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Biological control of air-sea CO2 fluxes: effect of photosynthetic and calcifying marine organisms and ecosystems
Gattuso, J.P.; Pichon, M.; Frankignoulle, M. (1995). Biological control of air-sea CO2 fluxes: effect of photosynthetic and calcifying marine organisms and ecosystems. Mar. Ecol. Prog. Ser. 129(1-3): 307-312. https://dx.doi.org/10.3354/meps129307
In: Marine Ecology Progress Series. Inter-Research: Oldendorf/Luhe. ISSN 0171-8630; e-ISSN 1616-1599, meer
Peer reviewed article  

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Trefwoorden
    Air-water exchanges
    Biochemical phenomena > Calcification
    Chemical compounds > Carbon compounds > Atmospheric gases > Carbon dioxide
    Chemical reactions > Photochemical reactions > Photosynthesis
    Data > Hydrographic data > Salinity data
    Data > Temperature data
    Hydrometeors > Atmospheric precipitations
    Modelling
    Reefs > Biogenic deposits > Coral reefs
    Respiration
    Marien/Kust

Auteurs  Top 
  • Gattuso, J.P., meer
  • Pichon, M.
  • Frankignoulle, M., meer

Abstract
    A simple expression enables prediction of the effect of photosynthetic and calcifying systems on air-sea CO2 exchange at all spatial scales (from organism to ecosystem). Input data are: gross primary production (Pg), respiration (R), net calcification (G) and the ratio of CO2 released to CaCO3 precipitated ( psi ); the output is the amount of dissolved inorganic carbon (FCO2 which needs to be exchanged with the atmosphere to balance biologically mediated changes in the concentration of dissolved inorganic carbon in an open sea water system: FCO2 = -Pg + R + psi G. Coral reef data were used in the model to illustrate the relative influence of organic and inorganic carbon metabolism on ocean-atmosphere CO2 cycling. A coral reef comprised of calcareous and non-calcareous organisms can be shown to act as a sink for atmospheric CO2 when excess (= net) production is high and CaCO3 precipitation is low. These characteristics are not typical of actively developing reef systems which typically exhibit a nearly balanced organic carbon metabolism (Pg/R similar to 1) and relatively high rates of calcification. In these circumstances, reef communities can be expected to cause CO2 evasion to the atmosphere. This prediction is confirmed by the only existing measurement of air-sea CO2 flux in a coral reef system.

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