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Research Project
Strategic Project - UI 199 - 2011-2012
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Deriving phytoplankton size classes from satellite data: validation along a trophic gradient in the eastern Atlantic Ocean
Publication . Brotas, Vanda; Brewin, Robert J.W.; Sá, Carolina; Brito, Ana C.; Silva, Alexandra; Mendes, Carlos Rafael; Diniz, Tânia; Kaufmann, Manfred; Tarran, Glen; Groom, Steve B.; Platt, Trevor; Sathyendranath, Shubha
In recent years, the global distribution of phytoplankton functional types (PFT) and phytoplankton size classes
(PSC) has been determined by remote sensing. Many of these methods rely on interpretation of phytoplankton
size or type from pigment data, but independent validation has been difficult due to lack of appropriate in situ
data on cell size.
This work uses in situ data (photosynthetic pigments concentration and cell abundances) from the
north-east Atlantic, along a trophic gradient, sampled from 2005 to 2010, as well as Atlantic Meridional
Transect (AMT) data for the same region, to test a previously developed conceptual model, which calculates
the fractional contributions of pico-, nano- and micro-plankton to total phytoplankton chlorophyll biomass
(Brewin et al., 2010). The application of the model proved to be successful, as shown by low mean absolute
error between data and model fit. However, regional values obtained for the model parameters had some
effect on the relative distribution of size classes as a function of chlorophyll-a, compared with the results
according to the original model. The regional parameterisation yielded a dominance of micro-plankton
contribution for chlorophyll-a concentrations greater than 0.5 mg m−3
, rather than from 1.3 mg m−3 in
the original model. Intracellular chlorophyll-a (Chla) per cell, for each size class, was computed from the
cell enumeration results (microscope counts and flow cytometry) and the chlorophyll-a concentration for
that size class given by the model. The median intracellular chlorophyll-a values computed were 0.004,
0.224 and 26.78 pg Chla cell−1 for pico-, nano-, and micro-plankton respectively. This is generally consistent
with the literature, thereby providing an indirect validation of the method based on pigments to assign size
classes. Using a satellite-derived composite image of chlorophyll-a for the study area, a map of cell abundance
was generated based on the computed intracellular chlorophyll-a for each size-class, thus extending the
remote-sensing method for mapping size classes of phytoplankton from chlorophyll-a concentration to
mapping cell numbers in each class. The map reveals the ubiquitous presence of pico-plankton, and shows
that all size classes are more abundant in more productive areas.
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Funding agency
Fundação para a Ciência e a Tecnologia
Funding programme
6817 - DCRRNI ID
Funding Award Number
PEst-OE/MAR/UI0199/2011