Measurement report: Summertime fluorescence characteristics of atmosphericwater-soluble organic carbon in the marine boundary layer of the westernArctic Ocean
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Title
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Measurement report: Summertime fluorescence characteristics of atmosphericwater-soluble organic carbon in the marine boundary layer of the westernArctic Ocean
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Other Titles
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측정보고: 서북극해 해양경계층에서의 대기 수용성 유기탄소의 여름철 형광특성
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Authors
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Jung, Jinyoung
Miyazaki Yuzo
Hur Jin
Lee Yun Kyung
전미해
Lee, Youngju
Cho, Kyoung-Ho
Chung, Hyun Young
Kim, Kitae
Choi, Jung-Ok
Catherine Lalande
Kim, Joo-Hong
Choi, Taejin
Yoon, Young Jun
Yang, Eun Jin
Kang, Sung-Ho
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Issue Date
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2023
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Citation
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Jung, Jinyoung, et al. 2023. "Measurement report: Summertime fluorescence characteristics of atmosphericwater-soluble organic carbon in the marine boundary layer of the westernArctic Ocean". ATMOSPHERIC CHEMISTRY AND PHYSICS, 23(8): 4663-4684.
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Abstract
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Accelerated warming and a decline in sea ice coverage in the summertime Arctic Ocean can significantly affect the emissions of marine organic aerosols and biogenic volatile organic compounds. However, how these changes affect the characteristics of atmospheric water-soluble organic carbon (WSOC), which plays an important role in the climate system, remains unclear. Thus, to improve our understanding of WSOC characteristics in the rapidly changing Arctic Ocean, including its summertime fluorescence characteristics, we simultaneously measured atmospheric concentrations of ionic species and WSOC, a fluorescence excitation-emission matrix coupled with parallel factor (EEM-PARAFAC) analysis of WSOC, and marine biological parameters in surface seawaters of the western Arctic Ocean during the summer of 2016. WSOC was predominantly present as fine-mode aerosols (diameter <2.5 mu m, median = 92 %), with the mean concentration being higher in the coastal water areas (462 +/- 130 ngC m(-3)) than in the sea-ice-covered areas (242 +/- 88.4 ngCm(-3)). Moreover, the WSOC in the fine-mode aerosols was positively correlated with the methanesulfonic acid in the fine-mode aerosol samples collected over the sea-ice-covered areas (r = 0.88, p<0.01, n = 10), suggesting high rates of sea-air gas exchange and emissions of aerosol precursor gases due to sea ice retreat and increasingly available solar radiation during the Arctic summer. Two fluorescent components, humic-like C1 and protein-like C2, were identified by the PARAFAC modeling of fine-mode atmospheric WSOC. The two components varied regionally between coastal and sea-ice-covered areas, with low and high fluorescence intensities observed over the coastal areas and the sea-ice-covered areas, respectively. Further, the humification index of WSOC was correlated with the fluorescence intensity ratio of the humic-like C1 / protein-like C2 (r = 0.89, p<0.01) and the WSOC concentration in the fine-mode aerosols (r = 0.66, p<0.05), with the highest values observed in the coastal areas. Additionally, the WSOC concentration in the fine-mode aerosols was positively correlated with the fluorescence intensity ratio of the humic-like C1 = protein-like C2 (r = 0.77, p<0.01) but was negatively correlated with the biological index (r = -0.69, p<0.01). Overall, these results suggested that the WSOC in the fine-mode aerosols in the coastal areas showed a higher degree of polycondensation and higher aromaticity compared to that in the seaice-covered areas, where WSOC in the fine-mode aerosols was associated with relatively new, less oxygenated, and biologically derived secondary organic components. These findings can improve our understanding of the chemical and biological linkages of WSOC at the ocean-sea-ice-atmosphere interface.
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URI
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https://repository.kopri.re.kr/handle/201206/14871
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DOI
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http://dx.doi.org/10.5194/acp-23-4663-2023
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Type
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Article
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Station
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Araon
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Indexed
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SCIE
- Appears in Collections
- 2023-2023, Korea-Arctic Ocean Warming and Response of Ecosystem (23-23) / Yang, Eun Jin (PM23040)
2023-2023, Development and Application of the Earth System Model-based Korea Polar Prediction System (KPOPS-Earth) for the Arctic and Midlatitude High-impact Weather Events (23-23) / Kim, Joo-Hong (PE23010)
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