胡盎
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胡盎 女,1987年生,青年研究员,硕士生导师 电 话:025-86882219 E-mail:anghu@niglas.ac.cn 传 真:025-57714759 | ||
中国科学院大学个人主页:https://people.ucas.ac.cn/~anghu
研究领域及方向:环境微生物与碳循环
简历:
胡盎,女,1987年生,湖南长沙人。2009年获湖南农业大学农业资源与环境专业学士学位,2015年获中国农业大学资源环境生物技术专业博士学位,2012-2013年德国马普学会陆地微生物研究所访问。2015-2017年中国科学院青藏高原研究所从事博士后研究工作。2017.10-2023.6年湖南农业大学工作,历任讲师、副教授。2023年9月中国科学院南京地理与湖泊研究所工作至今,任青年研究员。主要从事微生物生态学和碳氮生物地球化学循环等方面研究工作。
主持国家自然科学基金3项、湖南省自然科学基金和教育厅项目2项。负责的项目主要有:国家自然科学基金“陆源有机碳输入对树线高山湖泊沉积物微生物碳代谢过程的影响机制”、“森林生态系统土壤有机碳动态对氮沉降的响应及微生物学机理”等。
目前以第一或通讯作者发表SCI学术论文10余篇,包括Nature Communications, The ISME Journal, Environmental Science & Technology, Ecology, New Phytologist, Soil Biology and Biochemistry等领域知名期刊,发表英文专著章节1篇。
代表性论著:
[1] Hu A, Choi M, Tanentzap AJ, Liu J, Jang K-S, Lennon JT, Liu Y, Soininen J, Lu X, Zhang Y, Shen J, Wang J*. Ecological networks of dissolved organic matter and microorganisms under global change. Nature Communications, 2022, 13:3600. [2]Hu A, Wang J, Sun H, Niu B, Si G, Wang J, Yeh C-F, Zhu X, Lu X, Zhou J, Yang Y, Ren M, Hu Y, Dong H, Zhang G*. Mountain biodiversity and ecosystem functions: interplay between geology and contemporary environments. The ISME Journal, 2020, 14(4):931-944. [3]Hu A, Ren M, Wang J*. Microbial species performance responses to environmental changes: genomic traits and nutrient availability. Ecology, 2021, 102(7):e03382. [4]Hu A, Meng F, Tanentzap AJ, Jang K-S, Wang J*. Dark Matter Enhances Interactions within Both Microbes and Dissolved Organic Matter under Global Change. Environmental Science & Technology, 2023, 57(1):761–769. [5] Hu A, Jang K-S, Meng F, Stegen J, Tanentzap AJ, Choi M, Lennon JT, Soininen J, Wang J*. Microbial and Environmental Processes Shape the Link between Organic Matter Functional Traits and Composition. Environmental Science & Technology, 2022, 56(14):10504–10516. [6] Hu A, Lu Y*. The differential effects of ammonium and nitrate on methanotrophs in rice field soil. Soil Biology and Biochemistry, 2015, 85:31-38. [7]Wang J*#, Hu A#, Meng F#, Zhao W, Yang Y, Soininen J, Shen J, Zhou J. Embracing mountain microbiome and ecosystem functions under global change. New Phytologist, 2022, 234:1987-2002. [8]Liao J#, Hu A#, Zhao Z, Liu X, Jiang C, Zhang Z*. Biochar with large specific surface area recruits N2O-reducing microbes and mitigate N2O emission. Soil Biology and Biochemistry, 2021, 156:108212. [9]Hu A, Nie Y, Yu G, Han C, He J, He N, Liu S, Deng J, Shen W, Zhang G*. Diurnal Temperature Variation and Plants Drive Latitudinal Patterns in Seasonal Dynamics of Soil Microbial Community. Frontiers in Microbiology, 2019, 10:674. [10] Xiao X, Han L, Chen H, Wang J, Zhang Y*, Hu A*. Intercropping enhances microbial community diversity and ecosystem functioning in maize fields. Frontiers in Microbiology, 2023, 13:1084452. [11]Zhao W#, Hu A#, Ni Z#, Wang Q, Zhang E, Yang X, Dong H, Shen J, Zhu L*, Wang J*. Biodiversity patterns across taxonomic groups along a lake water-depth gradient: Effects of abiotic and biotic drivers. Science of the Total Environment, 2019, 686:1262-1271. [12]Hu A*, Lu Y, Hernández García M, Dumont MG. Targeted Metatranscriptomics of Soil Microbial Communities with Stable Isotope Probing. In: Dumont MG, Hernández García M. (eds) Stable Isotope Probing. Methods in Molecular Biology, vol 2046. Humana, New York, NY, 2019.