师资队伍

作物栽培学与耕作学系

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   名:高震

   别:男

   称:教授

联系电话:0312-7528117

电子邮箱:gaozhenvision@163.com

研究领域:作物抗逆栽培生理





个人简历

2009.09- 2013.06: 河南农业大学,农学专业,农学学士;

2013.09- 2018.06: 中国农业大学,作物生理专业,农学博士;

2018.08-至今:河北农业大学 副教授,硕士/博士生导师。




荣誉称号及社会兼职

1. 太行学者三层次2024

2. 校聘三级教授2022

3. 保定市燕赵英才,2024;

4. Frontiers in Plant Science, Journal of Integrative Agriculture,Plants, Agronomy等期刊审稿专家,2024




◆教学工作

1.本科生课程:《农学概论》(主讲)、现代作物生产专题》(主讲)、作物栽培学各论II》(参讲)

2.研究生课程:《英语阅读》(参讲)




科研项目

1.弱光胁迫降低夏玉米穗粒数的生理机制,国家自然科学基金青年项目,30万元(直接经费),2022-2024课题主持人

2.粒收玉米群体调控技术国家重点研发计划子课题30万元(直接经费),2023-2026,课题主持人

3.河北省“吨半粮”田夏玉米夏玉米高产关键技术与模式,国家重点研发计划子课题35万元(直接经费),2023-2026,课题主持人

4.氮素缓解弱光胁迫抑制玉米花丝生长的生理机制,河北省教育厅拔尖人才项目,9万元,2022-2024,课题主持人。




◆授权专利

1. 杜雄高震崔彦宏等.一种便于覆膜更换的覆膜覆土播种机, ZL 2023 2 0576342.2

2. 周顺利; 陈彦增; 焦海涛; 高震.一种卷盘可拆卸式滴灌带回收机, CN201910811731.7





◆发表论文

1.Jian Huajian, Gao Zhen, ..., Du Xiong, Supplemental irrigation mitigates yield loss of maize through reducing canopy temperature under heat stress. Agr. Water Manag. 2024, 299, 108888. (Q1-TOP)

2. Ren Jianhong, Jiang Yanhua, ..., Gao Zhen*, Liang Xiaogui, Simultaneous enhancement of maize yield and lodging resistance via delaying plant growth retardant application. Field Crops Res. 2024, 317, 109530. (*Corresponding author) (Q1-TOP)

3. Gao Zhen, Du Xiong, …, Cui Yanhong, Sub-surface plastic mulching reduced evaporation during the fallow season and increased spring maize yield in the North China Plain. Eur. J. Agron. 2023, 143, 126708. (Q1-TOP)

4. Liang Xiao-gui, Gao Zhen#, ..., Zhou Shun-li, Coordination of carbon assimilation, allocation, and utilization for systemic improvement of cereal yield. Front. Plant Sci. 2023, 14, 1206829.(#co-first author) (Q2-TOP)

5. Zhang Wanlu, Niu Shiduo, ..., Gao Zhen*, Responses of physiological traits and grain yield to short heat stress during different grain-filling stages in summer maize. Agronomy, 2023, 13, 2126. (Q2)

6. Tang Qian, Ren Jianhong, Du Xiong, ..., Gao Zhen*, Reduced stem nonstructural carbohydrates caused by plant growth retardant had adverse effects on maize yield under low density. Front. Plant Sci. 2022, 13, 1035254. (Q2-TOP)

7. Du Xiong, Gao Zhen*, Sun Xiaonuo, …, Cui Yanhong, Increasing temperature during early spring increases winter wheat grain yield by advancing phenology and mitigating leaf senescence. Sci. Total Environ. 2022, 812,152557. (Q1-TOP)

8. Liang Xiao-Gui, Gao Zhen, Shen Si, …, Zhou Shun-Li, Cob color, an indicator of grain dehydration and agronomic traits in maize hybrids. Crop J. 2022, 10, 582-586. (Q1-TOP).

9. Niu Shiduo, Du Xiong, Wei Dejie, …, Gao Zhen*, Heat Stress After Pollination

Reduces Kernel Number in Maize by Insufficient Assimilates. Front. Genet. 2021, 12,728166. (Q3)

10. Ren Jianhong, Tang Qian, Niu Shiduo, ..., Gao Zhen*, High dose of plant growth regulator enhanced lodging resistance without grain yield reduction of maize under high density. Internat. J. Plant Product. 2022 16, 329–339. (Q3)

11. Ye Jun, Gao Zhen#*, Wu Xiaohua, …, Li Yuanqing, Impact of increased temperature on spring wheat yield in northern China, Food Energy Secur. 10(2), 283. (Q1)

12. Gao Zhen, Feng Han-Yu, Liang Xiao-Gui, ..., Zhou Shun-Li, Adjusting the sowing date of spring maize did not mitigate against heat stress in the North China Plain. Agr. Forest Meteorol. 2021, 298-299, 108274. (Q1-TOP)

13. Gao Zhen, Sun Lu, Ren Jian-Hong, …, Zhou Shun-Li, Detasseling increases kernel number in maize under shade stress. Agr. Forest Meteorol. 2020, 280, 107811. (Q1-TOP)

14. Gao Zhen, Feng Han-Yu, Liang Xiao-Gui, Zhou Shun-Li, Limits to maize productivity in the North China Plain: A comparison analysis for spring and summer maize. Field Crops Res. 2018, 228, 39–47. (Q1-TOP)

15. Gao Zhen, Liang Xiao-Gui, Zhang Li, ..., Zhou Shun-Li, Spraying exogenous 6-benzyladenine and brassinolide at tasseling increases maize yield by enhancing source and sink capacity. Field Crops Res. 2017, 211, 1–9. (Q1-TOP)

16. Gao Zhen, Liang Xiao-Gui, Lin Shan, ..., Zhou Shun-Li, Supplemental irrigation at tasseling optimizes water and nitrogen distribution for high-yield production in spring maize. Field Crops Res. 2017, 209,120-128. (Q1-TOP)



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