姓名:邵慧
性别: 女
职称:副教授
硕、博导: 硕导
学科领域: 植物营养学
研究方向:植物营养生理与营养、根系生长与作物高产高效
办公地点: 研楼237
办公电话:
电子邮件:shaohuineau@neau.edu.cn
个人简介
学习经历:
2010年9月-2014年6月,华中农业大学大学 农业资源与环境专业本科毕业,获农学学士学位;
2014年9月-2020年6月,中国农业大学大学 植物营养学专业,硕博连读;
2017年11月-2019年11月,University of Minnesota, Department of Soil, Water and Climate,联合培养;
工作经历:
2020年9月-至今,东北农业大学,副教授;
教教学工作
讲授《植物营养学Seminar》1门研究生课程
讲授《土壤肥料学》、《植物营养学实验》和《土壤农化分析实验》3门本科生课程
科研项目 (时间节点无特殊要)
参考范例:(填写后删掉范例)
1、 第六批“东农学者计划”—“学术骨干”项目,2021年4月-2023年12月
论文著作(时间节点无特殊要求)
参考范例:(填写后删掉范例,红色字体部分)
1、Shao, H., Xia, T., Wu, D., Chen, F., and Mi, G. 2018. Root growth and root system architecture of field-grown maize in response to high planting density. Plant and Soil, 430(1-2), 395-411.
2、Shao, H., Shi, D., Shi, W., Ban, X., Chen, Y., Ren, W., Chen, F. and Mi, G. 2019. Genotypic difference in the plasticity of root system architecture of field-grown maize in response to plant density. Plant and Soil, 439(1-2), 201-217.
3、Shao, H., Shi, D., Shi, W., Ban, X., Chen, Y., Ren, W. and Mi, G. 2020. Nutrient accumulation and remobilization in relation to yield formation at high planting density in maize hybrids with different senescent characters. Archives of Agronomy and Soil Science, 1-17.
4、Shao, H., Shi, D., Shi, W., Ban, X., Chen, Y., Ren, W. and Mi, G. 2020. The impact of high plant density on dry matter remobilization and stalk lodging in maize genotypes with different stay-green degree. Archives of Agronomy and Soil Science, 1-15.
5、Zhen, X., Shao, H., Zhang, W., Huo, W., Batchelor, W.D., Hou, P., Wang, E., Mi, G., Miao, Y., Li, H. and Zhang, F. 2018. Testing a bell-shaped function for estimation of fully expanded leaf area in modern maize under potential production conditions. The Crop Journal, 6(5), pp.527-537.
6、Wu, D., Xu, X., Chen, Y., Shao, H., Sokolowski, E. and Mi, G. 2019. Effect of different drip fertigation methods on maize yield, nutrient and water productivity in two-soils in Northeast China. Agricultural water management, 213, pp.200-211.
7、Xia, T., Miao, Y., Wu, D., Shao, H., Khosla, R. and Mi, G. 2016. Active optical sensing of spring maize for in-season diagnosis of nitrogen status based on nitrogen nutrition index. Remote sensing, 8(7), pp.605.
其他成果
科研获奖、专利等其他成果可填写此处。
