摘要
Phytoplankton biomarkers were analyzed using suspended particles collected from the northern South China Sea(SCS)during the summer cruise of2008,with the goal of understanding the algal community structure and biomass distribution pattern in the summer season.The results indicated that the distribution of algal biomarkers in surface water of SCS was impacted and constrained by the local hydrological settings:the high biological community generally appeared in Pearl River estuaries,southwestern off Taiwan island and southeastern off Hainan Island,while the relatively lower biomass was found in the deep basin and strait areas.Diatoms were the dominant phytoplankton species,which were followed by dinoflagellates.Coccolithophorid biomass gradually increased toward the open ocean.The present work indicated that the algal biomarkers effectively documented the variability of the phytoplankton biomass and community structure as well as their linkage with the oceanic dynamics in SCS during summer 2008.This research provided not only the foundation for the application of algal lipids in the modern ocean ecosystem,but also the basis for the reconstruction of the past oceanic algal community structures.
Phytoplankton biomarkers were analyzedusing suspended particles collected from the northernSouth China Sea (SCS) during the summer cruise of2008, with the goal of understanding the algal communitystructure and biomass distribution pattern in the summerseason. The results indicated that the distribution of algalbiomarkers in surface water of SCS was impacted andconstrained by the local hydrological settings: the highbiological community generally appeared in Pearl Riverestuaries, southwestern off Taiwan island and southeast-em off Hainan Island, while the relatively lower biomasswas found in the deep basin and strait areas. Diatomswere the dominant phytoplankton species, which werefollowed by dinoflagellates. Coccolithophorid biomassgradually increased toward the open ocean. The presentwork indicated that the algal biomarkers effectively doc-umented the variability of the phytoplankton biomass andcommunity structure as well as their linkage with theoceanic dynamics in SCS during summer 2008. Thisresearch provided not only the foundation for the appli-cation of algal lipids in the modem ocean ecosystem, butalso the basis for the reconstruction of the past oceanicalgal community structures.
基金
supported by the National Basic Research Program of China(2013CB955704)
the National Natural Science Foundation of China(40976022,41376046,40906026 and 41023004)
Innovation Program of Shanghai Municipal Education Commission(12ZZ031)
the fundamental research funds for the Central Universities alsoprovided partial funding