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Size-fractionated biomass, photosynthesis and dark CO2 fixation in a tropical oceanic environment

DRS at CSIR-National Institute of Oceanography

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Title Size-fractionated biomass, photosynthesis and dark CO2 fixation in a tropical oceanic environment
 
Creator Gomes, H.
Goes, J.I.
Parulekar, A.H.
 
Description This study examines the spatial distribution and size structure of phytoplankton biomass and productivity in relation to the vertical structure of the Andaman Sea (northern Indian Ocean). This region was characterizEd. by low concentrations of nutrients and high levels of insolation. Nitrogen availability appeared to control overall productivity with nitrate-based 'new' production accounting for 8-24% of the total primary production. Euphotic column chlorophyll (chl a) averaged 52.5 mg m sup(-2), of which a major portion was located as a subsurface chl a maximum (SCM) at approx 60-80 m. Net, nano and picoplankton contributed an average of 39, 24 and 37% to euphotic column chl a, respectively. An inverse relationship was observed between the percentages of picoplankton and total chl a. On the other hand, net phytoplankton showed a decreasing trend with increasingly oligotrophic conditions. Of the total mean euphotic column production (0.17 g C m sup(-2) day sup(-1)). 37% was attributable to picoplankton, whereas nano and net phytoplankton contributed 40 and 23%, respectively. In contract to the generally accepted view that picoplankton are low-light adapted, no signs of phtoinhibition were observed in surface populations of picoplankton photosynthesizing at high light intensities of approx 1500 mu E m sup(-2) s sup(-1). Below the euphotic zone (100-200 m), dark fixation of CO sub(2) was qute significant. The average column dark fixation of CO sub(2) was 0.045 g C m sup(-2) day sup(-1), which is approx 19% of the euphotic column production. A substantial percentage of dark fixation of CO sub(2) was attributable to organisms in the picoplankton size class. Despite their low sinking rates, picoplankton may be the dominant contributions to organic carbon fluxes to deeper depths through the formation of aggregates with river-derived mineral particles
 
Date 2009-05-08T12:03:45Z
2009-05-08T12:03:45Z
1992
 
Type Journal Article
 
Identifier Journal of Plankton Research, Vol.14; 1307-1329p.
http://drs.nio.org/drs/handle/2264/3063
 
Language en
 
Rights Copyright [1992]. All efforts have been made to respect the copyright to the best of our knowledge. Inadvertent omissions, if brought to our notice, stand for correction and withdrawal of document from this repository.
 
Publisher Cambridge University Press