General Information
Name: Wang Xingxiang
Title: Professor
Work Email: xxwang@issas.ac.cn
Work Phone: 025-86881200
Research Fields
(1)Soil Environment and Pollution Remediation;
(2)Soil management of peanut producing area;
(3)Pollution control and resource recycling of fecal residue and waste water
Education Background
(1) 1998 – 2001, Ph.D., Soil Science, Institute of Soil Science, Chinese Academy of Sciences, Nanjing, China
(2)1993– 1996, Master, Ecology, Institute of Soil Science, Chinese Academy of Sciences, Nanjing, China
(3) 1987 – 1991, Bachelor, Soil and Plant Nutrition, Huazhong Agricultural University, Wuhan, China
Professional Experience
(1) 2007 ―Present, Professor, Institute of Soil Science, Chinese Academy of Sciences, Nanjing, China
(2) 2001― 2007, Associate Professor, Institute of Soil Science, Chinese Academy of Sciences, Nanjing, China
(3) 1997 ― 2001, Assistant Professor, Institute of Soil Science, Chinese Academy of Sciences, Nanjing, China
(4) 1996 ―1997, Research Assistant, Institute of Soil Science, Chinese Academy of Sciences, Nanjing, China
(5) 1991 ― 1993, Assistant Agronomist, Wuwei Agricultural Bureau of Anhui Province, Wuhu, China
Social Positions
(1) 2020- Present, Chief Expert of Group for Safe Use of Polluted Cultivated Land, Expert Committee for Control of Heavy metal Pollution in Farmland, Jiangxi Province
(2) 2019- Present, Member of the Joint Technical Steering Committee for the Control of Heavy metal Pollution in Farmland, Ministry of Agriculture and Rural Affairs of P.R.China
Projects
(1)Soil pollution control and ecological function restoration technologies for ion rare earth ore leaching site,2020.01-2022.12, National Key Research and Development program(PI)
(2)Soil pollution control and remediation for peanut production,2021.01-2025.12, China Agriculture Research System(PI)
(3) Uptake and translocation of cadmium in peanut based on stable isotope tracer, 2021.01-2024.12, National Natural Science Foundation of China (PI)
Patents
(1)Wang Xingxiang, Wang Rurong, Zhou Zhigao,Ding Changfeng, Wang Junfeng. A cross-linked modified composite material for the treatment of ammonia nitrogen and heavy metals compound polluted wastewater in a rare earth mining area and its application. ZL 2021 1 0390750.4,2021-04-12
(2)Wang Xingxiang, Huang Gaoxiang, Ding Cangfeng, Zhouzhigao. A method of breeding high Mn/Zn rice seedlings to reduce cadmium content in rice. ZL201910539776.3,2019-05-31
(3)Wang Xingxiang, Huang Gaoxiang, Ding Cangfeng, Zhouzhigao. An iron-based conditioner for reducing cadmium enriched in rice and its application. ZL201910066448.6,2019-01-24
(4)Wang Xingxiang, Huang Gaoxiang, Ding Changfeng, Zhouzhigao, Li Xiaogang, Xuchangxu. Combined method of reducing cadmium by using passivating agent and topdressing iron fertilizer at tillering stage in rice. ZL201711183859.0,2017-11-23
(5)Wang Xingxiang, Huang Gaoxiang, Ding Changfeng, Zhouzhigao, Li Xiaogang. An agronomic method for reducing cadmium and enriching selenium in rice. ZL201610038243.3,2016-01-20
Publications
1)Zhang Jing, Yue Zhengfu, Ding Changfeng, Zhou Zhigao, Zhang Taolin, Wang Xingxiang*. Metagenomic binning analyses of pig manure composting reveal potential antibiotic-degrading bacteria and their risk of antibiotic resistance genes. Bioresource Technology 371 (2023) 128540.
2)Yue Zhengfu, Zhang Jing, Ding Changfeng,Wang Yurong, Zhou Zhigao, Yu Xiaolan, Zhang Taolin, Wang Xingxiang*. Transfer and distribution of antibiotic resistance genes in the soil-peanut system receiving manure for years. Science of the Total Environment 869 (2023) 161742
3)Huang Gaoxiang, Ding Xinya,Liu Yu,Ding Mingjun,Wang Peng, Zhang H ua,Nie Minghua,Wang Xingxiang *, Liming and tillering application of manganese alleviates iron manganese plaque reduction and cadmium accumulation in rice (Oryza sativa L.) Journal of Hazardous Materials,2022,427:127897
4)Yue Zhengfu,Zhang Jing, Zhou Zhigao,Ding Changfeng, Zhang Taolin,Wan Liping,Wang Xingxiang*. Antibiotic degradation dominates the removal of antibiotic resistance genes during composting. Bioresource Technology,2022, 344:126229
5)Zhang Jing, Yue Zhengfu,Zhou Zhigao,Ding Changfeng,Zhang Taolin,Muhammad Kamran,Wan Liping, Wang Xingxiang *.Key microbial clusters and environmental factors affecting the removal of antibiotics in an engineered anaerobic digestion system. Bioresource Technology,2022, 348:126770
6)Chen Dele, Wang Xingxiang, Víctor J. Carrion, Yin Shan, Yue Zhengfu, Liao Yangwenke , Dong Yuanhua , Li Xiaogang *. Acidic amelioration of soil amendments improves soil health by impacting rhizosphere microbial assemblies. Soil Biology and Biochemistry 167 (2022) 108599
7)Huang Gaoxiang, Ding Changfeng, Guo Naijia, Ding Mingjun , Zhang Hua, Muhammad Kamran, Zhou Zhigao, Zhang Taolin, Wang Xingxiang*. Polymer-coated manganese fertilizer and its combination with lime reduces cadmium accumulation in brown rice (Oryza sativa L.) . Journal of Hazardous Materials,2021,415 :125597
8)Huang Gaoxiang, Ding Changfeng Ma Yibing, WangYurong, Zhou Zhigao, ZhengG Shui’an, Wang Xingxiang*. Rice (Oryza sativa L.) seedlings enriched with zinc or manganese: Their impacts on cadmium accumulation and expression of related genes. Pedosphere,2021, 31(6): 849–858
9)Yue Zhengfu, Zhang Jing, Zhou Zhigao, Ding Changfeng, Wan Liping, Liu Jia, Chen Liumeng, Wang Xingxiang *. Pollution characteristics of livestock faeces and the key driver of the spread of antibiotic resistance genes. Journal of Hazardous Materials, 2021,409:124957
10)Li Xiaogang, Yang Zhen, Zhang Ya’nan, Yu Li , Ding Changfeng , Liao Yangwenke Dai Chuanchao, Wang Xingxiang*.Atractylodes lancea volatiles induce physiological responses in neighboring peanut plant during intercropping. Plant Soil ,2020,453:409–422
11)Huang Gaoxiang, Ding Changfeng, Li Yushan, Zhang Taolin,Wang Xingxiang*. Selenium enhances iron plaque formation by elevating the radial oxygen loss of roots to reduce cadmium accumulation in rice (Oryza sativa L.). . Journal of Hazardous Materials, 2020, 398: 122860.
12)Tang Ronggui, Lan Ping, DingChangfeng, Wang Junsong, Zhang Taolin, Wang Xingxiang*. A new perspective on the toxicity of arsenic-contaminated soil: tandem mass tag proteomics and metabolomics in earthworms. Journal of Hazardous Materials,2020,398 :122825
13)Li Xiaogang*,Kevin Panke-Buisse,Yao Xiaodong,Devin Coleman-Derr ,Ding Changfeng ,Wang Xingxiang*, Honghua Ruan. Peanut plant growth was altered by monocropping-associated microbial enrichment of rhizosphere microbiome. Plant Soil,2020,446:655–669
14)YangYiru, LiXiaogang, Liu Jinguang,Zhou Zhigao, ZhangTaolin, Wang Xingxiang*. Fungal community structure in relation to manure rate in red soil in southern China. Applied Soil Ecology 2020,147 :103442
15)Guo Fuyu, Ding Changfeng, Zhou Zhigao, Han Fengxiang ,Tang Ronggui, Huang Gaoxiang, Wang Xingxiang.? Assessment of the immobilization effectiveness of several amendments on a cadmium-contaminated soil using Eisenia fetida. Ecotoxicology and Environmental Safety.2020:189:109948
16)Li Xiaogang, Alexandre Jousset, Wietse de Boer,Víctor J. Carrión , Zhang Taolin, Wang Xingxiang * ,Eiko E. Kuramae. Legacy of land use history determines reprogramming of plant physiology by soil microbiome. The ISME Journal 2019,13,738–751
Awards & Honor
1)2021, The Second Prize of Scientific and Technological Progress, Henan Provincial Government, China(Rank No.6)
2)2017, The First Prize of Scientific and Technological Progress, Jiangxi Provincial Government, China(Rank No.1)
3)2015, The Second Prize of Scientific and Technological Progress, Jiangxi Provincial Government, China(Rank No.1)
4)2011, The Second Prize of Scientific and Technological Progress, Jiangxi Provincial Government, China(Rank No.3)
5)2004, The Second Prize of National Scientific and Technological progress, China ( Rank No. 4)
6)2003, The Second Prize of Scientific and Technological progress, Jiangxi Provincial Government, China(Rank No.3)
