Size dependence of coastal phytoplankton photosynthesis under vertical mixing conditions

doi:10.1093/plankt/fbi021

JPR Advance Access originally published online on April 18, 2005
Journal of Plankton Research 2005 27(5):473-483; doi:10.1093/plankt/fbi021

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Size dependence of coastal phytoplankton photosynthesis under vertical mixing conditions

Pedro Cermeño¹^,*, Emilio Marañón¹^,2, Jaime Rodríguez³ and Emilio Fernández¹

^¹ Departamento de Ecología Y Biología Animal, Facultad de Ciencias Del Mar, Universidad de Vigo, 36310 Vigo, Spain, ^² Laboratoire D’Océanographie de Villefranche, CNRS-UPMC, 06234 Villefranche-Sur-Mer, France and ^³ Departamento De Ecología Y Geología, Universidad de Málaga, Campus de Teatinos, 29071 Málaga, Spain

^* Corresponding Author: pca{at}uvigo.es

Received February 2, 2005; accepted in principle March 24, 2005; accepted for publication April 6, 2005; published online April 18, 2005
Communicating editor: K.J. Flynn

We have determined the relationship between carbon-specificphotosynthesis and phytoplankton cell size in a coastal ecosystem.The normalized size spectra of carbon (C) biomass and photosynthesisallow to determine both biomass and photosynthesis within anysize class along the community size spectrum. By dividing thesize spectra of photosynthesis and biomass, the size spectrumof C-specific photosynthesis is derived. Our results indicateda high variability in the slope of the C-specific photosynthesissize spectrum. Under favourable conditions for growth, in theupper euphotic layer, the slope was positive, indicating thatlarger phytoplankton attained higher C-specific photosynthesisrates than the smaller cells. This pattern represents a significantdeparture from the expected, literature value of –0.25for the size-scaling of biomass-specific metabolism. We suggestthat this change in the slope may be caused by the changes inthe taxonomic composition along the community size spectrum.Towards the bottom of the euphotic layer, we observed a decreasein the slope of the C-specific photosynthesis size spectrum,which could be associated with an enhanced package effect inlarger cells under light-limited conditions. These results questionthe applicability of single and overall exponents to describethe size scaling of photosynthesis in natural phytoplanktonassemblages.

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