Landfast ice controls on sea-ice production in the Cape Darnley Polynya: A case study

Antarctic coastal polynyas serve as crucially-important sea-ice “factories” and are (in certain cases) of global significance as sites of Antarctic Bottom Water (AABW) formation e.g., the Cape Darnley Polynya (CDP) in East Antarctica. As such, understanding change and variability in their behaviour,...

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Published inRemote sensing of environment Vol. 233; p. 111315
Main Authors Fraser, Alexander D., Ohshima, Kay I., Nihashi, Sohey, Massom, Robert A., Tamura, Takeshi, Nakata, Kazuki, Williams, Guy D., Carpentier, Scott, Willmes, Sascha
Format Journal Article
LanguageEnglish
Published New York Elsevier Inc 01.11.2019
Elsevier BV
Subjects
Antarctic
Antarctic bottom water
Antarctic coastal polynya
Atmospheric models
Bottom water
Capes (landforms)
Climate change
Climate models
Fast ice
Glaciers
Global climate
Global climate models
Ice ages
Ice formation
Icebergs
Industrial plants
Landfast ice
Maintenance
Pack ice
Polar environments
Polynya formation
Polynyas
Satellite data
Sea ice
Sea ice production
Sea ice-ocean interaction
Upstream
Variability
Sea ice production
Landfast ice
Fast ice
Antarctic coastal polynya
Sea ice-ocean interaction
Antarctic
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Summary:Antarctic coastal polynyas serve as crucially-important sea-ice “factories” and are (in certain cases) of global significance as sites of Antarctic Bottom Water (AABW) formation e.g., the Cape Darnley Polynya (CDP) in East Antarctica. As such, understanding change and variability in their behaviour, and the factors responsible, is a high priority in climate (change) science. One such important factor that is both poorly understood and quantified is their linkage with adjacent landfast sea ice (fast ice). Here, we present a first detailed analysis that identifies and quantifies key linkages between the dynamics/behaviour of the CDP and fast ice. By forming a barrier to the incursion of pack ice at the eastern boundary, fast ice immediately upstream of the CDP (associated with the distribution of grounded icebergs) plays a crucially-important role in the polynya formation, maintenance and variability. This satellite data-based study builds upon earlier conceptual work on polynya-fast ice feedback mechanisms in the Mertz Glacier region by showing that statistical estimation of the rates of sea ice production (and hence AABW formation) in the CDP is significantly improved through inclusion of two key fast-ice metrics, compared to use of atmospheric covariates alone. These two metrics are the meridional extent of fast ice upstream of the polynya and total fast ice area within the region of high sea ice production. The work highlights the importance of accurate representation of the coupled Antarctic coastal polynya-fast ice system in global climate models. •Studies the Cape Darnley Polynya, a globally-important producer of bottom water•Details links between Antarctic landfast sea ice and coastal polynya ice production•Defines fast ice metrics which describe variability in polynya size and production•Fast ice metrics are as important as atmospheric quantities for this polynya.•Provides an inter-comparison between passive microwave and MODIS fast ice maps
ISSN:0034-4257
1879-0704
DOI:10.1016/j.rse.2019.111315