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师资队伍

师资队伍

副教授

研究领域:重金属的生物地球化学循环

主讲课程: 《环境微生物学》、《林学专业英语》、《科技论文写作》、《环境生物工程》

电子邮箱: duhx@swu.edu.cn, 16254223@qq.com


教育及工作经历

2021.6-至今 西南大学 bta365 副教授

2021.12-2022.12 美国橡树岭国家实验室(Oak Ridge National Laboratory, ORNL),访问学者

2013.3-2021.6 西南大学 bta365 助理实验师/实验师/高级实验师

2007.7-2013.2 重庆海扶医疗科技股份有限公司 董事长秘书/科研项目管理

2013.9-2019.6 西南大学 bta365 农业环境保护(环境微生物方向) 博士学位(导师:Yasuo Igarashi教授,国家**计划专家)

2004.9-2007.6 西南大学 食品科学学院 农产品加工及贮藏工程 硕士学位

2000.9-2004.6 西南农业大学 食品科学学院 食品科学与工程 学士学位


学术兼职

担任环境科学与生态学领域J. Environ. Manage., J. Hazard. Mater., Sci. Total Environ., Environ. Pollut., Ecotoxicol. Environ. Saf., Chemosphere等期刊的审稿专家


主持科研项目

(1)国家自然科学基金青年项目,416030982017-012019-1223万元。

(3)重庆市技术创新与应用示范面上项目,cstc2020jscx-msxmX01072020-092022-0820万元。

(4)重庆市技术创新与应用示范一般项目,cstc2018jscx-msyb04312018-072020-0610万元。

(5)重庆市基础科学与前沿技术研究一般项目,cstc2017jcyjAX02502017-072020-075万元。

(6)教育部中央高校基本科研业务费重点项目,XDJK2019B0732019-062021-1220万元。

(7)教育部中央高校基本科研业务费一般项目,XDJK2014C1042014-012016-125万元。

(8)西南大学2021年实验技术研究重点项目,SYJ20210092021-032022-032万元。

主研科研项目:

(1)国家自然科学基金面上项目,419772722020-012023-1261万元。

(2)国家自然科学基金面上项目,418773822019-012022-1262万元。

(3)国家自然科学基金面上项目,415731052016-012019-1273万元。

(4)国家自然科学基金青年项目,314000632015-072017-1225万元。

(5)重庆市科技局技术创新与应用发展(川渝联合实施重点研发)项目,CSTB2022TIADCUX00072022-12-182025-12-17100万元。

(6)重庆市高等教育教学改革研究一般项目,2032542020-072022-062万元。

(7)教育部中央高校基本科研业务重点项目,XDJK2018B0432018-042020-1220万元。

(8)教育部中央高校基本科研业务重点项目,XDJK2013B0442013-052016-0510万元。


代表性学术成果 (时间倒序)

2023

(1)Du H, Gu X, Johs A, Yin X, Spano T, Wang D, Pierce EM, Gu B*. Sonochemical oxidation and stabilization of liquid elemental mercury in water and soil. J. Hazard. Mater. 2023, 445, 130589.

(2)Du H, Yin X, Gu X, Pierce EM, Gu B*. Dissolved elemental mercury [Hg(0)aq] reactions and purgeability in the presence of organic and inorganic particulates. Environ. Sci. Technol. Lett. 2023, 10(8), 691–697.

(3)Yang L, Yang G, Wang J, Xiong B, Guo P, Wang T, Du H*, Ma M, Wang D. Seasonal changes in total mercury and methylmercury in subtropical decomposing litter correspond to the abundances of nitrogen-fixing and methylmercury-degrading bacteria. J. Hazard. Mater. 2023, 442, 130064.

(4)Gao Y#, Cheng H#, Xiong B, Du H*, Liu L, Imanaka T, Igarashi Y, Ma M*, Wang D, Luo F. Biogeochemical transformation of mercury driven by microbes involved in anaerobic digestion of municipal wastewater. J. Environ. Manage. 2023, 344, 118640.

(5)Wang X, Du H, Ma M*, Rennenberg H. The dual role of nitric oxide (NO) in plant responses to cadmium exposure. Sci. Total Environ. 2023, 892, 164597.

(6)Liang X, Johs A, Abernathy MJ, Zhao J, Du H, Ku P, Zhang L, Zhu N, Yin X, Brooks S, Zhao L, Sarangi R, Pierce EM, Gu B*. High methylation potential of mercury complexed with mixed thiolate ligands by Geobacter sulfurreducens PCA. Geochim. Cosmochim. Ac. 2023, 342, 74-83.

(7)Wang S, Yao H, Li L, Du H, Guo P, Wang D, Rennenberg H, Ma M*. Differentially-expressed genes related to glutathione metabolism and heavy metal transport reveals an adaptive, genotype-specific mechanism to Hg2+ exposure in rice (Oryza sativa L.). Environ. Pollut. 2023, 324, 121340.

(8)Guo P, Rennenberg H, Du H, Wang T, Gao L, Flemetakis E, Hänsch R, Ma M*, Wang D. Bacterial assemblages imply methylmercury production at the rice-soil system. Environ. Int. 2023, 108, 108066.

2022

(1)Du H#, Xie H#, Ma M*, Igarashi Y, Luo F*. Modified methods obtain high-quality DNA and RNA from anaerobic activated sludge at a wide range of temperatures. J. Microbiol. Methods 2022, 199, 106532.

(2)Pan X, Wang Y, Xie H, Wang H, Liu L, Du H, Imanaka T, Igarashia Y, Luo F*. Performance on a novel rotating bioreactor for dry anaerobic digestion efficiency and biologic mechanism compared with wet fermentation. Energy 2022, 254,124404.

(3)Wang H, Zeng S, Du H, Xie H, Igarashi Y*, Luo F*. The changes of microbial abundance and functional genes in bioelectrochemistry at 15 ℃. J. Environ. Chem. Eng. 2022, 10, 106996.

(4)Li J, Zhao W, Du H, Guan Y, Ma M*, Rennenberg H. The symbiotic system of sulfate-reducing bacteria and clay-sized fraction of purplish soil strengthens cadmium fixation through iron-bearing minerals. Sci. Total Environ. 2022, 820, 153253.

2021

(1)Du H, Guo P, Wang T, Ma M*, Wang D. Significant bioaccumulation and biotransformation of methyl mercury by organisms in rice paddy ecosystems: A potential health risk to humans. Environ. Pollut. 2021, 273, 116341.

(2)Du H, Sun T, Liu Y, An S, Xie H, Wang D, Igarashi Y, Imanaka Y, Luo F*, Ma M*. Bacteria and archaea involved in anaerobic mercury methylation and methane oxidation in anaerobic sulfate–rich reactors. Chemosphere 2021, 274, 129773.

(3)Guo P, Du H, Wang D, Ma M*. Effects of mercury stress on methylmercury production in rice rhizosphere, methylmercury uptake in rice and physiological changes of leaves. Sci. Total Environ. 2021, 765, 142682.

(4)Wang H, Du H, Xie H, Zhu J, Zeng S, Igarashi Y, Luo F*. Dual-chamber differs from single-chamber microbial electrosynthesis in biogas production performance under low temperature (15 ℃). Bioresource Technol. 2021, 337, 125377.

(5)Wang H, Du H, Zeng S, Pan X, Cheng H, Liu L, Luo F*. Explore the difference between the single-chamber and dual-chamber microbial electrosynthesis for biogas production performance. Bioelectrochemistry 2021,138, 107726.

(6)Wang H, Liu Y, Du H, Zhu J, Peng L, Yang C, Luo F*. Exploring the effect of voltage on biogas production performance and the methanogenic pathway of microbial electrosynthesis. Biochem. Eng. J. 2021, 171, 108028.

(7)Wang T, Yang G, Du H, Guo P, Sun T, An S, Wang D, Ma M*. Migration characteristics and potential determinants of mercury in long-term decomposing litterfall of two subtropical forests. Ecotoxicol. Environ. Saf. 2021, 208, 111402.

2020

(1)Du H, Sun T, Wang D, Ma M*. Bacterial and archaeal compositions and influencing factors in soils under different submergence time in a mercury-sensitive reservoir. Ecotoxicol. Environ. Saf. 2020, 191, 110155.

(2)Yang C, Hou X, Wu D, Chang W, Zhang X, Dai X, Du H, Zhang X, Igarashi Y, Luo F. The characteristics and algicidal mechanisms of cyanobactericidal bacteria, a review. World J. Microbiol. Biotechnol. 2020, 36(12), 1-10.

2019年及之前

(1)Du H, Ma M, Igarashi Y*, Wang D*. Biotic and abiotic degradation of methylmercury in aquatic ecosystems: a review. Bull. Environ. Contam. Toxicol. 2019, 102(5), 605-611.

(2)Du H, Ma M, Sun T, An S, Igarashi Y, Wang D*. Methyl and total mercury in different media and associated fluxes in a watershed forest, southwest China. Int. J. Environ. Res. Public Health 2018, 15(12), 2618.

(3)Du H, Ma M, Sun T, Dai X, Yang C, Luo F, Wang D*, Igarashi Y*. Mercury-methylating genes dsrB and hgcA in soils/sediments of the Three Gorges Reservoir. Environ. Sci. Pollut. Res. 2017, 24(5), 5001-5011.

(4)Du H, Li H*. Antioxidant effect of Cassia oil on deep-fried beef during frying process. Meat Sci. 2008, 78, 461-468.

(5)杜红霞, Yasuo Igarashi*, 王定勇. 汞在微生物中的跨膜运输机制研究进展. 微生物学报, 2014, 54(10), 1109-1115.

(6)Ma M, Du H, Sun T, An S, Yang G, Wang D*. Characteristics of archaea and bacteria in rice rhizosphere along a mercury gradient. Sci. Total Environ. 2019, 650, 1640-1651.

(7)Ma M, Du H, Wang D*. Mercury methylation by anaerobic microorganisms: a review. Crit. Rev. Environ. Sci. Technol. 2019, 49 (20), 1893-1936.

(8)Sun T, Ma M, Wang X, Wang Y, Du H, Xiang Y, Xu Q, Xie Q, Wang D. Mercury transport, transformation and mass balance on a perspective of hydrological processes in a subtropical forest of China. Environ. Pollut. 2019, 254, 113065.

(9)Sun T, Ma M, Du H, Wang X, Zhang Y, Wang Y, Wang D. Effect of different rotation systems on mercury methylation in paddy fields. Ecotoxicol. Environ. Saf. 2019, 182, 109403.

(10)Ma M, Du H, Wang D*, Sun T. Mercury methylation in the soils and sediments of Three Gorges Reservoir Region. J. Soils Sediments 2018, 18, 1100-1109.

(11)Ma M, Sun T, Du H, Wang D*. A two-year study on mercury fluxes from the soil under different vegetation cover in a subtropical region, south China. Atmosphere, 2018, 9, 30.

(12)Ma M, Du H, Wang D*, Kang S*, Sun T. Biotically mediated mercury methylation in the soils and sediments of Nam Co Lake, Tibetan Plateau. Environ. Pollut. 2017, 227, 243-251.

(13)Ma M, Du H, Wang D*, Sun T, An S, Yang G. The fate of mercury and its relationship with carbon, nitrogen and bacterial communities during litter decomposing in two subtropical forests. Appl. Geochem. 2017, 86, 26-35.

(14)Ma M, Wang D*, Du H, Sun T, Zhao Z, Wang Y, Wei S Mercury dynamics and mass balance in a subtropical forest, southwestern China. Atmos. Chem. Phys. 2016, 16, 4529-4537.

(15)Ma M, Wang D*, Du H, Sun T, Zhao Z, Wei S. Atmospheric mercury deposition and its contribution of the regional atmospheric transport to mercury pollution at a national forest nature reserve, southwest China. Environ. Sci. Pollut. Res. 2015, 22, 20007-20018.

(16)Ma M, Wang D*, Sun T, Zhao Z, Du H. Forest runoff increase mercury output from subtropical forest catchmentsan example from an alpine reservoir in a national nature reserve (southwestern China). Environ. Sci. Pollut. Res. 2015, 22, 2745-2756.

(17)Xiang Y, Du H, Shen H*, Zhang C, Wang D*. Dynamics of total culturable bacteria and its relationship with methylmercury in soils of water-level fluctuating zone of the Three Gorges Reservoir. Chinese Sci. Bull. 2014, 59(24), 2966-2972.



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