李红军, 雷玉平, 李春强, 许宁, 成铁刚. 地表温度 植被指数特征空间时空尺度效应分析[J]. 中国生态农业学报(中英文), 2014, 22(10): 1252-1258. DOI: 10.13930/j.cnki.cjea.140815
引用本文: 李红军, 雷玉平, 李春强, 许宁, 成铁刚. 地表温度 植被指数特征空间时空尺度效应分析[J]. 中国生态农业学报(中英文), 2014, 22(10): 1252-1258. DOI: 10.13930/j.cnki.cjea.140815
LI Hongjun, LEI Yuping, LI Chunqiang, XU Ning, CHENG Tiegang. Effects of spatial and temporal scale on the surface temperature-vegetation index feature space[J]. Chinese Journal of Eco-Agriculture, 2014, 22(10): 1252-1258. DOI: 10.13930/j.cnki.cjea.140815
Citation: LI Hongjun, LEI Yuping, LI Chunqiang, XU Ning, CHENG Tiegang. Effects of spatial and temporal scale on the surface temperature-vegetation index feature space[J]. Chinese Journal of Eco-Agriculture, 2014, 22(10): 1252-1258. DOI: 10.13930/j.cnki.cjea.140815

地表温度 植被指数特征空间时空尺度效应分析

Effects of spatial and temporal scale on the surface temperature-vegetation index feature space

  • 摘要: 利用遥感技术构建的地表温度 植被指数特征空间法(以下简称特征空间法)综合了这两个参数特有的生理生态意义, 被广泛应用于区域旱情监测与蒸散估算。但是受前期降雨的影响, 特征空间法的应用前提(研究区域存在极端干旱地区)很难满足; 同时, 多空间分辨率遥感数据对地面极端湿润或干旱状况识别程度不同, 增加了特征空间法应用的不确定性。为探索特征空间法的时空尺度效应, 本文利用MODIS数据对降雨后特征空间拟合边界的连续变化进行分析, 利用Landsat 5 TM数据对不同空间分辨率下的特征空间参数及温度 植被干旱指数(TVDI)的变化进行研究。结果表明: 拟合"干边"因受降雨影响, 与理论"干边"存在较大差异, 拟合"干边"的变化能够反映研究区域的墒情演变, 要提高特征空间法的估算精度, 必须正确对拟合"干边"在裸地处(NDVI=0.1)的数值进行动态赋值。遥感数据空间分辨率的降低使得拟合"干边"与"湿边"偏离理论边界, 造成特征空间向中间压缩, 导致TVDI指数向极端干旱和极端湿润区偏移。任何不符合特征空间法应用前提的畸变都可影响到最后的计算结果, 应该从机理上对这些畸变进行校正或避开, 特征空间法才能得到正确的应用。

     

    Abstract: Surface temperature-vegetation index feature space (hereinafter to be referred as feature space method), constructed by using remote sensing technology, combines these 2 components' physiological and ecological functions and is widely used in regional drought monitoring and evapotranspiration estimation. However, influenced by the antecedent precipitation, the premise of the feature space method, i.e., the study area has extreme drought regions, is hard to satisfy. In addition, different spatial resolution remote sensing data have different abilities to identify the extreme moist or drought condition of the soil. All these facts increase the uncertainty of the feature space method. To explore the effects of spatial and temporal scale on the feature space method, this paper analyzed the continuous changes of feature space fitting borders after the rain using MODIS data. The surface temperature and Normalized Difference Vegetation Index (NDVI) retrieved by Landsat 5 TM data were interpolated into different resolution data, feature space parameters and Temperature-Vegetation Drought Index (TVDI) obtained by these different resolution data were studied. The results showed that the fitting dry edges were far from the theoretical ones because the influence of antecedent rainfall. The continuous changes of the fitting dry edges were in accordance with the soil moisture evolution of the study area. To improve the estimate precision of the feature space method, the value of fitting dry edge at the bare soil (where NDVI=0.1) should be assigned correctly and dynamically. The decrease of the spatial resolution of remote sensing data made the fitting dry and wet edges more far from the theoretical ones and the feature space compressed to the center. These led to some places be mistaken for more drought or more moist. By this token, any discrepancy with the premise of the feature space caused error in the drought monitoring and evapotranspiration estimation. The discrepancy should be corrected based on its mechanism and the demands of the feature space method.

     

/

返回文章
返回