2000—2016年黄土高原地区荒漠化遥感分析
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摘要
鉴于利用NDVI-albedo特征空间的方法进行黄土高原荒漠化的研究较少,利用MODIS归一化差异植被指数(normalized difference vegetation index,NDVI)和地表反照率(albedo)数据,构建NDVI-albedo特征空间,计算荒漠化差值指数(desertification difference index,DDI)和植被条件反照率干旱指数(vegetation condition albedo drought index,VCADI),并利用实测土壤湿度数据进行验证,分析黄土高原2000—2016年土地荒漠化和旱情的时空分布规律和影响因素。结果表明,DDI、VCADI与土壤湿度分别呈正相关和负相关,均通过了显著性检验,均可作为土地荒漠化和旱情监测指标;17年间,黄土高原重度荒漠化面积逐渐缩小,土地荒漠化改善面积占84.55%,荒漠化加重区域仅占5.61%;旱情改善面积占67.07%,加重区域占19.44%;荒漠化与降水量呈负相关关系,与气温呈正相关关系,而旱情与降雨量、年均温度均呈正相关关系。
NDVI-albedo space was constructed using MODIS normalized difference vegetation index(NDVI)and surface albedo(albedo)data,and the desertification difference index(DDI)and the vegetation condition albedo drought index(VCADI)were obtained and verified by the data of meteorological stations.The correlation was analyzed between DDI,VCADI and the measured 10 cm depth soil moisture.The spatial and temporal distribution characteristics of the desertification and drought in the loess plateau from 2000 to 2016 were evaluated by DDI and VCADI,respectively.The linear regression analysis method was used to analyze the change trend of desertification and drought of the loess plateau in the past 17 years.Finally,the natural driving factors liking annual precipitation and temperature which resulted in the change of desertification and drought were analyzed.The results showed that there was a positive correlation between DDI and soil moisture(R~2=0.281 8)and negative correlation between VCADI and soil moisture(R~2=0.283 1)which passed the 90%significance test.DDI and AVDI could be used as indicators for monitoring desertification and drought,respectively.In the past 17 years,the area of severe desertification in the loess plateau gradually decreased.The light desertification and non-desertification area spread to the northwestern of the loess plateau.The area of desertification improved accounted for 84.55%and the desertification aggravated only accounted for5.61%.The area of drought improved accounted for 67.07% while the drought aggravated accounted for 19.44% of the total area.There was a negative correlation between desertification and precipitation and a positive correlation with temperature,while the drought had a positive correlation with precipitation and annual average temperature,respectively.
NDVI-albedo space was constructed using MODIS normalized difference vegetation index(NDVI)and surface albedo(albedo)data,and the desertification difference index(DDI)and the vegetation condition albedo drought index(VCADI)were obtained and verified by the data of meteorological stations.The correlation was analyzed between DDI,VCADI and the measured 10 cm depth soil moisture.The spatial and temporal distribution characteristics of the desertification and drought in the loess plateau from 2000 to 2016 were evaluated by DDI and VCADI,respectively.The linear regression analysis method was used to analyze the change trend of desertification and drought of the loess plateau in the past 17 years.Finally,the natural driving factors liking annual precipitation and temperature which resulted in the change of desertification and drought were analyzed.The results showed that there was a positive correlation between DDI and soil moisture(R~2=0.281 8)and negative correlation between VCADI and soil moisture(R~2=0.283 1)which passed the 90%significance test.DDI and AVDI could be used as indicators for monitoring desertification and drought,respectively.In the past 17 years,the area of severe desertification in the loess plateau gradually decreased.The light desertification and non-desertification area spread to the northwestern of the loess plateau.The area of desertification improved accounted for 84.55%and the desertification aggravated only accounted for5.61%.The area of drought improved accounted for 67.07% while the drought aggravated accounted for 19.44% of the total area.There was a negative correlation between desertification and precipitation and a positive correlation with temperature,while the drought had a positive correlation with precipitation and annual average temperature,respectively.
引文
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[12]赵之重,赵凯,徐剑波,等.三江源地表反照率时空变化及其与气候因子的关系[J].干旱区研究,2014,31(6):1031-1038.
[13]曾永年,向南平,冯兆东,等.Albedo-NDVI特征空间及沙漠化遥感监测指数研究[J].地理科学,2006,26(1):75-81.
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[15]STOW D,DAESCHNER S,HOPE A,et al.Variability of the seasonally integrated normalized difference vegetation index across the north slope of Alaska in the 1990s[J].International Journal of Remote Sensing,2003,24(5):1111-1117.
[2]王洪波.半干旱地区历史时期沙漠化成因研究进展[J].干旱区资源与环境,2015,29(5):69-74.
[3]曾永年,冯兆东.黄河源区土地沙漠化成因机制分析[J].自然灾害学报,2009,18(1):45-52.
[4]田红卫,高照良.黄土高原土地沙漠化成因机制及其治理模式的研究[J].农业现代化研究,2013,34(1):19-24.
[5]孙文义,邵全琴,刘纪远.黄土高原不同生态系统水土保持服务功能评价[J].自然资源学报,2014,29(3):365-376.
[6]周忠学,孙虎,李智佩.黄土高原水蚀荒漠化发生特点及其防治模式[J].干旱区研究,2005,22(1):29-34.
[7]VOROVENCII I.Applying the change vector analysis technique to assess the desertification risk in the south-west of Romania in the period 1984-2011[J].Environmental Monitoring &Assessment,2017,189(10):524.
[8]冯淳,张云峰,焦超卫,等.秃尾河上游流域土地荒漠化遥感动态研究[J].遥感信息,2016,31(1):110-114.
[9]贺振,贺俊平.基于MODIS的黄土高原土地荒漠化动态监测[J].遥感技术与应用,2011,26(4):476-481.
[10]韦振锋,任志远,张翀,等.1999—2010年陕甘宁黄土高原区荒漠化空间特征[J].中国沙漠,2014,34(5):1230-1236.
[11]木热提江·阿不拉,张晓萍,陈利利,等.基于GIMMS NDVI的黄土高原地区荒漠化时空特征分析[J].中国水土保持科学,2015,13(3):24-31.
[12]赵之重,赵凯,徐剑波,等.三江源地表反照率时空变化及其与气候因子的关系[J].干旱区研究,2014,31(6):1031-1038.
[13]曾永年,向南平,冯兆东,等.Albedo-NDVI特征空间及沙漠化遥感监测指数研究[J].地理科学,2006,26(1):75-81.
[14]ABUDUWASIT G,LI Z L,QIN Q M.Exploration of the spectral space based on vegetation index and albedo for surface drought estimation[J].Journal of Applied Remote Sensing,2007,1(13529):341-353.
[15]STOW D,DAESCHNER S,HOPE A,et al.Variability of the seasonally integrated normalized difference vegetation index across the north slope of Alaska in the 1990s[J].International Journal of Remote Sensing,2003,24(5):1111-1117.
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