The Responses of the Ecosystems in the Tianshan North Slope under Multiple Representative Concentration Pathway Scenarios in the Middle of the 21st Century
Copyright policy )The Responses of the Ecosystems in the Tianshan North Slope under Multiple Representative Concentration Pathway Scenarios in the Middle of the 21st Century
The arid ecosystem is fragile and sensitive to the changes in climate and CO2 concentration. Exploring the responses of the arid ecosystem to the changes under different representative concentration pathways (RCPs) is of particular significance for the sustainable development of the ecosystem. In this study, the dynamics of net primary productivity (NPP), evapotranspiration (ET), and water use efficiency (WUE) for arid ecosystems in Tianshan North Slope are explored by running the arid ecosystem model at 25 km resolution under RCP2.6, RCP4.5, and RCP8.5. The climate in Tianshan North Slope presents a wet-warming trend during 2006–2055 under each RCP scenario with temporal and spatial heterogeneity. In response to the changes in climate and CO2, the regional annual NPP and ET increased during 2006–2055 by a respectively maximum rate of 2.15 g C m−2 year−1 and 0.52 mm year−1 under RCP8.5. Both the NPP and ET share a similar temporal and spatial heterogeneity with climate change. Different vegetation types respond differently to the changes under different RCP scenarios with increasing WUE. Under each RCP, the non-phreatophyte, phreatophyte, and grass are more sensitive to the changes than in the others, and the broadleaf forest and cropland are less sensitive to the changes.
- Hebei University China (People's Republic of)
- Vrije Universiteit Brussel Belgium
- Royal Meteorological Institute of Belgium Belgium
- State Key Laboratory of Desert and Oasis Ecology China (People's Republic of)
- University of Chinese Academy of Social Sciences China (People's Republic of)
STOMATAL CONDUCTANCE, evapotranspiration, DRYLAND ECOSYSTEMS, tianshan north slope, TJ807-830, TD194-195, Renewable energy sources, CARBON, representative concentration pathway (rcp), arid ecosystem model (aem), NET PRIMARY PRODUCTION, net primary productivity, GE1-350, FUTURE CLIMATE, Arid ecosystem model (AEM), representative concentration pathway (RCP), CLIMATE-CHANGE, arid ecosystem model (AEM), CENTRAL-ASIA, Environmental effects of industries and plants, Representative concentration pathway (RCP), arid ecosystem, TERRESTRIAL ECOSYSTEMS, Net primary productivity, Environmental sciences, Earth and Environmental Sciences, Arid ecosystem, CO2, Future climate change, Tianshan North Slope, WATER-USE EFFICIENCY, future climate change
STOMATAL CONDUCTANCE, evapotranspiration, DRYLAND ECOSYSTEMS, tianshan north slope, TJ807-830, TD194-195, Renewable energy sources, CARBON, representative concentration pathway (rcp), arid ecosystem model (aem), NET PRIMARY PRODUCTION, net primary productivity, GE1-350, FUTURE CLIMATE, Arid ecosystem model (AEM), representative concentration pathway (RCP), CLIMATE-CHANGE, arid ecosystem model (AEM), CENTRAL-ASIA, Environmental effects of industries and plants, Representative concentration pathway (RCP), arid ecosystem, TERRESTRIAL ECOSYSTEMS, Net primary productivity, Environmental sciences, Earth and Environmental Sciences, Arid ecosystem, CO2, Future climate change, Tianshan North Slope, WATER-USE EFFICIENCY, future climate change
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