A. CRUISE NARRATIVE: AR13 AND AR27 A.1. HIGHLIGHTS WHP CRUISE SUMMARY INFORMATION WOCE section designation AR13 and AR27 Expedition designation (EXPOCODE) 06AZ172 Chief Scientist/affiliation Monika Rhein/IfMK* Dates 1998.Jul.14 - 1998.Jul.30 Ship RV Valdivia Ports of call unknown Number of stations 47 59°N Geographic boundaries of the stations 58°W 42°W 46°N Floats and drifters deployed unknown Moorings deployed or recovered unknown Contributing Authors M. Rhein *Institut für Meereskunde ~ 24105 Kiel ~ Germany now at Institut für Ostseeforschung ~ 18119 Rostock ~ Germany email: monika.rhein@io-warnemuende.de ~ mrhein@ifm.uni-kiel.de CFC-Lab: Martina Elbrächter and Kristin Bahrenfuss Institut für Meereskunde ~ 24105 Kiel ~ Germany email:melbraechter@ifm.uni-kiel.de SUBPOLAR NORTH ATLANTIC CHLOROFLUOROCARBONS: LABRADOR SEA (Monika Rhein) 12/21/2000 SAMPLE COLLECTION AND TECHNIQUE The water samples were drawn from precleaned 10 L Niskin bottles with gas tight 100 mL glass syringes (Becton and Dickinson). CFCs were measured on board with a GC-ECD (Electron Capture Detector) technique first described by Bullister and Weiss [1988]. About 15-25 mL were transferred to a purge and trap unit. The CFCs were separated on a packed stainless steel column filled with Porasil C and detected with an ECD. The carrier gas is ECD pure Nitrogen, which was additionally cleaned by molsieves (13X mesh 80/100). All 'O' rings and valves as well as the nylon stopcocks (of the syringes) were removed and washed in isopropanol and baked in a vacuum oven for 24 hours prior the cruise. The Niskin bottles were cleaned with isopropanol. The rubber bands on all bottles were replaced by stainless steel springs. The personnel for all water sampling and handling procedures at the bottles wore one-way gloves to protect the valves from grease. A standard gas (kindly provided by D. Wallace, IfM Kiel) was used to convert the ECD signal in concentrations. The CFC concentrations are reported in pmol kg-1 on the SIO93 scale (R. Weiss, SIO). PERFORMANCE The cruise was split into three legs. During the first leg (stations 1-12) mooring work were carried out, and the CFC system was not on board. On leg 2 (stations 13-48), the Kiel CFC system worked continuously and a total of 410 CFC-12 and 510 CFC-11 water samples were measured. The survey was dedicated to the circulation of the deep water masses. During periods of dense station spacing, sampling was focused on the water column below 800 m depth. Accuracy of the data was checked by analysing 70 CFC-11 and 47 CFC-12 samples twice and the mean rms was 0.8% for CFC-12 and 0.6% for CFC-11 (Figure 1). The system and syringe blanks were checked by purging ECD clean Nitrogen permanently through 5 L seawater. The blanks were lower than 0.005 pmol kg-1 for both components. As no CFC poor water is available in the western subpolar North Atlantic, the Niskin bottle blanks could not be checked directly. On our cruises in the Northern Indian Ocean and the Tropical Atlantic, where CFC free deep water is available, the blanks of the precleaned bottles were lower than 0.003 pmol kg-1 for both components (CFC-12 and CFC-11). The temporal evolution of the ECD effciency is shown in Figure 2. During the cruise the effciency decreased about 20%. Major changes occured, when the drying agent (magnesiumperchlorate) in the purge and trap unit was exchanged or the molsieves had to be baked and therefore exchanged. To correct the temporal drift, a calibration curve with 4-6 different standard gas volumes was carried out before and after each station, the change between these curves is thought to occur linear with time. As a typical example, the two calibration curves for station 20 are presented in Figure 3. CFC concentrations are calculated by using the two neighboured calibration points, assuming that the calibration curve is linear between these points. At first we used sample volumes, precalibrated by the company (Machery and Nagel, Germany) for the analysis of standard gas. It turned out that these volumes could be off by more than 5%, affecting the precision of the measured oceanic CFC concentrations by the same amount. Therefore, in 1998, the volumes for the gas standard measurements (nominal 2 mL and 5 mL) were calibrated against two 'master' volumes by D. Wallace's group, who had done this task also for the CO2 community. CFC measurements of the air inside the vessel and especially in the lab were carried out frequently in order to check for contamination. In general, the CFC concentrations in both places were only a few percent higher than in clean air. Clean air measurements were carried out occasionally by sampling air from the ship's compass bridge or forecastle. PROBLEMS From CTD profiles 14 to 21 the CFC-12 data could not be processed because of an unknown substance with a similar retention time than CFC-12. On the third leg, the CFC system malfunctioned and it was later found out, that the connection between the gas chromatographic column and the ECD was broken. COMMENTS The CFC-11 surface saturation relative to the atmospheric value of 266 ppt varied from 104-125% (Figure 4). The largest supersaturations were found off the shelf near Flemish Cap, they are correlated with a low salinity (Figure 5). These supersaturations are presumably caused by recent mixing of cold, fresh, and CFC rich water with warmer water from the south, while the air sea gas exchange had not enough time to equilibrate with the atmosphere. Such extreme values are observed in summer 1997, too [Körtzinger et al., 1999]. The CFC-11/CFC-12 ratio below 1000 m depth is 2.05 in the mean (Figure 6), which is similar to the observation made in summer 1997 during the Meteor 39 cruise. In Figure 7 all CFC-11 concentrations measured during the cruise Valdivia 172 are shown. In the upper 2000 m (the lower limit of the LSW) the values are about 4 pmol kg-1 . At larger depth (within the GFZW) the concentrations decreased to less than 2 pmol kg-1 and increased again near the bottom caused by CFC-rich DSOW. REFERENCES Bullister, J.L. and R.F. Weiss (1988). Determination of CCl3 F and CCl2 F2 in seawater and air. Deep-Sea Res., 35, p. 839-853. Körtzinger, A., M. Rhein, and L. Mintrop (1999). Anthropogenic CO2 and CFCs in the North Atlantic Ocean - A comparison of man-made tracer. Geophys. Res. Lett., 26, p. 2065-2068. APPENDIX THE STATION FILE 'VALDIVIA172.SUM' | THE BOTTLE FILE 'VALDIVIA172.SEA' INCLUDES: | INCLUDES: -----------------------------------|------------------------------------------- 1 station number | 1 station number 2 year | 2 bottle number 3 month | 3 depth (dbar) 4 day | 4 in-situ temperature (°C) 5 hour: decimal minutes | 5 salinity (psu) 6 latitude: decimal minutes | 6 CFC-12 (pmol kg-1) 7 longitude: decimal minutes | 7 CFC-11 (pmol kg-1) 8 water depth (m) | 8 WOCE quality flag for CFC-12 and CFC-11 9 depth of CTD profile (m) TECHNICAL INFORMATION -----------------------------------|------------------------------------------- Gas chromatograph | Shimadzu GC 14 GC column | stainless steel, packed with Porasil C Cooling trap | with Porapak T and Porasil C Trap temperatures | -30°C, 100°C Column temperature | 70°C, isothermal ECD temperature | 300°C Electron capture detector | Shimadzu Software for chromatogram analysis | Shimadzu CLASS LC 10 (1.63) Standard gas | ALM 066676, D. Wallace, IfM Kiel Precision | CFC-11: 3%, CFC-12: 5% Accuracy | CFC-11: 0.6%, CFC-12: 0.8% Blanks | negligible WHPO DATA PROCESSING NOTES Date Contact Data Type Data Status Summary -------- ---------- ----------- -------------------------------------------- 02/14/00 Uribe BTL Submitted temp, salinity, CFC11 and CFC12 Files from directory valdivia172 were moved from ftp- incoming.2000.02.14/ This cruise took place July 14th - July 30th 1998. The data provided was temperature, salinity, CFC11 and CFC12. The expocode is 06AZ172. The doc file contained is M. Rhein's CFC report. All of the files are unformatted. Files were sent by Monica Rhein. Directory ar13_e/ar27 was created for this data. We have no records about who the Chi Sci for this cruise was. 12/22/00 Uribe CFCs Data Encrypted until released by M. Rhein 12/27/00 Buck BTL/SUM/DOC Submitted; unformatted; btl encrypted WHPO now has an unformatted sumfile, encrypted and unformatted BOT file, and unformatted DOC file. No PIs known for this cruise... This data is nonpublic. 04/23/02 Lebel CFCs Final Data Submitted; still not public Regarding line: AR13 ExpoCode: 06AZ172 Cruise Date: 1998/07/14 - 1998/07/26 From: LEBEL, DEBORAH Email address: lebel@ldeo.columbia.edu Institution: LDEO Country: US The file: valdivia172.dat - 78048 bytes has been saved as: 20020423.111843_LEBEL_AR13_valdivia172.dat in the directory: 20020423.111843_LEBEL_AR13 The data disposition is: Non-Public To Go Public? The file format is: Plain Text (ASCII) The archive type is: NONE-Individual File The data type(s) is: Other-final CFC data The file contains these water sample identifiers: Station Number (STATNO) Bottle Number (BTLNBR) LEBEL, DEBORAH would like the following action(s) taken on the data: Merge Data Place Data Online Update Parameters Any additional notes are: These are the finalized CFC data for Valdivia 172 (06AZ172), including the QUALT2 word. Scale is SIO98, units are pmol/kg. Data have yet to be made public by PI, Monika Rhein. Date Contact Data Type Data Status Summary -------- ---------- ----------- -------------------------------------------- 05/01/02 Bartolacci BTL/SUM/DOC Reformatting Needed btl: cfcs only; doc: pdf; SUM needs reformatting. BOT only contains CFCs & needs reformatting. No CTD. DOC not ascii/r 04/03/03 Kappa DOC Final PDF/TXT Reports Compiled Previous online doc was a text version of the PI's pdf file. New pdf includes figs & whpo-generated cruise track. Both new reports (text and pdf) include M. Rhein's cfc report (reformatted), whpo summary page, and these data processing notes.