If symbols do not display correctly change your browser character encoding to unicode CRUISE REPORT: PR11 and PR13N HIGHLIGHTS Cruise Summary Information WOCE section designation PR11, PR13N Expedition designation (EXPOCODE) 09FA290_2 09FA290_1 Chief Scientists John A. Church/CSIRO Andrew Forbes Dates 1990 FEB 26 - 1990 APR 07 Ship name R/V Franklin Ports of call Hobart, Brisbane, Newcastle Number of stations 306 25° 0.01’ S Geographic boundaries of stations 148° 3.86’ E 172° 54.61’ E 43° 54.04’ S Floats and drifters deployed 0 Moorings deployed or recovered 0 Contact Information John A. Church Commonwealth Scientific and Industrial Research Organisation Environment Strategies Directorate Department of Environment, Sport and Territories GPO Box 787 • Castray Esplanade • Canberra, ACT • 2601 • AUSTRALIA Tel: 61-06-274-1461 (switchboard 61-06-274-1111) • Fax: 61-06-274-1439 Email: jchurch@mgdestmx01.erin.gov.au Andrew Forbes CSIRO Division of Oceanography Marine Laboratories G.P.O. Box 1538 • Castray Esplanade • Hobart, Tasmania • 7001 • AUSTRALIA Tel: 61-02-206222 • Fax: 61-02-240530 Scientific Objectives a To estimate the volume transport (and its time variability) of the EAC along the east Australian coast and in the Tasman Front using CTD, ADCP and current meter moorings. b To determine the large-scale general circulation of the Tasman Sea using patterns of tracers (temperature, salinity, oxygen and nutrients) and of density to estimate geostrophic circulation. c To determine temporal changes in surface pressure gradient between two pints on the Lord Howe Rise, one at 28 S and the other at 38 S using two independent methods (steric height estimate and GEOSAT altimetry). Cruise Narrative The first CTD station was commenced at 1730 and then we proceeded east along 43° 15'S (WOCE section PR13N). Duplicate samples were taken at depth to test for bottle leaks and two nutrient samples were taken from each bottle (one filtered and one unfiltered) to try and determine the cause of the variability in the nutrient concentrations observed on Fr10/89. Some samples were also analyzed without freezing. The CTD wire snagged on a protruding screw at 4,800m on one station and a single strand was broken. After this, 3 CTD stations were not taken right to the bottom. The 43° 15'S section was completed on Monday, March 5. The section north from Cape Reinga was commenced on March 8. This section was finished and the 28° 15'S section commenced on Sunday, March 11. This section was finished at Evans Head on Sunday, March 18 and then we steamed to Brisbane. These two sections are WOCE section PR11. Mostly good weather was experienced during this leg except about a day was lost because of bad weather associated with ex-cyclone Hilda. Franklin left Brisbane at 0910 and after letting off the pilot steamed south to the first mooring. A southerly wind slowed our progress but overnight the wind eased and the swell moderated. The first mooring was on deck at 1100 March 21. The top current meter was full of water and there was a G-clamp missing. The second mooring was on deck by l530 and the third 1930. We then steamed west to the coast doing an ADCP section overnight before starting mooring work again tomorrow morning. On Thursday morning, March 22, mooring recoveries went well. The spindle on the top current meter on the 500 m mooring was broken so we lost that current meter and the near-surface flotation. The 40 m isobath mooring was north of its correct position but was recovered. The 60 m isobath mooring was not responding. A fisherman suggested he had caught it and dragged it 3 miles south. We then instigated a search pattern to be completed during the night. The overnight search for the missing mooring was not successful so we went back to where the fisherman thought it was and fired the release. We then searched unsuccessfully for l.5 hours and we were on the way back to the mooring site to try firing it again when the mooring was spotted on the surface and was recovered by 0830. It must have been in the position where it was originally deployed. We then steamed north to Fraser Island and started the CTD section toward the southeast. A strong southeasterly meant that in between stations we were steaming at between 4 and 8 knots for several days. During this time we rearranged some of the locations of the CTD stations to try and save time. Eventually on March 28 the wind decreased and for the remainder of the cruise we had good weather. The first dynamic height mooring was recovered on the morning of March 29. We then continued south completing CTD stations. The second dynamic height mooring was recovered on April l. We then completed the few remaining stations on the Lord Howe Rise section before starting the final CTD section westward towards Newcastle. On the first station of this section we had problems with the CTD wire spooling. Because of the time lost in the early part of the cruise, this section was done along 36 S to 157 E and thence to Newcastle, with coarser sampling than originally planned. We completed this section on Saturday 7 and then steamed to Newcastle. The most serious problem experienced on cruise Fr10/89 was the variability of the deep nutrient data. During Fr2/90, duplicate and triplicate samples were taken and 2 bottles were fired at a number of depths but no anomalies were found. The possibility that the tubes for the nutrient samples were overfilled was then tested. All tubes that were purposely overfilled produced anomalous values. No difference was found between frozen and unfrozen (i.e. analyzed fresh) samples. The nutrient data all appear to be of high quality. Results A total of l43 CTD stations were completed during Fr 2/90 and l63 during Fr l0/89. Not all of the CTDs were top the bottom because of the damage to the wire at 4750 m. A total of l54 XBTs were dropped. The ADCP operated continuously and appeared to give excellent results. Some of the uncalibrated CTD data as well as the nutrient and ADCP data were plotted during the cruise. At 28 S, the CTD/ADCP section indicated a strong southward flow of the East Australian Current (EAC). As on Fr10/89, some of this flow appeared to return northward further offshore. An eastward flow was seen on the section north of New Zealand and on the section along the Lord Howe Rise. On the 43 S section, there was some indication of southward flow, or at least a southward meander, of the East Australian Current. The signature of the different deep basins (the Tasman Sea, the New Caledonia Basin and the Fiji Basin) is clearly evident in the deep O/S (and O/O2) data. As on Fr l0/89, the Antarctic Intermediate Water had a considerable variability (and indicated interleaving of different salinity water). CTD Measurements The CTD used throughout this RV Franklin cruise Fr 2/90 was CSIRO CTD No.1 (A Neil Brown Instrument Systems MkIII B profiler. Salinity Measurements The water samples salinities were measured with a YeoKal Model 601MkIII Inductive Salinometer that was standardized daily with IAPSO Standard Sea Water. Oxygen Measurements The method used is a modified Winkler titration. All oxygen values (bottle and CTD) are converted from µmol/1 to /kg using the salinity and in-situ temperature at the time the Niskin bottle was closed. Nutrient Analyses Samples are collected in 15 polypropylene tubes and frozen for up to one week before analysis using a Technicon AA2 system. Table: Cruise Participants Leg 1 Name Responsibility Affiliation --------------------------------------------------------- Andrew Forbes Chief Scientist CSIRO DO Dave Vaudrey CTD/Hydrology CSIRO DO Tony Worby XBTs CSIRO DO Ken Suber Computing CSIRO DO Ron Plaschke Nutrients/Salts/DOs CSIRO DO Gary Critchley Nutrients/Salts/DOs CSIRO DO Erik Madsen Electronics CSIRO DO Rosemary Morrow Watch Stander OSI, Uni Sydney John Luick Watch Stander OSI, Uni Sydney Leg 2 Name Responsibility Affiliation ---------------------------------------------------------- John Church Chief Scientist CSIRO DO Neil White Computing/CTD CSIRO DO Dave Edwards Electronics CSIRO DO Ron Plaschke Nutrients/Salts/DOs CSIRO DO Val Latham Nutrients/Salts/DOs CSIRO DO Fred Boland Moorings/CTD Watch CSIRO DO Kevin Miller Moorings/CTD Watch CSIRO DO Bob Edwards Watch Stander CSIRO DO Caroline Langley Watch Stander CSIRO DO Xu Peng Watch Stander OSI, Uni Sydney Kat Warmus Watch Stander OSI, Uni Sydney References Owens, W. Brechner and Robert C. Millard, Jr. "A New Algorithm for CTD Oxygen Calibration" Journal of Physical Oceanography, 15, 621-631. l985. WHPO DATA PROCESSING NOTES PR13N Date Contact Data Type Data Status Summary -------- ---------- ------------ --------------- ---------------------- 05/08/00 Forbes BTL Data are Public See note: You have my permission to make my WOCE data specified below publicly available. PR13 09FA290_1 BTL 06/28/00 Buck BTL/SUM Data Update See Note: I changed the sum and bot files to reflect that leg 1 corresponds to line PR13 and that leg 2 corresponds to line PR11. 12/11/00 Uribe DOC Submitted 2000.12.11 KJU File contained here is a CRUISE SUMMARY and NOT sumfile. Documentation is online. 2000.10.11 KJU Files were found in incoming directory under whp_reports. This directory was zipped, files were separated and placed under proper cruise. All of them are sum files. Received 1997 August 15th. 05/30/02 Uribe CTD Website Updated CSV File Added CTD was converted to exchange and put online. Inventory file and netcdf code were run. Data in pr11_b directory. PR11 Date Contact Data Type Data Status Summary -------- ---------- ------------ --------------- ---------------------- 06/28/00 Bartolacci BTL/SUM Website Update Data Online I changed the sum and bot files to reflect that leg 1 corresponds to line PR13 and that leg 2 corresponds to line PR11. 07/19/02 Uribe CTD Website Update Errors in CTD corrected Some CTD files had the wrong leg in the expocode. They were matched with the sumfile. Changes online. 07/30/02 Uribe BTL/SUM Website Update BTL converted to exchange Sumfile was reformatted. Columns were aligned. EVENT CODE, NAV and UNC DEPTH were added in the header. The appropriate values for unknown data were filled in for the file to contain the necessary elements in the header. Bottle was converted to exchange and put online. NetCDF files were made accordingly. 09/11/02 Uribe CTD Website Update Exchange, netcdf corrected CTD exchange files contained an error caused an unattended error in the sumfile. The files were remade along with the netcdf files. The new files were plotted and the latitude and longitude values are now accurate.