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Impact of Climate and Grazing on Biomass Components of Eastern Russia Typical Steppe 被引量:1

Impact of Climate and Grazing on Biomass Components of Eastern Russia Typical Steppe
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摘要 Spatial and structural characteristics of plant communities in the steppe ecosystems of the Baikal region, Russian Federation have been researched in connection with climate change and grazing. The present study, based on a total of 15 typical steppe sampling plots, investigated above-ground biomass (AGB), below-ground biomass (BGB), total biomass (TB) and root:shoot ratios (R:S) and their relationships with climatic factors and grazing. All biomass components varied widely depending on the climatic parameters and the degree of grazing affected transformation. A strong negative correlation between mean annual temperature (MAT) and total plant biomass was revealed for all study area. Mean annual precipitation (MAP) signiifcantly affected communities productivity increasing only in the south of the region. Due to the large and mountainous territory, the inlfuence of latitude and elevation (mountain) factors on the components of the biomass were studied. Although all studied plant steppe communities were transformed by uncontrolled grazing, their productivity is signiifcantly reduced only at plots with maximum digression. Vegetation shift is an indicator of climate change, as well as providing a diagnostic tool to build predictive models. Based on the complex index of effective precipitation, it was revealed that at the end of last century in the steppes of the Baikal region the structural and production processes will be affected by an arid climate trend. Spatial and structural characteristics of plant communities in the steppe ecosystems of the Baikal region, Russian Federation have been researched in connection with climate change and grazing. The present study, based on a total of 15 typical steppe sampling plots, investigated above-ground biomass (AGB), below-ground biomass (BGB), total biomass (TB) and root:shoot ratios (R:S) and their relationships with climatic factors and grazing. All biomass components varied widely depending on the climatic parameters and the degree of grazing affected transformation. A strong negative correlation between mean annual temperature (MAT) and total plant biomass was revealed for all study area. Mean annual precipitation (MAP) signiifcantly affected communities productivity increasing only in the south of the region. Due to the large and mountainous territory, the inlfuence of latitude and elevation (mountain) factors on the components of the biomass were studied. Although all studied plant steppe communities were transformed by uncontrolled grazing, their productivity is signiifcantly reduced only at plots with maximum digression. Vegetation shift is an indicator of climate change, as well as providing a diagnostic tool to build predictive models. Based on the complex index of effective precipitation, it was revealed that at the end of last century in the steppes of the Baikal region the structural and production processes will be affected by an arid climate trend.
出处 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2014年第6期1183-1192,共10页 农业科学学报(英文版)
基金 supported by the joint Russian-Chinese project of RFBR-NSFC(13-04-91181-ГФЕН_а) the International Science&Technology Cooperation Program of China(2013DFR30760 CR17-13) the National Basic Research Program of China(2014CB138806) supported by projects No.4.13(Structural and Dynamic Changes in Ecosystemsin Southern Siberia and Complex Indication of the Processes of Desertification,Predictive Models and Monitoring Systems) and No.30.21(The Inventory of the Biological Diversity of Transbaikalia Subarid Regions) financed by the Russian Academy of Sciences
关键词 STEPPE PRODUCTIVITY CLIMATE GRAZING transformation Baikal region steppe, productivity, climate, grazing, transformation, Baikal region
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