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叶 茂
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叶茂,男,1985年8月生,安徽芜湖人,祖籍江苏无锡。博士,副研究员。2008年6月毕业于南京农业大学资源与环境科学学院,获得环境科学专业,理学学士学位。2008年9月-2013年6月,中国科学院南京土壤研究所硕博连读(保送),获得环境科学专业,理学博士学位。2013年7月留所工作,担任土壤化学与环境保护研究室助理研究员。2016年6月-至今,担任中科院南京土壤研究所副研究员(中国科学院土壤环境与污染修复重点实验室)。工作期间在美国University of Nebraska-Lincoln,工程学院,市政工程系,环境工程专业从事土壤中抗生素/抗性基因扩散传播及阻控技术研究一年,并在Texas A&M University, Rice University和Oklahoma State University进行短期访学,并建立长期合作研究联系。目前主持国家、江苏省自然科学基金及中科院“一三五”项目等科研基金。主要研究方向:(1)农田土壤中抗性基因扩散传播机制及管控技术研究;(2)有机-无机复合污染场地土壤环境友好型物化修复技术及设备研究。近3年共发表SCI期刊32篇,其中第一作者SCI论文13篇,一作授权国家发明专利3项,研发了两台多元异位土壤洗脱修复集成中试设备。现为美国化学会会员,担任国家自然科学基金委函评项目评审人,同时担任《Crit. Rev. Env. Sci. Tec.》、《Environ. Pollut.》、《J. Agr. Food Chem.》、《J. Hazard. Mater.》、《Chemosphere》、《Food Chem.》、《Sci. Total Environ.》等学术期刊审稿人。

 

3年发表文章情况

1. Ye M, et al., Xin Jiang*. 2016. Calcined eggshell waste for mitigating soil antibiotic resistant bacteria/gene dissemination and accumulation in bell pepper. J. Agri. Food Chem. 64 (27), 5446–5453

2. Ye M, et al., Xin Jiang*. 2016. Effect of biochar amendment on the control of soil sulfonamides, antibiotic-resistant bacteria, and gene enrichment in lettuce tissues. J. Hazard. Mater. 309: 219-227

3. Ye M, et al., Jiang X*. 2016. Feasibility of lettuce cultivation in sophoroliplid-enhanced washed soil originally polluted with Cd, antibiotics, and antibiotic-resistant genes. Ecotox. Environ. Safe. 124: 344-350

4. Ye M, et al., Xin Jiang*. 2016. Feasibility of an enhanced washing process to extract PBDEs/heavy metals/antibiotics from antibiotic resistance gene-affected soil with aqueous DNA followed by microbial augmentation. J. Soil. Sediment. 16: 954-965

5. Ye M, et al., Jiang X*. 2016. Feasibility of tea saponin elevated soil washing in a soybean oil–water solvent system to extract PAHs/Cd/Ni from a coking plant site. Pedosphere. pedos201506291.

6. Ye M, et al., Jiang X*, Fredrick OK. 2015. Evaluation of enhanced soil washing process with tea saponin in a peanut oil–water solvent system for the extraction of PBDEs/PCBs/PAHs and heavy metals from an electronic waste site followed by vetiver grass phytoremediation. J. Chem. Technol. Biot. 90: 2027-2035.

7. Ye M, et al., Jiang X*, 2015. Enhanced soil washing process for the remediation of PBDEs/Pb/Cd-contaminated electronic waste site with carboxymethyl chitosan in a sunflower oil–water solvent system and microbial augmentation. Environ. Sci. Pollut. Res. 22: 2687-2698.

8. Ye M, et al., Jiang X*, 2014. Remediation of organochlorine pesticides (OCPs) contaminated site by successive methyl-β-cyclodextrin (MCD) and sunflower oil enhanced soil washing-Portulaca oleracea L. cultivation. Chemosphere 105: 119-125.

9. Ye M, et al., Jiang X*. 2014. Evaluation of enhanced soil washing process and phytoremediation with maize oil, carboxymethyl-β-cyclodextrin and vetiver grass for recovery of organochlorine pesticides/heavy metals from pesticide factory site. J. Environ. Manage. 141(1): 161-168.

10. Ye M, et al., Jiang X*. 2014. Role of cosubstrate and bioaccessibility played in the enhanced anaerobic biodegradation of organochlorine pesticides (OCPs) in a paddy soil by nitrate and methyl-β-cyclodextrin amendments. Environ. Sci. Pollut. Res. 21(13): 7785-7796.3.

11.Ye M, et al., 2014. Evaluation of soil washing process with carboxymethyl-β-cyclodextrin and carboxymethyl chitosan for recovery of PAHs/heavy metals/fluorine from metallurgic plant site. J. Environ. Sci. 26: 1661-1672.

12. Ye M, S et al., Jiang X*. 2013. Remediation of organochlorin pesticides (OCPs) contaminated soil by successive hydroxypropyl-β-cyclodextrin and peanut oil enhanced soil washing-nutrient addition: a laboratory evaluation. J. Soil. Sediment. 13(2): 403-412.  

13. Ye M, et al., Jiang X*. 2013. Use of organic solvents to extract organochlorine pesticides (OCPs) from aged contaminated soils. Pedosphere 23(1): 10-19.

14. Ye M, et al., Jiang X*. 2016. Feasibility of sulfate-calcined eggshells for removing pathogenic bacteria and antibiotic resistance genes from landfill leachates. Waste Manage. (Major Revision)

15. Sun MM, Ye M, et al., 2015. Positive relationship detected between soil bioaccessible organic pollutants and antibiotic resistance genes at dairy farms in Nanjing, Eastern China. Environ. Pollut. 206: 421-428.

16. Sun MM, Ye M, et al., 2017. Dynamic interplay between microbial denitrification and antibiotic resistance under enhanced anoxic denitrification condition in soil. Environ. Pollut. 10.1016/j.envpol.2016.10.015

17. Sun MM, Ye M, et al., 2016. S Human migration activities drive the fluctuation of ARGs: Case studyof landfills in Nanjing, eastern China. J. Hazard. Mater. 315: 93-101.

18. Sun MM, Ye M, et al., 2016. Function of Nitrate Ion and Tea Saponin Application Rates in Anerobic PAH Dissipation in Paddy Soil. CLEAN - Soil, Air, Water 44 (6): 667-676.

19. Sun MM, Ye M, et al., 2015. Impact of bioaccessible pyrene on the abundance of antibiotic resistance genes during Sphingobium sp.- and sophorolipid-enhanced bioremediation in soil. J. Hazard. Mater. 300: 121-128.

20. Sun MM, Ye M, et al., 2014. Tenax extraction for exploring rate-limiting factors in methyl-β-cyclodextrin enhanced anaerobic biodegradation of PAHs under denitrifying conditions in a red paddy soil. J. Hazard. Mater. 264: 505-513. 

21. Sun MM, Ye M, et al., 2014. Response surface methodology to understand the anaerobic biodegradation of organochlorine pesticides (OCPs) in contaminated soil-significance of nitrate concentration and bioaccessibility. J. Soil. Sediment. 14:1537-1548. 

 

真诚欢迎生态学、土壤学、农业资源与环境、生命科学、微生物学、分子生物学、

环境科学/工程等专业的同学们加入大研究团队。我们共同探索,齐心努力!谢谢!

 

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