The changing CO2 sink in the western Arctic Ocean from 1994 to 2019
| Author(s) | Ouyang, Zhangxian | |
| Author(s) | Li, Yun | |
| Author(s) | Zhong, Wenli | |
| Author(s) | Murata, Akihiko | |
| Author(s) | Nishino, Shigeto | |
| Author(s) | Wu, Yingxu | |
| Author(s) | Jin, Meibing | |
| Author(s) | Kirchman, David | |
| Author(s) | Chen, Liqi | |
| Author(s) | Cai, Wei-Jun | |
| Date Accessioned | 2022-03-09T21:33:50Z | |
| Date Available | 2022-03-09T21:33:50Z | |
| Publication Date | 2021-12-28 | |
| Description | An edited version of this paper was published by AGU in Global Biogeochemical Cycles. Copyright 2021 American Geophysical Union. The version of record is available at: https://doi.org/10.1029/2021GB007032. | en_US |
| Abstract | The Arctic Ocean has turned from a perennial ice-covered ocean into a seasonally ice-free ocean in recent decades. Such a shift in the air-ice-sea interface has resulted in substantial changes in the Arctic carbon cycle and related biogeochemical processes. To quantitatively evaluate how the oceanic CO2 sink responds to rapid sea ice loss and to provide a mechanistic explanation, here we examined the air-sea CO2 flux and the regional CO2 sink in the western Arctic Ocean from 1994 to 2019 by two complementary approaches: observation-based estimation and a data-driven box model evaluation. The pCO2 observations and model results showed that summer CO2 uptake significantly increased by about 1.4 ± 0.6 Tg C decade−1 in the Chukchi Sea, primarily due to a longer ice-free period, a larger open area, and an increased primary production. However, no statistically significant increase in CO2 sink was found in the Canada Basin and the Beaufort Sea based on both observations and modeled results. The reduced sea ice coverage in summer in the Canada Basin and the enhanced wind speed in the Beaufort Sea potentially promoted CO2 uptake, which was, however, counteracted by a rapidly decreased air-sea pCO2 gradient therein. Therefore, the current and future Arctic Ocean CO2 uptake trends cannot be sufficiently reflected by the air-sea pCO2 gradient alone because of the sea ice variations and other environmental factors. | en_US |
| Sponsor | The authors thank the contributors to the SOCAT v2020, CHINARE, JAMSTEC, USGS, NSF Arctic Data Center databases, as well as the research vessels and crews for collecting the data used in this study. This work was supported by the United States National Science Foundation (PLR-1304337 and OPP-1926158), the National Natural Science Foundation of China (41941013, 41806222, 41630969), the Green Network of Excellence (GRENE) Program/Arctic Climate Change Research Project and Arctic Challenge for Sustainability (ArCS) Project, which were funded by the Ministry of Education, Culture, Sports, Science and Technology of Japan (MEXT). | en_US |
| Citation | Ouyang, Z., Li, Y., Qi, D., Zhong, W., Murata, A., Nishino, S., et al. (2022). The changing CO2 sink in the western Arctic Ocean from 1994 to 2019. Global Biogeochemical Cycles, 36, e2021GB007032. https://doi.org/10.1029/2021GB007032 | en_US |
| ISSN | 1944-9224 | |
| URL | https://udspace.udel.edu/handle/19716/30641 | |
| Language | en_US | en_US |
| Publisher | Global Biogeochemical Cycles | en_US |
| Keywords | CO2 flux | en_US |
| Keywords | Arctic Ocean | en_US |
| Keywords | sea ice | en_US |
| Keywords | carbon cycle | en_US |
| Title | The changing CO2 sink in the western Arctic Ocean from 1994 to 2019 | en_US |
| Type | Article | en_US |
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