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Tellus B: Chemical and Physical Meteorology Volume 59, 2007 - Issue 1
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Original Articles

Atmospheric CO2 concentrations and δ13C values across the Antarctic Circumpolar Current between New Zealand and Antarctica

Antonio LonginelliUniversity of Parma, Department of Earth Sciences, via G.P. Usberti 157A, 43100Parma, ItalyCorrespondencee-mail: [email protected]
,
Federico GiglioConsiglio Nazionale delle Ricerche, Institute of Marine Sciences, Marine Geology Section, Area della Ricerca, Via Gobetti, 101, 40129Bologna, Italy
,
Leonardo LangoneConsiglio Nazionale delle Ricerche, Institute of Marine Sciences, Marine Geology Section, Area della Ricerca, Via Gobetti, 101, 40129Bologna, Italy
,
Renzo LenazConsiglio Nazionale delle Ricerche, Institute of Marine Sciences, Marine Geology Section, Area della Ricerca, Via Gobetti, 101, 40129Bologna, Italy
,
Carlo OriConsiglio Nazionale delle Ricerche, Institute of Marine Sciences, Marine Geology Section, Area della Ricerca, Via Gobetti, 101, 40129Bologna, Italy
&
Enricomaria SelmoUniversity of Parma, Department of Earth Sciences, via G.P. Usberti 157A, 43100Parma, Italy
Pages 130-137 | Received 19 Sep 2005, Accepted 06 Nov 2006, Published online: 18 Jan 2017

References

  • Archambeau, A.-S., Pierre, C., Poisson, A. and Schauer, B. 1998. Dis-tributions of oxygen and carbon stable isotopes and CFC-12 in the water masses of the Southern Ocean at 30°E from South Africa to Antarctica: results of the CIVA 1 cruise. J. Mar. Syst. 17, 25–38.
  • Bakker, D. C. E., de Baar, H. J. W. and Bathman, U. V. 1997. Changes of carbon dioxide in surface waters during spring in the southern ocean. Deep-Sea Res. 11 44, 91–127.
  • Caldeira, K. and Duffy, P. B. 2000. The role of the Southern ocean in uptake and storage of anthropogenic carbon dioxide. Science 287, 620–622.
  • Colombo, T., S antaguida, R., Bonasoni, P. and Cristofanelli, P. 2000. CO2 trend at Mt.Cimone (44°1 1'N,10°42'E) baseline station. Proceed. Eur. Congr. Appl. Climatol., 2000, Pisa, Italy.
  • Conway, T. J. 2006. Web page NOAA/CMDL, www.cmdl.noaa.gov/ ccgg/iadv
  • Conway, T. J., Tans, P. P., Waterman L. S., Thoning K.W., Kitziis, D. R., and co-authors. 1994. Evidence for interarmual variability of the carbon cycle from NOAA/Climate Monitoring and Diagnostic Lab-oratory Global Air Sampling Network. J. Geophys. Res. 99, 22831–22855.
  • Craig, H., Broecker, W. C. and Spencer, D. 1981. GEOSECS Pacific Expedition, Leg 7, Sections and profiles Volume 4, NSF.
  • De Baar, H. J. W. and Boyd, P. W. 2000. The role of iron in plankton ecology and carbon dioxide transfer of the global oceans. In: The Dy-namic Ocean Carbon Cycle: a Midterm Synthesis of the Joint Global Ocean Flux Study Volume 5 (eds R. B. Hanson, H. W. Ducklow and J. G. Field) IGBP Book Series Cambridge Univ. Press, Cambridge, 61–140.
  • Gruber, N., Keeling, C. D., Bacastow, R. B., Guenther, P. R., Lueker, T. J., and co-authors. 1999. Spatiotemporal patterns of carbon-13 in the global surface oceans and the oceanic Suess effect. Global Bio-geochem. Cycles 13(2), 307–335.
  • Gurney, K. R., Law, R. M., Scott Denning, A., Rayner, P. J., Baker, D., and co-authors 2003. TransCom 3 CO2 inversion intercomparison: 1. Annual mean control results and sensibility to transport and prior flux information. Tellus 55B, 555–579.
  • Hoppema, M., Fahrbach, E., Schroeder, M., Wisotzki, A. and de Baar, H. J. W. 1995. Winter-summer differences of carbon dioxide and oxygen in the Weddell Sea surface layer. Mari. Chem. 51, 177–192.
  • Hoppema, M., Fahrbach, E., Stoll, M. H. C. and de Baar, H. J. W. 1999. Annual uptake of atmospheric CO2 by the Weddell Sea derived from a surface layer balance, including estimations of entrainment and new production. J. Mar. Syst. 19, 219–233.
  • Hoppema, M., Stoll, M. H. C. and De Baar, H. J. W. 2000. CO2 in the Weddell Gyre and Antarctic circumpolar current: austral autumn and early winter. Mar. Chem. 72, 203–220.
  • Houghton, J. T., Ding, Y., Griggs, D. J., Noguer, M., van der Linden, P. J., and co-authors, eds. 2001. Climate Change 2001: The Scientific Basis, Cambridge Univ. Press, N. Y. see http://www.ipcc.ch.
  • Inoue, H. and Sugimura, Y. 1986. Distribution of pCO2 and 31-3C in the air and surface sea water in the Southern Ocean, South of Australia. Mem. Nat. Inst. Polar Res., Special Issue 40, 454–461.
  • Intergovernmental Panel on Climate Changes (MCC), Climate change 2001. The IPCC Scientific Assessment, Cambridge Univ. Press, N.Y.
  • Kattenberg, A., Giorgi, E, Grassl, H., Meehl, G. A., Mitchell, J. E B., and co-authors 1995. Climate change 1995-The science of climate change, Chapter 6, Cambridge Univ. Press, Cambridge.
  • L,enaz, R., Giovanelli, G., Ori, C., Colombo, T., Masarie, K., and co-authors. 2000. Shipboard report on atmospheric CO2 concentrations recorded on continuous from Mediterranean Sea to Antarctica. Ii Nuovo Cimento 23C, 507–514.
  • Longinelli, A., Colombo, T., Giovanelli, G., L,enaz, R., Ori, C., and co-authors. 2001. Atmospheric CO2 concentrations and 31-3C mea-surements along a hemispheric course (1998/99, Italy to Antarctica). Earth Planet. Sci. Letters 191, 167–172.
  • Longinelli, A., L,enaz, R., Ori, C. and Selmo, E. 2005. Concentrations and 313C values of atmospheric CO2 from oceanic atmosphere through time: polluted and non polluted areas. Tellus 57B, 385–390.
  • Lourey, M. J., Trull, T. W. and Tilbrook, B. 2004. Sensitivity of 313C of Southern Ocean suspended and sinking organic matter to temperature, nutrient utilization, and atmospheric CO2. Deep-Sea Res. 51, 281–305.
  • McNeil, B. I., Matear, R. J. and Tilbrook, B. 2001. Does carbon 13 track anthropogenic CO2 in the Southern Ocean? Global Bio-geochem.Cycles 15, 3,597–613.
  • Metzl, N., Poisson, A., Louanchi, E, Brunet, C., Schauer, B., and co-authors. 1995. Spatio-temporal distribution of air-sea fluxes in the Indian and Antarctic oceans, a first step. Tellus 47 B, 56–59.
  • Metzl, N., Tilbrook, B. and Poisson, A. 1999. The armualf CO2 cycle and the air-sea CO2 flux in the sub-Antarctic Ocean. Tellus 51B, 849–861.
  • Mook, W. G. and van der Hoek, S. 1983. The N20 correction in the carbon and oxygen isotopic analysis of atmospheric CO2 Isot. Geosc. 1, 237–242.
  • Moore, J. K., Abbott, M. R. and Richman, J. G. 1999. Location and dynamics of the Antarctic Polar Front from satellite sea surface tem-perature data. J. Geoph. Res. 104 (C2), 3059-3073.
  • Murphy, P. P., Feely, R. A., Gammon, R. H., Harrison, D. E., Kelly, K. C., and co-authors. 1991. Assessment of the air-sea exchange of CO2 in the South Pacific during austral autumn./. Geophys. Res 96, 20455–20465.
  • Ori, C., L,enaz, R., Colombo, T. and Giovanelli, G. 1996. Atmospheric CO2 concentration measured continuously from the Mediterranean to the Bellingshausen sea: technology and methodology. Conf. Proceed. 6th Workshop Ital. Res. Antarc. Atmos., Firenze, 1995: SW, Bologna 361–367.
  • Poisson, A., Metzl, N., Brunet, C., Schauer, B., Bres, B., and co-authors. 1993. Variability of source and sinks of CO2 in the Western Indian and Southern Oceans during the year 1991. J. Geophys. Res. 98, 22759–22778.
  • Poisson, A., Metzl, N., Danet, X., Louanchi, E, Brunet, C., and co-authors. 1994. Air-sea CO2 fluxes in the Southern Ocean between 25°E and 85°E. In: The Polar Oceans and Their Role in Shaping the Global Environment, Geophysical Monograph Volume 85 (eds 0. M. Johannessen, R. D. Muench and J. E. Overland). AGU, Washington, DC, pp. 273–284.
  • Rintoul, S. R., Donguy, J. R. and Roemmich, D. H. 1997. Seasonal evolution of upper ocean thermal structure between Tasmania and Antarctica. Deep-Sea Res. 44 (7), 1185-1202.
  • Robertson, J. N. and Watson, A. J. 1995. A summer time sink for at-mospheric carbon dioxide in the Southern Ocean between 88°W and 80°E. Deep-Sea Res. 42, 1081–1091.
  • Roy, T., Rayner, P., Matear, R. and Francey, R. 2003. Southern hemi-sphere ocean CO2 uptake: reconciling atmospheric and oceanic esti-mates. Tellus 55B, 701–710.
  • Russo, A., Artegiani, A., Budillon, G., Paschini, E. and Spezie, G. 1999. Upper Ocean thermal structure and Fronts between New Zealand and the Ross Sea- Austral Summer 1994-1995 and 1995-1996. In: Oceanography of the Ross Sea Antarctica (eds G. Spezie and G. M. R. Manzella). Springer-Verlag Italia, Milano, 67–75.
  • Sarmiento, J. L. and Gruber, N. 2002. Sinks for anthropogenic carbon. Physics Today 55 (8), 30–36.
  • SeaWiFS , Web page http://oceancolor.gsfc.nasa.gov/cgi/browse.pl Siegenthaler, U. and Sarmiento, J. L. 1993. Atmospheric carbon dioxide and the oceans. Nature 365, 119–125.
  • Stoll, M. H. C., Thomas, H., de Baar, H. J. W., Zondervan, I., De Jong, E., and co-authors 2002. Biological versus physical processes as drivers of large oscillations of the air-sea flux in the Antarctic marginal ice zone during summer. Deep-Sea Res. 49, 1651–1667.
  • Takahashi, T., Olafsson, J., Goddard, J. C, Chipman, D. W. and Suther-land, S. C. 1993. Seasonal variation of CO2 and nutrients in the high-latitude surface oceans: a comparative study. Global Bio-geochem. Cycles 7, 1431–1438.
  • Takahashi, T., Feely, R. A., Weiss, R. E, Wanninkhof, R., Chipman, D. W., and co-authors 1997. Global air-sea flux of CO2. An estimate based on measurements of sea-air pCO2 difference. Proceed. Nat. Acad. Sc. 94, 8292–8299.
  • Takahashi, T., Sutherland, S. C., Sweeney, C., Poisson, A., Metzl, N., and co-authors. 2002. Global sea-air CO2 flux based on climatological surface ocean pCO2, and seasonal biological and temperature effects. Deep-Sea Res. 11 49, 1601–1622.
  • Tans, P. 2000. Carbon dioxide measurements. Web page NOAA/CMDL, www.cmdl.noaa.gov/ccgg/figures/co2-trendglobal.gif. Web page: iridlIdeo.columbia.edu/SOURCES/JGOSS/.nmc/.Reyn_ SmithOIv2/.monthly/
  • Thoning, K. 2006. Web page NOAA/CMDL, www.cmdl.noaa.gov/ ccgg/iadv
  • White, J. 2006. Web page NOAA/CMDL, www.cmdl.noaa.gov/ ccgg/iadv.
  • White, J. and Tans, P. 2005. Web page NOAA/CMDL, www.cmdl. noaa.gov/ccgg/iadv.

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