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导师简介

发布人:     发布日期:2021-03-21   浏览次数:

生态与环境学院导师简介

姓名:吴江平

职称:副教授

电子邮箱:jpwu@ahnu.edu.cn


◆主要学习工作经历

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· 1996年 安徽大学环境科学专业毕业

· 2006年 安徽理工大学环境工程专业获工学硕士学位

· 2009年 中国科学院研究生院环境科学专业获理学博士学位

· 2009-2011年 清华大学博士后

· 2011-2016年 中国科学院广州地球化学研究所工作

· 2016年至今 安徽师范大学生态与环境学院工作

· 2012年晋升为副研究员

· 2012年增补为硕士研究生导师


◆主要研究方向

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· 主要从事污染生态学研究


◆主要研究课题

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·国家自然科学基金:卤代有机污染物在湖滨带爬行动物及其食物网中的蓄积机制研究(22076002),2021-2024,主持;

·安徽省自然科学基金:野生扬子鳄内分泌干扰物污染及其非破坏性生物指示物研究(2008085MD123),2020-2023,主持;

·有机地球化学国家重点实验室开放基金:野生扬子鳄栖息水体沉积物中滴滴涕的含量与组成(SKLOG-201714),2018-2019,主持;

·国家自然科学基金:利用脂肪酸组成研究非PBDE类卤系阻燃剂的生物放大效应(41373105),2014-2017,主持;

·国家自然科学基金:非PBDE卤系阻燃剂在两栖动物体内的富集特征及其食物链迁移(41103054),2012-2014,主持;

·中国博士后科学基金:阻燃剂DBDPEBTBPE沿水生食物链的生物富集效应(20100470347),2010-2011,主持。


◆主要研究成果

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论著

· 《生态毒理学》(普通高等教育“十三五”规划教材,孟紫强主编),参编。

获奖

· “新型卤代持久性有机污染物的环境地球化学行为与暴露风险”获广东省自然科学一等奖,第六完成人。

代表性论文(20篇以内,*号为通讯作者)

· 吴江平,冯文露,吴思康,胡钰,麦碧娴. 2021. 废弃电子垃圾拆解地野生鱼类卤系阻燃剂残留. 中国环境科学, 已接受.

· 吴思康,徐雅纯,冯文露,胡钰,聂佑恬,李肖,吴江平*,麦碧娴. 2021. 圈养扬子鳄栖息水塘沉积物中DDT及其降解产物残留. 环境化学, 已接受.

· Wu JP, Wu SK, Tao L, et al., 2020. Bioaccumulation characteristics of PBDEs and alternative brominated flame retardants in a wild frog-eating snake. Environmental Pollution, 258: 113661.

· Wu JP, Peng Y, Zhi H, et al., 2020. Contaminant-related oxidative distress in common kingfisher (Alcedo atthis) inhabited at an e-waste site in South China. Environmental Research, 182: 109079.

· Wu JP, Chen XY, Wu SK, et al., 2019. Polychlorinated biphenyls in apple snails from an abandoned e-waste recycling site, 2010–2016: A temporal snapshot after the regulatory efforts and the bioaccumulation characteristics. Science of the Total Environment, 650: 779–785.

· Wu JP, Peng Y, Zhi H, et al., 2019. Contamination of organohalogen chemicals and hepatic steatosis in common kingfisher (Alcedo atthis) breeding at a nature reserve near e-waste recycling sites in South China. 

Science of the Total Environment, 659: 561–567.

· Tao L, Zhang Y, Wu JP*, et al., 2019. Biomagnification of PBDEs and alternative brominated flame retardants in a predatory fish: Using fat acid signature as a primer. Environment International, 127: 226–232.

· Wu JP, Chen XY, Wu SK, et al., 2018. Dechlorane Plus flame retardant in a contaminated frog species: Biomagnification and isomer-specific transfer from females to their eggs. Chemosphere, 211: 218–225.

· Wu JP, Mo L, Zhi H, et al., 2016. Hepatic ethoxyresorufin-O-deethylase induction in the common kingfisher from an e-waste recycling site. Environmental Toxicology and Chemistry, 35: 1594–1599.

· Peng Y, Wu JP*, Tao L, et al., 2015. Accumulation of Dechlorane Plus flame retardant in terrestrial passerines from a nature reserve in South China: The influences of biological and chemical variables. Science of the Total Environment, 514: 77–82.

· Wu JP, She YZ, Zhang Y, et al., 2013. Sex-dependent accumulation and maternal transfer of Dechlorane Plus flame retardant in fish from an electronic waste recycling site in South China. Environmental Pollution, 177: 150–155.

· She YZ, Wu JP*, Zhang Y, et al., 2013. Bioaccumulation of polybrominated diphenyl ethers and several alternative halogenated flame retardants in a small herbivorous food chain. Environmental Pollution, 174: 164–170.

· Mo L, Wu JP*, Luo XJ, et al., 2013. Dechlorane Plus flame retardant in kingfishers (Alcedo atthis) from an electronic waste recycling site and a reference site in South China: Influence of residue levels on the isomeric compositions. Environmental Pollution, 174: 57–62.

· Zheng XB, Wu JP*, Luo XJ, et al., 2012. Halogenated flame retardants in home-produced eggs from an electronic waste recycling region in South China: Levels, composition profiles, and human dietary exposure assessment. Environment International, 45: 122–128.

· Zhang Y, Wu JP*, Luo XJ, et al., 2011. Biota-sediment accumulation factors for Dechlorane Plus in bottom fish from an electronic waste recycling site, South China. Environment International, 37: 1357–1361.

· Wu JP, Guan YT, Zhang Y, et al., 2011. Several current-use, non-PBDE brominated flame retardants are highly bioaccumulative: Evidence from field determined bioaccumulation factors. Environment 

International, 37: 210–215.

· Wu JP, Guan YT, Zhang Y, et al., 2010. Trophodynamics of hexabromocyclododecanes and several other non-PBDE brominated flame retardants in a fresh water food web. Environmental Science & Technology, 44: 5490–5495.

· Wu JP, Zhang Y, Luo XJ, et al., 2010. Isomer-specific bioaccumulation and trophic transfer of Dechlorane Plus in the freshwater food web from a highly contaminated site, South China. Environmental Science & 

Technology, 44: 606–611.

· Wu JP, Luo XJ, Zhang Y, et al., 2009. Residues of polybrominated biphenyl ethers in frogs (Rana limnocharis) from a contaminated site, South China: Tissue distribution, biomagnification, and maternal transfer. 

Environmental Science & Technology, 43: 5212–5217.