------------------------------
 no. of bins:    60           no. of bins:  128    
 bin length:     8 m          bin length:   4 m    
 pulse length:   8 m          pulse length: 32 m    
 delay:          4 m 
 ping interval:  minimum      ping interval:  same as profiling pings

 reference layer averaging:   bins 8 to 20
 XROT:                        822
 ensemble averaging duration: 3 min. (for logged data)
                              30 min. (for final processed data)

 calibration
 -----------------------------------------------------------------------------
 α(± standard deviation)  1+β(± standard deviation)  no. of calibration sites
 -----------------------  -------------------------  -------------------------
      2.436 ± 0.525            1.0509 ± 0.010                  229  
_______________________________________________________________________________




FIGURE 1a: CTD station positions and ship's track for cruise au0603.
FIGURE 1b: CTD station positions and ship's track for cruise au0603, BROKE 
           West survey area, including depth contours from GEBCO2003 
           bathymetry.
FIGURE 2:  Conductivity ratio c(btl)/c(cal) versus station number for 
           cruise au0603. The solid line follows the mean of the residuals 
           for each station; the broken lines are ± the standard deviation 
           of the residuals for each station. C(cal) = calibrated CTD 
           conductivity from the CTD upcast burst data; c(btl) = 'in situ' 
           Niskin bottle conductivity, found by using CTD pressure and 
           temperature from the CTD upcast burst data in the conversion of 
           Niskin bottle salinity to conductivity.
FIGURE 3:  Salinity residual (s(btl) - s(cal)) versus station number for 
           cruise au0603. The solid line is the mean of all the residuals; 
           the broken lines are ± the standard deviation of all the 
           residuals. S(cal) = calibrated CTD salinity; s(btl) = Niskin 
           bottle salinity value.
FIGURE 4:  Difference between primary and secondary temperature sensor 
           (t(¬D) - t(S)) for CTD upcast burst data from Niskin bottle 
           stops, for cruise au0603.
FIGURE 5:  Dissolved oxygen residual (o(ptl) - o(cal)) versus station 
           number for cruise au0603. The solid line follows the mean 
           residual for each station; the broken lines are ± the standard 
           deviation of the residuals for each station. O(cal)=calibrated 
           downcast CTD dissolved oxygen; o(ptl)=Niskin bottle dissolved 
           oxygen value. Note: values outside vertical axes are plotted on 
           axes limits.
FIGURE 6a and b:  au0603 hull mounted ADCP 30 minute ensemble data, for (a) 
           whole cruise track, and (b) BROKE West survey area.
FIGURE 7:  au0603 apparent ADCP vertical current shear, calculated from 
           uncorrected (i.e. ship speed included) ADCP velocities. The data 
           are divided into different speed classes, according to ship 
           speed during the 30 minute ensembles. For each speed class, the 
           profile is an average over the entire cruise.
FIGURE 8a and b:  au0603 comparison between (a) CTD and underway 
           temperature data (i.e. hull mounted temperature sensor), 
           and (b) CTD and underway salinity data (i.e. Tilbrook's 
           lab 1 SeaBird), including bestfit lines. Note: dls refers 
           to underway data.




___________________________________________________________________________________________
___________________________________________________________________________________________




CCHDO DATA PROCESSING NOTES

Date        Contact     Data Type    Action           Summary
----------  ----------  -----------  ---------------  ---------------
2007-12-12  Rosenberg   CTD/BTL/SUM  Submitted        Data are public
            Detailed Notes
              Status:    public
              Name:      Rosenberg, Mark
              Institute: ACECRC
              Country:   Australia
              Expo:      09AR0603 (BROKE WEST SURVEY)
              Date:      2006-01-02
              Action:    Place Online 

2008-11-21  Bartolocci  CTD/BTL/SUM  Website Updated  Data Reformatted/Online
            BOTTLE:
            • sent in exchange format. Edited the SECT-ID from BROKEW to S04I 
              based on cruise track and former WOCE line geography.  Did not 
              edit the TEST or AMcal station designations.
            • edited expocode from 09AR0603_1 to 09AR20060102
            • Added date/name stamp
            • changed name from a0603.sea to s04i_09ar20060102_hy1.csv
            • added needed first header line of:
              BOTTLE:20081103CCHDOSIODBK
            • added END_DATA line at end of file.
            • CTDFLUORO,CTDFLUORO_FLAG_W was edited to CTDFLUOR,CTDFLUOR_FLAG_W 
              in header line to adhere to WOCE parameter naming conventions.
            
            SUM:
            • sent in woce format.
            • edited EXPOCODE from 09AR0603/1 to 09AR20060102.
            • edited SECT_ID from BROKEW to S04I
            • removed leading zero from station numbers to match bottle file 
              station numbers.
            • added date/name stamp and WOCE_ID to header.
            • renamed file from a0603.sum to s04i_09ar20060102su.txt
            • format checked file with sumcheck. No errors reported.
            
            CTD:
            • All files contain non-WOCE parameters and their flags which 
              appear to be in raw voltages: PAR, TRANS
            • changed SECT_ID from BROKEW to S04I
            • changed EXPOCODE from 09AR0603_1 to 09AR20060102
            • removed leading zero from station numbers to match sum and bottle 
              file station numbers.
            • edited name/date stamp
            • edited FLUORO and FLUORO_FLAG to read FLUOR and FLUOR_FLAG
            • edited all names to conform to post-WOCE naming convention
            • zipped all files and named zip file s04i_09ar20060102_ct1.zip
            • ctd files were not readable by JOA.
            
            Placed all files in new cruise directory. Emailed reformatting notes 
            to J. Kappa. 

