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Change and variability in Antarctic coastal exposure, 1979–2020

Phillip Reid, R. A. Massom

2022Nature Communications26 citationsDOIOpen Access PDF

Abstract

Increased exposure of Antarctica's coastal environment to open ocean and waves due to loss of a protective sea-ice "buffer" has important ramifications for ice-shelf stability, coastal erosion, important ice-ocean-atmosphere interactions and shallow benthic ecosystems. Here, we introduce a climate and environmental metric based on the ongoing long-term satellite sea-ice concentration record, namely Coastal Exposure Length. This is a daily measure of change and variability in the length and incidence of Antarctic coastline lacking any protective sea-ice buffer offshore. For 1979-2020, ~50% of Antarctica's ~17,850-km coastline had no sea ice offshore each summer, with minimal exposure in winter. Regional summer/maximum contributions vary from 45% (Amundsen-Bellingshausen seas) to 58% (Indian Ocean and Ross Sea), with circumpolar annual exposure ranging from 38% (2019) to 63% (1993). The annual maximum length of Antarctic coastal exposure decreased by ~30 km (~0.32%) per year for 1979-2020, composed of distinct regional and seasonal contributions.

Topics & Concepts

OceanographySea iceEnvironmental scienceMarine ecosystemCircumpolar starAntarctic sea iceCryosphereClimate changeSubmarine pipelineIce shelfClimatologyGeologyPhysical geographyEcosystemGeographyBiologyEcologyCryospheric studies and observationsArctic and Antarctic ice dynamicsClimate change and permafrost
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