According to the time series data of Enhanced Vegetation Index (EVI) in Four-Lake Area of Jianghan Plain during the period 2001-2007, we use Harmonic Analysis of Time Series (HANTS) to conduct cloud removing processin...According to the time series data of Enhanced Vegetation Index (EVI) in Four-Lake Area of Jianghan Plain during the period 2001-2007, we use Harmonic Analysis of Time Series (HANTS) to conduct cloud removing processing, and calculate the sum of square N of time series value of each pixel. The pixels with N>0.25 are classified as vegetation coverage area; the pixels with N<0.25 are classified as non-vegetation coverage area. As to vegetation coverage area, we use the second-order difference method to judge the frequency of peak value of EVI time series data. Within one year, the vegetation coverage area with peak value happening 1 time is woodland and grassland; the vegetation coverage area with peak value happening 2 times is arable land; the vegetation coverage area with peak value happening 3 times or more is vegetable land. Supervised classification method is used to identify cities, towns, water area in non-vegetation coverage area and woodland, grassland in vegetation coverage area. We draw the land cover classification diagram of Four-Lake Area in the period 2001-2007. In comparison with the land cover classification based on multitemporal ETM data in 2001, the difference of area of arable land is within 10%. Using MODIS-EVI data, we can rapidly and efficiently conduct land cover classification with low cost. The dynamic analysis results indicate that the area of arable land is in the process of declining, while the area of other cover types shows an increasing trend.展开更多
目前普遍使用的基于SWAT(soil and water assessment tool)模型的分布式建模方法仅适用于山地、丘陵等高差较大的地区,对于具有复杂水文结构特点的平原河网区尚无有效的解决方案。该文选择太湖流域湖西区作为研究区,基于SWAT模型探索出...目前普遍使用的基于SWAT(soil and water assessment tool)模型的分布式建模方法仅适用于山地、丘陵等高差较大的地区,对于具有复杂水文结构特点的平原河网区尚无有效的解决方案。该文选择太湖流域湖西区作为研究区,基于SWAT模型探索出一套完整的针对平原河网区的分布式建模方案。该方案采用概化、打断的方式将交叉、环状河网处理成单一的枝状河网,采用按河道分流比例跨子流域调水的方式来还原原始河道的传输过程,采用添加"虚拟水库"的方式来模拟人工圩区内外的水量交换。通过对太湖湖西区2008-2010年的月均径流量进行模拟验证,根据模拟值和观测值计算的荣登桥、胡家圩及宜兴3个水文站的相关系数r和纳什(Nash-Sutcliffe)系数Ens分别为0.94、0.95、0.93和0.84、0.80、0.67,说明了这种建模方法在平原河网区具有较好的适用性。展开更多
基金Supported by National Natural Science Foundation of China(40971113)Innovative Group Project of Natural Science Foundation of Hubei Province (2006ABC013)
文摘According to the time series data of Enhanced Vegetation Index (EVI) in Four-Lake Area of Jianghan Plain during the period 2001-2007, we use Harmonic Analysis of Time Series (HANTS) to conduct cloud removing processing, and calculate the sum of square N of time series value of each pixel. The pixels with N>0.25 are classified as vegetation coverage area; the pixels with N<0.25 are classified as non-vegetation coverage area. As to vegetation coverage area, we use the second-order difference method to judge the frequency of peak value of EVI time series data. Within one year, the vegetation coverage area with peak value happening 1 time is woodland and grassland; the vegetation coverage area with peak value happening 2 times is arable land; the vegetation coverage area with peak value happening 3 times or more is vegetable land. Supervised classification method is used to identify cities, towns, water area in non-vegetation coverage area and woodland, grassland in vegetation coverage area. We draw the land cover classification diagram of Four-Lake Area in the period 2001-2007. In comparison with the land cover classification based on multitemporal ETM data in 2001, the difference of area of arable land is within 10%. Using MODIS-EVI data, we can rapidly and efficiently conduct land cover classification with low cost. The dynamic analysis results indicate that the area of arable land is in the process of declining, while the area of other cover types shows an increasing trend.
文摘目前普遍使用的基于SWAT(soil and water assessment tool)模型的分布式建模方法仅适用于山地、丘陵等高差较大的地区,对于具有复杂水文结构特点的平原河网区尚无有效的解决方案。该文选择太湖流域湖西区作为研究区,基于SWAT模型探索出一套完整的针对平原河网区的分布式建模方案。该方案采用概化、打断的方式将交叉、环状河网处理成单一的枝状河网,采用按河道分流比例跨子流域调水的方式来还原原始河道的传输过程,采用添加"虚拟水库"的方式来模拟人工圩区内外的水量交换。通过对太湖湖西区2008-2010年的月均径流量进行模拟验证,根据模拟值和观测值计算的荣登桥、胡家圩及宜兴3个水文站的相关系数r和纳什(Nash-Sutcliffe)系数Ens分别为0.94、0.95、0.93和0.84、0.80、0.67,说明了这种建模方法在平原河网区具有较好的适用性。