Arctic summer sea ice phenology including ponding from 1982 to 2017 |
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Authors: | Xiaoli Chen Chunxia Zhou Lei Zheng Mingci Li Yong Liu Tingting Liu |
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Institution: | 1.Chinese Antarctic Center of Surveying and Mapping, Wuhan University, Wuhan 430079, China2.School of Geospatial Engineering and Science, Sun Yat-sen University, Guangzhou 519082, China3.Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai), Zhuhai 519000, China |
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Abstract: | Information on the Arctic sea ice climate indicators is crucial to business strategic planning and climate monitoring. Data on the evolvement of the Arctic sea ice and decadal trends of phenology factors during melt season are necessary for climate prediction under global warming. Previous studies on Arctic sea ice phenology did not involve melt ponds that dramatically lower the ice surface albedo and tremendously affect the process of sea ice surface melt. Temporal means and trends of the Arctic sea ice phenology from 1982 to 2017 were examined based on satellite-derived sea ice concentration and albedo measurements. Moreover, the timing of ice ponding and two periods corresponding to it were newly proposed as key stages in the melt season. Therefore, four timings, i.e., date of snow and ice surface melt onset (MO), date of pond onset (PO), date of sea ice opening (DOO), and date of sea ice retreat (DOR); and three durations, i.e., melt pond formation period (MPFP, i.e., MO–PO), melt pond extension period (MPEP, i.e., PO–DOR), and seasonal loss of ice period (SLIP, i.e., DOO–DOR), were used. PO ranged from late April in the peripheral seas to late June in the central Arctic Ocean in Bootstrap results, whereas the pan-Arctic was observed nearly 4 days later in NASA Team results. Significant negative trends were presented in the MPEP in the Hudson Bay, the Baffin Bay, the Greenland Sea, the Kara and Barents seas in both results, indicating that the Arctic sea ice undergoes a quick transition from ice to open water, thereby extending the melt season year to year. The high correlation coefficient between MO and PO, MPFP illustrated that MO predominates the process of pond formation. |
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Keywords: | Arctic sea ice sea ice phenology melt timings and durations melt ponds remote sensing |
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