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Traits influence dinoflagellate C:N:P

Olga Carnicer, Andrew J. Irwin, Zoe V. Finkel

2021European Journal of Phycology17 citationsDOI

Abstract

Dinoflagellates are amongst the most abundant and diverse groups of plankton in surface waters and contribute to food web productivity and C:N:P biogeochemistry. Here we analyse the C:N:P of marine, autotrophic, planktonic dinoflagellates compiled from culture data from the scientific literature and test if dinoflagellate C:N:P differs from the Redfield ratio, and whether variability in C:N:P is associated with three traits: cell size, wall structure and toxin production. We find the average C:N:P of dinoflagellates is 90:12:1; higher in C:N, and lower in C:P and N:P than the canonical Redfield ratio. In aggregate the three traits examined here account for between 20–31% while taxonomic order accounts for between 37–38% of the variance in C:N:P. Smaller-sized and thecate taxa are higher in C:N, C:P and N:P than larger-size and athecate taxa. Species known to be able to produce C-rich toxins tend to be higher in C:P and N:P while species known to be able to produce N-rich toxins are lower in C:N, C:P and N:P relative to non-toxic species. These results indicate that any average estimate of dinoflagellate C:N:P will be influenced by the relative number of taxa with these traits.

Topics & Concepts

DinoflagellateBiologyPlanktonTaxonProductivitySestonPhytoplanktonFood webEcologyBotanyNutrientEcosystemMacroeconomicsEconomicsMarine and coastal ecosystemsMarine Toxins and Detection MethodsMicrobial Community Ecology and Physiology
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