期刊
DEEP-SEA RESEARCH PART II-TOPICAL STUDIES IN OCEANOGRAPHY
卷 55, 期 18-19, 页码 2041-2058出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.dsr2.2008.04.026
关键词
Antarctic zone; Antarctic Peninsula; Sea ice; Ocean-ice-atmosphere system; Climatic changes; Polar marine environment
类别
The Antarctic Peninsula region is undergoing rapid change: a warming in winter of almost 6 degrees C since 1950, the loss of six ice shelves, the retreat of 87% of the marine glaciers, and decreases in winter sea-ice duration. Concurrently, there is evidence of ecosystem change along the western Antarctic Peninsula (wAP). Since the life histories of most polar marine species are synchronized with the seasonal cycle of sea ice, we assess how the seasonal sea-ice cycle is changing in the wAP region. Four new metrics of seasonal sea-ice variability were extracted from spatial maps of satellite derived daily sea-ice concentration: (a) day of advance, (b) day of retreat, (c) the total number of sea-ice days (between day of advance and retreat), and (d) the percent time sea-ice was present (or sea-ice persistence). The spatiotemporal variability describes distinct on-to-offshore and alongshore differences in ice-ocean marine habitats, characterized overall by a longer sea-ice season in coastal regions (6.8-7.9 months) versus a shorter sea-ice season over the shelf(4.1-5.3 months), with on-to-offshore differences increasing south-to-north. Large perturbations in the seasonality of the marine habitat occur in association with ENSO and Southern Annular Mode (SAM) variability. The local atmospheric response to these climate modes is largely a strengthening of the meridional winds during spring-to-autumn, which in turn affect the timing of the sea-ice retreat and subsequent advance. These perturbations are embedded in overall trends towards a later sea-ice advance, earlier retreat and consequently shorter sea-ice season, the impacts of which are expected to affect ecosystem functionality in the wAP region. A suite of ocean-atmosphere-ice interactions are described that are consistent with the amplified warming in late autumn, early winter. Published by Elsevier Ltd.
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