Evolution of the dynamics, area, and ice production of the Amundsen Sea Polynya, Antarctica, 2016–2021
Polynyas are key sites of ice production during the winter and are important sites of biological activity and carbon sequestration during the summer. The Amundsen Sea Polynya (ASP) is the fourth largest Antarctic polynya, has recorded the highest primary productivity, and lies in an embayment of key...
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Veröffentlicht in: | The cryosphere 2023-02, Vol.17 (2), p.457-476 |
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Zusammenfassung: | Polynyas are key sites of ice production during the winter and are
important sites of biological activity and carbon sequestration during the
summer. The Amundsen Sea Polynya (ASP) is the fourth largest Antarctic
polynya, has recorded the highest primary productivity, and lies in an
embayment of key oceanographic significance. However, knowledge of its
dynamics, and of sub-annual variations in its area and ice production, is
limited. In this study we primarily utilize Sentinel-1 synthetic aperture radar (SAR) imagery, sea ice concentration products, and climate reanalysis data, along with bathymetric
data, to analyze the ASP over the period November 2016–March 2021.
Specifically, we analyze (i) qualitative changes in the ASP's
characteristics and dynamics, as well as quantitative changes in (ii) summer
polynya area, and (iii) winter polynya area and ice production. From our
analysis of SAR imagery we find that ice produced by the ASP becomes stuck
in the vicinity of the polynya and sometimes flows back into the polynya,
contributing to its closure and limiting further ice production. The polynya
forms westward off a persistent chain of grounded icebergs that are located
at the site of a bathymetric high. Grounded icebergs also influence the
outflow of ice and facilitate the formation of a “secondary polynya” at
times. Additionally, unlike some polynyas, ice produced by the polynya flows
westward after formation, along the coast and into the neighboring sea
sector. During the summer and early winter, broader regional sea ice
conditions can play an important role in the polynya. The polynya opens in
all summers, but record-low sea ice conditions in 2016/17 cause it to become
part of the open ocean. During the winter, an average of 78 % of ice
production occurs in April–May and September–October, but large polynya
events often associated with high, southeasterly or easterly winds can
cause ice production throughout the winter. While passive microwave data or
daily sea ice concentration products remain key for analyzing variations in
polynya area and ice production, we find that the ability to directly
observe and qualitatively analyze the polynya at a high temporal and spatial
resolution with Sentinel-1 imagery provides important insights about the
behavior of the polynya that are not possible with those datasets. |
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ISSN: | 1994-0424 1994-0416 1994-0424 1994-0416 |
DOI: | 10.5194/tc-17-457-2023 |