王紫泉

　　 　　

一、个人简介

王紫泉，男，1989年出生，四川雷波人，博士，副教授。主要从事环境污染物迁移转化、土壤生物化学方面的教学科研工作。

二、教育和工作经历

2022.09-至今，西北农林科技大学，资源环境学院，副教授；

2018-08-2022.08，中国科学院南京土壤研究所，环境科学，博士后；

2017.09-2018.07，西南林业大学，石漠化研究院，讲师；

2012.09-2017.06，西北农林科技大学，资源环境学院， 资源环境生物学，博士；

2010.09-2012.06，西北农林科技大学，资源环境学院，资源环境科学，学士；

2008.09-2010.06，西北农林科技大学，创新实验学院，植物科学。

三、研究方向

1. 环境污染物迁移转化：矿物界面污染物的化学和微生物转化过程和机制。

2. 土壤生物化学：土壤养分和物质循环中的酶学调控过程和机制、土壤酶在污染物生态毒性评估中的应用。

四、科研项目

1. 国家自然科学基金青年基金项目，微生物膜胞外电子传递强化多环芳烃高效降解的作用机制，2020.01-2022.12，主持

2. 中国博士后科学基金面上项目，胞外电子传递强化微生物膜高效降解PAHs的作用机制，2019.01-2021.06，主持

3. 国家重点研发计划专项子课题：精细化工（农药）场地优控有机污染物污染形成机制及其多相分布特征，2018.12-2022.11，骨干

4. 国家自然科学基金面上项目：微生物膜高效消减土壤中有机肥源抗生素抗性基因的机理， 2020.01-2023.12，参加

5. 国家自然科学基金地区基金项目，内源植酸对高原湖泊湿地底泥砷和磷生物有效性的影响机制，2019.01-2022.12，参加

6. 国家自然科学基金面上项目，土壤酶对As(III)与As(V)毒性转化的响应机制及主要控制因素研究，2016.01-2019.12，参加

五、主要成果

1 申请/授权专利

（1）王芳, 王紫泉, 曾军，生弘杰, 相雷雷, 卞永荣, 蒋新. 一种强化微生物降解多环芳烃的方法及微生物菌剂. 授权专利号: ZL 2021 1 1042043.2, 授权日期：2022-07-12。

（2）相雷雷，王芳，王紫泉，卞永荣，赵之良，宋洋，蒋新. 一种非离子-阴离子表面活性剂组合物及其在土壤修复中的应用. 申请号: CN202210524948.1, 申请日期: 2022-05-03. 公开号: CN114717007A, 公开日期: 2022-07-08.

（3）卞永荣, 王紫泉, 王芳, 相雷雷, 刘雨, 赵之良, 杨兴伦, 谷成刚, 宋洋, 蒋新. 一种基于Fe氧化还原强化的有机污染物迁移转化的方法. 申请号：2022111902969，申请日：2022-09-28.

（4）卞永荣, 王韫橙, 宋恩, 胡玉洁, 王紫泉, 马智勇, 蒋新. 一种海泡石负载对二甲氨基亚苄罗丹宁复合材料及其制备方法与应用. 申请号：202211031866X，申请日：2022-08-26.

2 发表论文：

(1) Ziquan Wang, Fang Wang^*, Leilei Xiang, Yongrong Bian, Zhiliang Zhao, Zhengyuan Gao, Jingxing Cheng, Andreas Schaeffer, Xin Jiang, Dionysios D. Dionysiou. Degradation of mineral-immobilized pyrene by ferrate oxidation: role of mineral type and intermediate oxidative iron species.  Water   Research , 2022, 118377.

(2) Ziquan Wang, Hongjie Sheng, Leilei Xiang, Yongrong Bian, Anna Herzberger, Hu Cheng, Qian Jiang, Xin Jiang, Fang Wang^*. Different performance of pyrene biodegradation on metal-modified montmorillonite: Role of surface metal ions from a bioelectrochemical perspective.  Science of The Total Environment , 2022, 805, 150324.

(3) Ziquan Wang, Haixia Tian, Mei Lei, Mallavarapu Megharaj, Xiangping Tan, Fang Wang, Hanzhong Jia^*, Wenxiang He^*, Soil enzyme kinetics indicate ecotoxicity of long-term arsenic pollution in the soil at field scale.  Ecotoxicology and Environmental Safety , 2020, 191: 110215.

(4) Ziquan Wang, Haixia Tian, Xiangping Tan, Fang Wang, Hanzhong Jia, Mallavarapu Megharaj, Wenxiang He^*. Long-term As contamination alters soil enzyme functional stability in response to additional heat disturbance,  Chemosphere , 2019, 229, 471-480.

(5) Peng Gao, Yungen Liu, Yan Wang, Xue Liu^*, Ziquan Wang^*, Lena Q. Ma, Spatial and temporal changes of P and Ca distribution and fractionation in soil and sediment in a karst farmland-wetland system,  Chemosphere , 2019, 220, 644-650.

(6) Ziquan Wang, Lei Hou, Yungen Liu^*, Yan Wang^*, Lena Q. Ma. Metal contamination in a riparian wetland: Distribution, fractionation and plant uptake.  Chemosphere , 2018, 200, 587-593.

(7) Ziquan Wang^#, Haixia Tian^#, Guannan Lu, Yiming Zhao, Rui Yang, Mallavarapu Megharaj, Wenxiang He^*. Catalytic efficiency is a better predictor of arsenic toxicity to soil alkaline phosphatase.  Ecotoxicology and Environmental Safety , 2018, 148: 721-728.

(8) Ziquan Wang, Xiangping Tan, Guannan Lu, Yanju Liu, Ravi Naidu, Wenxiang He ^*. Soil properties influence kinetics of soil acid phosphatase in response to arsenic toxicity.  Ecotoxicology and Environmental Safety . 2018, 147: 266-274.

(9) Z. Q. Wang, Y. B. Li, X. P. Tan, W. X. He^*, W. Xie, M. Megharaj, G. H. Wei, Effect of arsenate contamination on free, immobilized and soil alkaline phosphatases: activity, kinetics and thermodynamics.  European Journal of Soil Science , 2017, 68(1): 126-135.

(10) 王紫泉, 黎惠智, 窦凯歌, 和文祥^*, 韦革宏. 不同价态砷的土壤碱性磷酸酶效应研究. 西北农林科技大学学报(自然科学版), 2013, 41(10): 185-192.

(11)  Yu Wang, Leilei Xiang, Fang Wang^*, Ziquan Wang, Yongrong Bian, Chenggang Gu, Xin Wen, Fredrick Kengara; Andreas Schäffer, Xin Jiang, Baoshan Xing. Positively Charged Microplastics Induce Strong Lettuce Stress Responses from Physiological, Transcriptomic and Metabolomic Perspectives.  Environmental Science & Technology , 2022. (Accepted)

(12) Yuncheng Wang, Tingyuan Xu, En Song, Ziquan Wang, Hu Cheng, Zhiyong Ma, Yongrong Bian^*, Yujie Hu, Fang Wang, Yang Song, Chenggang Gu, Xinglun Yang, Mao Ye, Fredrick Orori Kengara, Xin Jiang. Mercury Adsorption and Reduction by Nonlinear Optical Material (NLOM) DMABR Loaded on Sepiolite: A Mechanism Study.  Chemical Engineering Journal , 2023, 139787.

(13) Yuhao Fu, Mingyun Jia, Fang Wang*, Ziquan Wang, Zhi Mei, Yongrong Bian, Xin Jiang, Marko Virta, and James M. Tiedje. Strategy for Mitigating Antibiotic Resistance by Biochar and Hyperaccumulators in Cadmium and Oxytetracycline Co-contaminated Soil.  Environmental Science & Technology , 2021, 55(24): 16369-16378.

(14) Yu Wang, Fang Wang*, Leilei Xiang, Yongrong Bian, Ziquan Wang, Prashant Srivastava, Xin Jiang, Baoshan Xing. Attachment of positively and negatively charged submicron polystyrene plastics on nine typical soils.  Journal of Hazardous Materials , 2022, 431, 128566.

(15) Hongjie Sheng, Yuan Yin, Leilei Xiang, Ziquan Wang, Jean Damascene Harindintwali, Jinjin Cheng, Jing Ge, Leigang Zhang, Xin Jiang, Xiangyang Yu^*, Fang Wang^*. Sorption of N-acyl homoserine lactones on maize straw derived biochars: Characterization, kinetics and isotherm analysis.  Chemosphere , 2022, 134446.

(16) Yuhao Fu, Fang Wang^*, Ziquan Wang, Zhi Mei, Xin Jiang, Andreas Schaeffer, Marko Virta, James M. Tiedje. Application of magnetic biochar/quaternary phosphonium salt to combat the antibiotic resistome in livestock wastewater.  Science of The Total Environment , 2022, 811, 151386.

(17) Huayong Li, Haixia Tian, Ziquan Wang, Chaoyang Liu, Amanzhan Nurzhan, Mallavarapu Megharaj, Wenxiang He^*. Potential effect of warming on soil microbial nutrient limitations as determined by enzymatic stoichiometry in the farmland from different climate zones.  Science of The Total Environment , 2022, 802, 149657.

(18) Yu Wang, Fang Wang^*, Leilei Xiang, Chenggang Gu, Marc Redmile-Gordon, Hongjie Sheng, Ziquan Wang, Yuhao Fu, Yongrong Bian, Xin Jiang. Risk Assessment of Agricultural Plastic Films Based on Release Kinetics of Phthalate Acid Esters.  Environmental Science & Technology , 2021, 55 (6): 3676-3685.

(19) Zhi Mei, Leilei Xiang, Fang Wang^*, Min Xu, Yuhao Fu, Ziquan Wang, Syed A. Hashsham, Xin Jiang, James M. Tiedje. Bioaccumulation of Manure-borne antibiotic resistance genes in carrot and its exposure assessment.  Environment International , 2021, 157, 106830.

(20) Yuhao Fu, Fang Wang^*, Hongjie Sheng, Fang Hu, Ziquan Wang, Min Xu, Yongrong Bian, Xin Jiang, James M. Tiedje. Removal of extracellular antibiotic resistance genes using magnetic biochar/quaternary phosphonium salt in aquatic environments: A mechanistic study.  Journal of Hazardous Materials , 2021, 411: 125048.

(21) Hu Cheng, Rongting Ji^*, Shi Yao, Yang Song, Qian Sun, Yongrong Bian, Ziquan Wang, Longjiang Zhang, Xin Jiang, Jiangang Han. Potential release of dissolved organic matter from agricultural residue-derived hydrochar: Insight from excitation emission matrix and parallel factor analysis.  Science of The Total Environment , 2021, 146712.

(22) Fidèle Suanon^#, Liu Tang^#, Hongjie Sheng, Yuhao Fu, Leilei Xiang, Ziquan Wang, Xiangwen Shao, Daouda Mama, Xin Jiang, Fang Wang^*. Organochlorine pesticides contaminated soil decontamination using TritonX-100-enhanced advanced oxidation under electrokinetic remediation.  Journal of Hazardous Materials  ,  2020, 393: 122388.

(23) Huayong Li^#,Haixia Tian^#, Chaoyang Liu, Guannan Lu, Ziquan Wang, Xiangping Tan, Hanzhong Jia, Mallavarapu Megharaj, Wenxiang He^*. The effect of arsenic on soil intracellular and potential extracellular β-glucosidase differentiated by chloroform fumigation.  Science of The Total Environment . 2020, 727: 138659.

(24) Guannan Lu^#, Haixia Tian^#, Ziquan Wang, Huayong Li, Megharaj Mallavarapu, Wenxiang He^*, The distribution of arsenic fractions and alkaline phosphatase activities in different soil aggregates following four months As(V) ageing,  Chemosphere , 2019, 236, 124355.

(25) Chaoyang Liu^#, Haixia Tian^#, Huayong Li, Wei Xie, Ziquan Wang, Mallavarapu Megharaj, Wenxiang He^*, The accuracy in the assessment of arsenic toxicity using soil alkaline phosphatase depends on soil water contents,  Ecological Indicators , 2019, 102, 457-465.

(26) Zhangxiong Han, Dejun Wan, Haixia Tian, Wenxiang He^*, Ziquan Wang, Qiang Liu, Pollution Assessment of Heavy Metals in Soils and Plants around a Molybdenum Mine in Central China.  Polish Journal of Environmental Studies , 2019, 28(1), 123-133.

(27) Guannan Lu, Haixia Tian, Yanju Liu, Ravi Naidu, Ziquan Wang, Wenxiang He^*, Using Qmsax* to evaluate the reasonable As(V) adsorption on soils with different pH,  Ecotoxicology and Environmental Safety , 2018, 160, 308-315.

(28) Xiangping Tan, M. B. Machmuller, Ziquan Wang, Xudong Li, Wenxiang He^*, M. F. Cotrufo, Weijun Shen^*. Temperature enhances the affinity of soil alkaline phosphatase to Cd.  Chemosphere , 2018, 196: 214-222.

(29) Xiangping Tan^#, Yike He^#, Ziquan Wang, Chenghui Li, Long Kong, Haixia Tian, Weijun Shen, Mallavarapu Megharaj, Wenxiang He^*, Soil mineral alters the effect of Cd on the alkaline phosphatase activity,  Ecotoxicology and Environmental Safety , 2018, 161, 78-84.

(30) Xiangping Tan, Ziquan Wang, Guannan Lu, Wenxiang He ^*, Gehong Wei, Feng Huang, Xinlan Xu, Weijun Shen. Kinetics of soil dehydrogenase in response to exogenous Cd toxicity.  Journal of Hazardous Materials . 2017, 329: 299-309.

(31) Xiangping Tan, Yanju Liu, Kailong Yan, Ziquan Wang, Gunan Lu, Yike He, Wenxiag He^*. Differences in the response of soil dehydrogenase activity to Cd contamination are determined by the different substrates used for its determination.  Chemosphere , 2017, 169: 324-332.

(32) Xiangping Tan, Long Kong, Huirong Yan, Ziquan Wang, Wenxing He^*, Gehong Wei. Influence of soil factors on the soil enzyme inhibition by Cd.  Acta Agriculturae Scandinavica, Section B—Soil & Plant Science,  2014, 64(8): 666-674.

(33) 生弘杰,王芳^*,相雷雷,付玉豪,王紫泉,许敏,梅芝,刘雨,豆庆圆,蒋新, JAMESM. Tiedje. 土壤中抗生素抗性基因的环境行为与阻控研究进展.  土壤学报 . 2022, DOI: 10.11766/trxb202111100608

(34) 谭向平^*,何金红,郭志明,王紫泉,聂彦霞,叶清,和文祥,申卫军. 土壤酶对重金属污染的响应及指示研究进展. 土壤学报: 2022, 1-15. DOI:10.11766/trxb202107240275

(35) 隋夕然, 吴丽芳, 王妍, 王紫泉, 肖羽芯, 刘云根, 杨波^*. 滇中岩溶高原不同石漠化程度土壤团聚体养分及酶活性特征.  浙江农林大学学报 : 2022. 39(01): 115-126.

(36) 吴丽芳, 王妍^*, 刘云根, 王紫泉, 杨波, 张叶飞. 岩溶石漠化区人工植被类型对土壤团聚体生态化学计量特征的影响.  东北林业大学学报 , 2021, 49(06): 63-69.

(37) 吴丽芳, 王紫泉, 王妍^*, 刘云根, 杨波, 张叶飞. 喀斯特高原不同石漠化程度土壤C、N、P化学计量特征和酶活性的关系.  生态环境学报 , 2019, 28(12): 2332-2340.

(38) 赵翊明, 王紫泉, 田海霞, 和文祥^*, 李道恒. 不同pH下碱性磷酸酶对As(Ⅴ)污染的响应.  西北农林科技大学学报(自然科学版) , 2018, 46(07): 66-72.

(39) 程虎, 王紫泉, 周琨, 钱爽, 卞永荣, 和文祥^*, 吕家珑. 木醋液对碱性土壤微生物数量及酶活性的影响.  中国环境科学 , 2017, 37(2): 696-701.

(40) 李丹维, 王紫泉, 田海霞, 和文祥^*, 耿增超. 太白山不同海拔土壤碳、氮、磷含量及生态化学计量特征.  土壤学报 , 2017, 54(1): 160-170.

(41) 杜威, 王紫泉, 和文祥^*, 高亚军, 曹卫东. 豆科绿肥对渭北旱塬土壤养分及生态化学计量学特征影响.  土壤学报 , 2017, 54(4): 999-1008.

(42) 曹永昌, 杨瑞, 刘帅, 王紫泉, 和文祥^*, 耿增超. 秦岭典型林分夏秋两季根际与非根际土壤微生物群落结构.  生态学报 , 2017, 37(5): 1667-1676.

(43) 谢伟, 谭向平, 田海霞, 王紫泉, 杨瑞, 韦革宏, 和文祥^*. 土壤水分对稻田土壤有效砷及碱性磷酸酶活性影响.  中国环境科学 , 2016, 36(8): 2418-2424.

(44) 谢伟, 和文祥^*, 王紫泉, 谭向平, 卢冠男, 杜威, 韦革宏. 基于水分变化的砷抑制土壤碱性磷酸酶动力学特征研究.  环境科学学报 , 2016, 36(5): 1816-1823.

(45) 谭向平, 王紫泉, 张晶, 和文祥^*, 韦革宏. Cd对我国不同类型土壤硝化活性影响的主控因子研究.  环境科学学报 , 2016, 36(7): 2624-2630.

(46) 杨瑞, 刘帅, 王紫泉,曹永昌,赵翊明,和文祥^*,耿增超. 秦岭山脉典型林分土壤酶活性与土壤养分关系的探讨.  土壤学报 , 2016, 53(4): 1037-1046.

(47) 刘帅, 王紫泉, 田海霞, 李丹丹, 耿增超, 和文祥^*. 基于生态化学计量学的秦岭林地养分特征初探.  水土保持学报 , 2016, 30(4): 194-198+248.

(48) 谢伟, 王紫泉, 曹永昌, 张笑, 韦革宏, 和文祥^*. 基于土壤水分变化的砷与土壤碱性磷酸酶活性关系探讨.  环境科学学报 , 2015, 35(10): 3261-3268.

(49) 彭映平, 和文祥^*, 王紫泉, 张晶, 闫慧荣, 高亚军, 曹卫东. 黄土高原旱区绿肥定位试验土壤化学性质及酶活性特征研究.  西北农林科技大学学报  (  自然科学版  ) , 2015, 43(9), 131-138.

六、联系方式

个人主页：Researchgate (https://www.researchgate.net/profile/Ziquan-Wang-2)

通讯地址：陕西省杨凌区邰城路3号西北农林科技大学资源环境学院

邮政编码：712100

电子邮件: ziquan1989@163.com；ziquanwang@nwafu.edu.cn