馬麗媛,女,博士,中國地質大學(武漢)教授,“地大學者”青年拔尖人才。
2017年以“地大學者”青年優秀人才引進至地大環境學院,在高層次人才期滿考核中獲評優秀。入選國家留學基金委高等學校青年骨幹教師出國研修項目及中國科協“優秀中外青年交流計畫”,長期從事礦山環境微生物介導的元素地球化學循環、微生物功能組學及微生物生態學研究。發表SCI論文50餘篇,在“Bioresource Technology”“mSystems”“Science of the Total Environment”“Microbiology Spectrum”等刊物上以第一作者/通訊作者發表學術論文19篇,引用次數900餘次,Google Scholar H指數21。
基本介紹
- 中文名:馬麗媛
- 職業:教師
- 學位/學歷:博士
- 專業方向:微生物與礦物相互作用 、微生物生態學及功能組學
主講課程,研究方向,科研項目,代表論文,
主講課程
普通生物學、Introduction to Microbiology Lab(中加聯合辦學)、多組學與大數據處理
研究方向
[1] 微生物與礦物相互作用
[2] 重金屬礦區微生物介導的地球化學過程機理
[3] 微生物生態學及功能組學
[4] 礦區土水協同修復
[5] 環境污染物的生物降解及轉化
科研項目
[1] 國家自然科學基金面上項目,基於Galvanic效應的AMD形成過程中多金屬硫化礦物微觀氧化機理研究,42277193,2023.1-2026.12,主持。
[2] 國家自然科學基金青年科學基金項目,礦區硝酸鹽依賴型銻氧化菌介導的厭氧銻氧化過程及分子機理,42007306,2021.1-2023.12,主持。
[3] 國家重點研發計畫“場地土壤污染成因與治理技術”重點專項,中南有色冶煉場地土壤-地下水協同修復技術與工程示範,2019YFC1803604,2019.12-2023.12,子課題,主持。
[4] 湖北省自然科學基金項目,基於DNA-SIP技術的神農架泥炭濕地微生物固氮機理研究,2019CFB245,2019.9-2021.8,主持。
[5] 武漢市科技局知識創新專項,微生物誘導碳酸鈣沉澱改良岩質邊坡噴播基質的套用基礎研究,2022.6-2024.6,主持。
[6] 中央高校基本科研業務費傑出人才培育基金,冷水江銻礦區土壤微生物群落對銻地球化學循環的影響機制,CUG170671,2017.7-2020.6,主持。
[7] 陽泉市水利局省級水利發展資金項目,山底河流域老窖水微生物修復基礎研究,2019046477,2019.9-2022.9,主持。
[8] 廣東省環境污染控制與修復技術重點實驗室基金,土壤微生物的分子生態網路特徵及其對銻污染的回響機理研究,2018K20,2018.1-2019.12,主持。
[9] 生物冶金教育部重點實驗室基金,錫礦山地下水系統微生物對銻污染的回響機理研究,MOEKLB02,2018.1-2019.12,主持。
[10] 國家自然科學基金“水圈微生物驅動地球元素循環的機制”重大研究計畫,岩溶地下水系統洞穴微生物驅動的甲烷循環及其生態效應,91951208,2020.1-2023.12,排名前三,項目骨幹。
[11] 中國地質調查局二級項目,鄱陽湖-洞庭湖-丹江口庫區綜合地質調查,DD20190263,2019.1-2021.12,項目骨幹。
代表論文
[1] Weikang Gao, Peng Liu, Zhihang Ye, Jianwei Zhou, Xingjie Wang, Xinping Huang, Xiaoyu Deng, Liyuan Ma*. Divergent prokaryotic microbial assembly, co-existence patterns and functions in surrounding river sediments of a Cu-polymetallic deposit in Tibet [J]. Science of the Total Environment, 2022, 851, Part 1, 158192. (SCI, T2, IF: 10.753)
[2] Shanshan Huang, Xueduan Liu, Weiyi Yang, Liyuan Ma*, Huiying Li, Rui Liu, Jingxuan Qiu, Yiran Li. Insights into adaptive mechanisms of extreme acidophiles based on quorum sensing/quenching-related proteins [J]. mSystems, 2022, 7(2), e01491-21. (SCI, T2, IF: 7.324)
[3] Liyuan Ma*, Weiyi Yang, Shanshan Huang, Rui Liu, Huiying Li, Xinping Huang, Junming Xiong, Xueduan Liu. Integrative assessments on molecular taxonomy of Acidiferrobacter thiooxydans ZJ and its environmental adaptation based on mobile genetic elements [J]. Frontiers in Microbiology, 2022, 13: 826829. (SCI, T2, IF: 6.064)
[4] Xiaocen Jia, Liyuan Ma, Jing Liu, Peng Liu, Lu Yu, Jianwei Zhou*, Wanyu Li, Weiqing Zhou, Zichao Dong. Reduction of antimony mobility from Sb-rich smelting slag by Shewanella oneidensis: Integrated biosorption and precipitation [J]. Journal of Hazardous Materials, 2021: 127385. (SCI, T2, IF: 14.224)
[5] Liyuan Ma, Xinping Huang, Hongmei Wang*, Yuan Yun, Xiaoyu Cheng, Deng Liu, Xiaolu Lu, Xuan Qiu. Microbial interactions drive distinct taxonomic and potential metabolic responses to habitats in karst cave ecosystem [J]. Microbiology Spectrum, 2021, 9(2): e01152-21. (SCI, T2, IF: 9.043)
[6] Liyuan Ma*, Shanshan Huang, Peiyi Wu, Junming Xiong, Hongmei Wang, Hehuan Liao, Xueduan Liu. The interaction of acidophiles driving community functional responses to the re-inoculated chalcopyrite bioleaching process [J]. Science of The Total Environment, 2021, 798: 149186. (SCI, T2, IF: 10.753)
[7] Xingjie Wang, Liyuan Ma, Jiangjun Wu, Yunhua Xiao, Jiemeng Tao, Xueduan Liu. Effective bioleaching of low-grade copper ores: insights from microbial cross experiments [J]. Bioresource Technology, 2020, 308: 123273. (SCI, T1, IF: 11.889)
[8] Liyuan Ma, Hongmei Wang, Jiangjun Wu, Yuguang Wang, Du Zhang, Xueduan Liu. Metatranscriptomics reveals microbial adaptation and resistance to extreme environment coupling with bioleaching performance [J]. Bioresource Technology, 2019, 280: 9-17. (SCI, T1, IF: 11.889)
[9] Liyuan Ma, Jiangjun Wu, Xueduan Liu, Ling Tan, Xingjie Wang. The detoxification potential of ferric ions for bioleaching of the chalcopyrite associated with fluoride-bearing gangue mineral [J]. Applied Microbiology and Biotechnology, 2019, 103(5): 2403-2412. (SCI, T2, IF: 5.560)
[10] Liyuan Ma, Xingjie Wang, Xueduan Liu, Shanquan Wang, Hongmei Wang. Intensified bioleaching of chalcopyrite by communities with enriched ferrous or sulfur oxidizers [J]. Bioresource Technology, 2018, 268: 415-423. (SCI, T1, IF: 11.889)
[11] Liyuan Ma, Xingjie Wang, Xue Feng, Yili Liang, Yunhua Xiao, Xiaodong Hao, Huaqun Yin, Hongwei Liu, Xueduan Liu. Co-culture microorganisms with different initial proportions reveal the mechanism of chalcopyrite bioleaching coupling with microbial community succession [J]. Bioresource Technology, 2017, 223: 121-130. (SCI, T1, IF: 11.889)
[12] Liyuan Ma, Xingjie Wang, Jiemeng Tao, Xue Feng, Kai Zou, Yunhua Xiao, Yili Liang, Huaqun Yin, Xueduan Liu. Bioleaching of the mixed oxide-sulfide copper ore by artificial indigenous and exogenous microbial community [J]. Hydrometallurgy, 2017, 169: 41-46. (SCI, T2, IF: 4.217)
[13] Liyuan Ma, Xingjie Wang, Jiemeng Tao, Xue Feng, Xueduan Liu, Wenqing Qin. Differential fluoride tolerance between sulfur- and ferrous iron-grown Acidithiobacillus ferrooxidans and its mechanism analysis [J]. Biochemical Engineering Journal, 2017, 119: 59-66. (SCI, T2, IF: 4.446)
[14] Liyuan Ma, Qian Li, Li Shen, Xue Feng, Yunhua Xiao, Jiemeng Tao, Yili Liang, Huaqun Yin, Xueduan Liu. Insights into the fluoride-resistant regulation mechanism of Acidithiobacillus ferrooxidans ATCC 23270 based on whole genome microarrays [J]. Journal of Industrial Microbiology & Biotechnology, 2016, 43(10): 1441-1453. (SCI, T2, IF: 4.258)
[15] Liyuan Ma, Xingjie Wang, Xue Feng, Xue Guo, Qi Hu, Yunhua Xiao, Xiaodong Hao, Yili Liang, Huaqun Yin, Xueduan Liu. Influence of biological and environmental factors on leaching efficiency during chalcopyrite bioleaching process [J]. Advanced Materials Research, 2015, 1130: 387-391.
[16] Liyuan Ma, Qian Li, Yunhua Xiao, Qingliang Wang, Huaqun Yin, Yili Liang, Guanzhou Qiu, Xueduan Liu. Comparative study of fluoride-tolerance of five typical bioleaching microorganisms [J]. Advanced Materials Research, 2013, 825: 214-218.
[17] 陳秀雲, 馮傑, 王紅梅, 劉鄧, 竇艷芳, 張江華, 馬麗媛*. 山西陽泉老窯水硫酸鹽還原菌的分離鑑定及其還原功能馴化[J]. 微生物學報, 2022, 62(6): 2104-2118.
[18] 黃珊珊, 馬麗媛, 王紅梅, 劉學端. 極端酸性礦山環境微生物基於CRISPR系統的適應性免疫機制[J]. 微生物學報, 2020, 60(9): 1985-1998.
[19] 熊俊茗, 馬麗媛, 黃珊珊, 李相良, 王紅梅. 分子生態網路揭示冶金微生物對能源底物的回響[J]. 生物工程學報, 2020, 36(12): 2674-2684.
[20] 黃珊珊, 馬麗媛*, 劉學端. 基於16S rRNA測序和RT-qPCR的硫化礦物表面微生物群落組成分析[J]. Bio-Protocol, Microbiome Protocol eBook. doi: 10.21769/BioProtoc.2003690.
