AI Article Synopsis
- * The carbon isotope ratios indicated that both particulate and dissolved organic matter mainly come from phytoplankton and melting sea ice, highlighting the meltwater's role in organic carbon supply.
- * Our findings showed a strong relationship between organic matter quality and its isotopic signatures, suggesting that variations in phytoplankton types influence carbon cycling and microbial activity in the region.
Article Abstract
We utilized amino acid (AA) and carbon stable isotope analyses to characterize phytoplankton-derived organic matter (OM) and trace the sources of organic carbon in the Amundsen Sea. Carbon isotope ratios of particulate organic carbon (δC-POC) range from -28.7‱ to -23.1‱, indicating that particulate organic matter originated primarily from phytoplankton. The dissolved organic carbon isotope (δC-DOC) signature (-27.1 to -21.0‱) observed in the sea-ice melting system suggests that meltwater contributes to the DOC supply of the Amundsen Sea together with OM produced by phytoplankton. A negative correlation between the degradation index and δC-POC indicates that the quality of OM significantly influences isotopic fractionation (r = 0.59, < 0.001). The AA distribution in the Amundsen Sea (5.43 ± 3.19 µM) was significantly larger than previously reported in the Southern Ocean and was associated with phytoplankton biomass (r = 0.49, < 0.01). Under conditions dominated by (DI = 2.29 ± 2.30), OM exhibited greater lability compared to conditions co-dominated by diatoms and (DI = 0.04 ± 3.64). These results highlight the important role of in influencing the properties of OM, suggesting potential impacts on carbon cycling and microbial metabolic activity in the Amundsen Sea.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11509804 | PMC |
| http://dx.doi.org/10.3390/md22100476 | DOI Listing |
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