Zhixiang She
Hefei University of Technology
11 Papers
Zhixiang She is an academic researcher from Hefei University of Technology. The author has contributed to research in topics: Chemistry & Dissolved organic carbon. The author has an hindex of 2, co-authored 3 publications.
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Papers
Vertical environmental gradient drives prokaryotic microbial community assembly and species coexistence in a stratified acid mine drainage lake.
TL;DR: Zhang et al. as mentioned in this paper investigated prokaryotic microbial diversity and community assembly along a depth profile in a stratified AMD lake using 16S rRNA gene sequencing combined with multivariate ecological and statistical methods.
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Source identification and component characterization of dissolved organic matter in an acid mine drainage reservoir.
TL;DR: The results suggested that the autochthonous algal metabolites significantly contributed to the DOM pool in the AMD reservoir, suggesting the potential formation of organic matter with sulfur atom in a sulfur-rich environment.
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The Stratified Distribution of Dissolved Organic Matter in an AMD Lake Revealed by Multi-sample Evaluation Procedure.
TL;DR: In this article, the quality of dissolved organic matter (DOM) in acid mine drainage was analyzed with a multi-sample evaluation procedure and the results demonstrate that DOM quality is highly stratified and can be linked with severe biogeochemical gradients, which can be explained by the redoxdependent adsorption/desorption of DOM on metastable secondary minerals.
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Contrasting prokaryotic and eukaryotic community assembly and species coexistence in acid mine drainage-polluted waters.
TL;DR: In this article , the authors examined microbial diversity and co-occurrence pattern within all domains of life in five lakes with varying degrees of acid mine drainage contamination ranging from extremely acidic to neutral.
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Decadal evolution of an acidic pit lake: Insights into the biogeochemical impacts of microbial community succession.
TL;DR: This study tracks decadal biogeochemical changes in an acidic pit lake, observing pH increases, algal growth, and shifts in microbial communities from chemolithotrophy to heterotrophy, with implications for management and remediation of these extreme ecosystems.
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