Abstract
Abstract. We present the results of pollen analyses from a 1105 cm long sediment core from Wuxu Lake in southwestern China, which depict the variations of the East Asian winter monsoon (EAWM) and the Indian summer monsoon (ISM) during the last 12.3 ka. During the period of 12.3 to 11.3 cal ka BP, the dominance of Betula forest and open alpine shrub and meadow around Wuxu Lake indicates a climate with relatively cold winters and dry summers, corresponding to the Younger Dryas event. Between 11.3 and 10.4 cal ka BP, further expansion of Betula forest and the retreat of alpine shrubs and meadows reflect a greater seasonality with cold winters and gradually increasing summer precipitation. From 10.4 to 4.9 cal ka BP, the dense forest understory, together with the gradual decrease in Betula forest and increase in Tsuga forest, suggest that the winters became warmer and summer precipitation was at a maximum, corresponding to the Holocene climatic optimum. Between 4.9 and 2.6 cal ka BP, Tsuga forest and alpine shrubs and meadows expanded significantly, reflecting relatively warm winters and decreased summer precipitation. Since 2.6 cal ka BP, reforestation around Wuxu Lake indicates a renewed humid period in the late Holocene; however, the vegetation in the catchment may also have been affected by grazing activity during this period. The results of our study are generally consistent with previous findings; however, the timing and duration of the Holocene climatic optimum from different records are inconsistent, reflecting real contrast in local rainfall response to the ISM. Overall, the EAWM is broadly in-phase with the ISM on the orbital timescale, and both monsoons exhibit a trend of decreasing strength from the early to late Holocene, reflecting the interplay of solar insolation receipt between the winter and summer seasons and El Niño–Southern Oscillation strength in the tropical Pacific.
Highlights
As an important component of the global climate system, the Asian summer monsoon, including Indian and East Asian summer monsoon systems, significantly affects sustainable development and ecosystem dynamics within a large, densely populated region (An et al, 2000)
The basal age is about 12.3 cal ka BP, yielding an average sediment accumulation rate of 89.5 cm ka−1, and the average temporal sampling resolution is about 45 years for the pollen record
We have reconstructed variations in the East Asian winter monsoon (EAWM) and Indian summer monsoon (ISM) during the late deglaciation and the Holocene based on a well-dated pollen record from Wuxu Lake in southwestern www.clim-past.net/12/415/2016/
Summary
As an important component of the global climate system, the Asian summer monsoon, including Indian and East Asian summer monsoon systems, significantly affects sustainable development and ecosystem dynamics within a large, densely populated region (An et al, 2000). During the last two decades, the variability of the Indian summer monsoon (ISM) in the Holocene has been reconstructed from various types of paleoclimatic archive and proxies, such as stalagmite oxygen isotope (δ18O) records (Cai et al, 2012; Fleitmann et al, 2003, 2007), marine sediments (Contreras-Rosales et al, 2014; Gupta et al, 2003; Rashid et al, 2007), and lake and peatland sediments The stalagmite δ18O results from various sites indicate a uniform evolution history with the optimum cli-
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