魏世强

魏世强,男,1963 年生,1987 年毕业于西南农业大学并获硕士学位,1999年获瑞典农业大学博士学位。现为西南农业大学资源与环境学院二级教授、博士生导师、环境科学与工程系学术带头人,重庆市农业资源与环境研究重点实验室主任、重庆市学术与技术带头人,重庆市环境科学学会副理事长、重庆市环境委员会委员。曾任西南大学资源环境学院副院长、环境科学与工程系系主任、中国土壤学会土壤化学专业委员会副主任等。19877月毕业于西南农业大学,获硕士学位199410月至19996月在瑞典查尔摩斯技术大学、瑞典农业大学化学系留学,获环境化学博士学位。先后出访美国、加拿大、日本、泰国等相关大学和研究机构,在环境科学、土壤污染过程与修复、污染生态学等领域具有较高的学术造诣和国内外学术影响。主持完成国家、省、市重点科研课题以及国际合作课题30余项。获各级各类科技进步奖励7项。包括一项国家教委科技进步二等奖,一项化工部科技进步一等奖和国家科技进步二等奖发表科技论文200余篇,其中SCI收录60余篇,主编和参编教材和专著4部。指导毕业博士研究生20余人,硕士近百人。
主要研究方向

环境污染过程与修复、天然有机质环境化学、农田面源污染控制
教学情况

承担本科生、硕士生、博士生环境学概论、环境保护与可持续发展、污染生态学、环境毒理学、环境科学与工程前沿、农业环境保护专题讨论等课程教学工作。
科研情况

(一)获奖科研成果:

1.含氯肥料科学施肥和机理的研究 主研 (一级证书获得者,第十四完成人) 1997年原化工部科技进步一等奖.1998年国家级科技进步二等奖。 获奖日期:19971211, 证书号: 97II-1003-14; 国家科学技术委员会登记颁发 国家科技成果完成者证书 证书号:071938, 国家登记号:980726, 登记日期:19986月,发证日期: 199812月。

2.紫色土稻麦配方施肥模式研究。 主研 (一级证书获得者,第十二完成人) 获一九八八年农业部科技进步三等奖。 获奖日期:19889月, 证书号: 880515

3.紫色土稻麦配方施肥模式研究推广应用。 主研 (一级证书获得者,第六完成人) 获一九九二年原国家教委科技进步二等奖。获奖日期:19927月, 证书号: 91-10604

4.紫色土稻麦配方施肥模式研究推广应用。 主研 (一级证书获得者,第六完成人) 获一九九二年国家级星火奖四等奖。获奖日期: 1992年12月9 证书号: 92-4-044-3; 国家科学技术委员会登记颁发 国家科技成果完成者证书 证书号:011095, 国家登记号:891319,登记日期:199010月,发证日期: 199111月。

5.掺合肥料施肥技术 主要参加人(二级证书获得者)获一九九二年化工部科技进步二等奖。获成果第一完成单位中国农业科学院土壤肥料所转发证书 证书号:92122 发证日期: 19932月。

6.国家土壤肥力长期监测基地建设的技术体系研究 主要参加人(二级证书获得者)获一九九二年中国农科院科技进步二等奖。获成果第一完成单位中国农业科学院土壤肥料所转发证书 证书号:94054 发证日期: 19953月。

7.高产粮、棉、菜中量、微量元素组合的作物营养与效应研究 主要参加人(二级证书获得者)获一九九七年农业部科技进步三等奖。获成果第一完成单位湖北省农业科学院转发证书 发证日期: 19988月。

8.重庆市农地污染与农作物健康品质相关规律及综合控制技术  主持人,获2007年度重庆市政府颁发2007年度科技进步二等奖,单位证书号:JB070200301,个人证书号:JB070200301200833

 

(二)承担的主要科研项目

1.国家科技部:2018年国家重点研发计划项目:西南粮食主产区重金属和农业面源污染综合防治与修复技术示范。项目编号:2018YFD0800600,起止时间:2018.07-2020.12;总经费:1521万。2018立项。首席专家。

2.国家重点研发计划子课题:低累积水稻与超/高富集植物间套种修复重金属的优化模式与调控技术。课题编号:2017YFD0800903-02;起止时间:2017.07-2020.12;直接经费60万元。

3.国家973项目子课题:中亚热带背景区大气汞分布特征及传输过程。2013~2017,项目编号:2013CB430003-04105.3万。2017812日在贵阳召开结题验收会。

4.国家支撑计划项目沿三峡库区坡耕地农业面源污染综合治理技术研究与示范,国家科技部:立项经费1158万元,200712月立项,201012月结题,项目编号:2007BAD87B10。第二主持人

5.国家自然科学基金:天然有机质(NOM)调控土壤镉和铅生物活性的效应与机理研究。基金编号:41771347。起止时间:2018.01-2021.12;直接经费:63万元。

6.国家自然科学基金:三峡库区消落带土壤磷素源-汇功能转换机理与风险评价。2012.01~2015.12,项目编号:41171198/D01050365万。已结题

7.国家自然科学基金:腐殖酸的氧化还原/配位络合特性及其对土壤中汞形态分异与活性钝化的影响机理。2010.01~2012.12,项目编号:4097114740万元。

8.国家自然科学基金:两相反应: 腐殖酸―金属离子反应机理的新探索,2001.01-2003.1220万元。课题编号:40071049

9.重庆市科学技术委员会:2017年社会民生重点研发计划项目:重庆市粮食主产区镉污染稻田安全利用与高效修复一体化技术研究与产品研发。项目编号:cstc2017shms-zdyfX0008  起止时间:2017.09-2020.12;总经费:50万元.

10.重庆市环境保护局项目:荣昌踏水桥纸厂永荣矿业长桥水泥等污染地块调查评估. 项目编号:TRC-2018-18C0163-04时间:2018.09-2019.02,经费:87.22万。2018立项。

11.重庆市环境保护局项目:重庆市渝西粮食主产区农田重金属污染源解析与源头控制技术。项目编号:起止时间:2017.09-2019.12;经费19.5万元

12.重庆市环境保护局:自然资源资产管理与监督研究。合同号:环科字2014CF222号,立项时间:20141016日,时间2014.05~2015.05,经费100万。2015924日通过重庆市环保局组织的结题验收。

13.重庆市生态环境局:重金属镉污染农田安全利用技术研究。项目编号:EC9BE8A763,时间:2019.05-2019.11经费:17.9万。2019立项。

14.重庆市环境学研究院项目:重庆市畜禽粪污土地承载力测算指南研究。项目编号:2018118,时间:2018.10-2018.12,经费:19.5万。2018立项。

15.重庆市环境学研究院项目:农用地重金属和有机污染土壤修复技术2018.10-2019.08,经费18.8万元。2018立项。

16.云南省烟草公司:昭通烟区生态环境条件对烟叶品质的影响研究2010~2012年,150万,编号:社428。结题验收时间2014225

17.重庆市烟草专卖局:重庆市植烟土壤有机质质量及评价,2013~2015,项目编号:NY201303010700017, 100万元。

 

科研论文:

1. R. Österberg, S. Wei, and L. Shirshova  Inert copper ion complexes of humic acids. Acta Chemica Scand., 1999 Vol 53, p.172-180. DOI number: 10.3891/acta.chem.scand.53-0172. WOS:000078944800004

2.R. Österberg, and S. Wei  Solution interaction of humic acids with Ca2+ ions involves a two-phase system. Acta Chemica Scand., 1999 Vol 53, p. 974-984. DOI number: 10.3891/acta.chem.scand.53-0974. WOS:000083445200004

3.S. Wei, O. Lindqvist, and J. Sommer Application of KCl - denuder for measuring gas-phase Hg(II) species in the atmosphere. Journal of Environmental Science. 1997 Vol9, No.2:232-240.

4.S. Wei, J. Somar, O. Lindqvist, and Z. Xiao Effect of mercury deposition on Hg content and distribution in rye grass. Pedosphere, 1997 Vol.7, No.1.p155~164.

5.S. Wei, O. Lindqvist, C. Qing, and S. Mou Inventory of anthropogenic mercury emission in Southwest China, I. Guizhou  Proceedings of 10th World Clean Air Congress, Espoo Finland, 1995, Vol1 p102.

6. Z. Xiao, J. Sommar, S. Wei, and O. Lindqvist Sampling and determination of gas phase divalent mercury in the air using a KCl coated denuder  Fresenius Journal of of Analytical Chemistry 1997, 358:386-391.

7.Wei Shiqiang  and N. Jarvis Modelling of Cadmium Transport in Soil-Crop System. Pedosphere, 2000,10(1):1-9.

8.ZHAO XIULAN  QING CHANGLE, and WEI SHIQIANG Heavy Metal Runoff in Relation to Soil Characteristics. Pedosphere, 200111(2)137—142

9WANG QiangWEI Shi-Qiang*ZHANG Jin-Zhong. Characteristics of Isothermal Adsorption and Desorption of Aluminum Ion to/from Humic Acids. Journal of Environmental Sciences, 20(5):579~584, 2008(SCI-E, EI)

10.PAN Sheng-wang, Wei Shi-qiang*, YUAN Xin and CAO Sheng-Xian  The removal and Remediation of Pheranthrene and Pyrene in Soil by Mixed Cropping of Alfalfa and Rape. Agricultural Sciences in China, 7(11):1355~13642008

11.Shiqiang Wei  Pytoremediation of contaminated soil with polycyclic aromatic hydrocarbons (PAHs) and its ecologically enhanced techniques. In Jiangming Xu and Panming Huang eds. Molecular Environmental Soil Sciences in Earth’s Critical Zone. Hangzou zhejiang: Zhejiang University Press and Srpinger, pp200~202. (ISTP), 2009

12.Tao Jiang Lingling Teng  Shiqiang Wei*, Lili Deng, Zaibo Luo, Yupeng Chen Dennis C. Flanagan. Application of polyacrylamide to reduce phosphorus losses from a Chinese purple soil: A laboratory and field investigation. Journal of Environmental Management, 91 (2010) 1437~1445DOI10.1016/j.jenvman.2010.02.006 SCI收录号:000278029400003

13.Wei Shiqiang Pan Shengwang. Phytoremediation for soils contaminated by phenanthrene and pyrene with multiple plant species. Journal of Soils and Sediments, 10(5): 886-894, 2010.07, DOI. 10.1007/s11368-010-0216-4, SCI收录号:000278741300012

14.Hongguang Zhou, Zhenmao Jiang, and Shiqiang Wei A Novel Absorbent of Nano-Fe Loaded Biomass Char and Its Enhanced Adsorption Capacity for Phosphate in Water. Journal of Chemistry. Volume 2013, Article ID 649868, 9 pages. http://dx.doi.org/10.1155/2013/649868, 2013.12DOI: 10.1155/2013/649868. WOS000327986900001

15.Yuan Y L, Gao M, Liu G P, Chai Y Q, Wei S Q,Yuan R. Sensitive pseudobienzyme electrocatalytic DNA biosensor for mercury(II) ion by using the autonomously assembled hemin/G-quadruplex DNAzyme nanowires for signal amplification. Analytica Chimica Acta, 811:23-28 , 2014DOI: 10.1016/j.aca.2013.11.051. WOS:000329978700003

16.JIANG Tao, WEI Shi-Qiang*, D. C. FLANAGAN, LI Meng-Jie, LI Xue-Mei, WANG Qiang and LUO Chang. Effect of Abiotic Factors on the Mercury Reduction Process by Humic Acids in Aqueous Systems. Pedosphere 24(1): 125–136, 2014. WOS:000332437400012

17.Guangpeng Liu, Yali Yuan, Shiqiang Wei,* and Dujian Zhang Impedimetric DNA-Based Biosensor for Silver Ions Detection with Hemin/G-Quadruplex Nanowire as Enhancer. Electroanalysis, 2014, 26, 2732 – 2738. 国外A2DOI: 10.1002/elan.201400439, WOS:000345978300023

18.G. P. Liu, Y. M. Wu, Y. L. Yuan, Y. Q. Chai, S. Q. Wei* and D. J. Zhang Manganese(lll) meso-tetrakis(4-N-methylpyridyl) porphyrin and mediator thionine co-decorated DNA nanowires for sensitive electrochemical monitoring of mercury(lI). RSC Adv. 2014, 4 :52117-52122. 国外A2DOI: 10.1039/c4ra09162kWOS:000344389000038

19.Tao Jiang, Ulf Skyllberg, Shiqiang Wei*, Dingyong Wang, Song Lu, Zhenmao Jiang, Dennis C. Flanagan. Modeling of the structure-specific kinetics of abiotic, dark reduction of Hg(II) complexed by O/N and S functional groups in humic acids while accounting for time-dependent structural rearrangement. Geochimica et Cosmochimica Acta 154 (2015) 151–167. 国外A1DOI: 10.1016/j.gca.2015.01.011WOS:000350560800010

20.Chang Luo, Yawei Xie, Fang Li, Tao Jiang, Qiang Wang, Zhenmao Jiang, and Shiqiang Wei*. Adsorption of Arsenate on Ferric Oxides as Influenced by Humic Acids. Journal of Environmental Quality  2015 44: 6: 1729-1737. doi:10.2134/jeq2014.11.0491.  WOS:0003649123000042015.11. IF=2.238

21.Hongguang Zhou, Zhenmao Jiang*, and Shiqiang Wei. Equilibrium and Kinetic Studies of Phosphate Adsorption Onto Corn Straw Char Supported Nano Ferric Oxide Composite. Science of Advanced Materials Vol. 7, pp. 1822–1829, 2015. DOI: 10.1166/sam.2015.2397, WOS:000364108200023

22.Zhenmao Jiang, Hongguang Zhou, Chen Chen, Shiqiang Wei*, and Weiming Zhang. The Enhancement of Nitrate Reduction by Supported Pd–Fe Nanoscale Particle. Science of Advanced Materials. 7:1734–1740, 2015. WOS:000364108200010

23.Jinlong Yan, Tao Jiang, Ying Yao, Song Lu, Qilei Wang, Shiqiang Wei*. Preliminary investigation of phosphorus adsorption onto two types of iron oxide-organic matter complexes. Journal of Environmental Science, 2016, 42 :152 – 1622016.04DOI: 10.1016/j.jes.2015.08.008WOS:000374976500018

24.Ming-Jing He, Shi-Qiang Wei*  Yu-Xin Sun, Ting Yang, Qi Li, Deng-Xiang Wang. Levels of five metals in male hair from urban and rural areas of Chongqing, China. Environ Sci Pollut Res. 2016, 23 (21) :1-9. DOI 10.1007/s11356-016-7448-9. WOS:000387599600093, 2016.11 IF=2.741

25.Jinlong Yan, Tao Jiang, Ying YaoJun Wang, Yuanli CaiNelson W. GreenShiqiang Wei*. Underestimation of phosphorus fraction change in the supernatant after phosphorus adsorption onto iron oxides and iron oxide-natural organic matter complexes. Journal of Environmental Sciences. 2017, 55 (5) :197-205. 2017.05. IF=2.865

26.Tao Jiang, Xueshuang Chen, Dingyong Wang, Jian Liang, Weiyang Bai, Cheng Zhang, Qilei Wang, Shiqiang Wei*.  Dynamics of dissolved organic matter (DOM) in a typical inland lake of the Three Gorges Reservoir area: Fluorescent properties and their implications for dissolved mercury species. Journal of Environmental Management. 206 (2018) 418-429. DOI: 10.1016/j.jenvman.2017.10.048.  IF=4.010, 2018.01

27.Tao Jiang⁎, Joeri Kaal, Jian Liang, Yaoling Zhang, ShiqiangWei, Dingyong Wang, Nelson W. Greenf. Composition of dissolved organic matter (DOM) from periodically submerged soils in the Three Gorges Reservoir areas as determined by elemental and optical analysis, infrared spectroscopy, pyrolysis-GC–MS and thermally assisted hydrolysis and methylation. Science of the Total Environment 603–604 (2017) 461–471. 2017-06. DOI. 10.1016/j.scitotenv.2017.06.114.

28.Hongguang Zhou, Zhenmao Jiang, Shiqiang Wei*Jie Liang. A new hydrotalcite-like absorbent FeMnMg-LDH and its adsorption capacity for Pb2+ ions in water. Applied Clay Science 153 (2018) 29–37. DOI: 10.1016/j.clay.2017.11.033; WOS:000424718300005; 2018.05. IF=3.101

29.Hongguang Zhou, Zhenmao Jiang, Shiqiang Wei*.  Adsorption of Cd(II) from Aqueous Solutions by a Novel Layered Double Hydroxide FeMnMg-LDH. Water Air and Soil Pollution. (2018) 229(3):78, DOI: 10.1007/s11270-017-3597-9; WOS:000428305400001; 2018.03. IF=1.702

30.Hongcheng Bai, Zhenmao Jiang, MinjinHe, Biying Ye, Shiqiang Wei*. Relating Cd2+ binding by humic acids to molecular weight: A modeling and spectroscopic study. Journal of Environmental Sciences, 70 ( 2018 ) 154 – 165. DOI: 10.1016/j.jes.2017.11.028. WOS:000439688500016ISSN: 1001-0742IF=3.120

31.Hongcheng Bai, Shiqiang Wei*, Zhenmao Jiang, Mingjing He, Biying Ye, Gaoyun Liua.  Pb (II) bioavailability to algae (Chlorella pyrenoidosa) in relation to its complexation with humic acids of different molecular weight. Ecotoxicology and Environmental Safety 167 (2019) 1–9. DOI:10.1016/j.ecoenv.2018.09.114ISSN:1090-2414IF=3.974,二区

32.Na Liu, Zhenmao Jiang, Xiong Li, Hanyi Liu, Na Li, Shiqiang Wei * Mitigation of Rice Cadmium ( Cd) Accumulation by Joint Application of Organic Amendments and Selenium (Se) in High-Cd-Contaminated Soils. Chemosphere (2019), 241 (2020) 125106. doi: https://doi.org/10.1016/j.chemosphere.2019.125106.  IF=5.108, On-line

33.Bai, H., Luo, M., Wei, S*., Jiang, Z., He, M., The vital function of humic acid with different molecular weight in controlling Cd and Pb bioavailability and toxicity to earthworm (Eisenia fetida) in soil, Environmental Pollution. (2020), 261:114222. doi: https://doi.org/10.1016/j.envpol.2020.114222; IF5.714

34.Na Li, Aixuan Feng, Na Liu, Zhenmao Jiang, Shiqiang Wei*. Silicon application improved the yield and nutritional quality while reduced cadmium concentration in rice. Environmental Science and Pollution Research(2020), https://doi.org/10.1007/s11356-020-08357-4. IF=2.914

35.Zhijun Ren, Guangdong Zhou and Shiqiang Wei*. Multilevel resistive switching memory behaviors arising from ion diffusion and photoelectron transfer in a-Fe2O3 nano-island arrays. Phys.Chem.Chem.Phys., 2020, 22, 2743. IF=3.567

 

联系地址:400715,重庆北碚,西南大学资源环境学院

电话:023-68250484

传真 023-69250632

E-mailsqwei@swu.edu.cn