Bibliographic Details
| Title: |
Biogeochemical characteristics of suspended particulates at deep chlorophyll maximum layers in the East China Sea. |
| Authors: |
Qianqian Liu, Kandasamy, Selvaraj, Baozhi Lin, Huawei Wang, Chen-Tung Arthur Chen |
| Source: |
Biogeosciences Discussions; 2017, p1-38, 38p |
| Subject Terms: |
CHLOROPHYLL, TERRITORIAL waters, ORGANIC compounds, BIOCHEMISTRY, PHYTOPLANKTON |
| Abstract: |
Continental shelves and marginal seas are key sites of particulate organic matter (POM) production, remineralization and sequestration, playing an important role in the global carbon cycle. Elemental and stable isotopic compositions of organic carbon and nitrogen are frequently used for characterizing organic matter and distinguishing their sources in suspended particulates and surface sediments in the marginal seas. Here we investigate suspended particulate matters (SPM) collected from the deep chlorophyll maximum (DCM) layer in the continental shelf of the East China Sea for particulate organic carbon and nitrogen (POC and PN) contents and their isotopic compositions (δ13CPOC and δ15NPN) to understand biogeochemical characteristics of POM straddling at biotic-dominated DCM depths. When combined with hydrographic parameters, such as temperature, salinity and turbidity, and chlorophyll a (Chl a), these elemental and isotopic results revealed that POM in the DCM layers was largely from the newly-produced, in situ phytoplankton-dominated OM and have wider δ13CPOC and δ15NPN compositions than previously thought. As supported by the POC to Chl a ratio, a large variation of δ13CPOC was resulted from the changes in primary productivity and phytoplankton species, whereas the nutrient status and δ15N of dissolved nitrate were the main controlling factors of δ15NPN variability in the DCM layers. Consistently, the spatial distribution of δ15NPN showed a similarity with the current pattern in the East China Sea, with 15N-enriched freshwater in the coastal region and Kuroshio Water in the northeast of Taiwan Island, but nutrient-depleted Taiwan Warm Current Water in the mid-shelf; as the latter seems to have promoted the N2-fixation, resulting in the depleted δ15NPN in the mid-shelf. Furthermore, SPM investigated here seems not to be influenced by the terrestrial organic matter supplied by the Yangtze River (Changjiang) in summer 2013, a finding that is contrary to a number of previous studies' conclusion. Nonetheless, given the complications associated with stable isotopes of organic matter, additional parameters such as radiocarbon and biomarkers are crucial to revalidate whether or not SPM in the DCM depths is influenced by terrestrial organic compounds in the river-dominated East China Sea. [ABSTRACT FROM AUTHOR] |
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| Database: |
Complementary Index |
