Rapid changes in the surface carbonate system under complex mixing schemes across the Bering Sea: a comparative study of a forward voyage in July and a return voyage in September 2018

Regulated by the rapid changes in temperature, mixing, and biological production during warm seasons, the surface carbonate system in the Bering Sea is subject to significant spatial-temporal variability. However, the seasonal evolution of the carbon cycle and its controls are less clear due to the...

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Bibliographic Details
Published in:Frontiers in Marine Science
Main Authors: Yang, Wei, Wu, Yingxu, Cai, Wei-Jun, Ouyang, Zhangxian, Zhuang, Yanpei, Chen, Liqi, Qi, Di
Other Authors: National Natural Science Foundation of China, National Key Research and Development Program of China
Format: Article in Journal/Newspaper
Language:unknown
Published: Frontiers Media SA 2023
Subjects:
Ocean Engineering
Water Science and Technology
Aquatic Science
Global and Planetary Change
Oceanography
Anadyr
Anadyr'
Bering Sea
Bering Strait
Online Access:http://dx.doi.org/10.3389/fmars.2023.1107646
https://www.frontiersin.org/articles/10.3389/fmars.2023.1107646/full
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Summary:Regulated by the rapid changes in temperature, mixing, and biological production during warm seasons, the surface carbonate system in the Bering Sea is subject to significant spatial-temporal variability. However, the seasonal evolution of the carbon cycle and its controls are less clear due to the lack of observations. Here, we present the carbonate data collected during a forward voyage in July and a return voyage in September 2018 across the Bering Sea. For both voyages, we show distinct dissolved inorganic carbon versus total alkalinity (DIC-TA) relationships and partial pressure of CO 2 ( p CO 2 ) distribution patterns in the Southern Basin (54-57°N), the Northern Basin (57-59°N), the Slope (59-61°N), the Shelf (61-64°N), and the Bering Strait (>64°N). In the Southern Basin, the Northern Basin, and the Slope, surface water was a two end-member mixing of Rainwater and Bering Summer Water (BSW) during the forward voyage and a two end-member mixing of North Pacific Surface Water (NPSW) and BSW during the return voyage. As a result, the observed DIC was almost consistent with the conservative mixing line, with a slight DIC addition/removal of -8.6~5.8 µmol kg -1 , suggesting low biological production/respiration during both voyages. Seasonally, the higher factions of NPSW featuring low p CO 2 during the return voyage dominated the p CO 2 drawdown from July to September in the Southern Basin and the Slope. On the Shelf, the surface water was a two end-member mixing of plume water from the Anadyr River and BSW during both voyages, but the decreased DIC consumption via biological production from 59.9 ± 25.8 µmol kg -1 to 34.8 ± 14.0 µmol kg -1 contributed to the p CO 2 increase from July to September. In the Bering Strait, the coastal area was characterized by the influence of plume water from the Anadyr River in July and the coastal upwelling in September. The high biological production in plume water made a strong CO 2 sink during the forward voyage, while the upwelling of carbon-enriched subsurface water ...

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