Zhang Jianchao
School
School of Earth System Science
Professional Title
Associate professor
Discipline
Soil Microbiology
Contact Information
jianchaozhang@tju.edu.cn
Rm 312, Building No.16
Education Background
- Doctoral degree| Nanjing Agricultural University| 2014
Research Interests
- 1. Interactions of minerals and microbes with a particular focus on the responses of microbes for minerals under different environmental conditions. 2. Innovative visual technologies for investigating the identity, movement and function of individual microbial cells.
- Soil carbon cylcing (methanogenesis and sequestration)
- 地质微生物新方法开发(NanoSIMS,FT-ICR MS,活细胞动态成像等)
Positions & Employments
-
2014.7-2016.12
 Peking University | Postdoc  -
2015.2-2015.3
 University of Vienna | Visiting Fellow  -
2018.10-2019.10
 University of Wyoming | Visiting Scholar  -
2017.1-Now
School of Earth System Science (Institute of Surface-Earth System Science) | Tianjin University 
Academic Achievements
- Papers
- [1] Xi-Yuan Li, Su-Qing Li, Yi-Fan Jiang, Qiong Yang, Jian-Chao Zhang, Yakov Kuzyakov, H. Henry Teng, Dong-Xing Guan*. Multi-imaging platform for rhizosphere studies: Phosphorus and oxygen fluxes. Journal of Environmental Management. 2024. 351: 119763
- [2] Tianjiao Zhang, Sainan Zhang, Shaohui Yang, Jianchao Zhang*, Jiehua Wang* and H. Henry Teng. Arabidopsis seedlings respond differentially to nutrient efficacy of three rock meals by regulating root architecture and endogenous auxin homeostasis. BMC Plant Biology. 2023. 23: 609
-
- [3] Yuxuan Chen, Jianchao Zhang*, Xiangyu Zhu, Yuebo Wang, Jiubin Chen, Biao Sui, H. Henry Teng*. Unraveling the complexities of Cd-aniline composite pollution: Insights from standalone and joint toxicity assessments in a bacterial community. Ecotoxicology and Environmental Safety. 2023. 265. 115509
- [4] Qiang Li, Zhaoliang Song*, Shaopan Xia, Yakov Kuzyakov, ***Jianchao Zhang, Xiaoli Fu, Tony Vancov, Lukas Van Zwieten, Cong-Qiang Liu, Hailong Wang. Microbial Necromass, Lignin, and Glycoproteins for Determining and Optimizing Blue Carbon Formation. Environmental Science & Technology. 2023. 58. 468-479
- [5] 陈钰璇, 朱翔宇, 王钺博, 管冬兴, 张坚超*, 滕辉, 砷(V)及苯胺联合暴露对土壤微生物群落组成及抗氧化酶活性的影响. 生态毒理学报,2023, 18(5): 121-130
- [6] Qiang Li, Zhaoliang Song*, Shaopan Xia, Junhui Chen, ***Jianchao Zhang, Shaobo Sun, Hailong Wang. Substrate quality overrides soil salinity in mediating microbial respiration in coastal wetlands. Land Degradation & Development. 2023. 34. 4546-4560
- [7] Jing Su, Hui Henry Teng*, Xiang Wan, Jianchao Zhang, Cong-Qiang Liu. Direct Air Capture of CO2 through Carbonate Alkalinity Generated by Phytoplankton Nitrate Assimilation. International Journal of Environmental Research and Public Health. 2022. 20: 550
- [8] 李希媛,管冬兴,李苏青,苏靖,张坚超,滕辉., 2022. DGT/DET与CID技术联用获取环境微界面元素异质性分布特征:进展与展望., 生态学杂志. 41(02), 371-381
- [9] 蔡建林,TENG Hui Henry,王钺博,张坚超,. 2022. 方解石和钾长石在模拟蚯蚓肠液中的初始溶解动力学机理及意义. 岩石矿物学杂志. , 41(04), 818-834
- [10] Zhu, Xiangyu., Chang, Pei., Zhang, Jianchao., Wang, Yuebo., Li, Siliang., Lu, Xiancai., Wang, Rucheng., Liu, Cong-Qiang., Teng, H. Henry., 2022, Kinetics and energetics of pharmacolite mineralization via the classic crystallization pathway, Geochimica et Cosmochimica Acta, 339: 70-79
- [11] Zhang JC, Su J, Ma C, Hu XY, Teng HH*. 2021. Periphytic Microbial Response to Environmental Phosphate (P) Bioavailability and Its Relevance to P Management in Paddy Fields. Applied and Environmental Microbiology. 87(20): e01201-21
- [12] Zhang JC, McKenna AM, Zhu MQ*. 2021. Macromolecular Characterization of Compound Selectivity for Oxidation and Oxidative Alterations of Dissolved Organic Matter by Manganese Oxide. Environmental Science & Technology. 55, 11, 7741-7751
- [13] 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.
- [14] 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.
- [15] 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.
- [16] 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.
- [17] 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.
- [18] 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.
- [19] 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.
- [20] 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.
- [21] 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.