Abstract
Quantifying the impact of climate change and human activities on grassland dynamics is an essential step for developing sustainable grassland ecosystem management strategies. However, the direction and magnitude of climate change and human activities in driving alpine grassland dynamic over the Tibetan Plateau remain under debates. Here, we systematically reviewed the relevant studies on the methods, main conclusions, and causes for the inconsistency in distinguishing the respective contribution of climatic and anthropogenic forces to alpine grassland dynamic. Both manipulative experiments and traditional statistical analysis show that climate warming increase biomass in alpine meadows and decrease in alpine steppes, while both alpine steppes and meadows benefit from an increase in precipitation or soil moisture. Overgrazing is a major factor for the degradation of alpine grassland in local areas with high level of human activity intensity. However, across the entire Tibetan Plateau and its subregions, four views characterize the remaining controversies: alpine grassland changes are primarily due to (1) climatic force, (2) nonclimatic force, (3) combination of anthropogenic and climatic force, or (4) alternation of anthropogenic and climatic force. Furthermore, these views also show spatial inconsistencies. Differences on the source and quality of remote sensing products, the structure and parameter of models, and overlooking the spatiotemporal heterogeneity of human activity intensity contribute to current disagreements. In this review, we highlight the necessity for taking the spatiotemporal heterogeneity of human activity intensity into account in the models of attribution assessment, and the importance for accurate validation of climatic and anthropogenic contribution to alpine grassland variation at multiple scales for future studies.
Highlights
Climate change and human activities are the two primary driving factors for changes in global ecosystems (Haberl et al, 2007; Vitousek, Mooney, Lubchenco, & Melillo, 1997)
Due to the high spatial heterogeneity in climate change in terms of magnitude and direction (IPCC, 2014), ecosystem dynamics induced by climate change varied among different regions, especially in fragile and sensitive ecosystems at high altitude or latitude (Seddon, Macias-Fauria, Long, Benz, & Willis, 2016; Zhu et al, 2016)
The authors proposed a fixed framework for assessing the impact of climate change and human activities on alpine grassland. Based on this fixed framework, Feng et al (2017) selected the northern Tibetan Plateau as a case study region to evaluate the variation in NPPgap and its positive or negative value to indicate vegetation dynamics, that is, restoration or degradation
Summary
Climate change and human activities are the two primary driving factors for changes in global ecosystems (Haberl et al, 2007; Vitousek, Mooney, Lubchenco, & Melillo, 1997). The Residuals-Trend model is the most widely applied to quantitatively assess the influence of climate and anthropogenic factors on alpine grassland over the Tibetan Plateau (Cai, Yang, & Xu, 2015; Chen et al, 2014; Wessels, Prince, Frost, & van Zyl, 2004). This method is based on the hypothesis that potential vegetation growth is only controlled by climate change. Manipulative experiments primarily focused on the mechanisms of vegetation growth, while macro- scale studies generally focused on calculating the proportions or areas of alpine grassland variation. Over certain time periods and spatial locations, results based on experiments and field observations in a typical vegetation area could be used to validate and elucidate the results from larger scale studies based on related models
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