Exploring the effects of water on vegetation change and net primary productivity along the IGBP Northeast China Transect |
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| Authors: | Yujin Zhang Guangsheng Zhou |
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| Institution: | (1) State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences, Beijing, 100093, People’s Republic of China;(2) Graduate University of Chinese Academy of Sciences, Beijing, 100093, People’s Republic of China |
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| Abstract: | To understand the mechanisms underlying the effects of climate variation, especially the effects of water on vegetation, vegetation
type and distribution as well as climate data and soil type were used to simulate present vegetation distributions and net
primary productivity (NPP) under present and future climate scenarios SRES-A2 and SRES-B2. A natural vegetation NPP model
was also applied to calculate future vegetation NPP. The results showed that water played a dominant role not only in the
distribution of vegetation, but also in the rate of change in the vegetation area. Analysis of NPP showed that precipitation
had more effects on the amount of biome NPP than temperature did. Different effects were observed for the rate of change in
NPP. In cases where biomes remain unaltered, the variation in annual precipitation could account for 39% of the variation
in NPP. In cases where biomes changed, 45% of NPP was caused by temperature variation. Regarding the variation in transect
production, −2.85% resulted from the change in vegetation structure when compared with present NPP, and 7.69% from the climate
change under scenario SRES-B2; these values were −7.4 and 19.56%, respectively, under scenario SRES-A2. The results showed
water served as a dominant factor controlling the vegetation distributions and NPP. However, temperature became determinant
where the biomes changed, impacting the rate of change in vegetation NPP when the climate changed. The results also showed
that water would have a positive effect on transect production, and the structure of vegetation had a negative effect under
the projected future climate. |
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