H
Huaqun Yin
Researcher at Central South University
Publications - 194
Citations - 4855
Huaqun Yin is an academic researcher from Central South University. The author has contributed to research in topics: Bioleaching & Biology. The author has an hindex of 30, co-authored 158 publications receiving 2957 citations. Previous affiliations of Huaqun Yin include Chinese Ministry of Education.
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Journal ArticleDOI
Response of soil microbial communities and microbial interactions to long-term heavy metal contamination
Xiaoqi Li,Delong Meng,Juan Li,Huaqun Yin,Hongwei Liu,Xueduan Liu,Cheng Cheng,Yunhua Xiao,Zhenghua Liu,Mingli Yan +9 more
TL;DR: The present study indicated that the microbial community composition, as well as network interactions was shift to strengthen adaptability of microorganisms to heavy metal contamination, and archaea were resistant to heavyMetal contamination and may contribute to the adaption to heavy metals.
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Biodiversity and species competition regulate the resilience of microbial biofilm community.
Kai Feng,Zhaojing Zhang,Zhaojing Zhang,Weiwei Cai,Weiwei Cai,Wenzong Liu,Meiying Xu,Huaqun Yin,Aijie Wang,Zhili He,Zhili He,Ye Deng +11 more
TL;DR: This study investigated the resilience of biofilm communities with a gradient of diversity, and explored the relationship between biodiversity and stability in response to a pH shock, showing that all bioreactors could recover to stable performance after pH disturbance.
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An integrated insight into the response of sedimentary microbial communities to heavy metal contamination.
Huaqun Yin,Huaqun Yin,Jiaojiao Niu,Jiaojiao Niu,Youhua Ren,Jing Cong,Jing Cong,Xiaoxia Zhang,Fenliang Fan,Yunhua Xiao,Yunhua Xiao,Xian Zhang,Xian Zhang,Jie Deng,Ming Xie,Zhili He,Jizhong Zhou,Jizhong Zhou,Jizhong Zhou,Yili Liang,Yili Liang,Xueduan Liu,Xueduan Liu +22 more
TL;DR: It is indicated that the sedimentary indigenous microbial community may shift the composition and structure as well as function priority and interaction network to increase their adaptability and/or resistance to environmental contamination.
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Thirty-one years of rice-rice-green manure rotations shape the rhizosphere microbial community and enrich beneficial bacteria
Xiao-Xia Zhang,Rui-Jie Zhang,Ju-Sheng Gao,Xiucheng Wang,Fenliang Fan,Xiao-Tong Ma,Huaqun Yin,Cai-Wen Zhang,Kai Feng,Ye Deng +9 more
TL;DR: Overall, long-term rice-rice-green manure rotation shaped the microbial community in the rice rhizosphere; in particular, some beneficial bacteria, Acinetobacter and Pseudomonas, accumulated in therhizosphere of green manure treatments.
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Analyses of soil microbial community compositions and functional genes reveal potential consequences of natural forest succession
Jing Cong,Yunfeng Yang,Xueduan Liu,Hui Lu,Xiao Liu,Jizhong Zhou,Jizhong Zhou,Diqiang Li,Huaqun Yin,Junjun Ding,Yuguang Zhang +10 more
TL;DR: Soil temperature, reflective of climate regimes, was important in shaping microbial communities at both taxonomic and functional gene levels, and the results suggest that microbial community structure and function potentials will be altered by future environmental changes, which have implications for forest succession.