Abstract:

Many recent models for retrieval of primary production in the sea from ocean-colour data are temperature-based. But previous studies in low latitudes have shown that models that include phytoplankton community structure can have improved predictive capability. In this study, we measured photosynthetic parameters from photosynthesis-irrandiance (P-E) experiments, phytoplankton absorption coefficients, and phytoplankton community structure derived from algal pigments during four cruises in the northern South China Sea. The maximum quantum yield of CO2 (ΦCm) and the chlorophyll a-normalized P-E curve light-limited slope (αB) varied significantly with the blue-to-red ratio of phytoplankton absorption peaks (aph(435)/aph(676)) (p < 0.001, r="-0.459" and -0.332, respectively). the unexplained variability could be due in part to the absorption associated with non-photosynthetic pigments. the chlorophyll a-normalized light-saturated photosynthesis rate (pbm) at the surface showed a unimodal distribution over the chlorophyll a range during the spring and summer, and significantly increased when prochlorococcus was outcompeted by other pico-phytoplankton (p < 0.01). almost 60% of the variance of pbm could be explained by a piecewise regression with phytoplankton absorption coefficients and pigment markers. unlike previous studies, our data showed that changes of pbm were unrelated to the size structure of phytoplankton. although a temperature-based approach could not effectively predict αb and pbm in the nscs, a trophic-based approach can be used for assignment of these parameters in a regional primary production model using ocean-colour data.

Full text available at: http://dx.doi.org/10.1002/2014JC010415