魏树和 研究员

魏树和,男,19702月生于辽宁省铁岭县,博士/博士后,三级研究员,博士生导师,中共党员。辽宁省“百千万人才工程”百人层次。陕西省“千人计划”入选者。沈阳市科技创新领军人才。1992年毕业于沈阳农业大学并于2001年在该校获得硕士学位。2004年于中国科学院研究生院沈阳应用生态研究所获博士学位并留所工作。主要研究方向为污染土壤修复与安全利用,以及固废无害化与资源化利用。主讲研究生课程《污染土壤修复原理与方法》。主持国家及省部级科研课题20多项主编著作2部,副主编著作1部,英文著作章节3章,中文著作章节5章。发表学术论文100多篇,其中,SCI收录论文80多篇授权发明专利11项。获辽宁省自然科学一等奖1项,辽宁省技术发明二等奖1项,辽宁省科技进步二等奖2、全国农牧渔业丰收奖二等奖1、辽宁省自然科学学术成果一等奖1、陕西省科技进步三等奖1、陕西省高校科学技术奖二等奖1、汉中市科学技术二等奖1项。澳大利亚奋进奖。辽宁省青年科技奖。

学术团体任职:

·中国环境科学学会理事

·中国生态学学会理事

·中国生态学学会污染生态专业委员会顾问,前主任

·中国土壤学会土壤环境专业委员会副主任

期刊编委:

1) Agriculture

2) 《Emerging Contaminants:Soil and Water Perspectives》

3) 《中国环境科学》

4) 《应用生态学报》

5) 农业环境科学学报》

主要学术贡献:

长期从事污染土壤修复与安全利用研究。在固化/稳定化修复方面,针对Cd污染农田土壤,研究了粉煤灰、有机肥、鸡粪和猪粪的钝化修复作用。筛选出沈稻4号、沈稻5号、辽茄3号镉低积累水稻和茄子品种。构建了基于低积累品种的低污染重金属污染农田安全利用技术。按修复特点,将我国不同行业的典型场地分为三类: AsCd/Pb等一类重金属复合污染场地(铜冶炼、锌冶炼场地); Cd/Pb等一类重金属复合污染场地(电镀、电子拆解、制革场地); As 污染场地(未开采的富砷铅锌矿场地)。研究了磷酸二氢钙与硫酸铁复合钝化剂对AsCdPb复合污染场地土壤、磷酸二氢钙对NiCdCu复合污染场地土壤和硫酸铁对As污染场地土壤的钝化效果与修复机理。对不同场地的健康风险进行了综合评价。在场地重金属污染土壤淋洗修复方面,从价格相对比较低廉的11种螯合剂、15种有机酸、7种表面活性剂和3种无机淋洗剂中,筛选出3种针对3类重金属污染场地土壤的淋洗剂。在植物修复方面,以杂草植物为研究对象,发展、完善了超积累植物的评判标准,构建了富集植物的系统筛选方法,首次发现报道龙葵等3种植物为Cd超富集植物,蒲公英等4种植物为Cd富集植物。以球果蔊菜为试材,揭示了植物超富集镉的主要根际机理;以龙葵为试材,揭示了植物超富集镉的主要生理机制、生态型差异以及分子机理;以三叶鬼针草为试材揭示了植物超富集镉的膜透性特征及不同生态型差异。从低成本和环境友好的螯合剂、表面活性剂、有机酸、富集植物茎或叶中,筛选出强化效果较好的6种强化修复剂。构建了“花期收获”的边修复边生产的技术体系并获得显著效果。此外,还研究了村镇生活固废污染动态,提出消除村镇生活固废资源化利用过程中潜在污染风险的方法与途径。

主持课题:

1)陕西理工大学,秦巴生物与生态环境国培重点实验室(培育)重大开放科研课题秦巴地区超富集植物筛选及其分子机理研究 (SLGPT2019KF04-02),.2019.12-2022. 12.50万元,主持

2. 国家重点研发计划,“场地土壤污染成因与治理技术专项,项目场地土壤重金属积累、转化与生态环境效应(2018YFC1800500,课题“污染场地土壤重金属积累规律与生物地球化学过程”,子课题“污染场地土壤重金属赋存形态及空间变异特征2018YFC1800501)”. 2018.12-2022.11, 66万元,结题,主持

3.国家自然科学基金面上项目“龙葵对镉超富集的差异蛋白表达特征及调控机理(318704882019/1-2022/12, 60万元,结题,主持

4). 国家重点研发计划,“农业面源和重金属污染农田综合防治与修复技术研发” 专项, 重金属污染农田的植物萃取技术、产品与装备研发2016YFD0800800” 项目,课题“土壤重金属植物高效萃取化学强化、活化剂研制与设备创新(2016YFD0800802”,2016/1-2020/12, 252 万元,结题,主持

5). 国家自然科学基金面上项目“东北地区植物修复镉污染农田土壤主要根/土过程与机理(41571300)”2016/1-2019/12, 75.6万元,结题,主持

6).中国-马其顿政府间科技合作项目,微生物协助大豆排斥重金属吸收积累的研究,2014.1-2015.5

7).中德合作科研项目(PPP),原始/农用湿地土壤中铁、硫、溶解性有机质以及重金属的生物地球化学过程研究,2013/1-2014/12 国家留学基金管理委员会,201391-30201481-31日,Institute of Landscape Ecology of the University of Sciences MuensterGermany. 访问德国

8).国家自然科学基金面上项目“超富集植物三叶鬼针草对镉的吸收转运机制研究31270540)”, 2013/1-2016/12, 85万元,结题,主持

9)国家科技支撑计划,基于物联网的小流域废物集中处置与资源化利用技术研究及示范项目,课题“清淤底泥及村镇生活固废资源化利用技术及示范(2012BAC17B042012/1-2015/12805万元,结题,主持

10).国家高技术研究发展计划(863计划),污染土壤修复技术及示范(一)项目,大型有色金属基地及周边地区重金属污染土壤植物修复技术及示范课题,子课题“植物修复效率评估及风险管控技术研究(2012AA06A202)” 2012/1-2015/1254万元,结题,主持

11). 中瑞科技合作项目,EG06-092011 Uptake via the roots, root-to-shoot transfer and partitioning of Cd and other heavy metals in the hyperaccumulatro Solanum nigrum 2012/9.17-2012/12.16, 结题,主持, 瑞士,the Sino Swiss Science and Technology Program (Project No.: EG06-092011), Institute of Plant Sciences,University ofBern

12).辽宁省自然科学基金“镉低积累大葱品种筛选及镉污染土壤安全生产措施(201102224)”,2012/1-2013/12,5万元,结题,主持

13). 国家自然科学基金面上项目“超富集植物龙葵对镉富集的主要机理(31070455)”, 2011/1-2013/12, 34元,结题,主持

14).国家自然科学基金面上项目“东北地区镉污染农田土壤植物修复的主要根际机理研究(40971184)”, 2010/1-2012/12,40万元,结题,主持

15). 中国博士后科学基金特别资助项目“水稻品种间镉积累差异的生理生化机制(201003626)” 2011/1-2012/12, 10万元,结题,主持

16).十一五国家高技术研究发展计划(863计划)目标导向类课题滚动课题, 2009AA06Z316,复合污染的菜地土壤修复关键技术, 2010/6-2011/6,19万元,结题,副主持

17). 中国博士后科学基金资助面上项目沈阳地区水稻对重金属积累的品种间差异及根际钝化机制(20090461195)”, 2010/1-2011/12, 3万元, 结题,主持

18.中国与俄罗斯政府间科技合作项目, 13-33, 重金属污染土壤植物-微生物联合修复潜力与生态风险评价, 2010/1-2010.12结题,主持

19).辽宁省自然科学基金(20082017),水稻镉低积累品种筛选及绿色生产技术, 2009/1-2010/12, 5万元结题,主持

20).教育部留学回国人员科研启动基金植物-微生物联合修复镉污染土壤机理研究,2009/1-2010/12,2万元, 结题,主持

21)波兰科学院和中国科学院波中联合研究项目,Environmental implications of wastereuse for remediation and assoil amendments.2008-2010,波方申请人Irena TWARDOWSKA

22).十一五国家高技术研究发展计划(863计划)目标导向类课题, 2006AA06Z386子课题:东北地区低积累蔬菜品种筛选与超积累植物利用技术集成及示范, 2007/1-2009/12, 78万元, 结题,主持

23). 中国科学院陆地生态过程重点实验室基金项目,超积累植物修复镉污染土壤机理及强化措施研究, 2005/1-2006/12, 6万元, 结题,主持

24). 永利娱高ylg060net人才启动基金项目,龙葵对镉的超富集特征研究, 2004/7-2005/12,10万元, 结题,主持

SCI收录论文

1Jia Jibao, Dai Huiping, Wei Shuhe*, Skuza Lidia, Xue Jianming, Li Rong, Sun Quan*. Phytoremediation capacity of the hyperaccumulator Solnum nigrum L. and Solanum lycopersicum L. cultivars at the flowering stage in cadmium-polluted soil. Pedosphere. 2024, 343):676-680

2.Hu Fangyu#, Gao Chengcheng#, Wang Baoyu, Ding Ziming, Zhang Lijie, Wei Shuhe, An Jing*. Effects of chicken manure-modified biochar on the adsorption capacity of tetracycline and abundance of antibiotic resistance genes in soil. Land Degradation & Development. 2024, 35(3):1224-1233.

3.Wang Siqi*, Dai Huiping*, Ji Dandan, Cui Shuang, Jiang Chengzhi, Skuza Lidia, Li Lianzhen, Wei Shuhe, Zhang Lijun. Synergistic effects of exogenous nutrient ions on the real-time cadmium extraction by an accumulator.  Agriculture. 2024, 14, 742.

4.Xu LeiDai Huiping**, Wei Shuhe*, Skuza LidiaShi Jiachun. High-efficiency combination washing agents with eco-friendliness simultaneously removing Cd, Cu and Ni from soil of e-waste recycling site: A lab-scale experiment. Chemosphere, 2024,357, 142047

5.Xu Lei, Xie Wenjun*, Dai Huiping, Wei Shuhe**, Skuza Lidia, Li Jianan, Shi Cailing, Zhang Lichang. Effects of combined microplastics and heavy metals pollution on terrestrial plants and rhizosphere environment: A review Chemosphere, 2024,358, 142107

6.Wang Siqi*, Dai Huiping*, Ji Dandan, Cui Shuang, Jiang Chengzhi, Skuza Lidia, Li Lianzhen*, Grzebelus Dariusz, Wei Shuhe*. Characteristics of Cd uptake by the roots ofBidens tripartitaL. under salinity and pH variations assessed by applying non-invasive micro-test technology. Water Air and Soil Pollution. 2023,234:335

7.Wang Siqi, Dai Huiping, Cui Shuang, Ji Dandan, Skuza Lidia, Li Lianzhen, Grzebelus Dariusz, Wei Shuhe*. The effects of salinity and pH variation on hyperaccumulator Bidens pilosa L. accumulating cadmium with dynamic and real-time uptake of Cd2+ influx around its root apexes. Environmental Science and Pollution Research. 2023, 3041435-41444.

8.Dou Xuekai, Dai Huiping*, Grzebelus Dariusz, Skuza LidiaWei Shuhe*. Cadmium phytoextraction efficiency of hyperaccumulator as affected by harvest stage in three continuous years. Chemosphere. 2023, 313, 137639

9. Jia Jibao, Dai Huiping, Wei Shuhe*, Xue Jianming, Skuza Lidia, Sun Quan*, Li Rong. Toxicity of emerging contaminant antibiotics to Capsicum annuum L. and the effects on its copper accumulation from soil. Plant Physiology and Biochemistry. 2023,196:661-667.

10.Wang Siqi*, Dai Huiping, Ji Dandan, Cui Shuang, Jiang Chengzhi, Skuza Lidia , Li Lianzhen*, Grzebelus Dariusz, Wei Shuhe. Influencing factors of Bidens pilosa L. hyperaccumulating cadmium explored by the real-time uptake of Cd2+ influx around root apexes under different exogenous nutrient ion levels. Toxics, 2023, 11,227

11.Xu Lei, Dai Huiping*, Skuza Lidia, Wei Shuhe*. The effects of different electrode materials on seed germination of Solanum nigrum L. and its Cd accumulation in soil. Journal of Environmental Sciences. 2022113291-299

12.Xu Lei, Dai Huiping*, Skuza Lidia*, Xu Jianming, Shi Jiachun, Wang Yujun, Shentu Jiali, Wei Shuhe*. Integrated survey on the heavy metal distribution, sources and risk assessment of soil in a commonly developed industrial area. Ecotoxicology and Environmental Safety. 2022, 236: 113462

13. Xu Lei, Dai Huiping*, Skuza Lidia, Xu Jianming, Shi Jiachun, Wei Shuhe*. Co-high-efficiency washing agents for simultaneous removal of Cd, Pb and As from smelting soil with risk assessment. Chemosphere. 2022, 300, 134581

14.Wang SiqiDai Huiping*, Wei Shuhe**, Skuza Lidia, Chen Yanqiu. Effects of Cd-resistant fungi on uptake and translocation of Cd by soybean seedlings. Chemosphere. 2022, 291, 132908

15. Wang SiqiDai Huiping**, Skuza Lidia, Chen Yanqiu,Wei Shuhe*. Difference in Cd2+ flux around the root tips of different soybean (Glycine max L.) cultivars and physiological response under mild cadmium stress. Chemosphere. 2022,297, 134120

16. Yang Wei, Dai Huiping*, Skuza Lidia,Wei Shuhe*. Enhanced Cd phytoextraction by Solanum nigrum L. from contaminated soils combined with the application of N fertilizers and double harvests. Toxics, 2022, 10, 266

17. Dou Xuekai, Dai Huiping*, Skuza Lidia,Wei Shuhe. Cadmium removal potential of hyperaccumulatorSolanum nigrumL. under two planting modes in three years continuous phytoremediation.Environmental Pollution. 2022, 307119493

18. Dai Huiping, Wei Shuhe*, Grzebelus Dariusz, Skuza Lidia, JiaJibao, Hou Nan. Mechanism exploration of Solanum nigrum L. hyperaccumulating Cd compared to Zn from the perspective of metabolic pathways based on differentially expressed proteins using iTRAQ. Journal of Hazardous Materials 2022,440,129717

19. Dai Huiping, Wei Shuhe*, Twardowska Irena*, Hou Nan, Zhang Qing. Cosmopolitan cadmium hyperaccumulator Solanum nigrum: Exploring cadmium uptake, transport and physiological mechanisms of accumulation in different ecotypes as a way of enhancing its hyperaccumulative capacity. Journal of Environmental Management. 2022, 320,115878

20. Dai Huiping, Wei Shuhe**, Twardowska Irena*, Zhang Qing. In search of the exclusion/low-accumulation mechanisms: Cadmium uptake and accumulation from soil by cultivated (Solanum melongena L.) and wild eggplants (Solanum torvum L.). Journal of Cleaner Production. 2021,323,129141

21.Dai Huiping, Wei Shuhe*, Pogrzeba Marta, Krzyżak Jacek, Rusinowski Szymon, Zhang Qing. The cadmium accumulation differences of two Bidens pilosa L. ecotypes from clean farmlands and the changes of some physiology and biochemistry indices. Ecotoxicology and Environmental Safety. 2021, 209,11847

22. Dai Huiping, Wei Shuhe*, Skuza Lidia, Zhang Qing. Phytoremediation of two ecotypes cadmium hyperaccumulator Bidens pilosa L. sourced from clean soils. Chemosphere. 2021,273, 129652

23. Han Ran, Dai Huiping*, Skuza Lidia, Wei Shuhe*. Comparative study on different organic acids for promoting Solanum nigrum L. hyperaccumulation of Cd and Pb from the contaminated soil. Chemosphere. 2021, 278:130446

24. Han Ran, Dai Huiping*, Guo Bin, Noori Azam, Sun Wanchun, Wei Shuhe*. The potential of medicinal plant extracts in improving the phytoremediation capacity of Solanum nigrum L. for heavy metal contaminated soil. Ecotoxicology and Environmental Safety. 2021, 220, 112411

25. Xu Lei, Dai Huiping*,Skuza LidiaWei Shuhe*. Comprehensive exploration of heavy metal contamination and risk assessment at two common smelter sites. Chemosphere. 2021, 205,131350

26Yan Xiuxiu, An Jing , Yin Yongchao, Gao Chengcheng, Wang Baoyu, Wei Shuhe. Heavy metals uptake and translocation of typical wetland plants and their ecological effects on the coastal soil of a contaminated bay in Northeast China. Science of the Total Environment. 2021,803,149871

27.Han Ran, Dai Huiping, Twardowska Irena, Zhan Jie, Wei Shuhe*. Aqueous extracts from the selected hyperaccumulators used as soil additives significantly improve accumulation capacity of Solanum nigrum L. for Cd and Pb. Journal of Hazardous Materials 2020, 394:122553

28.Dai Huiping, Wei Shuhe*, Noori Azam. The mechanism of chelator improved the tolerance and accumulation of poplar to Cd explored through differential expression protein based on iTRAQ. Journal of Hazardous Materials. 2020, 393, 122370

29.Yang Wei, Dai Huiping*, Skuza Lidia, Wei Shuhe*. The front-heavy and back-light nitrogen application mode to increase stem and leaf biomass significantly improved cadmium accumulation in Solanum nigrum L. Journal of Hazardous Materials 2020, 393122482

30.Dai Huiping, Wei Shuhe*, Twardowska Irena*. Biofortification of soybean (Glycine max L.) with Se and Zn, and enhancing its physiological functions by spiking these elements to soil during flowering phase. Science of the Total Environment. 2020,740139648

31.Xu Lei, Dai Huiping*, Skuza Lidia, Wei Shuhe *. Optimal voltage and treatment time of electric field with assistant Solanum nigrum L. cadmium hyperaccumulation in soil. Chemosphere. 2020253126575

32.Xu Lei, Dai Huiping*, Skuza Lidia, Wei Shuhe*. The effects of different electric fields and electrodes on Solanum nigrum L. Cd hyperaccumulation in soil. Chemosphere. 2020, 246, 125666

33.Dou Xuekai, Dai Huiping*, Skuza LidiaWei Shuhe*. Strong accumulation capacity of hyperaccumulator Solanum nigrum L. for low or insoluble Cd compounds in soil and its implication for phytoremediation. Chemosphere. 2020, 260127564

34. Dai Huiping, Wei Shuhe*, Pogrzeba Marta, Rusinowski Szymon, Krzyżak Jacek, Jia Genliang. Exogenous jasmonic acid decreased Cu accumulation by alfalfa and improved its photosynthetic pigments and antioxidant system. Ecotoxicology and Environmental Safety. 2020, 190, 110176

35. Dai Huiping, Wei Shuhe*, Skuza Lidia. Effects of different soil pH and nitrogen fertilizers on Bidens pilosa L. Cd accumulation. Environmental Science and Pollution Research. 2020, 279403-9409  

36. Han Ran, Dai Huiping, Zhan Jie, Wei Shuhe*. Clean extracts from accumulator efficiently improved Solanum nigrum L. accumulating Cd and Pb in soil. Journal of Cleaner Production. 2019239118055

37. Zhan Jie, Twardowska Irena, Wang Siqi, Wei Shuhe*, Chen Yanqiu, Mihajlov Ljupco. Prospective sustainable production of safe food for growing population based on the soybean (Glycine max L. Merr.) crops under Cd soil contamination stress. Journal of Cleaner Production. 2019, 212: 22-36

38. Han Ran, Dai Huiping*, Skuza Lidia, Zhan Jie, Wei Shuhe*. Stem aqueous extracts of accumulator Bidens tripartita L. strongly promoted Solanum nigrum L. Cd hyperaccumulation from soil. Plant and Soil. 2019, 443: 401-411

39. Dou Xuekai, Dai Huiping, Twardowska Irena, Wei Shuhe*. Hyperaccumulation of Cd by Rorippa globosa (Turcz.) Thell. from soil enriched with different Cd compounds, and impact of soil amendment with glutathione (GSH) on the hyperaccumulation efficiency. Environmental pollution, 2019, 255, 113270

40. Yang Wei, Dai Huiping*, Skuza Lidia, Wei Shuhe *. Strengthening role and the mechanism of optimum nitrogen addition in relation to Solanum nigrum L. Cd hyperaccumulation in soil. Ecotoxicology and Environmental Safety. 2019,182,109444

41. Dai Huiping,Wei Shuhe, Skuza Lidia, Jia Genliang. Selenium spiked in soil promoted zinc accumulation of Chinese cabbage and improved its antioxidant system and lipid peroxidation. Ecotoxicology and Environmental Safety. 2019, 180:179-184 

42. Dou Xuekai, Dai Huiping*, Skuza Lidia, Wei Shuhe*. Bidens pilosa L. hyperaccumulating Cd with different species in soil and the role of EDTA on the hyperaccumulation. Environmental Science and Pollution Research. 2019, 26: 25668-25675

43. Yang Wei, Dai Huiping, Dou Xuekai, Zhang Qianru, Wei Shuhe *. Effect and mechanism of commonly used four nitrogen fertilizers and three organic fertilizers on Solanum nigrum L. hyperaccumulating Cd. Environmental Science and Pollution Research. 2019, 26:12940–12947

44. Dou Xuekai, Dai Huiping, Wei Shuhe*, Hu Yahu*Skuza Lidia. Effects of some chelators and surfactants on hyperacculator Sedum alfredii Hance remediating contaminated soil. Soil and Sediment Contamination. 2019, 28(8): 747-756 

45. Feller Urs, Anders Iwona, Wei Shuhe. Distribution and Redistribution of 109Cd and 65Zn in the HeavyMetal Hyperaccumulator Solanum nigrum L.: Influence of Cadmium and Zinc Concentrations in the Root Medium. Plants-Basel. 2019, 8,340

46. Wei Shuhe*Xu LeiDai Huiping, Hu Yahu*. Ornamental hyperaccumulator Mirabilis jalapa L. phytoremediating combine contaminated soil enhanced by some chelators and surfactants. Environmental Science and Pollution Research. 2018, 25: 29699-29704

47. Han Ran, Dai Huiping, Yang Chuanjie, Wei Shuhe*, Xu Lei, Yang Wei, Dou Xuekai. Enhanced phytoremediation of cadmium and/or benzo(a)pyrene contaminated soil by hyperaccumulator Solanum nigrum L. International Journal of Phytoremediation. 201820:862-868

48.Dai Huiping, Wei Shuhe*, Twardowska Irena, Han Ran, Xu Lei. Hyperaccumulating potential of Bidens pilosa L. for Cd and elucidation of its translocation behavior based on cell membrane permeability. Environmental Science and Pollution Research. 2017, 24: 23161-23167

49.Wang Siqi, Wei Shuhe *, Chen Yanqiu, Ljupco Mihajlov. Comparison of soybean cultivars enriching Cd and the application foreground of the low-accumulating cultivar in production. Polish Journal of Environmental Studies. 2017, 26(3): 1299-1304

50.Dai Huiping, Wei Shuhe*. Effects of cadmium on the antioxidative defense system and biomass accumulation of populus×canescens. Bangladesh Journal of Botany. 2017, 46(3): 865-870

51. Wang Meicong, Yang Zhenzhen, Xia Mucun, Fan Liping*, Zhang Xuejun, Wei  Shuhe, Zou Tao. Performance improvement of microbial fuel cells by lactic acid bacteria and anode modification. Environmental Engineering Science. 2017, 34 (4) :251-257

52. Wei Shuhe*, Bai Jiayi, Yang chuanjie, Zhang Qianru, Knorr Klaus-Holger, Zhan Jie, Gao Qianhui. Compound amino acids added in media improved Solanum nigrum L. phytoremediating Cd-PAHs contaminated soil. International Journal of Phytoremediation.  2016, 18: 358-363 

53.Zeng Xiangfeng, Twardowska Irena,Wei Shuhe*, SunLina, Wang Jun, Zhu Jianyu Cai Jianchao. Removal of trace metals and improvement of dredged sediment dewaterability by bioleaching combined with Fenton-like reaction. Journal of Hazardous Materials. 2015, 288:51-59

54. Wei Shuhe*, Ji Dandan, Twardowska Irena, Li Yunmeng, Zhu Jiangong. Effect of different nitrogenous nutrients on the cadmium hyperaccumulation efficiency of Rorippa globosa (Turcz.) Thell. Environmental Science and Pollution Research. 2015, 22: 1999-2007

55.Wang Siqi, Wei Shuhe*, Ji Dandan, Bai Jiayi. Co-planting Cd contaminated field using hyperaccumulatorSolanum nigrumL. through interplant with low accumulation welsh onion. International Journal of Phytoremediation. 2015, 17:879-884

56.Niu Mingfen, Wei Shuhe*, Bai Jiayi, Wang Siqi, Ji Dandan. Remediation and safe production of Cd contaminated soil via multiple cropping hyperaccumulator Solanum nigrum L. and low accumulation Chinese cabbage. International Journal of Phytoremediation. 2015, 17:657-661

57.Zeng Xiangfeng, Wei Shuhe*, Sun Lina, Jacques David A., Tang Jiaxi, Lian Meihua. Bioleaching of heavy metals from contaminated sediments by the Aspergillus niger strain SY1. Journal of Soils and Sediments. 2015, 15:10291038

58.Zeng Xiangfeng, Wang Zuwei*, Ji Zhanhua, Wei Shuhe. A New Montmorillonite /Humic Acid Complex Prepared in Alkaline Condition to Remove Cadmium in Waste Water. Polish Journal of Environmental Studies. 2015, 24(2):817-821

59.An Jing*, Chen Hongwei,Wei Shuhe*, Gu Jian. Antibiotic contamination in animal manure, soil, and sewage sludge in Shenyang, northeast China. Environmental Earth Science. 2015, 74:5077–5086, IF2016=1.569

60. Feller Urs, Anders Iwona, Wei Shuhe. Effect of PEG-induced water deficit in Solanum nigrum on Zn and Ni uptake and translocation in split root systems. Plants. 2015, 4, 284-297

61. Wei Shuhe*, Anders Iwona, Feller Urs. Selective uptake, distribution and redistribution of109Cd,57Co,65Zn,63Ni and134Cs via xylem and phloem in the heavy metal hyperaccumulator Solanum nigrum L. Environmental Science and Pollution Research. 2014,21: 7624-7630

62.  Wei Shuhe*Zeng XiangfengWang ShanshanZhu JiangongJi DandanLi YunmengJiao Hongjing. Hyperaccumulative property of Solanum nigrum L. to Cd explored from cell membrane permeability, subcellular distribution, and chemical form. Journal of Soils and Sediments. 2014, 14: 558-566

63. Liu Rui*, Xiao Nan, Wei Shuhe*, Zhao Lixing, An Jing. Rhizosphere effects of PAH-contaminated soil phytoremediation using a special plant named Fire Phoenix. Science of the Total Environment. 2014, 473-474: 350-358

64.Wei Shuhe*Twardowska Irena. Main rhizosphere characteristics of the Cd hyperaccumulator Rorippa globosa (Turcz.) Thell. Plant and Soil. 2013, 372:669-681

65.Wei Shuhe*, Wang Shanshan, Li Yunmeng, Zhu Jiangong. Root system responses of hyperaccumulatorSolanum nigrumL. to Cd. Journal of Soils and Sediments.2013, 13:10691074

66. Zhan Jie, Wei Shuhe*, Niu Rongcheng*, Li Yunmeng, Wang Shanshan, Zhu Jiangong. Identification of rice cultivar with exclusive characteristic to Cd using a field-polluted soil and its foreground application. Environmental Science and Pollution Research. 2013, 20:26452650

67. Wei Shuhe*, Clark Gary, Doronila Augustine Ignatius, Jin Jian, Monsant Alison Carol. Cd hyperaccumulative characteristics of Australia ecotype Solanum nigrum L. and its implication in screening hyperaccumulator. International Journal of Phytoremediation. 2013, 15(3): 199-205

68. Wei Shuhe*, Li Yunmeng*, Zhan Jie, Wang Shanshan, Zhu Jiangong. Tolerant mechanisms of Rorippa globosa (Turcz.) Thell. hyperaccumulating Cd explored from root morphology. Bioresource Technology. 2012, 118: 455–459

69. Li Xuhui, Zhou Qixing, Wei Shuhe, Ren Wenjie. Identification of cadmium-excluding welsh onion (Allium fistulosum L.) cultivars and their mechanisms of low cadmium accumulation. Environmental Science and Pollution Research. 2012, 19: 17731780

70. Wei Shuhe*, Zhu Jiangong, Zhou Qixing*, Zhan Jie. Fertilizer amendment for improving the phytoextraction of cadmium by a hyperaccumulator Rorippa globosa (Turcz.) Thell. Journal of Soils and Sediments. 2011, 11: 915922

71.Wei Shuhe*, Zhan Jie, Zhou Qixing*, Niu Rongcheng, Li Yunmeng, Wang Shanshan. Effect of Environmentally Friendly Amendment on a Newly FoundAccumulator Kalimeris integrifolia Turcz. ex DC. Phytoremediating Cd-Contaminated Soil. Water, Air & Soil Pollution. 2011,218(1-4): 479-486

72. Li Xuhui, Zhou Qixing, Wei Shuhe, Ren Wenjie, Sun Xiaoyin. Adsorption/desorption of carbendazim and cadmium on two typical soils as affected by temperature in northeastern China. Geoderma.2011, 160(3-4): 347-354

73. Sun Ruilian, Zhou Qixing, Wei Shuhe. Cadmium accumulation in relation to organic acids and non-protein thiols in leaves of the new-found Cd-hyperaccumulator Rorippa globosa and the Cd-accumulating plant Rorippa islandica. Journal of Plant Growth Regulation. 2011, 30(1): 83-91

74. Yang Chuanjie,  Zhou    Qixing, Wei Shuhe, Hu Yahu, Bao Yanyu. Chemical-assisted phytoremediation of Cd-PAHs contaminated soils using Solanum nigrum L. International Journal of Phytoremediation, 201113:818–833

75. Wei Shuhe*, Zhou Qixing*Zhan Jie, Wu Zhijie, Sun Tieheng, Lyubu Yelena, Prasad  M.N.V. Poultry manured Bidens tripartite L. extracting Cd from soil - potential for phytoremediating Cd contaminated soil. Bioresource Technology, 2010,101: 8907-8910

76. Wei Shuhe*, Wang shanshan, Zhou Qixing*, Zhan Jie, Ma Lihui, Wu Zhijie, Sun Tieheng, Prasad M.N.V. Potential of Taraxacum mongolicum Hand-Mazz for accelerating phytoextraction of cadmiumin combination with eco-friendly amendments, Journal of Hazardous Materials. 2010, 181: 480-484

77. Wei Shuhe*, Li Yunmeng, Zhou Qixing*, Srivastava Mrittunjai, Chiu Siuwai, Zhan Jie, Wu Zhijie, Sun Tieheng. Effect of fertilizer amendments on phytoremediation of Cd-contaminated soil by a newly discovered hyperaccumulatorSolanum nigrumL. Journal of Hazardous Materials. 2010,176: 269-273,3.940

78. Wei Shuhe, Ma Lena Q.*, Saha Uttam, Mathews Shiny, Sundaram Sabarinath, Rathinasabapathi Bala, Zhou Qixing*. Sulfate and glutathione enhanced arsenic accumulation by arsenic hyperaccumulatorPteris vittataL. Environmental Pollution. 2010,1581530-1535

79. Liu Weitao, Zhou Qixing, Zhang Yinlong, Wei Shuhe. Lead accumulation in different Chinese cabbage cultivars and screening for pollution-safe cultivars. Journal of Environmental Management.2010, 91: 781-788

80. Wei Shuhe*, Hu Yahu, Srivastava Mrittunjai, Zhou Qixing*, Niu Rongcheng, Li Yunmeng, Wu Zhijie, Sun Tieheng. Seed germination of a newly discovered hyperaccumulator Solanum nigrum L. affected by illumination and seed-soaking reagent. Journal of Hazardous Materials. 2009,170:1256-1259

81. Wei  Shuhe*, Niu Rongcheng, Srivastava Mrittunjai, Zhou Qixing*, Wu Zhijie, Sun Tieheng, HuYahu, Li Yunmeng, Bidens tripartite L.: A Cd-accumulator confirmed by pot culture and site sampling experiment. Journal of Hazardous Materials. 2009,170:1269-1272

82. Wei Shuhe, Zhou Qixing*, Saha Uttam Kumar, XiaoHong, Hu Yahu, Ren Liping, Gu Ping. Identification of a Cd accumulator Conyza canadensis. Journal of Hazardous Materials. 2009, 263:32-35

83. Wei Shuhe, Zhou Qixing*, Srivastava Mrittunjai, Xiao Hong, Yang Chuanjie, Zhang Qianru. Kalimeris integrifoliaTurcz. ex DC.: An accumulator of Cd. Journal of Hazardous Materials. 2009, 162:1571-1573

84. Wei Shuhe, Zhou Qixing*, Xiao Hong, Yang Chuanjie, Hu Yahu, Ren Liping. Hyperaccumulative property comparison of 24 weed species to heavy metals using a pot culture experiment. Environmental Monitoring and Assessment. 2009, 152:299-307

85. Wei Shuhe, Zhou Qixing*, Mathews Shiny. A newly found cadmium accumulator - Taraxacum mongolicum. Journal of Hazardous Materials. 2008, 159:544-547

86.Wei Shuhe, Silva Jaime A. Teixeira Da, Zhou Qixing*. Agro-improving method of phytoextracting heavy metal contaminated soil. Journal of Hazardous Materials. 2008150:662-668

87.Wei Shuhe, Zhou Qixing*, Saha Uttam Kumar. Hyperaccumulative characteristics of weed species to heavy metals. Water Air & Soil Pollution. 2008192:173-181

88. Wei Shuhe, Zhou Qixing*. Screen of Chinese weed species for cadmium tolerance and accumulation characteristics. International Journal of Phytoremediation. 2008. 10:584-597

89. Cui Shuang, Zhou Qixing, Wei Shuhe, Zhang Wei, Cao Lei, Ren Liping. Effects of exogenous chelators on phytoavailability and toxicity of Pb in Zinnia elegans Jacq. Journal of Hazardous Materials. 2007, 146:341–346

90. Wei Shuhe, Zhou Qixing*, Koval PV. Flowering stage characteristics of cadmium hyperaccumulator Solanum nigrum L. and their significance to phytoremediation. Science of the Total Environment. 2006, 369:441-446

91. Wei Shuhe, Zhou Qixing*. Phytoremediation of cadmium-contaminated soils byRorippa globosausing two-phase planting. Environmental Science and Pollution Research. 2006, 13:151-155

92. Wei Shuhe, Zhou Qixing*,Wang Xin. Identification of weed plants excluding the uptake of heavy metals. Environment International. 2005, 31:829-834 

93. Wei Shuhe, Zhou Qixing*, Wang Xin, Zhang Kaisong,Guo Guanlin, Ma Lena Q. A newly-discovered Cd-hyperaccumulator Solanum nigrum L. Chinese Science Bulletin. 2005, 50:33-38

94. Wei Shuhe, Zhou Qixing*. Identification of weed species with hyperaccumulative characteristics of heavy metals.  Progress in Natural Science. 2004, 14:495-503

95. Wei Shuhe, Zhou Qixing*, Wang Xin, Cao Wei, Ren Liping, Song Yufang. Potential of weed species applied to remediation of soils contaminated with heavy metal. Journal of Environmental Sciences. 2004, 16:868-873

中文学术论文:

1.王赟,侯楠,景慧,赵国平,魏树和*,贾根良,代惠萍.紫芽茶脱毒苗组织培养再生体系的建立.陕西林业科技.2023,51(4):1-4,10.

2.胡芳雨,安婧*,王宝玉,徐明恺,张惠文,魏树和.农田土壤除草剂污染的修复技术研究进展.环境科学.2023,44(4):2384-2394

3.安婧 ,丁子明 ,高程程 ,胡芳雨 ,魏树和.畜禽粪便污染的环境风险与资源化处理技术分析.环境科学 , 2023 , 44 (8) : 4764-4774

4.赵继蓉 ,徐哲超 ,魏树和 ,代惠萍 ,张勇 ,刘佳陇.陕西3种植物新记录.《陕西理工大学学报:自然科学版》 , 2022 , 38 (5) : 75-78

5.安婧 ,高程程 ,王宝玉 ,闫秀秀 ,魏树和.生物炭对外源抗生素及其抗性基因的吸附行为与去除机制.生态学杂志. 2021 , 40 (4) : 1210-1221

6.孔祥方,魏树和*,赵继蓉,代惠萍**,贾根良. 旺盛期烟草对镉富集敏感性研究. 中国环境科学. 2021, 41(10):4872-4877

7徐雷代惠萍*魏树和*.淋洗剂在重金属污染土壤修复中的研究进展. 中国环境科学.2021,41(11):5237-5244

8.张庆,魏树和*,代惠萍*,贾根良.硒对茶树镉毒害的缓解作用研究.南京林业大学学报(自然科学版). 2020,44(1):200-204

9.周启星 ,唐景春 ,魏树和.环境绿色修复的地球化学基础与相关理论探讨.生态与农村环境学报. 2020 , 36 (1) : 1-10

10.赖秋羽,魏树和*,代惠萍*,贾根良. 番茄光合荧光特性及其镉吸收对土壤镉污染的响应.中国环境科学. 2019, 39(11): 4737-4742

11.魏树和,徐雷,韩冉, 窦薛楷杨微. 重金属污染土壤的电动-植物联合修复技术研究进展. 南京林业大学学报(自然科学版),2019,43(1):154-160.

12.王茜,侯楠,张庆,孔祥方,魏树和*,代惠萍*.锌超积累植物生理响应研究,园艺与种苗,2019,39(09):4-6

13.张立娜,宫晓双,安婧*,魏树和. 三氯生的环境残留、降解代谢及其潜在生态风险. 应用生态学报. 2018, 29(9): 3139-3146

14. 朱佳妮,代惠萍*,魏树和*,贾根良,陈德经,裴金金,张庆,强龙. 花期追施锌肥对大豆生长和锌素积累的影响.作物杂志. 2018(1): 152-155

15.张阿芳张庆代惠萍*魏树和*贾根良吴三桥魏安智. 镉胁迫对银灰杨根和叶片渗透调节物质的影响. 西北林学院学报.2018,33(2):83-87

16.安婧, 宫晓双, 陈宏伟, 魏树和. 沈抚灌区农田土壤重金属污染时空变化特征及生态健康风险评价. 农业环境科学学报, 2016, 35(1):37-44

17.张倩茹*, 牟文燕, 张靖宜, 刘丽, 魏树和.双齿围沙蚕(Perinereis aibuhitensis)诱导型热休克蛋白70基因的克隆及Cu污染胁迫下的表达分析. 应用生态学报. 2016, 27(5):1628-1638

18.季丹丹,魏树和*,王嗣淇.非损伤微测技术及其在环境科学领域的应用.生态杂志.2015,34(10):2951-2955

19.安婧,宫晓双,魏树和*.重金属污染土壤超积累植物修复关键技术的发展。生态学杂志.2015,34(11):3261-3270

20.詹杰, 魏树和*.四环素在土壤和水环境中的分布及其生态毒性与降解研究.生态学报.2015, 35(9): 2819-2825

21.曾祥峰,王祖伟,魏树和,于晓曼. 碱性条件下胡敏酸吸附镉的特征研究. 生态环境学报, 2014, 23(10):1691-1696

22.纪占华,安婧,肖明月,魏树和,台培东. 土壤外源金霉素污染对蚯蚓生长发育的生态毒性效应.应用生态学报.2014,25 (10): 3011-3016

23. 张倩茹, 牟文燕, 张靖宜, 刘丽, 魏树和. 石油烃对沙蚕镉生物富集特性及金属硫蛋白诱导的影响. 应用生态学报. 2014, 25(9): 2683-2694

24.张靖宜, 张倩茹, 项文化, 魏树和, 牟文燕. 一株拮抗立枯丝核菌的放线菌筛选、鉴定及生理特性. 生态学杂志. 2014, 33(2): 394-399

25.安婧,肖明月,纪占华,魏树和,台培东. 土壤外源金霉素对小白菜幼苗的毒性效应与其赋存形态的相关性.沈阳农业大学学报(自然科学版).2014,26(6):431-451

26. 纪占华,安婧,肖明月,魏树和,台培东,律泽.土壤四环素污染对蚯蚓生长发育抗氧化防御系统及基因表达的毒性效应. 生态学杂志.2014,33(10):2767-2774

27.焦洪静,牛明芬,魏树和*,李云萌,王姗姗,朱建功.茄子苗对镉积累和耐性的品种间差异.生态毒理学报.2013,8(3): 413-418

28.苏慧,魏树和,周启星.镉污染土壤的植物修复研究进展与展望. 世界科技研究与发展. 2013, 35(3):315-319

29. 詹杰,胡德奇,柳承希, 魏树和*, 张静生. 镉对血管内皮细胞损伤及其致动脉硬化的毒理学机制. 生态毒理学报. 2012.7(6):633-638(通讯作者)

30. 詹杰,魏树和*.镉中毒的干预措施与机理分析.生态毒理学报, 2012.7(4):354-359

31.詹杰,魏树和*,牛荣成.我国稻田土壤镉污染现状及安全生产新措施. 农业环境科学学报.2012,31(7):1257-1263

32. 詹杰, 胡德奇, 柳承希, 魏树和, 张静生.冠心康对镉染毒大鼠动脉内皮细胞黏附因子表达的影响. 辽宁中医杂志. 2012,39(10): 2084-2086

33. 詹杰, 刘永林, 柳承希, 魏树和, 张静生. 冠心康对镉染毒大鼠镉蓄积和锌、钙浓度的影响. 辽宁中医杂志. 2012,39(5): 929-931

34.詹杰,周启星,魏树和*. 镉造成心血管损害毒性机制的研究进展. 生态毒理学报. 2011, 6(5): 466-470

35. 詹杰, 刘永林, 柳承希, 魏树和, 张静生. 冠心康对镉染毒人脐静脉内皮细胞功能的影响. 辽宁中医杂志. 2011,38(7) : 1457-1459

36. 詹杰,柳承希,李延龙,魏树和,张静生. 硫酸锌对镉染毒至脐静脉内皮细胞损伤的影响. 中国实用医药.2011,6(3): 1-3

37.牛荣成,魏树和*,周启星,詹杰,马丽辉,李云萌,王姗姗,张立丹,王晓静.植物-微生物联合修复重金属污染土壤研究进展.世界科技研究与发展.2010,32(5),663-666,680

38. 胡亚虎,魏树和*,周启星,詹杰,牛荣成,李云萌,王姗姗.螯合剂在重金属污染土壤植物修复中的应用研究进展.农业环境科学学报. 2010,29(11):2055-2063

39. 杨传杰,魏树和*,周启星.植物修复重金属与多环芳烃污染土壤强化措施研究进展. 世界科技研究与发展.2009,31(2):332-337

40.传杰,魏树和*, 周启星,胡亚虎,牛荣成. 光照及不同药剂浸种对超富集植物龙葵的发芽影响. 应用生态学报. 2009, 20(5):1248-1252

41. 杨传杰,魏树和,周启星*,张蕾,鲍艳宇,顾平,任丽萍,刘睿. 外源氨基酸对龙葵修复Cd-PAHs污染土壤的强化作用.生态学杂志.2009,28(9):1829-1834

42. 魏树和, 周启星*,任丽萍. 球果蔊菜对重金属的超富集特征.自然科学进展. 2008, 16(4): 45-51

43. 魏树和, 杨传杰,周启星*.三叶鬼针草等7种常见菊科杂草植物对重金属的超富集特征. 环境科学.2008,29(10):2912-2918

44. 周启星*安鑫龙魏树和.大型真菌重金属污染生态学研究进展与展望.应用生态学报.2008,19(8):1848-1853

45. 周启星*,魏树和,刁春燕. 污染土壤生态修复基本原理及研究进展. 农业环境科学学报. 2007,26(2):419—424

46. 魏树和,周启星,Pavel V. Koval, Galina A. Belogolova. 有机污染环境植物修复技术. 生态学杂志.2006,25(6): 716-721

47. 周启星*,魏树和. 农业环境研究及国际发展趋势. 作物杂志. 2006,2:1-3

48. 魏树和, 周启星, 刘睿. 重金属污染土壤修复中杂草资源的利用. 自然资源学报. 2005,20(3): 432-440

49. 魏树和, 周启星, 王新. 超积累植物龙葵及其对镉的富集特征. 环境科学. 2005,26(3): 167-171

50. 魏树和,周启星,王新,曹伟. 农田杂草的重金属超积累特性研究. 中国环境科学. 2004,24(1):105-109

51. 魏树和, 周启星, 王新, 张凯松, 郭观林.一种新发现的镉超积累植物龙葵(Solanum nigrum L). 科学通报. 2004, 49(24):2568-2573

52. 魏树和周启星王新曹伟. 某铅锌矿坑口周围具有重金属超积累特征植物的研究. 环境污染治理技术与设备.2004, 5(3):33-39

53. 魏树和,周启星. 重金属污染土壤植物修复基本原理及强化措施探讨. 生态学杂志. 2004,23(1):65-72

54. 魏树和,周启星,王新,曹伟,任丽萍,宋玉芳.杂草中具重金属超积累特征植物的筛选.自然科学进展.2003,13(12):1259-1265

55. 魏树和,周启星*,张凯松,梁继东.根际圈在污染土壤修复中的作用与机理分析. 应用生态学报.2003,14(1)143-147

56. 魏树和,周启星*,王新.18种杂草对重金属的超积累特性研究. 应用基础与工程科学学报.2003,11(2):152-160

57. 张凯松,周启星*,魏树和,任丽萍. 新合成复合絮凝剂HECES絮凝性能研究. 应用生态学报. 2003,14(5):789-793

58. 魏树和 陈温福* 徐正进 王建林. 水稻收获指数研究的回顾与展望.垦殖与稻作.2001增刊:1-2

59. 王建林 徐正进*,魏树和.水稻株型育种生理生态特性的研究现状与展望.辽宁农业科学.2000(4):23-27

60. 王建林*, 李雁鸣,魏树和.小麦籽粒灌浆特性的研究概况及其育种学评价.辽宁农业科学.2000(5):21-23

61. 韩春雷*, 魏树和.水稻高产群体干物质积累动态及光合产物分配规律研究. 辽宁农业科学.1998, 5:23-27

62. 魏树和侯守贵,刘宪平,邹积斌,韩春雷.水稻本田施用包衣尿素试验总结.垦殖与稻作1997(1):14-15

63. 韩春雷,侯守贵,刘宪平,魏树和.栽培技术对稻米品质的作用及其数量关系研究.辽宁农业科学.1997(1):18-21

64. 韩春雷,王玉山,邹积斌,魏树和.钵苗超稀摆栽是一项水稻轻简高产栽培技术.中国稻米.1997,6:42-47

65. 韩春雷, 魏树和.水稻高产群体的冠层特征及其与产量关系的研究.辽宁农业科学.1996(3):24-27

SCI收录英文论文:

1. Zhan Jie; Wei Shuhe; Niu, Rongcheng. Selection of Cd-excluder rice in Shenyang region of China for food safety. Advanced Materials Research, 2012, 518-523: 1033-1039. EI

2. Nan HouHui JingShuhe WeiHuiping DaiXiaona Hou. Effects of EDTA and Zn Stress on Physiological Characteristics of Medicago sativa L. Plant Diseases and Pests. 2022(003):013.

3.Hui JingNan HouShuhe WeiHuiping DaiXiaona Hou. Zinc Tolerance and Accumulation in Four Alfalfa (Medicago sativa) Varieties.  Agricultural biotechnology. 2022(003):011.

其它:

1. 超富集植物筛选的理论与实践——记永利娱高ylg060net魏树和. 马兵. 《科学中国人》. 2012, 19

2. 魏树和. 种植物,收金属. 《生命》. 2009, 4: 46-49



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