Effects of grazing and rainfall variability on root and shoot decomposition in a semi-arid grassland |
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| Authors: | Marcus Giese Ying Zhi Gao Ying Zhao Qingmin Pan Shan Lin Stephan Peth Holger Brueck |
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| Institution: | 1. Institute of Plant Nutrition and Soil Science, Christian-Albrechts-Universität, Hermann-Rodewald-Str. 2, D-24118 Kiel, Germany;2. Department of Plant Nutrition, China Agricultural University, Yuanmingyuan West Road 2, 100094 Beijing, China;3. State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences, Beijing 100093, China;4. Key Laboratory of Vegetation Ecology, Northeast Normal University, Changchun 130024 China;5. Institute for Plant Production and Agroecology in the Tropics and Subtropics, University of Hohenheim, Garbenstr13, D-70599 Stuttgart, Germany |
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| Abstract: | Overgrazing increasingly affects large areas of Inner Mongolian semi-arid grasslands. Consequences for ecosystem functions and, in particular, for the decomposition as a key process of ecosystem carbon (C) and nitrogen (N) cycling are still unclear.We studied the effects of grazing on shoot and root decomposition with the litter bag method in a long-term grazing exclosure (UG79), a moderate winter grazed (WG) and a long-term heavily grazed site (HG). We separated the effects of local environmental factors and litter quality as altered by grazing. Growing seasons of average and very low precipitation allowed us to study the effect of inter annual rainfall variability on decomposition.Grazing-induced differences in environmental factors of the three studied grassland sites had no effect on decay rates of shoot and root dry mass. Also differences in litter quality among the grazing sites were not reflected by root decomposition dynamics. The accelerated shoot decay at site HG could not clearly be linked to litter quality parameters. Shoot decay rates were more or less constant, even under very dry conditions. This indicates the possibility of photodegradation (solar UV-B radiation) to control aboveground decomposition in this semi-arid ecosystem. By selecting the best predictors of root decomposition from regression analysis, we found that soil water content was the best parameter explaining the dynamics.Net N immobilization was generally not detected during the decay process of shoot and root. It is likely, when root decomposition is strongly reduced in dry periods, shoot decomposition becomes relatively more important for nutrient cycling. A separate analysis of shoot and root decay dynamics is required in order to describe C and N cycling in this semi-arid grassland. The grazing impact on C and N fluxes through decomposition of plant material likely exhibits a strong interaction with seasonal rainfall pattern. |
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