Quaternary (Nov 2024)
Hydroclimatic Changes Revealed by Multiple Proxies Since the Last Glacial Maximum from the Core Monsoon Zone of India
Abstract
We present multiproxy records from a 2.25-m-long lake sediment profile from central India, which suggested that between ~22,200 and 18,658 cal yr BP, the Indian Summer Monsoon (ISM) was weak, supporting open vegetation in a cool and dry climate, which is globally correlated with the Last Glacial Maximum (LGM). The grain size data of this phase suggest low-energy conditions, indicating a weak ISM. Environmental magnetic concentration-dependent parameters also confirm this weakened ISM. Between ~18,658 and 7340 cal yr BP, the ISM underwent a notable increase, and open mixed tropical deciduous forests replaced the existing vegetation under a warm and moderately humid climate. Environmental magnetic parameters and the grain size data signal a shift toward higher energy levels, in harmony with the warm and moderately humid climate during this time span. Between ~7340 and 1960 cal yr BP, the ISM intensity further increased, which supported open mixed tropical deciduous forests with a rise in prominent tree species under a warm and a relatively more humid climate, correlated with the global Holocene Climatic Optimum (HCO). The trends in environmental magnetic parameters and grain size data mirror this phase of climatic amelioration. From ~1961 cal yr BP to the present, the ISM has intensified, giving rise to dense mixed tropical deciduous forests under a warm and relatively more humid climate. Environmental magnetic parameters and the grain size data are in tandem with the palynogical findings from this phase of the ISM variability.
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