教育及工作经历
2018.6-至今, 西南大学, BOB·体育综合APP下载, 教授
2015.1-2016.1, 加拿大魁北克大学蒙特利尔分校(UQAM), 博士后
2014.11-2019.12, 中国科学院寒区与旱区环境工程研究所, 博士后
2004.6-2018.6, 西南大学, BOB·体育综合APP下载, 助教、讲师、副教授
2010.9–2013.12, 西南大学, 农业环境保护, 博士
2006.9–2009.6, 西北农林科技大学, 生态学, 硕士
2000.9–2004.6, 西北农林科技大学, 森林生态与游憩, 学士
学术兼职 暂无
获奖荣誉
重庆市社会科学优秀成果二等奖,2020年12月
重庆市科学技术三等奖,2017年7月
优秀指导教师,2017年6月
主持科研项目
(1)国家自然科学基金面上项目, 42177198, 在研, 主持.
(2)国家自然科学基金面上项目, 41877382, 在研, 主持.
(3)国家自然科学基金面上项目, 41573105, 已结题, 主持.
(4)国家自然科学基金青年项目, 41103040, 已结题, 主持.
(5)重庆市自然科学基金一般项目, cstc2016jcyjA0461,已结题, 主持.
(6)重庆市自然科学基金一般项目, cstc2011jjA20007,已结题, 主持.
(7)教育部中央高校基本科研业务重点项目, XDJK2018B043, 已结题, 主持.
(8)教育部中央高校基本科研业务重点项目, XDJK2013B044, 已结题, 主持.
(9)教育部中央高校基本科研业务一般项目, XDJK2011C082, 已结题, 主持.
(10)中国科学院重大专项项目, 土壤同位素样品分析,在研, 主持.
(11)国家重点基础研究发展计划, 2013CB430003, 已结题, 主研.
代表性学术成果
(1)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.
(2)Hu B, Mithöfer A, Reichelt M, Eggert K, Peters FS, Ma M*, Schumacher J, Kreuzwieser J, von Wirén N, Rennenberg H. Systemic reprogramming of phytohormone profiles and metabolic traits by virulent Diplodia infection in its pine (Pinus sylvestris L.) host. Plant Cell Environ, 2021, 44: 2744–2764.
(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. IF2020=7.963.
(4)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. IF2020=8.071.
(5)Du H, Sun T, Liu Y, An S, Xie H, Wang D, Igarashi Y, Imanaka T, Luo F*, Ma M*. Bacteria and archaea involved in anaerobic mercury methylation and methane oxidation in anaerobic sulfate–rich reactors. Chemosphere, 2021, 274, 129773. IF2020=7.086.
(6)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. IF2020=6.291.
(7)Mao Q, Tang L, Ji W, Rennenberg H, Hu B*, Ma M*. Elevated CO2 and soil mercury stress affect photosynthetic characteristics and mercury accumulation of rice. Ecotoxicol Environ Saf, 2021, 208, 111605. IF2020=6.291.
(8)Ma M, Wendehenne D, Philippot L, Haensch R, Flemetakis E, Hu B*, Rennenberg H. Physiological significance of pedospheric nitric oxide for root growth, development, and organismic interactions. Plant Cell Environ, 2020, 43(10), 2336−2354. doi: 10.1111/pce.13850. IF2020=7.228.
(9)Sun S, Ma M*, He X, Obrist D, Zhang Q, Yin X, Sun T, Huang J, Guo J, Kang S*, Qin D. Vegetation Mediated Mercury Flux and Atmospheric Mercury in the Alpine Permafrost Region of the Central Tibetan Plateau. Environ Sci Technol, 2020, 54(10): 6043-6052. IF2020=9.028.
(10)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. IF2020=6.291.
(11)Ma M, Du H, Wang D*. Mercury methylation by anaerobic microorganisms: a review. Crit Rev Environ Sci Technol, 2019, 49(20): 1893-1936. IF2019=8.302.
(12)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. IF2019=6.551.
(13)Ma M, Du H, Wang D*. A new perspective is required to understand the role of forest ecosystems in global mercury cycle: a review. Bull Environ Contam Toxicol, 2019,102(5): 650-656. IF2019=1.657.
(14)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. IF2018=2.669.
(15)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(1): 1-9. doi:10.3390/atmos9010030. IF2018=2.046.
(16)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. IF2017=4.358.
(17)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. IF2017=3.088.
(18)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. IF2016=5.318.
(19)Ma M, Wang D*, Sun T, Zhao Z, Du H. Forest runoff increase mercury output from subtropical forest catchments:an example from an alpine reservoir in a national nature reserve (southwestern China). Environ Sci Pollut Res, 2015, 22: 2745-2756. IF2015=2.76.
(20)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. IF2015=2.76.
(21)Ma M, Wang D*, Sun R, Shen Y, Huang L. Gaseous mercury emissions from subtropical forested and open field soils in a national nature reserve, southwest China. Atmos Environ, 2013, 64(1): 116-123. IF2013=3.459.
(22)杨光,孙涛,安思危,郭攀,马明*. 中亚热带常绿阔叶林枯落物分解过程中汞的动态变化及迁移机理.生态学报, 2019,39(6):1-8.
(23)郭攀,孙涛,杨光,马明*. 四面山大洪湖底泥与水界面汞的迁移转化规律. 环境科学, 2018,39(12):185-191.
(24)马明,赖大坤,孙涛,杨光,王定勇*.中亚热带典型林分汞的输入/输出平衡.中国环境科学, 2017,37(12): 4744-4750.
(25)马明, 孙涛, 李定凯, 王定勇*. 缙云山常绿阔叶林湿沉降过程中不同空间层次水质变化特征.环境科学, 2017,38(12):161-167.
(26)杨光,孙涛,安思危,马明*.重庆缙云山4种典型植被覆盖下汞的释放通量及影响因素.环境科学, 2017, 38(11):4774-4781.
(27)马明, 王定勇*, 申源源, 孙荣国, 黄礼昕. 中亚热带针阔混交林土壤-大气界面释汞通量研究.环境科学, 2014, 35(1): 85-92.