1. 主持项目
正执行项目:
[1]. 公司高层次人才引进项目:2020/01-2024/12.
[2]. 国家自然科学基金面上:土壤AOA与AMF协同互作影响和调控水稻AMF途径氮传输效率的机制研究 (42277304),2023/01-2026/12.
[3]. 国家自然科学基金面上:不同时空尺度下土壤中1.1b-AOA生理生态功能及其物种分化和环境选择适应机制(41977056),2020/01-2023/12.
[4]. 国家重点研发项目:稻田碳汇提升和甲烷减排技术研发与集成示范, 2022/05-2025/12, 骨干.
[5]. 国家重点研发项目:复合有机污染场地原位热处理耦合修复技术与装备(2019YFC1805700), 2020/01-2023/12,骨干.
已结题项目:
[6]. 国家自然科学基金面上:农田氨氧化古菌生理代谢多样性及其单细胞水平的比较基因组学研究(41471208),2015/01-2018/12.
[7]. 国家自然科学基金青年:典型农田红壤氨氧化古菌生理代谢的基因组学研究(41101227),2012/01-2014/12.
[8]. 国家自然科学基金重点:亚热带典型水稻土中秸秆降解的微生物代谢网络及其驱动机制(41430859),2015/01-2019/12,骨干.
[9]. 国家自然科学基金国际合作交流项目:实验-计算相结合的促进土壤中除草剂自然和微生物强化降解的研究(31461143009),2014/10-2017/09,骨干.
[10]. 中国科学院青年创新促进会项目:土壤微生物学(2017363).
[11]. 中国科学院领域前沿项目:酸性土壤中1.1b类群氨氧化古菌的生理生态功能,(ISSASIP1636),2016/01-2018/12.
[12]. 中国科学院领域前沿项目:微生物宏基因组纳克级DNA样品的全基因组扩增(ISSASIP1104),2012/01–2014/12.
[13]. 中国科学院战略向导专项:土壤微生物单分子实时测序技术平台构建(XDB15040401),2014/07-2019/06,课题主持.
2. 出版专著
颜晓元 主编 ,《土壤氮循环实验研究方法》(Experimental Methods for Nitrogen Cycling in Soils),主笔第十五章《氮转化过程功能微生物表征方法》, 科学出版社, 2020.5 ISBN 978-7-03-064843-3.
3. 发表论文
[1]. Wang BZ, Qin W, Ren Y, Zhou X, Jung M-Y, Han P, Eloe-Fadrosh E A, Li M, Zheng Y, Lu L, Yan X, Ji JB, Liu Y, Liu LM, Heiner C, Hall Richard, Martens-Habbena W, Herbold C W, Rhee SK, Bartlett D H, Huang L, Ingalls A E, Wagner M, Stahl D A, Jia ZJ. Expansion of Thaumarchaeota habitat range is correlated with horizontal transfer of ATPase operons. ISME J 2019. 13(12), 3067-3079.
[2]. Wang BZ, Zhao J, Guo ZY, Ma J, Xu H, Jia ZJ. Differential contributions of ammonia oxidizers and nitrite oxidizers to nitrification in four paddy soils. ISME J 2015. 9(5): 1062-1075.
[3]. Qin W, Zheng Y, Zhao F, Wang YL, Urakawa H, Martens-Habbena W, Liu HD, Huang XW, Zhang XX, Nakagawa T, Mende DR, Bollmann A, Wang BZ, Zhang Y, Amin SA, Nielsen JL, Mori K, Takahashi R, Virginia AE, Winkler M-K H, DeLong EF, Li M, Lee P-H, Zhou JZ, Zhang CL, Zhang T, Stahl DA, Ingalls AE. Alternative strategies of nutrient acquisition and energy conservation map to the biogeography of marine ammonia-oxidizing archaea. ISME J 2020. 14(10): 2595-2609.
[4]. Lu L, Han W, Wu Y, Zhang J, Wu YC, Wang BZ, Lin XG, Zhu JG, Cai ZC, Jia ZJ. Nitrification of archaeal ammonia oxidizers in acid soils is supported by hydrolysis of urea. ISME J 2012. 6: 1978-1984.
[5]. Wang BZ, Zheng Y, Huang R, Zhou X, Wang DM, He YQ, Jia ZJ. Active ammonia oxidizers in an acid soil are phylogenetically closely related to neutrophilic archaeon. Appl Environ Microbiol 2014. 80:1684-1691.
[6]. Wang BZ, Guo P, Hang BJ, Li L, He J, Li SP. Cloning of a novel pyrethroid-hydrolyzing carboxylesterase gene from strain JZ-1 and characterization of the gene product. Appl Environ Microbiol 2009. 75:5496-5500.
[7]. Zhao J, Wang BZ, Jia ZJ. Phylogenetically distinct phylotypes modulate nitrification in a paddy soil. Appl Environ Microbiol 2015. 81 (9): 3218-3227.
[8]. Wu Y, Ke X, Hernández M, Wang BZ, Dumont M, Jia ZJ, Conrad R. Autotrophic growth of bacterial and archaeal ammonia oxidizers in freshwater sediment microcosms incubated at different temperatures. Appl Environ Microbiol 2013. 79: 3076-3084.
[9]. Wang XX, Lu L, Zhou X, Tang XF, Kuang L, Chen JH, Shan J,Lu HJ, Qin H, Adams J, Wang BZ*. Niche Differentiation of Comammox Nitrospira in the Mudflat and Reclaimed Agricultural Soils Along the North Branch of Yangtze River Estuary. Front Microbiol 2021. Dio: 10.3389/fmicb.2020.618287
[10]. Lin CS, Xu H, Qin W, Xu SY, Tang XF, Kuang L, Wang XX, Jiang B, Chen JH, Shan J, Adams J, Qin H, Wang BZ*. Evaluation of Two Primer Sets for Amplification of Comammox Nitrospira amoA Genes in Wetland Soils. Front Microbiol 2020.11.2430
[11]. 唐修峰, 秦华, 匡璐, 王欣欣, 宋玉翔, 高豪, 刘林梦, 任一, 单军, 张焕朝, 王保战*. 基于宏基因组学的酸性森林土壤氨氧化微生物群落特征研究. 土壤学报 2021. 58 (5): 1311-1321.
[12]. 许少怡, 肖锐, 柴文波, 王保战, 逯慧杰. 全程硝化菌微生物学特性及在水处理领域的应用潜力探究. 微生物学报 2021. 61(2): 315-332.
[13]. 蒋建东, 纪彦晗,王保战. 候选门级辐射类群 (candidate phyla radiation) 细菌的生理生态与进化. 微生物学杂志 2021. 41 (6): 1-10.
[14]. Zhao J#, Wang BZ# (joint first author), Zhou X, Alam MS, Fan JB, Zhang HM, He YQ, Gubry-Rangin C, Jia ZJ. Long-term adaptation of acidophilic archaeal ammonia oxidisers following different soil fertilisation histories. Microb Ecol. 2021. https://doi.org/10.1007/s00248-021-01763-2.
[15]. Cui JL, Glatze S, Bruckman VJ, Wang BZ, Lai DYF. Long-term effects of biochar application on greenhouse gas production and microbial community in temperate forest soils under increasing temperature. Sci. Total Environ. 2021. 767, 145021.
[16]. Dong H, Ge J, Sun K, Wang BZ, Xue J, Wakelin SA, Wu J, Sheng W, Liang C, Xu Q et al: Change in root-associated fungal communities affects soil enzymatic activities during Pinus massoniana forest development in subtropical China. For Ecol Manag 2021, 482:118817.
[17]. Sun D, Tang X, Zhao M, Zhang Z, Hou L, Liu M, Wang BZ, Klümper U, Han P: Distribution and Diversity of Comammox Nitrospira in Coastal Wetlands of China. Front Microbiol 2020, 11(2480).
[18]. Chuang S, Wang BZ, Chen K, Jia W, Qiao W, Ling W, Tang X, Jiang J: Microbial catabolism of lindane in distinct layers of acidic paddy soils combinedly affected by different water managements and bioremediation strategies. Sci. Total Environ. 2020, 746:140992.
[19]. Xu SY, Wang BZ, Li Y, Jiang DQ, Zhou TY, Ding AQ, Zong YX, Ling XT, Zhang SY, Lu HJ. Ubiquity, diversity, and activity of comammox Nitrospira in agricultural soils. Sci. Total Environ. 2020. 706, 135684.
[20]. Jia ZJ, Zhou X, Xia WW, Fornara D, Wang BZ, Wasson EA, Christie P, Polz M, Myrold DD. Evidence for niche differentiation of nitrifying communities in a grassland soil after 44 years of different field fertilization scenarios. Pedosphere 2020. 30 (1): 87-97.
[21]. Zhou LJ, Han P, Yu YC, Wang BZ, Men YJ, Wagner M, Wu QL. Cometabolic biotransformation and microbial-mediated abiotic transformation of sulfonamides by three ammonia oxidizers. Water Res 2019. 159: 444-453.
[22]. Bao YY, Dolfing J, Wang BZ, Chen RR, Huang MS, Li ZP, Lin XG, Feng YZ. Bacterial communities involved directly or indirectly in the anaerobic degradation of cellulose. Biol Fert Soils 2019. 55:201-211.
[23]. Zu QH, Zhong LH, Deng Y, Shi Y, Wang BZ, Jia ZJ, Lin XG, Feng YZ. Geographical Distribution of Methanogenic Archaea in Nine Representative Paddy Soils in China. Front Microbiol 2016. 7:1447.
[24]. Liu WX, Wang QL, Wang BZ, Wang XB, Franks AE, Teng Y, Li ZG, Luo YM. Changes in the abundance and structure of bacterial communities under long-term fertilization treatments in a peanut monocropping system. Plant Soil 2015 395:415-427.
[25]. Wu Y, Tan LC, Liu WX, Wang BZ, Wang JJ, Cai YJ and Lin XG. Profiling bacterial diversity in a limestone cave of the western Loess Plateau of China. Front Microbiol 2015. 6. 244
[26]. Zheng Y, Huang R, Wang BZ, Bodelier PLE, Jia ZJ. Competitive interactions between methane- and ammonia-oxidizing bacteria modulate carbon and nitrogen cycling in paddy soil. Biogeosciences 2014. 11: 3353-3368.
[27]. Wang BZ, Zhang CX, Liu JL, Zeng XW, Li FR, Wu YC, Lin XG, Xiong ZQ, Xu J, Jia ZJ. Microbial community changes along a land-use gradient of desert soil origin. Pedosphere 2012. 22:593-603.
[28]. Wang BZ, Guo P, Zheng JW, Hang BJ, Li L, He J, Li SP. Sphingobium wenxiniae sp. nov., a synthetic pyrethroids (SPs)-degrading bacterium from activated sludge in a wastewater treatment facility. Int J Syst Evol Microbiol 2011. 61: 1776-80.
[29]. Wang BZ, Ma Y, Zhou WY, Zheng JW, Zhu JC, He J, Li SP. Biodegradation of synthetic pyrethroids by Ochrobactrum tritici strain pyd-1. World J Microbiol Biotechnol 2011. 27:2315-2324.
[30]. Wu Y, Lu L, Wang BZ, Lin XG, Zhu JG, Cai ZC, Yan XY, Jia ZJ. Long-term field fertilization alters community structure of ammonia-oxidizing bacteria rather than archaea in a paddy soil. Soil Sci Soc Am J 2011. 75: 1431-1439.
[31]. Guo P, Wang BZ, Hang BJ, Li L, Li SP, He J. Sphingobium faniae sp. nov., a pyrethroid degrading bacterium isolated from activated sludge treating wastewater from pyrethroid manufacture. Int J Syst Evol Microbiol 2010. 60: 408-412.
[32]. Guo P, Wang BZ, Hang BJ, Li L, Ali SW, He J, Li SP. Pyrethroid-degrading Sphingobium sp. JZ-2 and the purification and characterization of a novel pyrethroid hydrolase. Inter Biodeter Biodegr 2009. 63: 1107-1112.
