胡行伟教授

发布者:孙杰 发布时间:2019-10-15 浏览次数:4980

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基本信息 Basic information

    名:胡行伟

    称:教授

硕导/博导:硕导

最高学位:博士

行政职务:

其它兼职:国际SCI期刊Plant Growth Regulation副主编、英国F1000Faculty of 1000)环境微生物学领域专家

    位:福建师范大学地理科学学院生态学系

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联系方式 Contact

通讯地址:福建师范大学仓山校区艺术地区4号楼

邮政编码:350007

办公电话:13043511617    

电子邮箱:hangweihu@gmail.com

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研究方向 Research Interests

土壤微生物生态学、环境微生物学

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个人履历 Resume

教  育

2004.09~2008.07浙江大学环境与资源学院 本科生

2008.09~2014.01中国科学院生态环境研究中心 博士生

2012.10~2013.10澳大利亚西悉尼大学 访问学生


工  作

2014.03~2015.03澳大利亚墨尔本大学 博士后

2015.04~2018.09澳大利亚墨尔本大学 DECRA研究员

2018.10~至今 福建师范大学地理科学学院 教授

 

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个人简介  Brief

主要从事土壤微生物生态学研究,在土壤氮素转化的微生物过程、温室气体释放的微生物学机理、环境抗生素抗性组学等方面取得了系列成果。在重要国际期刊上发表SCI论文80余篇,Google Scholar引用2600余次,H-index28。作为第一/通讯作者发表论文27(5ESI高被引论文),包括1ISME Journal1FEMS Microbiology Reviews5Environmental Microbiology1Environmental Science & Technology3Soil Biology & Biochemistry1Advances in Agronomy2Environmental Pollution2Environment International等。

现任国际SCI期刊Plant Growth Regulation副主编。担任Nature Communications, ISME JournalTrends in MicrobiologyEnvironmental Science & Technology 等国际知名期刊审稿专家,澳大利亚国家研究基金(Australian Research Council)、瑞士国家自然科学基金(Swiss National Science Foundation)和奥地利科学基金(Austrian Science Fund)评审专家。于201811月受邀担任英国The F1000Prime FacultyFaculty of 1000)环境微生物学领域专家,为国际科研工作者推荐和点评该研究领域最前沿的科学进展。

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教学工作  Teaching Work

本科《微生物学》


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代表性论文 Selected Publications

1.Li CY, Hu HW, Chen QL, Chen D, He JZ. (2019) Comammox Nitrospira play an active role in nitrification of agricultural soils amended with nitrogen fertilizers. Soil Biology and Biochemistry, 138, 107609.

2.Yan ZZ, Chen QL, Zhang YJ, He JZ, Hu HW. (2019) Antibiotic resistance in urban green spaces mirrors the pattern of industrial distribution. Environment International, 132, 105106.

3.Li J, Delgado-Baquerizo M, Wang JT, Hu HW, Cai ZJ, Zhu YN, Singh BK. (2019) Fungal richness contributes to multifunctionality in boreal forest soil. Soil Biology and Biochemistry, 136, 107526.

4.Zhang YJ, Hu HW, Chen QL, Singh BK, Yan H, Chen D, He JZ. (2019) Transfer of antibiotic resistance from manure amended soils to vegetable microbiomes. Environment International, 130, 104912.

5.Trivedi C, Reich PB, Maestre FT, Hu HW, Singh BK, Delgado-Baquerizo M. (2019) Plant-driven niche differentiation of ammonia-oxidizing bacteria and archaea in global drylands. The ISME Journal.

6.Pandey A, Suter H, He JZ, Hu HW, Chen D. (2019) Dissimilatory nitrate reduction to ammonium dominates nitrate reduction in long-term low nitrogen fertilized rice paddies. Soil Biology and Biochemistry, 131, 149-156.

7.Liu Y, Johs A, Bi L, Lu X, Hu HW, Sun D, He JZ, Gu B. (2018) Unraveling microbial communities associated with methylmercury production in paddy soils. Environmental Science and Technology, 52, 13110-13118.

8.Pandey A, Suter H, He JZ, Hu HW, Chen D. (2018) Nitrogen addition decreases dissimilatory nitrate reduction to ammonium in rice paddies. Applied and Environmental Microbiology, 84: e00870-18.

9.Hu HW, Wang JT, Singh BK, Liu YR, Chen YL, Zhang YJ, He JZ. (2018) Diversity of herbaceous plants and bacterial communities regulates soil resistome across forest biomes. Environmental Microbiology 20: 3186-3220.

10.Han XM, Hu HW, Chen QL, Yang LY, Li HL, Zhu YG, Li XZ, Ma YB. (2018)Antibiotic resistance genes and associated bacterial communities in agricultural soils amended with different sources of animal manures. Soil Biology and Biochemistry 126: 91-102.

11.Shi XZ, Hu HW, Wang JQ, He JZ, Zheng CY, Wan XH, Huang ZQ. (2018) Niche separation of comammox Nitrospira and canonical ammonia oxidizers in an acidic subtropical forest soil under long-term nitrogen deposition. Soil Biology and Biochemistry 126: 114-122.

12.Ng EL, Lwanga EH, Eldridge SM, Johnston P, Hu HW, Chen D. (2018) An overview of microplastic and nanoplastic pollution in agroecosystems. Science of the Total Environment 636: 142-151.

13.Gou M, Hu HW, Zhang YJ, Wang JT, Hayden H, Tang YQ, He JZ. (2018) Aerobic composting reduces antibiotic resistance genes in cattle manure and the resistome dissemination in agricultural soils. Science of the Total Environment 612: 1300-1310.

14.Liu YR, Delgado-Baquerizo M, Wang JT, Hu HW, Yang ZM, He JZ. (2018) New insights into the role of microbial community composition in driving soil respiration rates. Soil Biology and Biochemistry 118: 35-41. (IF: 4.926)

15.Hu HW, He JZ. (2018) Manipulating the soil microbiome for improved nitrogen management. Microbiology Australia39: 24-27.

16.Chen YL, Deng Y, Ding JZ, Hu HW, Xu TL, Li F, Yang GB, Yang YH. (2017) Distinct microbial communities in the active and permafrost layers on the Tibetan Plateau. Molecular Ecology, 26: 6608-6620.

17.Hu HW, Trivedi P, He JZ, Singh BK. (2017) Microbial nitrous oxide emissions in dryland ecosystems: mechanisms, microbiome and mitigation. Environmental Microbiology, 19: 4808-4828.

18.Hu HW, He JZ, Singh BK. (2017) Harnessing microbiome-based biotechnologies for sustainable mitigation of nitrous oxide emissions. Microbial Biotechnology, 10, 1226-1231.

19.Hu HW, Wang JT, Li J, Shi XZ, Ma Y, Chen D, He JZ. (2017) Long-term nickel contamination increases the occurrence of antibiotic resistance genes in agricultural soils. Environmental Science and Technology, 51: 790-800.

20.Hu HW, He JZ. (2017) Comammox – a newly-discovered nitrification process in the terrestrial nitrogen cycle. Journals of Soils and Sediments 17: 2709-2717.

21.Shi XZ, Hu HW, Zhu-Barker X, Hayden H, Wang JT, Suter H, Chen D, He JZ. (2017) Nitrifier-induced denitrification is an important source of soil nitrous oxide and can be inhibited by a nitrification inhibitor 3,4-dimethylpyrazole phosphate. Environmental Microbiology 19: 4851-4865.

22.Han XM, Hu HW*, Shi XZ, Zhang LM, He JZ. (2017) Effects of different agricultural wastes on the dissipation of PAHs and the PAH-degrading genes in a PAH-contaminated soil. Chemosphere, 172: 286-293.

23.Chen YL, Xu T, Veresoglou S, Hu HW, Hao Z, Hu Y, Liu L, Deng Y, Rillig M, Chen BD. (2017) Plant diversity represents the prevalent determinant of soil fungal community structure across temperate grassland in northern China. Soil Biology and Biochemistry, 110: 12-21.

24.Zheng Y, Hu HW, Guo LD, Anderson IC, Powell JR. (2017) Dryland forest management alters fungal community composition and decouples assembly of root- and soil-associated fungal communities. Soil Biology and Biochemistry, 109: 14-22.

25.Zhang YJ, Hu HW, Gou M, Wang JT, Chen D, He JZ. (2017) Temporal succession of soil antibiotic resistance genes following application of swine, cattle and poultry manures spiked with or without antibiotics. Environmental Pollution 231: 1621-1632.

26.Hu HW, Wang JT, Li J, Li JJ, Ma YB, Chen D, He JZ. (2016) Field-based evidence for copper contamination induced changes of antibiotic resistance in agricultural soils. Environmental Microbiology, 18: 3896-3909.

27.Hu HW, Han XM, Shi XZ, Wang JT, Han LL, Chen D, He JZ. (2016) Temporal changes of antibiotic resistance genes and bacterial communities in two contrasting soils treated with cattle manure. FEMS Microbiology Ecology, 92: fiv169.

28.Hu HW, Macdonald CA, Trivedi P, Anderson IC, Zheng Y, Holmes B, Bodrossy L, He JZ, Singh BK. (2016)Effects of climate warming and elevated CO2 on autotrophic nitrification and nitrifiers in dryland ecosystems. Soil Biology and Biochemistry, 92: 1-15.

29.Shi XZ, Hu HW, Muller C, He JZ, Chen D, Suter H. (2016) Effects of the nitrification inhibitor 3,4-dimethylpyrazole phosphate (DMPP) on nitrification and nitrifiers in two contrasting agricultural soils. Applied and Environmental Microbiology, 82: 5236-5248.

30.Han XM, Hu HW, Shi XZ, Wang JT, Han LL, Chen D, He JZ. (2016) Impacts of reclaimed water irrigation on soil antibiotic resistome in urban parks of Victoria, Australia. Environmental Pollution, 211: 48-57.

31.Trivedi P, Delgado-Baquerizo M, Trivedi C, Hu HW, Anderson IC, Jeffries TC, Zhou JZ. (2016) Microbial regulation of the soil carbon cycle: evidence from gene-enzyme relationships. The ISME Journal, 10: 2593-2604.

32.Shi XZ, Hu HW, He JZ, Chen D, Suter H. (2016) Nitrification is a primary driver of nitrous oxide production in laboratory microcosms from different land-use soils. Biology and Fertility of Soils, 52: 927-939.

33.Wang JT, Zheng YM, Hu HW, Li J, Zhang LM, Chen B, Chen WP, He JZ. (2016) Coupling of soil microbial diversity and plant diversity in large-scale forest ecosystems. Scientific Reports, 6: 19561.

34.Hu HW, Macdonald CA, Trivedi P, Holmes B, Bodrossy L, He JZ, Singh BK. (2015). Water addition regulates the metabolic activity of ammonia oxidizers responding to environmental perturbations in dry sub-humid ecosystems. Environmental Microbiology, 17: 444-461.

35.Hu HW, Chen DL, He JZ. (2015) Microbial regulation of terrestrial nitrous oxide formation: understanding biological pathways for prediction of emission rates. FEMS Microbiology Reviews, 39: 729-749.

36.Hu HW, Zhang LM, Yuan CL, Zheng Y, Wang JT, Chen D, He JZ. (2015) The large-scale distribution of ammonia oxidizers in paddy soils is driven by soil pH, geographic distance and climatic factors. Frontiers in Microbiology 6: 938.

37.Bai R,Dan X, He JZ, Hu HW, Fang Y, Zhang LM. (2015) Activity, abundance and community structure of anammox bacteria along depth profiles in three different paddy soils. Soil Biology and Biochemistry, 91: 212-221.

38.Hu HW, Xu ZH, He JZ. (2014). Ammonia oxidizing archaea play a predominant role in acid soil nitrification.Advances in Agronomy, 125: 261-303.

39.Chen YL, Hu HW, Han HY, Du Y, Wan SQ, Xu ZW, Chen BD. (2014). Abundance and community structure of ammoniaoxidizing Archaea and Bacteria in response to fertilization and mowing in a temperate steppe in Inner Mongolia. FEMS Microbiology Ecology 89: 67-79.

40.Hu HW, Zhang LM, Yuan CL, He JZ. (2013). Contrasting Euryarchaeota communities between upland and paddy soils exhibited similar pH-impacted biogeographic patterns. Soil Biology and Biochemistry, 64: 18-27.(IF: 4.926)

41.Hu HW, Zhang LM, Dai Y, Di HJ, He JZ. (2013). pH-dependent distribution of soil ammonia oxidizers across a large geographical scale as revealed by high-throughput pyrosequencing. Journal of Soils and Sediments, 13: 1439-1449.

42.Shen JP, Cao P, Hu HW, He JZ. (2013). Differential response of archaeal groups to land use change in an acidic red soil.Science of the Total Environment, 461: 742-749.

43.Zhang LM#, Hu HW#, Shen JP, He JZ. (2012). Ammonia-oxidizing archaea have more important role than ammonia-oxidizing bacteria in ammonia oxidation of strongly acidic soils. The ISME Journal, 6: 1032-1045. (#Equal contribution)

44.He JZ, Hu HW, Zhang LM. (2012). Current insights into the autotrophic thaumarchaeal ammonia oxidation in acidic soils. Soil Biology and Biochemistry, 55: 146-154.

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科研项目 Research projects

1.国家自然科学基金青年科学基金项目, 杉木人工林生态系统抗生素抗性基因对增温的响应机制,2020.1-2022.12,经费24万元;主持;

2.国家自然科学基金重点项目,土壤完全氨氧化微生物的特征及其对硝化作用的贡献,2020.1-2024.12,经费303万元;参与;

3.澳大利亚国家基金委(Australian Research Council),Unravelling the microbialmechanisms of soilnitrous oxide emissions2015-2018):经费188.1万元;主持;

4.澳大利亚国家基金委(Australian Research Council),How is antibioticresistance transferredfrom animal manure tovegetable2017-2019):219.7万元;参与;

5.澳大利亚国家基金委(Australian Research Council),New fertilizertechnologies forsustained food security2017-2019):228.5万元;排序:参与

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研究生培养Graduate Student Cultivation

目前指导博士研究生1名、硕士研究生2名。

招生专业:生态学