Global climate change had led to significant changes on the temporal-spatial distribution of land ecosystem in recent decades,and vegetation on the land was the comprehensive indicator for ecosystem to respond to the climate changes,so it is necessary to study the relation between the vegetation and the climate changes. NDVI (Normalized Difference Vegetation Index)was an important index to study the vegetation changes,and many works had been done on the relation between NDVI and mean temperature and precipitation. However,rare works had focused on the effective accumulated temperature which cans effectively represent the thermal condition than the mean temperature during the growth of vegetation. The effective accumulated temperature above 10 ℃(ATAT)is an important index to measure the thermal resource of regions. What's more,the NDVI was very different in the region with different vegetation types. In this paper,China was divided into 8 research divisions according to the vegetation regionalization firstly. The national NDVI material came from university of Maryland GLCF(Global Land Cover Facility) group's produce with the resolution of 8 km*8 km,and national annual ATAT and precipitation on the country had been obtained from the daily mean temperature and precipitation of 583 weather stations by the kriging interpolation method,which came from the China meteorological data sharing service system,and both of the time series were from 1982 to 2006. Then the linear regression analysis was used to analyze the inter-annual trend of NDVI,ATAT and precipitation on every division. At last,the correlation analysis was applied to study the relation between NDVI and ATAT and precipitation on the scales of vegetation regionalization and weather station. The results showed as follows:(1)the ATAT had a significant increasing trend overall country,and the northwest and southeast of China had a higher increasing trend. But the precipitation and NDVI had a decreasing trend in China. And the bigger ATAT increasing trend there was,the smaller precipitation decreasing trend there would be. What's more,the area of vegetation coverage had a slight increasing trend from 1982 to 2006.(2)The NDVI was negatively related to the ATAT and positively related to the precipitation overall China. However,different vegetation regionalization had different results. The correlation between NDVI and ATAT and precipitation were negative in cool temperate and temperate needleleaf forest regionalization and Temperate mixed needleleaf and broadleaf deciduous forest regionalization. NDVI was positively related to precipitation,negatively related to ATAT in warm temperate broadleaf deciduous forest regionalization,Subtropical broadleaf evergreen forest regionalization and tropical (monsoon)rain forest regionalization. Both of correlations between NDVI and ATAT and precipitation were positive in Temperate steppe regionalization and Temperate desert regionalization. And NDVI was negatively related to precipitation,positively related to ATAT in Qinghai-Tibet Plateau alpine vegetation regionalization.(3)Generally speaking,precipitation was the restricted climate factor for the growth of vegetation in the north of the Qinling Mountain- Huaihe River(QH line). But in the south of the QH line with enough moisture and heat,there was not significant relation between NDVI and ATAT and precipitation distribution.