AUTHOR=Cermeño Pedro , Chouciño Paloma , Fernández-Castro Bieito , Figueiras Francisco G. , Marañón Emilio , Marrasé Cèlia , Mouriño-Carballido Beatriz , Pérez-Lorenzo María , Rodríguez-Ramos Tamara , Teixeira Isabel G. , Vallina Sergio M. TITLE=Marine Primary Productivity Is Driven by a Selection Effect JOURNAL=Frontiers in Marine Science VOLUME=3 YEAR=2016 URL=https://www.frontiersin.org/journals/marine-science/articles/10.3389/fmars.2016.00173 DOI=10.3389/fmars.2016.00173 ISSN=2296-7745 ABSTRACT=
The number of species of autotrophic communities can increase ecosystem productivity through species complementarity or through a selection effect which occurs when the biomass of the community approaches the monoculture biomass of the most productive species. Here we explore the effect of resource supply on marine primary productivity under the premise that the high local species richness of phytoplankton communities increases resource use through transient selection of productive species. Using concurrent measurements of phytoplankton community structure, nitrate fluxes into the euphotic zone, and productivity from a temperate coastal ecosystem, we find that observed productivities are best described by a population growth model in which the dominant species of the community approach their maximum growth rates. We interpret these results as evidence of species selection in communities containing a vast taxonomic repertory. The prevalence of selection effect was supported by open ocean data that show an increase in species dominance across a gradient of nutrient availability. These results highlight the way marine phytoplankton optimize resources and sustain world food stocks. We suggest that the maintenance of phytoplankton species richness is essential to sustain marine primary productivity since it guarantees the occurrence of highly productive species.