Journal of Geo-information Science >
Retrieval and Analysis of Snow-covered Days in Xinjiang Based on Optical and Microwave Remote Sensing Data
Received date: 2014-06-20
Request revised date: 2014-10-27
Online published: 2015-02-10
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As an important land cover type of the Earth’s surface, snowpack has a huge effect on water cycle, climate change, environment and human activities. The snow covers are sensitive in indicating climate change and extreme weather events. Thus, it is significant to map the snowpack’s distribution and study the change trend of its time series. This study is focused on the use of the MODIS, AMSR-E, AMSR2 and MWRI data in winter (from November to March) from 2002 to 2013 to develop a retrieval model of daily snow distribution in Xinjiang. The technical process of establishing this model is divided into the following steps. First, data fusion was employed to handle the Terra and Aqua MODIS snow cover products, reduce the proportion of cloud pixels, and maximize the percentage of snow pixels, because the cloud has more mobility and it can change rapidly during the Terra and Aqua transit time. Second, AMSR-E, AMSR2 and MWRI data were used to retrieve daily snow cover map. Third, the two snow cover products were fused to produce cloud-free snow cover products. Based on the proposed approach, daily snow cover data of the entire Xinjiang were extracted for the winter days from 2002 to 2013. After that, the snow-covered days were extracted from the daily snow cover data using a statistical approach. For example, if a pixel location on the images was identified “snow” in three consecutive days, it was recognized as the type of “snow” and the count of days is “3”; otherwise, it was recognized as “non-snow” type. This algorithm was adopted to avoid mistakes in counting snow-covered days when the pixel location was only covered by snow within a short period that is less than a day. The method complies with the continuity aspect of the “snow cover” definition. The number of days covered with snow was finally retrieved for each pixel location in every winter using this proposed algorithm. The map of the averaged snow-covered days shows that the snow-covered days of Xinjiang have a close relationship with terrain, and the number of the snow-covered days in the mountainous areas is bigger than that in the basin and urban areas. The snow packs were mainly distributed in the northern part of Xinjiang. From November to January, snow-covered days increased because the temperature decreased, while from January to March, the number of the snow-covered days decreased with the rise of temperature. The snow-covered days of Xinjiang reveal some fluctuations from 2002 to 2013. The monthly snow-covered days showed significant correlation with the monthly average temperature and the number of days in a month having temperature lower than 0℃. The snow-covered days have no obvious relationship with snowfall. In recent years, the gravity centre of the snow-covered days in Xinjiang area has a southward and eastward movement trend, which may relate to the global warming. Further studies are needed to explain this issue in future.
Key words: snow-covered days; MODIS; AMSR-E; AMSR2; MWRI; co-retrieval; Xinjiang
YU Hongfeng , ZHANG Xianfeng . Retrieval and Analysis of Snow-covered Days in Xinjiang Based on Optical and Microwave Remote Sensing Data[J]. Journal of Geo-information Science, 2015 , 17(2) : 244 -252 . DOI: 10.3724/SP.J.1047.2015.00244
Fig. 1 Statistics of the cloud pixels of the fused snow data synthesized by the AM and PM MODIS snow products图1 上、下午积雪产品云像元融合效果统计 |
Fig. 2 Statistics of the snow pixels of the fused snow data synthesized by the AM and PM MODIS snow products图2 上、下午积雪产品积雪像元融合效果统计 |
Fig. 3 Averaged snow-covered days in Xinjiang during the 11 years from 2002 to 2013图3 新疆地区11年平均积雪天数统计 |
Fig. 4 Synthesized results of the maximum and minimum snow-covered days during the 11 years in Xinjiang图4 新疆地区11年积雪天数的最大与最小值合成结果 |
Fig. 5 Statistics of the averaged snow-covered days for each month in winter periods of the 11 years in Xinjiang图5 新疆地区11年冬季各月的平均积雪天数统计结果 |
Fig. 6 The regression relation of the snow-covered days and altitude in northern Xinjiang图6 北疆地区积雪天数和海拔高度的回归分析结果 |
Fig. 7 Comparison of the averaged monthly snow-covered days and averaged temperature for each month in winter periods of the 11 years in northern Xinjiang图7 北疆地区11年来每月积雪天数和平均气温统计图 |
Fig. 8 The longitude and latitude movement of the snow-covered days gravity center in northern Xinjiang图8 北疆地区积雪重心的经度与纬度变化趋势 |
The authors have declared that no competing interests exist.
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