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个人简介

副研究员,硕士生导师。2011年7月获中国农业大学“资源环境科学”专业学士学位,2016年6月获中国农业大学“土壤学”博士学位,2016年9月至2018年8月于美国北卡罗莱纳州立大学从事博士后研究工作。主要从事土壤水文过程监测与模拟,冻土水热特性测定与预测,土壤物理质量评价等研究工作。目前主持有国家自然科学基金、华中农业大学自主科技创新基金等科教研项目。近年来,以第一作者在《Water Resources Research》、《Soil and Tillage Research》、《Journal of Hydrology》等国际学术杂志发表论文10余篇。 教育/工作经历: 2018年9月至今:副研究员,华中农业大学,资源与环境学院。 2016年9月–2018年8月:博士后,美国北卡罗来纳州立大学,作物与土壤科学系。 2011年9月–2016年6月:农学博士,土壤学专业;中国农业大学,土壤与水科学系; 2007年9月–2011年7月:理学学士,资源环境科学专业;中国农业大学,资源与环境学院。 教学情况 本科生课程:水文与水资源学、土壤肥料学; 研究生课程:土壤物理学。 教研项目:引智类全英文研究生课程建设项目,课程“Soil Physics”,建设经费4万元,2019-2020,主持。 科研项目: 1. 国家自然科学青年基金项目,干湿交替过程中黏质土壤胀缩与水热传输的相互作用及机理,2020.01-2022.12,主持; 2. 华中农业大学自主科技创新基金,耕作层容重变化对土壤物理特性的影响及其定量化研究,2019.01-2021.12,主持; 3. 973计划项目,支撑高产群体的关键土壤过程及动态调控机理(子课题),2015.01-2019.12,参与; 4. 国家自然科学基金(面上),耕作层土壤热特性的时空变异特征研究,2013.01-2016.01,参与; 5. 农业部公益性行业专项,黄淮海北部缺水区合理耕层构建技术研究与示范,2013.01-2017.12,参与。 会议报告: 1. 田正超,2019,一个综合考虑土壤压实和耕作影响的水分特征曲线传递函数模型,“全球变化下土壤物理学的机遇与挑战”学术研讨会,呼和浩特; 2. Tian, Z.,2017. Revealing in-situ unsaturated soil hydraulic conductivity at fine depth scale. ASA, CSSA & SSSA 2017 International Annual Meetings, Tampa, FL, US; 3. Tian, Z.,2017. Relating water retention to transient soil bulk density. The 3rd AGU-SEG Hydro-geophysics Workshop: Imaging the Critical Zone, Stanford, CA, US; 4. Tian, Z.,2017. A thermal conductivity-based thermo-TDR approach for measuring soil bulk density. 2017 NCSU Postdoctoral Research Symposium. Raleigh, NC, US; 5. Tian, Z.,2016. Determination of soil ice content with thermo-time domain reflectometry: a thermal conductivity-based approach. ASA, CSSA & SSSA 2016 International Annual Meetings, Phoenix, AZ, US; 6. Tian, Z.,2015. Evaluation of cosmic-ray moisture sensing probe for measuring mesoscale soil water content. EGU General Assembly Conference, Vienna, Austria; 7. 田正超,2015,利用宇宙射线技术测定中尺度土壤含水量、植被和积雪水深,“土壤物理学进展与水土资源保护”学术研讨会,青岛; 8. 田正超,2014,利用热脉冲-时域反射技术测定冻融过程中土壤含冰量变化,“土壤物理学进展与生态安全”学术研讨会,桂林。

研究领域

土壤与环境物理,土壤水文学,土壤水热过程监测与模拟

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

1. Tian, Z., D. Kool, T. Ren, R. Horton, J.L. Heitman. 2020. Estimating soil bulk density with combined commercial soil water content and thermal property sensors. Soil and Tillage Research. 196, 104445. 2. Tian, Z., Y. Kojima, J.L. Heitman, R. Horton, T. Ren. 2019. Advances in Thermo Time Domain Reflectometry Technique: Measuring Ice Content in Partially Frozen Soils. Methods of Soil Analysis, 4(1). 3. Tian, Z., D. Kool, T. Ren, R. Horton, J. Heitman. 2019. Approaches for estimating unsaturated soil hydraulic conductivities at various bulk densities with the extended Mualem van Genuchten model. Journal of Hydrology. 572,719-731. 4. Tian, Z., W. Gao, D. Kool, T. Ren, R. Horton, and J. Heitman. 2018. Approaches for estimating soil water retention curves at various bulk densities with the extended van Genuchten model. Water Resources Research. 54. 5. Tian, Z., D. Kool, T. Ren, R. Horton, and J. Heitman. 2018. Determining in-situ unsaturated soil hydraulic conductivity at a fine depth scale with heat pulse and water potential sensors. Journal of Hydrology. 564, 802–810. 6. Tian, Z., Y. Lu, T. Ren, R. Horton, and J.L. Heitman. 2018. Improved thermo-time domain reflectometry method for continuous in-situ determination of soil bulk density. Soil and Tillage Research. 178, 118–29. 7. Tian, Z., T. Ren, Y. Kojima, Y.Lu, R. Horton, and J.L. Heitman. 2017. An improved thermo-time domain reflectometry method for determination of ice contents in partially frozen soils. Journal of Hydrology. 555, 786–796. 8. Tian, Z., Y. Lu, R. Horton, and T. Ren. 2016. A simplified de Vries–based model to estimate thermal conductivity of unfrozen and frozen soil. European Journal of Soil Science. 67(5), 564–572. 9. Tian, Z., Z. Li, G. Liu, B. Li, and T. Ren. 2016. Soil water content determination with cosmic-ray neutron sensor: Correcting aboveground hydrogen effects with thermal/fast neutron ratio. Journal of Hydrology.540, 923–933. 10. Tian, Z., J.L. Heitman, R. Horton, and T. Ren. 2015. Determining soil ice contents during freezing and thawing with thermo-time domain reflectometry. Vadose Zone Journal. 14(8). 11. Wang, L., Wang, H., Tian, Z., Lu, Y., Gao, W., Ren, T. 2020. Structural Changes of Compacted Soil Layers in Northeast China due to Freezing-Thawing Processes. Sustainability. 12, 1587. 12. Fu, Y., Tian, Z., Amoozegar, A., Heitman, J. 2019. Measuring dynamic changes of soil porosity during compaction. Soil and Tillage Research. 193, 114-121. 13. Kool, D., Tong, B., Tian, Z., Heitman, J., Sauer, T.J., Horton, R. 2019. Soil water retention and hydraulic conductivity dynamics following tillage. Soil and Tillage Research. 193, 95-100. 14. Gao, W., W.R. Whalley, Z. Tian, J. Liu, and T. Ren. 2016. A simple model to predict soil penetrometer resistance as a function of density, drying and depth in the field. Soil and Tillage Research. 155, 190–198. 15. Zhang, B., Y. Li, T. Ren, Z. Tian, G. Wang, X. He, and C. Tian. 2014. Short-term effect of tillage and crop rotation on microbial community structure and enzyme activities of a clay loam soil. Biology and Fertility of Soils.50(7), 1077–1085.

学术兼职

担任Soil Science Society of America Journal等十余个国际学术期刊审稿人

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