师资队伍

专任教师

晏智锋

职称：教授

邮箱：yanzf17@tju.edu.cn

电话：

地址：第16教学楼315室

个人简介

主要从事表层地球系统水文-生物地球化学耦合过程相关研究，综合运用理论、模型、实验方法研究土壤和水体中碳、氮、污染物的形成、传输、转化，结合多时空尺度研究方法和技术手段，揭示宏观现象背后的微观机理，并通过开发机理模型来提高碳、氮、污染物等物质生物地球化学过程的模拟和预测精度。目前重点围绕土壤和水体中温室气体（CO_2、N₂O_、CH₄）的产生、传输、消耗和释放开展研究。已经在Nature Communications、Water Resources Research、Biogeochemistry、Advances in Water Resources等期刊发表多篇论文。欢迎感兴趣的同学加入团队！

教育/工作经历

2019.08~今，天津大学，表层地球系统科学研究院，教授.

2017.08~2019.07，天津大学，表层地球系统科学研究院，副教授.

2014.11~2017.04，西北太平洋国家实验室(Pacific Northwest National Laboratory), 地球化学研究组（导师：刘崇炫），博士后.

2010.08~2014.10，约翰霍普金斯大学(Johns Hopkins University), 地理环境工程系（导师：Markus Hilpert），博士.

2007.08~2010.07，清华大学，水利系，硕士.

2003.08~2007.07，武汉大学，水利水电学院，本科.

科研项目

(1)

2019.04~2022.03，中组部海外高层次人才引进计划，-.

(2)

2019.01~2021.06，库区消落带温室气体排放机理研究（主持），国家重点研发计划课题下属专题，中国科学技术部..

(3)

2018.07~2021.12，斯里兰卡干旱地区慢性肾病高发区水文生物地球化过程模型模拟，国际(地区)合作与交流项目子课题，国家自然科学基金委员会.

(4)

2014.11~2017.04，地下水和地表水交互作用带的生物地球化学过程，参与，美国能源部重大科研专项.

(5)

2014.11~2017.04，碳的生物地球化学过程：从空隙尺度到生态系统，核心成员，美国能源部重大科研专项.

(6)

2010.08~2014.10，多孔介质中细菌趋化性及污染物去除，核心成员，美国自然科学基金.

(7)

2010.08~2014.10，非理想条件下非均质介质中胶体运移尺度升级，参与，美国自然科学基金.

研究方向

土壤和水体中水文-生物地球化学耦合过程
土壤碳氮循环及温室气体（CO_2、N₂O_、CH₄）释放
土壤和地下水中污染物质迁移转化

讲授课程

生态环境与健康

代表性论文

(1)

HC Piao, SL Li, Zhifeng Yan, C Li，2020，Understanding nutrient allocation based on leaf nitrogen isotopes and elemental ratios in the karst region of Southwest China，Agriculture, Ecosystems & Environment，294: 106864.

(2)

C Li, SL Li, FJ Yue, J Liu, J Zhong, Zhifeng Yan, RC Zhang, ZJ Wang, S Xu，2019，Identification of sources and transformations of nitrate in the Xijiang River using nitrate isotopes and Bayesian model，Science of the Total Environment，646: 801-810.

(3)

X Zhu, Y Lang, J Zhong, H Ding, H He, Zhifeng Yan, S Li，2018，Variations of trace elements under hydrological conditions in the Min River, Eastern Tibetan Plateau，Acta Geochimica，37 (4): 509-518.

(4)

Chen C., K. Zhao, J. Shang*, C. Liu, J. Wang, Zhifeng Yan, K. Liu, and W. Wu.，2018，Uranium (VI) transport in saturated heterogeneous media: Influence of kaolinite and humic acid.，Environmental Pollution，240: 219-226.

(5)

Li, Z., Z. Song*, Zhifeng Yan, Q. Hao, A. Song, L. Liu, X. Yang, S. Xia, and Y. Liang，2018，Silicon enhancement of estimated plant biomass carbon accumulation under abiotic and biotic stresses，Agronomy for Sustainable Development.，38 (3): 26.

(6)

Zhifeng Yan, T. Wang, L. Wang, X. Yang, P. Smith, M. Hilpert, S. Li, J. Shang, V. Bailey, and C. Liu*，2018，Microscale Water Distribution and its Effects on Organic Carbon Decomposition in nsaturated Soils，Science of the Total Environment，644: 1036-1043.

(7)

Zhifeng Yan, B. Bond-Lamberty, K. Todd-Brown, V. Bailey, S. Li, C. Liu, and C. Liu*，2018，A Moisture Function of Soil Heterotrophic Respiration that Incorporates Microscale Processes，Nature Communications，9.

(8)

Zhifeng Yan, S. Li, X. Yang, and M. Hilpert，2017，Two-Relaxation-Time Lattice Boltzmann Method and its Applications to Advective-Diffusive-Reactive Transport，Advances in Water Resources，109: 333-342.

(9)

Zhifeng Yan, C. Liu*, Y. Liu, and V. Bailey，2017，Multiscale Biofilm Distribution and its Impact on Macroscopic Biogeochemical Reaction Rates，Water Resources Research，53 (11): 8698-8714.

(10)

Zhifeng Yan, C. Liu*, K. Todd-Brown, Y. Liu, B. Bond-Lamberty, and V. Bailey，2016，Pore-scale Investigation on the Response of Heterotrophic Respiration to Moisture Conditions in Heterogeneous Soils，Biogeochemistry，131 (1-2): 121-134.

(11)

Zhifeng Yan*, E.J. Bouwer and M. Hilpert，2014，Coupled Effects of Chemotaxis and Growth on Traveling Bacterial Waves，Journal of Contaminant Hydrology，164: 138-152.

(12)

Zhifeng Yan* and M. Hilpert，2014，A Multiple-relaxation-time Lattice-Boltzmann Model for Bacterial Chemotaxis: Effects of Initial Concentration, Diffusion, and Hydrodynamic Dispersion on Traveling Bacterial Bands，Bulletin of Mathematical Biology，76 (10): 2449-2475.

其他

Researchgate:

https://www.researchgate.net/profile/Zhifeng_Yan2/contributions

Google Scholar:

https://scholar.google.com/citations?user=Lav81gUAAAAJ&hl=en