张坚超
职称:讲师
邮箱:jianchaozhang@tju.edu.cn
电话:
地址:第16教学楼312室
所获学术奖项
2017.12,天津大学“北洋学者-青年骨干教师”
2015.12,《应用与环境生物学报》优秀审稿专家
2014.06,南京农业大学优秀毕业生
2013.03,博士研究生国家奖学金
2012.05,南京农业大学优秀研究生奖学金
教育/工作经历
2017.01~今,天津大学 表层地球系统科学研究院,讲师.
2015.02~2015.03,维也纳大学(University of Vienna) 微生物生态系,交流访问.
2014.07~2016.12,北京大学 土壤微生物学,博士后, 合作导师:陆雅海.
2009.09~2014.06,南京农业大学 植物营养学,博士, 导师:冉炜、沈其荣.
2005.09~2009.06,广西大学 农业资源与环境,本科.
科研项目
(1)
2018.01~2020.12,水稻土互营产甲烷的细胞团聚体胞外DNA功能研究(41701275),26万,主持,国家自然基金青年科学基金.
(2)
2016.01~2020.12,土壤-作物系统养分循环增效的微生物驱动机制与调控策略(2016YFD0200306),项目骨干,24万,国家重点研发计划.
研究方向

矿物-微生物相互作用

微生物对环境变化的响应(分子调控机制及细胞行为)


代表性论文
(1)
Xiao XX, Zhang JC, Song TZ, Lu YH,2019,Stimulation of Smithella -dominating propionate oxidation in a sediment enrichment by magnetite and carbon nanotubes: Propionate syntrophy in the presence of conductive materials,Environmental Microbiology Reports,11(2) 236-248.
(2)
Zhang JC, Hu A, Wang BR, Wei R,2019,Al(III)-binding properties at the molecular level of soil DOM subjected to long-term manuring,Journal of Soils and Sediments,19(3) 1099-11108.
(3)
Zhang W*, Zhang JC*, Lu YH.,2018,Stimulation of carbon nanomaterials on syntrophic oxidation of butyrate in sediment enrichments and a defned coculture,Scientific Reports,(*Co-first author),8: 12185.
(4)
Zhang JC, Xiao J, Li SL, Ran W,,2017,Manure amendment increases the content of nanomineral allophane in an acid arable soil,Scientific Reports,7: 14256.
(5)
Zhang JC, Lu YH,2016,Conductive Fe3O4 nanoparticles accelerate syntrophic methane production from butyrate oxidation in two different lake sediments,Frontiers in Microbiology,7:1316.
(6)
张坚超、徐镱钦、陆雅海,2015,陆地生态系统甲烷产生和氧化过程的微生物机理,生态学报,35 (20): 6592-6603.
(7)
Zhang JC, Zhang L, Wang P, Huang QW, Yu GH, Li DC, Shen QR.,2013,The role of non-crystalline Fe in the increase of SOC after long-term organic manure application to the red soil of southern China,European Journal of Soil Science,64, 797-804.
(8)
Zhang JC, Xun WB, Zhu Z, Li DC, Shen QR, Ran W,2013,Influence of long-term fertilizer treatments on the fluorescence spectroscopic characterization of DOM leached by acid rain from red soil,Soil Science,178(11): 639-645.
(9)
Zhu Z., Zhang JC., Wu Y, Ran W, Shen Q,2013,Comparative study on the properties of lipopeptide products and expression of biosynthetic genes from Bacillus amyloliquefaciens XZ-173 in liquid fermentation and solid-state fermentation,World Journal of Microbiology and Biotechnology,29, 2105-2114.
(10)
Wang QJ. Huang QW, Zhang L, Zhang JC, Shen QR, Ran W,2012,The effects of compost in a rice–wheat cropping system on aggregate size, carbon and nitrogen content of the size–density fraction and chemical composition of soil organic matter, as shown by 13C CP NMR spectroscopy,Soil Use and Management,28, 337-346.
(11)
Wang QJ, Zhang L, Zhang JC, Shen QR, Ran W, Huang QW,2012,Effects of compost on the chemical composition of SOM in density and aggregate fractions from rice–wheat cropping systems as shown by solid-state 13C-NMR spectroscopy,Journal Plant Nutrition and Soil Science,175, 920-930.
(12)
Yu G-H. Wu M-J. Wei G-R. Luo Y-H. Ran W. Wang B-R. Zhang J-C. Shen Q.-R,2012,Binding of organic ligands with Al(III) in dissolved organic matter from soil: Implications for soil organic carbon storage,Environmental Science and Technology,46, 6102-6109.