Estimations of Net Primary Productivity and Evapotranspiration Based on HJ-1A/B Data in Jinggangshan City, China  被引量：4

作　　者：ZHANG Rong-hua SUN Rui DU Jun-ping ZHANG Ting-long TANG Yao XU Hong-wei YANG Sheng-tian JIANG Wei-guo 

机构地区：[1]State Key Laboratory of Remote Sensing Science,Jointly Sponsored by Beijing Normal University and the Institute of Remote Sensing Applications of Chinese Academy of Sciences [2]School of Geography and Remote Sensing Sciences,Beijing Normal University [3]Beijing Key Laboratory of Environmental Remote Sensing and City Digitalization [4]College of Resources and Environment,Northwest Agricultural and Forestry University [5]The Academy of Disaster Reduction and Emergency Management Ministry of Civil Affairs and Ministry of Education,Beijing Normal University

出　　处：《Journal of Mountain Science》2013年第5期777-789,共13页山地科学学报（英文）

基　　金：funded by the National Natural Science Foundation of China (Grant no. 40971221);the National High Technology Research and Development Program of China (863 Program) (Grant no. 2012AA12A304)

摘　　要：Net primary productivity （NPP） and evapotranspiration （ET） are two key variables in the carbon and water cycles of terrestrial ecosystems. In this study, to test a newly developed NPP algorithm designed for H J-1 A/B data and to evaluate the usage of HJ-1 A/B data in the quantitative assessment of environments, NPP and ET in Jinggangshan city, Jiangxi province, are calculated using H J-1 A/B data. The results illustrate the following： （1） The NPP and ET in Jinggangshan city in 2olo both show obvious seasonal variation, with the highest values in summer and the lowest values in winter, and relatively higher values were observed in autumn than in spring. （2） The spatial pattern indicates that the annual NPP is high in the southern area in Jinggangshan city and low in the northern area. Additionally, high NPP is distributed in forests located in areas with high elevation, and low NPP is found in croplands at low elevations. ET has no significant north-south difference, with high values in the southeast and northwest and low values in the southwest, and high ET is distributed in forests at low elevations in contrast to low ET in forests in high-elevation areas and in cropland and shrub grassland in low-elevation areas. （3） Compared to the MODIS product, the range of H J-1 NPP is larger, and the spatial pattern is more coincident with the topography. The range of H J-1 ET is smaller than that of the MODIS product, and ET is underestimated to some extent but can reflect the effect of topography. This study suggests that the algorithm can be used to estimate NPP and ET in a subtropical monsoon climate if remotely sensed images with high spatial resolution are available.

关 键 词：Net primary productivity REMOTESENSING EVAPOTRANSPIRATION HJ-~A/B data 

分 类 号：S771.8[农业科学—森林工程]