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Abstract
The northern Bering Sea and the southern Chukchi Sea are undergoing rapid regional biophysical changes in connection with the recent extreme climate change in the Arctic. The ice concentration in 2018 was the lowest since observations began in the 1970s, due to the unusually warm southerly wind in winter, which continued in 2019. We analyzed the characteristics of spring phytoplankton biomass distribution under the extreme environmental conditions in 2018 and 2019. Our results show that higher phytoplankton biomass during late spring compared to the 18-year average was observed in the Bering Sea in both years. Their spatial distribution is closely related to the open water extent following winter-onset sea ice retreat in association with dramatic atmospheric conditions. However, despite a similar level of shortwave heat flux, the 2019 springtime biomass in the Chukchi Sea was lower than that in 2018, and was delayed to summer. We confirmed that this difference in bloom timing in the Chukchi Sea was due to changes in seawater properties, determined by a combination of northward oceanic heat flux modulation by the disturbance from more extensive sea ice in winter and higher surface net shortwave heat flux than usual.
Highlights
In this study, we investigated the significant difference in phytoplankton biomass in the Pacific Arctic extending from the northern Bering Sea to the southern Chukchi Sea in 2018 and 2019, when an anomalous geophysical state emerged based on ocean color observation
Sea ice and clouds cover most of the area, making it entirely impossiare provided in confined regions
The spring bloom in the northern Bering Sea begins in ble toand observe
Summary
Received: 30 August 2021Accepted: 4 October 2021Published: 9 October 2021Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.Licensee MDPI, Basel, Switzerland.Attribution (CC BY) license (https://creativecommons.org/licenses/by/ 4.0/).Over the past few decades, the Arctic Ocean has experienced significant warming and a dramatic decline in sea ice extent. Changes associated with diminishing sea ice include long-term thinning trends, a lengthening of the summer melt season, and a shift from primarily perennial multiyear ice to seasonal first-year ice [1]. In particular, the Pacific
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