Rice area has been expanding rapidly during the past 30 years under the influence of global change in northeastern China,which is the northernmost region of rice cultivation in China. However,the spatio-temporal dynamic changes in rice area are still unclear,although they may have important policy implications for environmental protection and adaptation to climate change. In this study,we aimed to identify the dynamic changes of the rice area in Heilongjiang Province of northeastern China by extracting data from multiple Landsat images. The study used ground quadrats selected from Google Earth and the extraction of a confusion matrix to verify the accuracy of extraction. The overall accuracy of the extracted rice area was higher than 95% as a result of using the artificial neural network(ANN) classification method. The results showed that the rice area increased by approximately 2.4×106 ha during the past 30 years at an annual rate of 8.0×104 ha,and most of the increase occurred after 2000. The central latitude of the rice area shifted northwards from 46 to 47°N during the study period,and moved eastwards from 130 to 133°E. The rice expansion area accounted for 98% of the total change in rice area,and rice loss was notably rare. The rice expansion was primarily from dryland. In addition,rice cultivation in marshland and grassland played a minor role in the rice expansion in this region.
LI Zhi-pengLONG Yu-qiaoTANG Peng-qinTAN Jie-yangLI Zheng-guoWU Wen-binHU Ya-nanYANG Peng
For the scientific management of farmland,it is significant to understand the spatio-temporal variability of soil organic matter and to study the influences of related factors.Using geostatistical theory,GIS spatial analysis,trend analysis and a Geographically Weighted Regression(GWR)model,this study analyzed the response of soil organic matter to climate and socio-economic factors in central Heilongjiang Province during the past 25 years.Second soil survey data of China for 1979-1985,2005 field sampling data,climate observations and socio-economic data for 1980-2005 were analyzed.First,soil organic matter in 2005 was spatially interpolated using the Co-Kriging method along with auxiliary data sets of soil type and pH.The spatio-temporal variability was then studied by comparison with the 1980s second soil census data.Next,the temporal trends in climate and socio-economic factors over the past 25 years were investigated.Finally,we examined the variation of the response of soil organic matter to climate and socio-economic factors using the GWR model spatially and temporally.The model showed that 53.82%area of the organic matter content remained constant and 29.39%has decreased during the past 25 years.The impact of precipitation on organic matter content is mainly negative,with increasing absolute values of the regression coefficient.The absolute value of regression coefficient of annual average temperature has decreased,and more areas are now under its negative effects.In addition,the areas of positive regression coefficient of annual sunshine hours have northward shifted,with the increasing absolute value of positive coefficient and decreasing absolute value of negative coefficient.The areas of positive regression coefficient of mechanized farming as a socio-economic factor have westward shifted,with the increasing absolute value of negative coefficient and decreasing absolute value of positive coefficient.The area of regions with the positive regression coefficient of irrigation has expanded.The regions with po
SHI Shu-qinCAO Qi-wenYAO Yan-minTANG Hua-junYANG PengWU Wen-binXU Heng-zhouLIU JiaLI Zheng-guo
