Events

Home > News > Events

Researchers Reveal Forest Community Dynamics and Its Response to Climate Change in Qilian Mountains

Updatetime:2022-01-27From:

【Enlarge】【Reduce】

Qilian Mountains, an important mountain range in the arid area of northwest China, is not only an important gathering place of biodiversity but also a water supply area of Hexi Corridor. 

Forest is an important part of Qilian Mountains ecosystem, which is of great significance to understand forest community dynamics and its response to climate change for ecological environment management and ecosystem protection in Qilian Mountain. 

A research team from the Northwest Institute of Eco-Environment and Resources (NIEER) of the Chinese Academy of Sciences (CAS) conducted researches on responses of subalpine shrub community species diversity to climate change on the Northern Slope of Qilian Mountains, spatial differentiation of phenological, phenotype and its internal mechanism in Picea Crassifolia and physiological mechanism of alpine tree line formation in alpine mountains. 

The researchers analyzed changes of subalpine shrub community species composition in 2002 and 2007 and found that the climate warming in Qilian Mountains changed the pheological pattern of dominant shrub community, which showed the shaded and wet-tolerant herbaceous species increased in the low altitude areas, while the sun-like species decreased in the high altitude areas. 

The study also showed the all phenological stages of Picea Crassifolia was delayed by 0.57-1.36 d/100m with altitude, and the heat accumulation, precipitation and frequency of freezing injury before the beginning of the growing season were the key factors affecting the phenological dynamics. 

Besides, forest line is sensitive to climate change and determines the change of forest community. Researchers on more than ten dominant woody plants on the Northern Slope showed that the water conductivity and photosynthesis of plants decreased with the increase of altitude and the decrease of air temperature, which may be the physiological mechanism affecting the alpine tree line. 

Related results were published in International Journal of Biometeorology, Forest Ecology and management and Chinese Journal of Plant Ecology. 

  

Contact: 

HE Zhibin 

E-mail: hzbmail@lzb.ac.cn 

Appendix

Copyright © 2002 -
Northwest Institute of Eco-Environment and Resources