干旱区生态环境知识资源中心

Tropical grasslands and savannas are globally extensive, and are of significant environmental, economic, and ecological importance. These ecosystems are anticipated to be particularly sensitive to future changes in climate, and understanding how these systems have responded to climatic changes in the past can provide us with insights into their potential responses to future global change. In this study, the temporal dynamics of C-3-C-4 vegetation changes in response to changes in moisture availability, local fire events and changing levels of herbivory in a summer-rainfall region of Western India are reconstructed for the past-4600 cal yr BP. Paleodata such as stable carbon isotope of bulk organic matter (delta C-13(org)), oxygen isotope from carbonate shells (delta O-18(shell)), macro-charcoal and herbivore dung fungal spores are reported from the retrieved cores of two wetland sites located in the Banni grasslands of Western India. Results show that vegetation in the Banni was composed mostly of C-3 vegetation from-4600 to-2500 cal yr BP, after which there was a decline in C-3 vegetation. From the late-Holocene to the present, there was a mix of both C-3 and C-4 vegetation, with C-4 grasses being more abundant in the ecosystem. These shifts were coincident with rainfall changes from more mesic conditions during-4600 to-2500 cal yr BP to more arid conditions towards the present as indicated by delta O-18(shell) isotope data. The period of increase in C-4 vegetation also coincides with a period of increased biotic disturbances in the ecosystem, particularly fire. Given the current scenarios of global warming, recurrent drought events and increased anthropogenic use of similar ecosystems, such studies can provide us insights into potential future trajectories of these ecosystems. (C) 2017 Elsevier B.V. All rights reserved.