姓名：沈莹莹

学位学历：博士研究生

邮   箱：2021201010@stu.njau.edu.cn

研究方向：节水抗旱稻栽培生理

教育背景

2025年8月至今             华南农业大学博士后（作物学：节水抗旱稻栽培生理）            导师：罗利军教授

2019年9月-2025年6月  南京农业大学硕博连读（作物栽培学：水稻栽培生理生态方向） 导师：丁艳锋教授

2015年9月-2019年6月  广西大学学士（农学）

论文成果

Shen, Y., Wang, K., Zhao, Y., Yang, L., Liu, W., Yin, T., Wang, X., Ran, X., Guo, H., Ma, Y., Wu, X., Chen, Y., Ding, Y., & Tang, S. (2023). Nitrogen fertilizer alleviates rice yield loss without

increasing global warming potential under elevated temperatures.  Field Crops Research (IF=6.4)

Shen, Y., Xu, L., Guo, H., Ismail, H., Ran, X., Zhang, C., Peng, Y., Zhao, Y., Liu, W., Ding, Y., &

Tang, S. (2023). Mitigating the adverse effect of warming on rice canopy and rhizosphere microbial community by nitrogen application: An approach to counteract future climate change for rice.  Science of the Total Environment (IF=9.8)

Shen, Y., Zhang, C., Peng, Y., Ran, X., Liu, K., Shi, W., Wu, W., Zhao, Y., Liu, W., Ding, Y., & Tang, S. (2024). Effects of warming on rice production and metabolism process associated with greenhouse gas emissions. Science of the Total Environment (IF=9.8)

Shen, Y., Liu, W., Liu, K., Shi, W., Wu, W., Zhao, Y., Zhang, C., Peng, Y., Ran, X., Ding, Y., & Tang, S. Nitrogen fertilizer mitigates warming-induced CH4  emissions in rice by regulating

carbon allocation.  Field Crops Research (IF=6.4)

Liu, W., Wang, K., Zhao, Y., Shen, Y., Zhang, C., Peng, Y., Ran, X., Guo, H., Ding, Y., & Tang, S.

(2023). Effects of nitrogen application on physicochemical properties of rice starch under elevated temperature. Food Chemistry (IF=8.8)

Liu, W., Yin, T., Zhao, Y., Wang, X., Wang, K., Shen, Y., Ding, Y., & Tang, S. (2021). Effects of high

temperature on rice grain development and quality formation based on proteomics

comparative analysis under field warming.  Frontiers in Plant Science (IF=5.6)

Zhao, Y., Yin, T., Ran, X., Liu, W., Shen, Y., Guo, H., Peng, Y., Zhang, C., Ding, Y., & Tang, S.

(2023). Stimulus-responsive proteins involved in multi-process regulation of storage

substance accumulation during rice grain filling under elevated temperature.  BMC Plant Biology (IF=5.3)

Zhao, Y., Zhang, C., Zhao, Y., Peng, Y., Ran, X., Guo, H., Shen, Y., Liu, W., Ding, Y., & Tang, S.

(2023). Multiple regulators were involved in glutelin synthesis and subunit accumulation in response to temperature and nitrogen during rice grain-filling stage.  Plant Physiology and Biochemistry (IF=6.5)

科研经历

2025年 南方稻豆轮作下增温对水稻产量和稻田甲烷排放的影响及机制-主持--  中国博士后基金第 78 批面上项目

2023 年 基于氮代谢解析增温对水稻籽粒碳氮平衡与品质形成的生理机制研究-参与-- 国家自然科学基金面上项目

2020 年 增温与氮素影响水稻籽粒谷蛋白合成及品质形成的生理机制研究-参与--国家自然科学基金面上项目

2019-2023 年 南京农业大学试验基地

主要任务：

1. 基于大田开放式增温平台，围绕增温对水稻生产的影响开展研究。

2. 水稻季对试验田的管理以及增温平台的维护。

3. 总结试验期间的研究结果并以论文形式展示。