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Net ecosystem productivity dynamics of grassland communities on the typical steppe of Inner Mongolia.

MU Shao-jie1, ZHOU Ke-xin1**, CHEN Yi-zhao2, YANG Qi3, LI Jian-long2   

  1. (1Nanjing Institute of Environmental Sciences, Ministry of Environmental Protection, Nanjing, 210042, China; 2 School of Life Science, Nanjing University, Nanjing 210093, China; 3China National Environmental Monitoring Centre, Ministry of Environmental Protection, Beijing, 100012, China)
  • Online:2014-04-10 Published:2014-04-10

Abstract: The net ecosystem productivity (NEP) is an important indicator to reflect the carbon budget of ecosystems. Our objective was to probe the NEP dynamic pattern and its response to climate change on the typical steppe in Inner Mongolia to better understand mechanisms of grassland carbon budget. BIOMEBGC model was used to simulate the NEP dynamics of four grassland communities in Xilingol River Basin by using the ecophysiological parameters according to the reference and the daily climate data simulated by MT-CLIM model as inputs. The water stress index (WSI), rain use efficiency (RUE) and carbon sequestration efficiency (CSE) were calculated based on other model outputs, including evapotranspiration (ET), net primary productivity (NPP) and gross primary productivity (GPP). During 1954 to 2012, the multiyear average NEP of Stipa baicalensis, S. grandis, S. krylovii and Leymus chinensis communities was 11.41, -7.82, -5.03 and 9.30 g C·m-2·a-1, respectively. NEP seasonally exhibited a pattern of releasing CO2-sequestrating CO2-releasing CO2 in a year. The order of multiyear average was S. baicalensis > L. chinensis > S. grandis > S. krylovii for WSI, S. baicalensis > S. krylovii > S. grandis > L. chinensis for RUE, and S. baicalensis > S. krylovii > S. grandis > L. chinensis for CSE. There was a close relationship between NEP and precipitation, and the correlations were at an extremely significant level in S. grandis, S. krylovii and L. chinensis communities. NEP turned from being negative to being positive when the annual precipitation of the four grassland communities was greater than 295.76 mm.

Key words: Xiaoxing’anling Mountains, climate change, Pinus koraiensis, radial growth, drought stress