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Introduction
I mainly focus on wildfire and lake nutrient process analysis.
Current institution
Publications
Publications (8)
Human societies and their economies have experienced unprecedented development in the last century, with tremendous
advances in science, technology and manufacturing. Humans have consumed a huge amount of metal during this period of
development. Changes in metal concentrations in lake sediments reveal the evolutionary history of the intensity of en...
Better understanding of the responses of algal biodiversity to multiple pressures, such as climate warming and eutrophication, is a key issue in aquatic ecology. Alpha and beta diversity may have various patterns over temporal scales, especially in the Anthropocene, when external pressures became more multifaceted. However, the limited availability...
The brief history of monitoring nutrient levels in Chinese lake waters limits our understanding of the causes and the long-term trends of their eutrophication and constrains effective lake management. We therefore synthesize nutrient data from lakes in China to reveal the historical changes and project their future trends to 2100 using models. Here...
Anthropogenic emissions have resulted in increases in the atmospheric fluxes of both nutrient and toxic elements. However, the long-term geochemical impacts on lake sediments of deposition activities have not been clearly clarified. We selected two small enclosed lakes in northern China—Gonghai, strongly influenced by anthropogenic activities, and...
Wildfire activity is an important activity in evolution of vegetation and carbon cycling. Whether wet weather will suppress wildfire or promote them by increasing fuel reserves during the Holocene is not clear. We obtained a record of black carbon from a sediment core spanning the last 14.8 kyr from Gonghai Lake, in North China. There is a close re...
Exploring the spatiotemporal differences of hydroclimate variations is crucial for managing future climate change. In the Asian drylands, West Asia (WA) and arid central Asia (ACA) are both climatically dominated by the westerlies and have shown a dipole pattern in precipitation variation during the past several decades. However, it is unclear whet...
Understanding the vegetation response to climate change and human activities during the Holocene may help predict the future trajectory of vegetation change. Moreover, in the semi-arid region of northern China, it may also provide a scientific basis for addressing ecological problems and achieving sustainable development goals. Based on 5 AMS ¹⁴C d...
