Mesoscale vertical motion and the size structure of phytoplankton in the ocean

Rodríguez, Jaime; Tintoré, Joaquín; Allen, John T.; Blanco, José Ma; Gomis, Damià; Reul, Andreas; Ruiz, Javier; Rodríguez, Valeriano; Echevarría, Fidel; Jiménez-Gómez, Francisco

Mesoscale vertical motion and the size structure of phytoplankton in the ocean

Jaime Rodríguez (), Joaquín Tintoré, John T. Allen, José Ma Blanco, Damià Gomis, Andreas Reul, Javier Ruiz, Valeriano Rodríguez, Fidel Echevarría and Francisco Jiménez-Gómez
Additional contact information
Jaime Rodríguez: Universidad de Málaga, Campus de Teatinos
Joaquín Tintoré: Institut Mediterrani d’Estudis Avançats (CSIC-UIB)
John T. Allen: Southampton Oceanography Center
José Ma Blanco: Universidad de Málaga, Campus de Teatinos
Damià Gomis: Institut Mediterrani d’Estudis Avançats (CSIC-UIB)
Andreas Reul: Universidad de Málaga, Campus de Teatinos
Javier Ruiz: Biología Vegetal y Ecología, Facultad de Ciencias del Mar, Universidad de Cádiz
Valeriano Rodríguez: Universidad de Málaga, Campus de Teatinos
Fidel Echevarría: Biología Vegetal y Ecología, Facultad de Ciencias del Mar, Universidad de Cádiz
Francisco Jiménez-Gómez: Universidad de Málaga, Campus de Teatinos

Nature, 2001, vol. 410, issue 6826, 360-363

Abstract: Abstract Phytoplankton size structure is acknowledged as a fundamental property determining energy flow through ‘microbial’ or ‘herbivore’ pathways1. The balance between these two pathways determines the ability of the ecosystem to recycle carbon within the upper layer or to export it to the ocean interior1. Small cells are usually characteristic of oligotrophic, stratified ocean waters, in which regenerated ammonium is the only available form of inorganic nitrogen and recycling dominates. Large cells seem to characterize phytoplankton in which inputs of nitrate enter the euphotic layer and exported production is higher2,3,4. But the size structure of phytoplankton may depend more directly on hydrodynamical forces than on the source of available nitrogen5,6,7. Here we present an empirical model that relates the magnitude of mesoscale vertical motion to the slope of the size–abundance spectrum8,9,10 of phytoplankton in a frontal ecosystem. Our model indicates that the relative proportion of large cells increases with the magnitude of the upward velocity. This suggests that mesoscale vertical motion—a ubiquitous feature of eddies and unstable fronts—controls directly the size structure of phytoplankton in the ocean.

Date: 2001
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DOI: 10.1038/35066560

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