Abstract
Based on the normalized difference vegetation index (NDVI), we analyzed vegetation change of the six major biomes across Inner Mongolia at the growing season and the monthly timescales and estimated their responses to climate change between 1982 and 2006. To reduce disturbance associated with land use change, those pixels affected by land use change from the 1980s to 2000s were excluded. At the growing season scale, the NDVI increased weakly in the natural ecosystems, but strongly in cropland. Interannual variations in the growing season NDVI for forest was positively linked with potential evapotranspiration and temperature, but negatively correlated with precipitation. In contrast, it was positively correlated with precipitation, but negatively related to potential evapotranspiration for other natural biomes, particularly for desert steppe. Although monthly NDVI trends were characterized as heterogeneous, corresponding to monthly variations in climate change among biome types, warming-related NDVI at the beginning of the growing season was the main contributor to the NDVI increase during the growing season for forest, meadow steppe, and typical steppe, but it constrained the NDVI increase for desert steppe, desert, and crop. Significant one-month lagged correlations between monthly NDVI and climate variables were found, but the correlation characteristics varied greatly depending on vegetation type.
Highlights
Based on the normalized difference vegetation index (NDVI), we have investigated the growing season and monthly NDVI trends and their relationships with climate variables for six biomes in Inner Mongolia over the period 1982– 2006
Our results indicated that the growing season NDVI generally increased over the past 25 years for all biomes
The growing season NDVI was positively related to potential evapotranspiration and temperature, but negatively correlated with higher precipitation for the forest
Summary
A number of previous studies have investigated annual variations in vegetation and their responses to climate changes using the normalized difference vegetation index (NDVI), a reliable indicator of vegetation change, at both regional and global scales [13,14,15,16,17,18,19,20,21]. The magnitude of the monthly NDVI and its change over time are vital indicators of the contribution of vegetation change in different months to annual plant growth [16]. Increasing numbers of studies have confirmed the effect of interannual climate variability on vegetation change, which varies considerably depending on the ecogeographical region and vegetation types [16, 28,29,30]. Developing a better understanding of the effect of climate on vegetation growth at the biome scale is of some significance
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