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黄新君博士Dr. Xinjun Huang

时间:2022-03-21 点击:


黄新君 讲师

Xinjun Huang Ph. D, Lecturer


黄新君,男,博士,讲师。

Email406296980@qq.com

通讯地址:450001 河南省郑州市高新区莲花街100号best365网页版登录

Lecturer/Stress strain effects in structured soils, Conservation tillage

School of Environmental Engineering, Henan University of Technology

100 Lianhua St, Gaoxin District, Zhengzhou, Henan 450001, China

Email:406296980@qq.com


发表论文8篇,以第一作者在Soil and Tillage Research、Geoderma等期刊发表论文3篇,中文核心一篇,多次在国际国内学术会议作报告。


学术方向及兴趣

Research interests

主要从事土壤结构、保护性耕作、机械压实方面研究。研究内容包括保护性耕作下土壤结构和水分动态变化过程、农田土壤机械压实过程中土壤应力与水力耦合机理,在机械压实的产生过程及作用结果方面取得了创新性成果。

Dr. Huang’s recent researches include soil structure, conservation tillage and soil compaction, especially focus on the dynamics of soil structure and water condition under conservation tillage systems, and coupled mechanical and hydraulic processes in soil during compaction process.


学习及工作经历

Educational background and professional Employment

2010.9-2014.6 山西农业大学农学专业本科生,获学士学位;

2014.9-2017.6中国农业科学院土壤学专业硕士生,获硕士学位;

2017.9-2021.6 中国农业大学土壤学专业博士生,获博士学位;

2019.9-2020.10 德国基尔大学土壤学联合培养博士(国家留学基金委资助)

2021.1- best365网页版登录讲师;

9/2017-6/2021 Ph.D., Soil Science, College of Land Science and Technology, China Agricultural University, Beijing, China. Advisor: Dr. Tusheng Ren

9/2019-10/2020 Joint PhD, Institute of Plant Nutrition and Soil Science, Christian-Albrechts-Universität zu Kiel, Deutschland,         Advisor:   Dr. Rainer Horn

9/2014-6/2017 M.S., Soil Science, Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Beijing, China, Advisor: Dr. Qingwen Zhang

9/2010-6/2014 B.S., Agronomy, College of Agriculture, Shanxi Agricultural University, Taigu, Shanxi, China

1/2021-present:  Lecturer, Henan University of Technology, Zhengzhou, Henan, China


主要科研项目

Research fundings

1 基于农田土壤水、气传输功能的麦-玉轮作体系机械压实研究. 河南省科技攻关项目.2021-2022.主持.

2 春玉米高产土壤的结构特征、关键过程及调控机理. 国家重点基础研究发展计划 ( 973计划 ) (2015CB150403-2). 2017-2021. 参与.

3 海河流域多水源灌排交互条件下农田面源污染控制技术集成与综合示范. 国家水污染治理重大专项课题(2015ZX07203-007). 2016-2017. 参与

4 坡耕地合理耕层构建技术指标研究. 公益性行业(农业)科研专项(201503119). 2014-2017. 参与.


近年发表的主要论文

Recent Publications

1. Huang, X., Horn, R., Ren, T., 2021. Deformation and pore water pressure change during static and cyclic loading with subsequent shearing on soils with different textures and matric potentials. Soil and Tillage Research, 209: 104909.

2. Huang, X., Wang, H., Zhang, M., Horn, R., Ren, T., 2021. Soil water retention dynamics in a Mollisol during a maize growing season under contrasting tillage systems. Soil and Tillage Research, 209:104953.

3. Huang, X., Horn, R., Ren, T., 2022. Soil structure effect on deformation, pore water pressure, and consequences for air conductively during compaction and subsequent shearing. Geoderma, 406:115452.

4. Huang, X., Zhang, Q., Chen, S., Dong, Y., Xiao, M., Hamed, L.M.M., 2017. Aggregate Stability and Erodibility of Purple Soil on Sloping Farmland as affected by different Soil Thickness. 19th EGU General Assembly, EGU2017, Geophysical Research Abstracts. Vol. 19, EGU2017-3824-3.

5. Zhang, Q., Lei, T., Huang, X., 2016. Quantifying the sediment transport capacity in eroding rills using a REE tracing method. Land Degradation & Development. DOI: 10.1002/ldr.2535.

6. Wang, H.,Wang, L., Huang, X., Gao, W., Ren, T., 2021. A General Model for Estimating Soil Penetrometer Resistance from Relative Bulk Density, Matric Potential, and Depth. Soil and Tillage Research, 208, 104904.

7. Zhang, Q., Liu, D., Cheng, S., Huang, X., 2016. Combined effects of runoff and soil erodibility on available nitrogen losses from sloping farmland affected by agricultural practices. Agricultural Water Management, 176:1-8.

8. 黄新君, 陈尚洪, 刘定辉, 张晴雯. 2016. 秸秆覆盖和有机质输入对紫色土土壤可蚀性的影响.中国农业气象,37(1):289-296.

9. 张晴雯, 陈尚洪, 刘定辉, 黄新君. 2016. 农业措施对玉米季坡耕地水沙过程的调控效应. 核农学报, 30(7): 1395-1403.


近期国际会议学术报告

Recent presentations at international conferences

1. Huang, X., Zhang, Q., Chen, S., Dong, Y., Xiao, M., Hamed, L.M.M., 2017. Aggregate Stability and Erodibility of Purple Soil on Sloping Farmland as affected by different Soil Thickness. 19th EGU General Assembly, EGU2017, April 23-28, 2017, Viena, Austria.

2. Horn, R., Huang, X., Ren, T., 2021. Soil deformation – how far are shear induced coupled mechanical and hydraulic processes fundamental for the predictions of trafficability. 13th International Conference on Agrophysics: Agriculture in changing climate. November 15-16, 2020. Lublin, Poland.



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