Vertical distribution of phytoplankton communities in open ocean: An assessment based on surface chlorophyll

The present study examines the potential of using the near‐surface chlorophyll a concentration ([Chla]surf), as it can be derived from ocean color observation, to infer the column‐integrated phytoplankton biomass, its vertical distribution, and ultimately the community composition. Within this conte...

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Bibliographic Details
Published in:Journal of Geophysical Research. C. Oceans 2006-08, Vol.111 (C8), p.n/a
Main Authors: Uitz, Julia, Claustre, Hervé, Morel, André, Hooker, Stanford B.
Format: Article
Language:English
Subjects:
algal pigments vertical profiles
Earth Sciences
Earth, ocean, space
Exact sciences and technology
Marine
ocean color remote sensing
Oceanography
phytoplankton community composition
Sciences of the Universe
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Summary:The present study examines the potential of using the near‐surface chlorophyll a concentration ([Chla]surf), as it can be derived from ocean color observation, to infer the column‐integrated phytoplankton biomass, its vertical distribution, and ultimately the community composition. Within this context, a large High‐Performance Liquid Chromatography (HPLC) pigment database was analyzed. It includes 2419 vertical pigment profiles, sampled in case 1 waters with various trophic states (0.03–6 mg Chla m−3). The relationships between [Chla]surf and the chlorophyll a vertical distribution, as previously derived by Morel and Berthon (1989), are fully confirmed. This agreement makes it possible to go further and to examine if similar relationships between [Chla]surf and the phytoplankton assemblage composition along the vertical can be derived. Thanks to the detailed pigment composition, and use of specific pigment biomarkers, the contribution to the local chlorophyll a concentration of three phytoplankton groups can be assessed. With some cautions, these groups coincide with three size classes, i.e., microplankton, nanoplankton and picoplankton. Corroborating previous regional findings (e.g., large species dominate in eutrophic environments, whereas tiny phytoplankton prevail in oligotrophic zones), the present results lead to an empirical parameterization applicable to most oceanic waters. The predictive skill of this parameterization is satisfactorily tested on a separate data set. With such a tool, the vertical chlorophyll a profiles of each group can be inferred solely from the knowledge of [Chla]surf. By combining this tool with satellite ocean color data, it becomes possible to quantify on a global scale the phytoplankton biomass associated with each of the three algal assemblages.
ISSN:0148-0227
2169-9275
2156-2202
2169-9291
DOI:10.1029/2005JC003207