Pollen-based reconstruction of vegetational and climatic change over the past ~30 ka at Shudu Lake in the Hengduan Mountains of Yunnan, southwestern China.

Yi-Feng Yao,Yu-Fei Wang,Stephen Blackmore,Xiao-Yan Song,Cheng-Sen Li,Alexandra H Wortley,Navnith K.P Kumaran

doi:10.1371/journal.pone.0171967

Yi-Feng Yao, Yu-Fei Wang + Show 5 more

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https://doi.org/10.1371/journal.pone.0171967

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Abstract

The Hengduan Mountains, with a distinct altitudinal differentiation and strong vertical vegetation zonation, occupy an important position in southwestern China as a global hotspot of biodiversity. Pollen analysis of lake sediments sampled along an altitudinal gradient in this region helps us to understand how this vegetation zonation arose and how it has responded to climate change and human impacts through time. Here we present a ~30-ka pollen record and interpret it in terms of vegetational and climatic change from a 310 cm-long core from Shudu Lake, located in the Hengduan Mountains region. Our results suggest that from 30 to 22 cal. ka BP, the vegetation was dominated by steppe/grassland (comprising mainly Artemisia, Poaceae and Polygonaceae) and broad-leaved forest (primarily Quercus, Betula and Castanopsis) in the lake catchment, reflecting a relatively warm, wet climate early in this phase and slightly warmer, drier conditions late in the phase. The period between 22 and 13.9 cal. ka BP was marked by a large expansion of needle- and broad-leaved mixed forest (Pinus, Abies and Quercus) and a decline in the extent of steppe/grassland, indicating warming, drying climatic conditions followed by a cold, wet period. Between 13.9 and 3 cal. ka BP, steppe/grassland expanded and the area covered by needle- and broad-leaved mixed forest reduced, implying a fluctuating climate dominated by warm and humid conditions. After 3 cal. ka BP, the vegetation was characterized by an increase in needle-leaved forest and reduction in steppe/grassland, suggesting warming and drying climate. A synthesis of palynological investigations from this and other sites suggests that the vegetation succession patterns seen along an altitudinal gradient in northwestern Yunnan since the Late Pleistocene are comparable, but that each site has its own characteristics probably due to the influences of altitude, topography, microclimate and human impact.

Highlights

The Hengduan Mountains lie to the eastern end of the Himalayan range, extending from western Sichuan and northern Yunnan to eastern Tibet in China and into northernmost Myanmar
Through pollen analysis of lake core sediments sampled along an altitudinal gradient in the Hengduan Mountains region, our objective is to develop a more detailed understanding of vegetational and climatic change in the Hengduan Mountains, through geological time, than can be obtained from any individual site
This paper presents a ~30-ka pollen sequence from Shudu Lake, and is the longest core, in terms of timescale, in a series of ongoing studies covering a range of altitudes within the Hengduan Mountains biodiversity hotspot

Summary

Introduction

The Hengduan Mountains lie to the eastern end of the Himalayan range, extending from western Sichuan and northern Yunnan to eastern Tibet in China and into northernmost Myanmar This region is characterized by five main north-south oriented mountain ridges separated by four deep valleys with a distinct altitudinal differentiation ranging from 2000 m to 6000 m above sea level. The immense altitudinal range of the mountains creates a variety of different vegetation zones, superimposed on which is the influence of aspect, with the eastern and western flanks of the mountains providing different conditions for plant growth within a small area This region is very rich in floristic diversity, in endemic species and genera. It was defined as the ‘Hengduan Mountains Hotspot’ by Boufford & Van Dyck [5], and occupies a key position in southwestern China as a global hotspot of biodiversity

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