AI Article Synopsis
- Subtropical plateau lakes in Southeast Yunnan have faced environmental stressors like pollution, eutrophication, land reclamation, and droughts over recent decades.
- Researchers used multi-proxy analyses to study sediment cores from Datun Lake, uncovering significant shifts in diatom communities, particularly a change from Fragilaria construens to Achnanthes minutissima.
- Findings indicated that industrial pollution and eutrophication were primary factors driving these changes, while decreased water exchange due to damming and extreme droughts also impacted diatom diversity.
Article Abstract
Subtropical plateau lakes in Southeast Yunnan are known to have experienced multiple environmental stressors (lake pollution, eutrophication, land reclamation and droughts) during the past decades. Here, we applied multi-proxy analyses (i.e., diatom, grain size, C and N isotopic and chronology) of lake sediments, aiming to track the history of lake environment change and the characteristics of diatom community responses in Datun Lake for the past century. The results proved that the sedimentary diatom community records showed significant changes with the replacement of Fragilaria construens by Achnanthes minutissima. Combining with multiple-proxy records (i.e., isotopic data) and modern monitoring records, the ordination analyses and variation partitioning further suggested that industrial pollution and eutrophication were the major driving factors that led to the long-term shift of diatom community. In addition, the grain size results and meteorological data revealed that the reductions in hydrodynamic and water exchange intensity associated with damming and the occurrence of extreme droughts, thus led to the corresponding diatom community change.
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