王红梅

基本信息Personal Information

教授 博士生导师 硕士生导师

主要任职 : 国际洞穴联合会地质微生物与微生物分会副主席

其他任职 : 中国古生物学会地球生物学分会理事

曾获荣誉 : 教育部自然科学一等奖
湖北省师德先进个人
湖北省三八红旗手
湖北省百名优秀女性科技创新人才
教育部新世纪优秀人才支持计划
武汉市三八红旗手

性别 : 女

毕业院校 : 中国地质大学(武汉)

学历 : 博士研究生

学位 : 博士学位

在职信息 : 在职

所在单位 : 环境学院

学科 : 生物科学

办公地点 : 湖北省武汉市高新技术开发区锦城街68号中国地质大学(武汉)未来城校区科教三楼B311

联系方式 : 13419513876

Email :

教师其他联系方式Other Contact Information

邮编 :

通讯/办公地址 :

邮箱 :

扫描关注

个人简介Personal Profile

王红梅,女,教授,博导,主要从事微生物生态学和地质微生物学的教学和科研活动。2001-20022006-2008先后两次赴美国俄亥俄州立大学和美国南加州大学进行为期两年半的合作研究。

     曾获全国百篇优秀博士论文提名奖。2008年,获得教育部自然科学一等奖1项,2012年获得武汉市第三届青年科技奖,2013年获得武汉市三八红旗手称号,2015年获湖北省师德先进个人,2021年荣获湖北省三八红旗手,和湖北省百名优秀女性科技创新人才等荣誉称号。任国际洞穴协会微生物分会副主席、国际深部生物圈研究中心执行委员会委员、中国古生物学会地球生物学分会理事、中国微生物学会地质微生物专委会委员、湖北省古生物学会理事。中国科学院地学部“深部生物圈”战略研讨项目工作组副组长、中国科学院地学部与基金委“极端环境微生物”战略研讨项目专家组成员。生物地质与环境地质国家重点实验室固定研究人员,地质微生物实验室负责人。

主持或主持完成国家自然科学基金项目7项(含重点项目2项)、973项目子课题(2项)和中石化前瞻性基础研究项目1项。发表SCI论文100余篇,合作出版专著2部。

科学研究主要围绕三个方向:(1)重金属污染矿区微生物的群落组成及其介导的元素地球化学过程机理研究;(2)洞穴系统微生物组的时空分布及其对气候变化的响应;(3)微生物与矿物相互作用及环境效应。


代表性学术论文(*为通讯作者)

1.  Wang Weiqi, Cheng Xiaoyu, Song Yuyang, Wang Hongmei *, Wu Mengxiaojun, Ma Liyuan, Lu Xiaolu, Liu Xiaoyan, Tuovinen H. OlliElevated antimony concentration stimulates rare taxa of potential autotrophic bacteria in the Xikuangshan groundwaterScience of the Total Environment, 2023,864:161105. http://dx.doi.org/10.1016/j.scitotenv.2022.161105

2.  Cheng Xiaoyu, Xiang Xing, Yun Yuan, Wang Weiqi, Wang Hongmei* and Bodelier PLE, Archaea and their interactions with bacteria in a karst ecosystem. Frontiers in Microbiology, 2023, 14:1068595. doi: 10.3389/fmicb.2023.1068595

3.  Liu Xiaoyan, Wang Hongmei, Wang Weiqi, Cheng Xiaoyu, Wang Yiheng, Li Qing, Li Lu, Ma Liyuan, Lu Xiaolu and Tuovinen OH (2023) Nitrate determines the bacterial habitat specialization and impacts microbial functions in a subsurface karst cave. Frontiers in Microbiology, 14:1115449. doi: 10.3389/fmicb.2023.1115449

4.  Gao C, Ruan X, Zhang YG, Yang H, Xiao X, Lü X, Yang Y, Wang H and Yu X, Biomarker evidence of the water mass structure and primary productivity changes in the Chukchi Sea over the past 70 years. Frontiers in Marine Science, 2023, 10:1077656. doi: 10.3389/fmars.2023.1077656

5.  Xiang Xing, Wang Hongmei*, Tian Wen, Wang Ruicheng, Gong Linfeng, Xu Ying, Man Baiying, Composition and function of bacterial communities of bryophytes and their underlying sediments in the Dajiuhu Peatland, Central China. Journal of Earth Science, 202334(1): 133-144. https://doi.org/10.1007/s12583-020-1391-x

6.  Cheng Xiaoyu #, Wang Hongmei *, Zeng Zhilin, Li Lu, Zhao Rui, Paul L. E. Bodelier, WangYiheng, Liu Xiaoyan, Su Chuntian, Liu Shuangjiang, Niche differentiation of atmospheric methane-oxidizing bacteria and their community assembly in subsurface karst caves, Environmental Microbiology Reports. 2022;1–11.

7.  Wang Yiheng#, Cheng Xiaoyu#, Wang Hongmei*, Zhou Jianping, Liu Xiaoyan, Tuovinen O H, The characterization of microbiome and interactions on weathered rocks in a subsurface karst cave, central china, Frontiers in Microbiology, 2022, 13:909494. doi: 10.3389/fmicb.2022.909494

8.  Xin Youzhi, Wu Nengyou, Sun Zhilei, Wang Hongmei ⁎, Chen Ye, Xu Cuiling, Geng Wei, Cao Hong, Zhang Xilin, Zhai Bin, Yan DaweiMethane seepage intensity distinguish microbial communities in sediments at the Mid-Okinawa Trough, Science of the Total Environment, 202285:158213. https://doi.org/10.1016/j.scitotenv.2022.158213

9.  Xiang Li , Liu Chaoyang , Liu Deng , Ma Liyuan, Qiu Xuan, Wang Hongmei Lu Xiaolu* Antimony transformation and mobilization from stibnite by an antimonite oxidizing bacterium Bosea sp. AS-1, Journal of Environmental Sciences, 2022,111:273-281 https://doi.org/10.1016/j.jes.2021.03.042

10.  Wang Weiqi , Wang Hongmei*, Wu Mengxiaojun, Song Yuyang, Liu Xiaoyan, Prakash C.LoniOlli H.Tuovinen, Different responses of bacteria and fungi to environmental variables and corresponding community assembly in Sb-contaminated soil, Environmental Pollution, 2022, 298:118812.

11.  Wang Ruicheng, Wang Hongmei*,  Xi Zhiqin, Olli H Tuovinen, Gong Linfeng, Huang Xianyu, Hydrology driven vertical distribution of prokaryotes and methane functional groups in a subtropical peatland, Journal of Hydrology, 2022, 608:127592.

12.  Xiang Xing, Wang Hongmei *, Man Baiying, Xu Ying, Gong Linfeng, Tian Wen, Yang Huan, Diverse bathyarchaeotal lineages dominate archaeal communities, in the acidic Dajiuhu Peatland, Central China, 2022, Microbial Ecology, https://doi.org/10.1007/s00248-022-01990-1

13.  Wu Yanmei, Xiang Li, Wang Hongmei, Ma Liyuan, Qiu Xuan, Liu Deng, Feng Liang, Lu Xiaolu*Transcriptome analysis of an arsenite-/antimonite-oxidizer, Bosea sp. AS-1 reveals the importance of the type 4 secretion system in antimony resistance, 2022, Science of the Total Environment 826:154168

14.  王红梅,地质病毒学:病毒如何影响地质环境的物质循环和能量流动?地球科学,2022. 4710):3840-3841.

15.  Cheng X-Y#, Liu X-Y#, Wang H-M*, Su C-T, Zhao R, Bodelier PLE, Wang W-Q, Ma L-Y, Lu X-L. 2021. USCg dominated community methanotrophs and bacteria in subterranean karst caves. Microbiology Spectrum, 9:e00820-21. https://doi.org/10.1128/Spectrum.00820-21.

16.  Ma L, Huang X, Wang H*, Yun Y, Cheng X, Liu D, Lu X, Qiu X. 2021. Microbial interactions drive distinct taxonomic and potentialmetabolic responses to habitats in karst cave ecosystem. Microbiol Spectr 9:e01152-21. https://doi.org/10.1128/Spectrum.01152-21.

17.  Tian W, Xiang X and Wang H* (2021) Differential impacts of water table and temperature on bacterial communities in pore water from a subalpine peatland, Central China. Front. Microbiol. 12:649981. doi: 10.3389/fmicb.2021.649981

18.  Wu Mengxiaojun , Wang Hongmei *, Wang Weiqi , Song Yuyang, Ma Liyuan, Lu Xiaolu, Wang Nian, Liu Chaoyang, The impact of heavy rain event on groundwater microbial communities in Xikuangshan, Hunan Province, P.R. China a Journal of Hydrology 595 (2021) 125674   T1

19.  曹静,程晓钰,曾智霖,杨梓琪,刘晓燕,王红梅*,马丽媛,鲁小璐,苏春田,黄奇波,广西桂林新村屯洞穴细菌的生境特异性及网络分析,科学通报,2021 66: 4003–4016. doi: 10.1360/TB-2021-0021

20.  杨梓琪,程晓钰,王红梅*,曾智霖,刘晓燕,曹静,苏春田,黄奇波,桂林罗汉肚洞细菌群落的环境驱动机制及群落构建过程,微生物学报,2021, 61(12): 4118–4136

21.  辛友志,孙治雷、王红梅*,陈烨,徐翠玲,耿威,曹红,张喜林,张现荣,李鑫,闫大伟,吴能友*,海洋沉积物中金属依赖型甲烷厌氧氧化作用研究进展及展望,海洋地质与第四纪地质,2021,415):58-66.

22.  王纬琦,程晓钰,向兴,云媛,王红梅,邱轩,刘晓燕,宋宇扬.四川锦屏隧道细菌群落特征及其组装过程.第四纪研究,2021 414):1218-1230.

23.  Hai-Zhen Zhu, Zhi-Feng Zhang, Nan Zhou, Cheng-Ying Jiang Bao-Jun Wang, Lei Cai, Hong-Mei Wang, Shuang-Jiang LiuBacteria and metabolic potential in karst caves revealed by intensive bacterial cultivation and genome assemblyApplied and Environmental Microbiology, 2021, 87:e02440-20. https://doi.org/10.1128/AEM .02440-20.

24.  Chutong Liu, Jinling Liu*, Chenyang Zhou, Xianyu Huang, Hongmei WangRedox potential and C/N ratio predict the structural shift of mercury methylating microbe communities in a subalpine Sphagnum peatland Geoderma 2021403115375

25.  Hui Bai, Deng Liu,*, Weili Zheng, Liyuan Ma, Shanshan Yang, Jingpeng Cao, Xiaolu Lu, Hongmei Wang, Neha Mehta, Microbially-induced calcium carbonate precipitation by a halophilic ureolytic bacterium and its potential for remediation of heavy metal-contaminated saline environments, International Biodeterioration & Biodegradation, 2021, 165:105311.

26.  Weili Zheng, Deng Liu,, Shanshan Yang, Qigao Fan, Dominic Papineaua, Hongmei Wang, Xuan Qiu, Biao Chang, Zhenbing She, Transformation of protodolomite to dolomite proceeds under dry-heating conditions, Earth and Planetary Science Letters, 2021, 576:117249.

27.  Xiaoyu Cheng, Yuan Yun, Hongmei Wang,⁎, Liyuan Ma, Wen Tian, Baiying Man, Chaoyang Liu Contrasting bacterial communities and their assembly processes in karst soils under different land useScience of the Total Environment, 2021751: 142263

28.  Loni PC, Wu M, Wang W, Wang H*, Ma L, Liu C, Song Y, Tuovinen H O, Mechanism of microbial dissolution and oxidation of antimony in stibnite under ambient conditions, Journal of Hazardous Materials, 2020, 385:121561. 

29.  Tian W, Xiang X, Ma L, Evers S,Wang R, Qiu X and Wang H*Rare species shift the structure of bacterial communities across Sphagnum compartments in a subalpine peatland. Front. Microbiol. 2020,,10:3138.

30.  Liu D *, Yu N, Papineau D, Fan Q, Wang H*, Qiu X, She Z, Luo G, The catalytic role of planktonic aerobic heterotrophic bacteria in protodolomite formation: Results from Lake Jibuhulangtu Nuur, Inner Mongolia, China. Geochimica et Cosmochimica Acta, 2019, 263: 31–49

31.  Tian W, Wang H, Xiang X, Wang R , Xu Y, Structural variations of bacterial community driven by Sphagnum microhabitat differentiation in a subalpine peatland. Frontiers in Microbiology, 2019,10:1661.

32.  Liu D*, Xu Y, Papineau D, Yu N, Fan Q, Qiu X, Wang H*Experimental evidence for abiotic formation of low-temperature proto-dolomite facilitated by clay minerals, Geochimica et Cosmochimica Acta, 2019,247:83-95.

33.  Ma L, Wang H, Wu J, Wang Y, Zhang D, Liu X, Metatranscriptomics reveals microbial adaptation and resistance to extreme environment coupling with bioleaching performance, Bioresource Technology, 2019, 280: 9–17.

34.  Qiu X, Yao Y, Wang H*, Shen A and Zhang J, Halophilic Archaea Mediate the Formation of Proto-Dolomite in Solutions With Various Sulfate Concentrations and Salinities. Frontiers in Microbiology. 2019,10:480.

35.  Xu, Y., Wang H.*, Xiang, X., et al., 2019. Vertical Variation of Nitrogen Fixers and Ammonia Oxidizers along a Sediment Profile in the Dajiuhu Peatland, Central China. Journal of Earth Science, 30(2): 397–406.

36.  Zhao Rui, WANG Hongmei*, Cheng Xiaoyu, Yun Yuan, Qiu Xuan, Upland soil cluster g dominates the  methanotroph communities in the karst Heshang Cave. FEMS Microbial Ecology, 2018,94, fly192.

37.  Lu Xiaolu, Zhang Yining, Liu Chaoyang, Wu Mengxiaojun, WANG Hongmei*, Characterization of the antimonite and arsenite-oxidizing bacterium Bosea sp. AS-1 and its potential application in arsenic removal. Journal of Hazardous Materials, 2018, 359: 527–534

38.  Ma Liyuan, Wang Xinjie, Liu Xueduan, Wang Shanquan, WANG Hongmei*, Intensified bioleaching of chalcopyrite by communities with enriched ferrous or sulfur oxidizers. Bioresource Technology, 2018, 268: 415–423

39.  Man Baiying, WANG Hongmei*, Yun Yuan, Xiang Xing, Wang Ruicheng, Duan Yong, Cheng Xiaoyu, Diversity of Fungal Communities in Heshang Cave of Central China Revealed by Mycobiome-Sequencing. Frontiers in Microbiology. 2018, 9:1400.

40.  Xuan Qiu, Yanchen Yao Hongmei WANG*, Yong Duan, Alive microbial cell adsorbs Mg2+ more effectively than lifeless microbial EPS does, Frontiers of Earth Sciences, 2018, 12(1): 160–169.

41.  Xuan Qiu, Hongmei WANG*, Yong Duan and Yanchen YaoHigh salinity facilitates dolomite precipitation mediated by Haloferax volcanii DS52, Earth and Planetary Science Letters, 2017, 472:197-205.

42.  Xing Xiang, Ruicheng Wang, Hongmei WANG*, Linfeng Gong, Baiying Man, Ying Xu, Distribution of Bathyarchaeota Communities Across Different Terrestrial Settings and Their Potential Ecological Functions, Scientific Reports, 2017,7:45028

43. Jianping ZHOU,  Hongmei WANG*, Charles A. CRAVOTTA III, Qiang DONG, Xing XIANG, Dissolution of fluorapatite by Pseudomonas fluorescens P35 resulting in fluorine release, Geomicorbiology Journal, 201734(5): 421–433

44.  Rui Zhao, Hongmei Wang*, Huan Yang, Yuan Yun, Hazel A. Barton,  Ammonia oxidizing archaea dominant over bacterial ammonia oxidizers within alkaline cave sediments , Geomicorbiology Journal, 2017, 34:6, 511-523

45.  Yuan Yun, Xing XiangHongmei WANG*, Linfeng Gong, Qianying Liu, Qiang Dong, Ruicheng Wang Five-year monitoring of bacterial communities in dripping water from Heshang Cave in Central China: Implication for paleoclimate reconstruction and ecological functionsGeomicrobiology Journal. 2016, 33(7):553-563.

46.  Deng Liu*, Qianfan Zhang, Lingling Wu, Qiang Zeng, Hailiang Dong, Michael E. Bishop, Hongmei WANG* Humic acid-enhanced illite and talc formation associated with microbial reduction of Fe(III) in nontronite, Chemical Geology2016, 447 :199-207

47.  Liu Deng, Dong Hailiang, Abinash Agrawal, Rajesh Singh, Zhang Jing, WANG Hongmei, Inhibitory effect of clay mineral on methanogenesis by Methanosarcina mazei and Methanothermobacter thermautotrophicus Applied Clay Science 126 (2016) 25–32.

48.  Deng Liu, Fengping Wang, Hailiang Dong, Hongmei WANG, Linduo Zhao, Liuqin Huang, Lingling Wu Biological reduction of structural Fe(III) in smectites by a marine bacterium at 0.1 and 20 MPaChemical Geology, 2016, 447:199-207

49.  Yuan Yun, Hongmei WANG* , Baiying Man, Xing Xiang , Jianping Zhou, Xuan Qiu, Yong Duan , Annette S EngelpH Change Alters Bacterial Community in a Single Karst Ecosystem and Its Implication of Soil Acidification Frontiers in Microbiology, 2016, 6article1995.

50.  Yuan Yun, Xing XiangWANG Hongmei*, Linfeng Gong, Qianying Liu, Qiang Dong, Ruicheng Wang Five-year monitoring of bacterial communities in dripping water from Heshang Cave in Central China: Implication for paleoclimate reconstruction and ecological functionsGeomicrobiology Journal. 2016, 33(7):553-563

51.  Man B, WANG Hongmei*, Xiang X, Wang R, Yun Y and Gong L (2015) Phylogenetic diversity of culturable fungi in the Heshang cave, central China. Front. Microbiol. 6:1158. 

52.  Gong Linfeng, WANG Hongmei*, Xiang Xing, Qiu Xuan, Liu Qiao, Wang Ruicheng, Zhao Rui, Wang Canfa, pH Shaping the Composition of sqhC-Containing Bacterial Communities. Geomicrobiology Journal2015, 32, 433–444.DOI:10.1080/01490451.2014.950363.

53.  Liu Deng, Dong Hailiang, WANG Hongmei*, Zhao Linduo, Low-temperature feldspar and illite formation through bioreduction of Fe(III)-bearing smectite by an alkaliphilic bacterium. Chemical Geology, 2015, 406:25-33.  

54.  Liu Deng, Dong Hailiang, Zhao Linduo, WANG Hongmei*, Smectite reduction by Shewanella as facilitated by cystine and cysteine. Geomicrobiology Journal, 2014, 31, 53–63.

55.  Xiang Xing, WaANG Hongmei*, Gong Linfeng, Liu Qiao, Vertical variations and associated ecological function of bacterial communities from Sphagnum to underlying sediments in Dajiuhu Peatland. Science China Earth Sciences, 2014,57(5):1013-1020.

56.  WANG Hongmei*, Linfeng Gong, Charles A. Cravotta III, Xiaofen Yang, Olli H. Tuovinen, Hailiang Dong, Xiang Fu, Inhibition of bacterial oxidation of ferrous iron by lead nitrate in sulfate-rich systems. Journal of Hazardous Materials. 2013, 244–245:718–725.

57.  WANG Hongmei*, Mccarthney Aga, Xuan Qiu, Rui Zhao. Cd2+ impact on metabolic cells of Saccharomyces cerevisiae over an extended period and its implication for bioremediation. Geomicrobiology journal. 2012, 29:199–205.

58.  Liu D, Dong H*, Bishop M. E., Zhang J, WANG Hongmei*, Xie S,Wang S,. Huang L, Eberl D D. Microbial reduction of structural iron in interstratified illite-smectite minerals by a sulfate-reducing bacterium. Geobiology, 2012, 10(2):150-156.

59.  Xuan Qiu, Hongmei WANG*, Deng Liu, Linfeng Gong, XiaopingWu, and Xing Xiang, The Physiological Response of Synechococcus elongates to Salinity: A Potential Biomarker for Ancient Salinity in Evaporative Environments, Geomicrobiology Journal, 2012 29:477–483.

60.  Deng Liu, Hongmei WANG*, Hailiang Dong*, Xuan Qiu, Xiuzhu Dong, Charles A. Cravotta IIIMineral transformations associated with goethite reduction by Methanosarcina barkeri. Chemical Geology, 2011, 288:53–60.

61.  Deng Liu, Hailiang Dong*, Micheal E. Bishop, Hongmei WANG,* Agrawal Abinash, Sarah Tritschler, , Dennis D. Eberl, and Shucheng Xie, Reduction of Structural Fe(III) in Nontronite by Methanogen Methanosarcina barkeri. Geochimica et Cosmochimica Aacta. 2011, 75:1057-1071.

 

 


  • 教育经历Education Background
  • 工作经历Work Experience
  • 研究方向Research Focus
  • 社会兼职Social Affiliations
  • 石油微生物:石油微生物是深地生物圈的重要组成部分,是研究极端环境微生物的理想场所。目前石油微生物已经被用于提高低渗透油藏、高稠原油采收率的重要方法。尽管在微生物与原油的相互作用上取得了较大的进展,但油藏微生物与储层的相互作用及其对储层物性的影响却鲜为人知。本团队关注微生物与储层中含铁粘土矿物的相互作用,以及它们对储层物性的影响。目的在于通过微生物的手段,改造储层性质,最终提高原油的采收率。
  • 微生物与矿物相互作用:微生物与矿物的相互作用是地质微生物领域重要的研究方向和研究热点。本团队重点关注微生物诱导形成白云石的围观机理以及微生物与含铁粘土矿物的相互作用,对蒙脱石向伊利石转化的影响。阐述微生物与矿物相互作用的地质学意义。
  • 微生物生态学:重点关注湿地生态系统、喀斯特洞穴系统以及硫化物矿区微生物功能群的时空分布特征及其介导的生物地球化学循环,探讨在全球变暖的背景下,不同微生物功能群对气候变化的响应。

团队介绍Research Group

地质微生物教学与科研团队

团队从事地球科学与生物科学交叉领域研究,以微生物为抓手,着重研微生物与矿物的相互作用及其环境效应、微生物与全球变化、以及污染环境微生物修复技术等,服务于国家生态文明以及双碳目标。