王永峰 研究员/教授、硕导、外籍博士后导师
邮箱:david_hku@qq.com;yongfeng@ujs.edu.cn
地址:87978797威尼斯老品牌 87978797威尼斯老品牌 环境健康与生态安全研究院
研究方向:环境微生物(氮循环微生物、根际微生物、堆肥微生物等)
个人简介
1977年3月生,祖籍安徽寿县,完成国家自然科学基金面上项目1项,在研国家自然科学基金面上项目1项、江苏省人才项目1项和87978797威尼斯老品牌高级人才启动基金项目1项,发表SCI论文20多篇。
工作经历
2020-今:87978797威尼斯老品牌,研究员/教授
2013-2019:广东省林业科学研究院,副研究员
2004-2008:水利部淮河水利委员会规划设计院,五级工程师
学习经历
2016.11-2017.11:美国俄亥俄州立大学(OSU),访问学者
2008-2012:香港大学,博士
2001-2004:中国科学院西双版纳热带植物园,硕士
1997-2001:北京林业大学,本科
研究兴趣
1 氮循环微生物
我们热爱研究土壤中的微生物世界。我们调查研究了森林土壤中氮和碳循环中的微生物驱动因素。主要研究对象是反硝化厌氧甲烷氧化(n-damo)细菌和古细菌、氨氧化细菌(AOB)和古细菌(AOA)、厌氧氨氧化(anammox)细菌等微生物群落。我们正在研究n-damo细菌和古细菌在亚热带森林土壤中的生存机制。
2 根际微生物和堆肥微生物
我们的另一个研究方向是根际微生物。我们的目的是了解根际微生物如何与宿主植物相互作用、相互受益。此外,我们正在使用堆肥技术处理树木垃圾,并将堆肥应用于作物,以观察堆肥对根际微生物和作物的影响。通过这种方式,我们试图找出根际微生物促进植物生长和抵御病原体的机制。
承担项目
[1].《利用mRNA技术研究n-damo细菌在森林土壤中的生存和代谢机制》,国家自然科学基金面上项目(32171760),58万元,2022年1月-2025年12月,在研,主持人。
[2].《园林废弃物复合菌系堆肥资源化利用》,江苏省 “双创博士”项目(JSSCBS20210966),15万元,2021年8月-2023年7月,在研,主持人。
[3]. 87978797威尼斯老品牌高级人才启动基金,10万元,2022年12月-2024年11月,在研,主持人。
[4].《南岭森林土壤氨氧化微生物群落特征及代谢活性研究》,国家自然科学基金面上项目(31470562),78万元,2015年1月-2018年12月,已结题,主持人。
学术论文(*通讯作者,#共同一作)
[1]. Wang Y-F*, Li X, Datta R, Chen J, Du Y, Du DL*. Key factors shaping prokaryotic communities in subtropical forest soils [J]. Applied Soil Ecology 2022,169:104162.
[2]. Wang, Y.-F.*, Gu, J.-D., Dick, R.P., Han, W., Yang, H.-X., Liao, H.-Q., Zhou, Y.*, Meng, H. Distribution of ammonia-oxidizing archaea and bacteria along an engineered coastal ecosystem in subtropical China [J]. Ecotoxicology 2021, 30:1769–1779.
[3]. Ahmad T, Ahmad K, Khan ZI, Munir Z, Khalofah A, Al-Qthanin RN, Alsubeie MS, Alamri S, Hashem M, Farooq S, Maqbool MM, Hashim S, Wang Y-F*. Chromium accumulation in soil, water and forage samples in automobile emission area [J]. Saudi Journal of Biological Sciences 2021, 28(6):3517-3522
[4]. Bashir S, Qayyum MA, Husain A, Bakhsh A, Ahmed N, Hussain MB, Elshikh MS, Alwahibi MS, Almunqedhi BMA, Hussain R, Wang Y-F*, Zhou Y, Diao Z-H*. Efficiency of different types of biochars to mitigate Cd stress and growth of sunflower (Helianthus; L.) in wastewater irrigated agricultural soil [J]. Saudi Journal of Biological Sciences 2021, 28(4):2453-2459
[5]. Farooq S*, Maqbool M, Bashir MA, Ullah M, Shah R, Ali H, Farraj D, Elshikh M, Hatamleh A, Bashir S, Wang Y-F*. Production suitability of date palm under changing climate in a semi-arid region predicted by CLIMEX model [J]. Journal of King Saud University - Science 2021, 33:101394
[6]. Wang Y-F, Dick RP, Lorenz N, Lee N. Interactions and responses of n-damo archaea, n-damo bacteria and anammox bacteria to various electron acceptors in natural and constructed wetland sediments [J]. Int Biodeterior Biodegrad 2019, 144: 104749.
[7]. Wu R-N, Meng H, Wang Y-F, Gu J-D Functional dominance and community compositions of ammonia-oxidizing archaea in extremely acidic soils of natural forests. Appl Microbiol Biotechnol 2019, 103(10): 4229-4240.
[8]. Meng H, Zhou Z, Wu R, Wang Y-F, Gu J-D. Diazotrophic microbial community and abundance in acidic subtropical natural and re-vegetated forest soils revealed by high-throughput sequencing of nifH gene. Applied Microbiology and Biotechnology 2019, 103(2): 995-1005.
[9]. Wu, R. N., H. Meng, Y. F. Wang* and J. D. Gu* Effects of reforestation on ammonia-oxidizing microbial community composition and abundance in subtropical acidic forest soils [J]. Applied Microbiology & Biotechnology 2018, 102(12): 5309-5322.
[10]. Meng H, Wu R, Wang Y-F*, Gu J-D* A comparison of denitrifying bacterial community structures and abundance in acidic soils between natural forest and re-vegetated forest of Nanling Nature Reserve in southern China [J]. J Environ Manage 2017, 198, Part 2: 41-49.
[11]. Wu R-N, Meng H, Wang Y-F, Lan W, Gu J-D A more comprehensive community of ammonia-oxidizing archaea (AOA) revealed by genomic DNA and RNA analyses of amoA gene in subtropical acidic forest soils [J]. Microb Ecol 2017, 74(4): 1-13.
[12]. Datta R, Baraniya D, Wang Y-F, Kelkar A, Meena R, Yadav G, Teresa Ceccherini M, Formanek P Amino acid: its dual role as nutrient and scavenger of free radicals in soil [J]. Sustainability 2017, 9(8):1402
[13]. Wang Y-F, Meng H, Gu V, Gu JD Molecular diagnosis of the brown root-rot disease agent Phellinus noxius on trees and in soil by rDNA ITS analysis [J]. Applied Environmental Biotechnology 2016, 1(1):81-91
[14]. Zhang F-Q, Pan W, Gu J-D*, Xu B, Zhang W-H, Zhu B-Z, Wang Y-X, Wang Y-F* Dominance of ammonia-oxidizing archaea community induced by land use change from Masson pine to eucalypt plantation in subtropical China [J]. Appl Microbiol Biotechnol 2016, 100(15): 6859-6869.
[15]. Gan X-H, Zhang F-Q, Gu J-D, Guo Y-D, Li Z-Q, Zhang W-Q, Xu X-Y, Zhou Y, Wen X-Y, Xie G-G, Wang Y-F* Differential distribution patterns of ammonia-oxidizing archaea and bacteria in acidic soils of Nanling National Nature Reserve forests in subtropical China [J]. Antonie Leeuwenhoek, 2016, 109(2):237-251.
[16]. Lee K-H#, Wang Y-F#, Wang Y, Gu J-D, Jiao JJ. Abundance and diversity of aerobic/anaerobic ammonia/ammonium-Oxidizing microorganisms in an ammonium-rich aquitard in the Pearl River Delta of South China [J]. Microb Ecol, 2016, 76(1): 81-91.
[17]. Meng H, Wang Y-F, Chan H-W, Wu R-N, Gu J-D Co-occurrence of nitrite-dependent anaerobic ammonium and methane oxidation processes in subtropical acidic forest soils [J]. Appl Microbiol Biotechnol, 2016, 100: 7727-7739.
[18]. Wang, Y.-F. , Zhang, F.-Q. , & Gu, J.-D. Improvement of DGGE analysis by modifications of PCR protocols for analysis of microbial community members with low abundance [J]. Applied Microbiology and Biotechnology, 2014, 98(12): 5655-5663.
[19]. Wang, Y.-F., Li, X.-Y., & Gu, J.-D. Differential responses of ammonia/ammonium-oxidizing prokaryotes in mangrove sediment to amendment of acetate and leaf litter [J]. Applied Microbiology and Biotechnology, 2014, 98(7): 3165-3180.
[20]. Wang, Y.-F., & Gu, J.-D. Effects of allylthiourea, salinity and pH on ammonia/ammonium-oxidizing prokaryotes in mangrove sediment incubated in laboratory microcosms [J]. Applied Microbiology and Biotechnology, 2014, 98(7): 3257-3274.
[21]. Lee, K.-H. #, Wang, Y.-F. #, Zhang, G.-X., & Gu, J.-D. Distribution patterns of ammonia-oxidizing bacteria and anammox bacteria in the freshwater marsh of Honghe wetland in Northeast China [J]. Ecotoxicology, 2014, 23: 1930-1942.
[22]. Lee, K.-H. #, Wang, Y.-F. #, Li, H., & Gu, J.-D. Niche specificity of ammonia oxidizing communities in a freshwater interior city wetland receiving municipal wastewater in Daqing, Northeast China [J]. Ecotoxicology, 2014, 23: 2081-2091.
[23]. Wang, Y.-F., & Gu, J.-D. Higher diversity of ammonia/ammonium-oxidizing prokaryotes in constructed freshwater wetland than natural coastal marine wetland [J]. Applied Microbiology and Biotechnology, 2013, 97(15): 7015-7033.
[24]. Wang, Y.-F., Feng, Y.-Y., Ma, X., & Gu, J.-D.* Seasonal dynamics of ammonia/ammonium-oxidizing prokaryotes in oxic and anoxic wetland sediments of subtropical coastal mangrove [J]. Applied Microbiology and Biotechnology, 2013, 97(17): 7919-7934.
[25]. Yong-Feng Wang, Susan M. Owen, Qing-Jun Li and Josep Peñuelas. Monoterpene emissions from rubber trees (Hevea brasiliensis) in a changing landscape and climate: Chemical speciation and environmental control [J]. Global Change Biology, 2007, 13(11): 2270-2282.
[26]. Brad Baker, Curtis Johnson, Zhong-Tao Cai, Bai Jianhui, Qing-Jun Li, Yong-Feng Wang, Alex Guenther, Jim Greenberg, Lee Klinger, Chris Geron, Sue Owen, Alona Lintoc, and Rei Rasmussen. Wet and dry season ecosystem level fluxes of isoprene and monoterpenes from a Southeast Asian secondary forest and rubber tree plantation [J]. Atmospheric Environment, 2005, 29: 381-390.
[27]. 王永峰 & 李庆军. 陆地生态系统植物挥发性有机化合物的排放及其生态学功能研究进展[J]. 植物生态学报, 2005, 29(3): 487-496.
欢迎热爱环境微生物的同学报考本人研究生!
欢迎硕士调剂生提前和我联系!
欢迎本校低年级本科生进入本实验室做研究!
欢迎外籍新毕业博士生申请本人博士后!
Prof. Dr. Wang, Yong-Feng
Institute of Environmental Health and Ecological Security
School of Environment and Safety Engineering
Jiangsu University
Zhenjiang, P. R. China, 212013
E-mail: david_hku@qq.com.
Personal experiences
I studied in Beijing Forestry University (Bachelor, 2001), Xishuangbanna Tropical Botanical Garden of Chinese Academy of Sciences (Mphil, 2004) and The University of Hong Kong (PhD, 2012). I once worked for The Planning and Designing Institute of Huaihe River Commission and Guangdong Academy of Forestry. Now I serve as a professor in Jiangsu University focusing on the study of environmental microorganisms.
Research areas
N-cycle microorganisms; Rhizospheric microorganisms; Composting microorganisms
We love to study the microbial world in the soils. Particularly, we are interested in characterizing the microbial drivers in the nitrogen and carbon cycles in forest soils. We have investigated the microbial communities of ammonia-oxidizing bacteria (AOB) and archaea (AOA), anaerobic ammonium oxidizing (anammox) bacteria, nitrite/nitrate-dependent anaerobic methane oxidation (n-damo) bacteria and archaea, and more. We are now studying the underlying mechanisms that n-damo bacteria and archaea exist in forest soils in subtropical China.
Our another research direction is rhizospheric microorganisms. We aim to understand how the microorganisms in the rhizosphere mutually react to their plant host and benefit each other. Moreover, we are using composting to deal with tree litters and apply the compost to the crops to observe how the compost affects the rhizospheric microbes and the crops. Through this way, we attempt to find out the mechanisms that the rhizospheric microorganisms facilitate the growth of the plants and defend against the pathogens.
I am recruiting foreign Postdoctoral Fellows who got his/her PhD degree within three years. Please contact me directly.