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Mesoscale surface distribution of biogeochemical characteristics in the Crozet Basin frontal zones (South Indian Ocean)
Fiala, M.; Delille, B.; Dubreuil, C.; Kopczynska, E.; Leblanc, K.; Morvan, J.; Queguiner, B.; Blain, S.; Cailliau, C.; Conan, P.; Corvaisier, R.; Denis, M.; Frankignoulle, M.; Oriol, L.; Roy, S. (2003). Mesoscale surface distribution of biogeochemical characteristics in the Crozet Basin frontal zones (South Indian Ocean). Mar. Ecol. Prog. Ser. 249: 1-14. dx.doi.org/10.3354/meps249001
In: Marine Ecology Progress Series. Inter-Research: Oldendorf/Luhe. ISSN 0171-8630; e-ISSN 1616-1599, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoord
    Marien/Kust
Author keywords
    frontal zones; nutrients; biogenic silica; chlorophyll a; pCO(2);

Auteurs  Top 
  • Fiala, M.
  • Delille, B., meer
  • Dubreuil, C.
  • Kopczynska, E.
  • Leblanc, K.
  • Morvan, J.
  • Queguiner, B.
  • Blain, S.
  • Cailliau, C.
  • Conan, P.
  • Corvaisier, R.
  • Denis, M.
  • Frankignoulle, M., meer
  • Oriol, L.
  • Roy, S.

Abstract
    A mesoscale study was conducted in January and February 1999 in the Crozet Basin frontal zones (43°50' to 45°20'S, 61°00' to 64°30'E) within the southernmost and easternmost convergence area of the Antarctic Circumpolar Current (ACC) and the Agulhas Return Current (ARC). Distribution of biogeochemical parameters was strongly linked to the merged Subtropical (STF) and Subantarctic (SAF) Fronts which mark the border between the cold and less saline subantarctic waters and the warm and more saline subtropical waters. This survey took place during a post-bloom period. Chlorophyll a concentrations were low throughout the study area ranging from 0.2 µg l-1 in the Polar Frontal Zone (PFZ) to 0.4 µg l-1 in the Subtropical Zone (STZ). Maximum chlorophyll a values (0.8 µg l-1) associated with an increase in biogenic silica concentration (from 0.03 to 0.34 µM) and a diatom peak (1.2 x 105 cells l-1) were encountered in the northeastern part of the STF edge. Despite northwardly decreasing concentrations of nitrates from 14 muM in the PFZ to 6 PM in the STZ, they were not the main factor limiting phytoplankton growth. Low silicic acid (mean = 0.6 µM) could have limited diatom development in the PFZ and the STZ where diatom numbers were low. In STZ waters, where average diatom numbers were highest, various species of Nitzschia and Thalassiothrix were common, but Pseudonitzschia spp. were dominant. Throughout the survey area, pico- and nano-sized cells dominated the phytoplankton assemblage, and their number was the highest in the STZ. Cyanobacteria, only present in subtropical waters >12.5°C, were the major component of the picoplankton size-fraction. While dinoflagellate numbers were low in the Subantarctic Zone (SAZ), their abundance and species numbers increased in the STZ, where Oxytoxum laticeps became dominant and several further large-size species of Prorocentrum, Ceratium and Gymnodinium appeared in addition to those at the STF. The distribution of different biogeochemical parameters suggests that the Crozet Basin frontal region is a non-exporting system at the end of summer. During this post-bloom period, biological activity is low and phytoplankton growth severely limited. This is evidenced by the weak dependence of the partial pressure of carbon dioxide (pCO2) on biological activity and the importance of the air-sea exchange in maintaining pCO2 close to saturation.

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