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Characterization and source of fluorescent dissolved organic matter in the Western Arctic Ocean: new insights from the 2019 summer study

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Title
Characterization and source of fluorescent dissolved organic matter in the Western Arctic Ocean: new insights from the 2019 summer study
Other Titles
서북극해에서의 형광용존유기물의 특성과 기원: 2019년 여름철 연구에서 얻은 새로운 통찰
Authors
전미해
Jung, Jinyoung
Park Mi Ok
Cho, Kyoung-Ho
Lee, Youngju
Yang, Eun Jin
Kang, Sung-Ho
Keywords
Fluorescent dissolved organic matterRiver dischargeShelf sedimentShoalingWestern Arctic Ocean
Issue Date
2023
Citation
전미해, et al. 2023. "Characterization and source of fluorescent dissolved organic matter in the Western Arctic Ocean: new insights from the 2019 summer study". FRONTIERS IN MARINE SCIENCE, 10(1199893): 1-19.
Abstract
Increase in river discharge and seasonal primary production and decline in sea ice coverage in the Arctic Ocean in summer can significantly affect the distribution and composition of dissolved organic matter (DOM). This study aimed to enhance the current available knowledge about the impacts of environmental changes on the characteristics of DOM in the rapidly changing Arctic Ocean. Seawater samples were collected from the western Arctic Ocean during the summer of 2019 and analyzed for fluorescent DOM (FDOM), dissolved organic carbon (DOC), and stable oxygen isotope (& delta;O-18) content in conjunction with biophysical properties. We identified two humic-like (C1 and C2) and one protein-like (C3) components using fluorescence excitation-emission matrix coupled with parallel factor (EEM-PARAFAC) analysis. Remarkably high intensities of humic-like FDOM were found in the upper halocline layer (32 < salinity < 33.5 psu, at depths between 50-200 m) with high inorganic nutrient concentrations and low N* values, indicating that the humic-like FDOM was supplied from the shelf sediment. Furthermore, shoaling of the upper halocline layer brought high levels of humic-like FDOM to the euphotic zone, resulting in an increased probability of photodegradation of humic-like FDOM due to exposure to solar radiation in the surface layer. Tryptophan-like FDOM was positively correlated with river water fraction (f(river)) and riverine DOC but not with chlorophyll-a (Chl-a) and heterotrophic bacterial abundance, indicating river discharge as a potential additional source of tryptophan-like FDOM. The correlation coefficients between tryptophan-like FDOM and river water parameters (f(river) and riverine DOC) differed across the Chukchi Sea, Chukchi Borderland, and East Siberian Sea, implying that the influence of river discharge on tryptophan-like FDOM is region-dependent. An increase in river discharge in future might lead to a greater supply of tryptophan-like FDOM, impacting the dynamics of DOM cycling in the western Arctic Ocean.
URI
https://repository.kopri.re.kr/handle/201206/14896
DOI
http://dx.doi.org/10.3389/fmars.2023.1199893
Type
Article
Station
Araon
Indexed
SCIE
Appears in Collections  
2023-2023, Korea-Arctic Ocean Warming and Response of Ecosystem (23-23) / Yang, Eun Jin (PM23040)
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