Tengxiang Lian
We welcome Tengxiang Lian from the South China Agricultural University in Guangzhou, China. He is collaborating with our group from August 2021 to August 2022.
South China Agricultural University, College of Agriculture, 483 Wushan Road, 610000, Guangzhou, P.R. CHINA
Email:
Research Interests
My research focuses on interactions of plant-soil-microbe, including how plants affect rhizosphere microbes, and how microbes help plants resist biotic and abiotic stresses. I am also interested in any researches related on soil microbial ecology and functions.
Education
2011.09-2016.06 Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences
Work Experience
2016.08- present College of Agriculture, South China Agricultural University
Selected Publications
[1] Lian TX, Huang YY, Xie XA, Huo X, Shahid MQ, Tian L, Lan T, Jin J. Rice SST variation shapes the rhizosphere bacterial community conferring tolerance to salt stress through regulating soil metabolites. mSystems. 2020
[2] Shi QH, Liu YT, Shi AQ, Cai ZD, Nian H, Hartmann M, Lian TX* Rhizosphere Soil Fungal Communities of Aluminum-Tolerant and -Sensitive Soybean Genotypes Respond Differently to Aluminum Stress in an Acid Soil. Frontiers in Microbiology. 2020. 11:1177
[3] Shi QH, Jin J, Liu YT, Zhang YF, Cai ZD, Ma QB, Cheng YB, Wen RH, Nian H, Lian TX* Rhizosphere High Aluminum Drives Different Rhizobacterial Communities Between Aluminum-Tolerant and Aluminum-Sensitive Wild Soybean. Frontiers in Microbiology. 2020. 11:1996
[4] Lian T#, Ma L#, Zeng Y, Chang Scott X,·Li Q,·Chen X*,·Nian H*. Earthworm rather than biochar and sodium silicate addition increased bacterial diversity in mining areas subjected to chemical fertilization. Biochar 2020, 1, 365–374 https://doi.org/10.1007/s42773-019-00034-1
[5] Lian, T.*, Ma, Q., Shi, Q., Cai, Z., Zhang, Y., Cheng, Y., Nian H*. High aluminum stress drives different rhizosphere soil enzyme activities and bacterial community structure between aluminum-tolerant and aluminum-sensitive soybean genotypes. Plant and Soil, 2019, 1-2:409-425
[6] Tengxiang Lian; Zhenhua Yu; Yansheng Li; Jian Jin*; Guanghua Wang; Xiaobing Liu; Caixian Tang; Ashley Franks; Junjie Liu; Judong Liu. The shift of bacterial community composition magnifies over time in response to different sources of soybean residues. Applied Soil Ecology, 2019, 1.
[7] Tengxiang Lian, Yinghui Mu, Jian Jin, Qibin Ma, Yanbo Cheng, Zhandong Cai and Hai Nian Impact of intercropping on the coupling between soil microbial community structure, activity, and nutrient-use efficiencies. PeerJ, 2019
[8] Lian Tengxiang; Yu Zhenhua; Liu Junjie; Li Yansheng; Wang Guanghua; Liu Xiaobing; Herbert Stephen J.; Wu Junjiang; Jin Jian* Rhizobacterial community structure in response to nitrogen addition varied between two Mollisols differing in soil organic carbon. Scientific Reports. 2018,12280.
[9] Lian Tengxiang; Mu Yinghui; Ma Qibin; Cheng Yanbo; Gao Rui; Cai Zhandong; Jiang Bin; Nian Hai* Use of sugarcane-soybean intercropping in acid soil impacts the structure of the soil fungal community. Scientific Reports. 2018,14488.
[10] Lian Teng-Xiang, Wang Guang-Hua, Yu Zhen-Hua, Li Yan-Sheng, Liu Xiao-Bing, Zhang Shao-Qing, Herbert Stephen James, Jin Jian*. Bacterial communities incorporating plant-derived carbon in the soybean rhizosphere in Mollisols that differ in soil organic carbon content. Applied Soil Ecology, 2017, 119:375-383.
[11] Lian Tengxiang,·Jin Jian*, Wang Guanghua, Tang Caixian, Yu Zhenhua, Li Yansheng, Liu Junjie, Zhang Shaoqing, Liu Xiao-bing. The fate of soybean residue-carbon links to changes of bacterial community composition in Mollisols differing in soil organic carbon. Soil Biology & Biochemistry. 2017, 109-50-58.
[12] Lian T, Wang G, Yu Z, Li Y, Liu X, Jin J*. Carbon input from 13C-labelled soybean residues in particulate organic carbon fractions in a Mollisol. Biology Fertil Soils, 2016, 52(3): 331–339.