张夏香

 

 

 

 

 

教师姓名：张夏香          职称：副教授

研究方向：草类植物逆境生理与分子生物学

讲授课程：观赏草鉴赏与应用、植物发育的奥秘、大学生安全教育

E-mail：xiaxiang.zhang@njau.edu.cn

 

学习经历

2010.09-2016.06，南京农业大学，作物栽培学与耕作学专业，农学博士

2014.02-2015.09，德国霍恩海姆大学，景观与植物生态系，联合培养博士生

2006.09-2010.06，南京农业大学，农学强化专业，农学学士

 

工作经历

2021.12-至今，南京农业大学草业学院，副教授

2020.03-2021.12，南京农业大学草业学院，讲师

2017.01-2020.03，南京农业大学草业学院，师资博士后

2016.10-2018.10，美国罗格斯大学，访问学者

 

荣誉及称号

1、2018.10，张夏香，中国作物学会优秀博士论文奖，中国作物学会

2、2017.9，张夏香，校级优秀博士学位论文，南京农业大学

3、2012.11，张夏香，博士研究生国家奖学金，教育部

 

研究项目

1、磷脂酶D家族成员FaPLDα1调控高羊茅获得性耐高温的分子途径，2020/01-2022/12，国家自然科学基金青年科学基金项目（31901395），主持，25万

2、FaPLDα1介导苇状羊茅获得性耐高温的上游通路解析，2019/03-2020/12，中国博士后科学基金特别资助（2019T120435），主持，18万

3、脱落酸介导高羊茅获得性高温耐性形成的生理机制，2018/07-2021/06，江苏省自然科学基金青年基金（BK2018521），主持，20万

4、磷脂酸参与干旱锻炼诱导高羊茅高温耐性形成的机制研究，2017/05-2019/05，中国博士后基金面上项目（2017M611840），主持，5万

 

学术论文

1、Zhang X, Xing R, Ding Y, Yu J, Wang R, Li X, Yang Z, Zhuang L* (2023)

Overexpression of gibberellin 2-oxidase 4 from tall fescue affected plant height, tillering and drought tolerance in rice. Environmental and Experimental Botany, 205, 105118.

2、Zhang X, Gao Y, Zhuang L, Huang B* (2022) Phosphatidic acid priming-enhanced heat tolerance in tall fescue (Festuca arundinacea) involves lipidomic reprogramming of lipids for membrane stability and stress signaling. Plant Growth Regulation, accepted.

3、姜恒越, 高毓翎, 李媚晴, 陈志龙, 庄黎丽, 杨志民, 张夏香* (2022) ⁶⁰Co-γ射线辐照对粉黛乱子草种子萌发及幼苗生长的影响. 草地学报, 已录用.

4、Zhang X, Gao Y, Zhuang L, Huang B* (2021) Phosphatidic acid and hydrogen peroxide coordinately enhance heat tolerance in tall fescue. Plant Biology, 23: 142-151.

5、Zhang X, Zhuang L, Liu Y, Yang Z*, Huang B* (2020) Protein phosphorylation associated with drought priming-enhanced heat tolerance in a temperate grass species. Horticulture Research, 7: 207.

6、Zhang X, Xu Y, Huang B* (2019) Lipidomic reprogramming associated with drought stress priming‐enhanced heat tolerance in tall fescue (Festuca arundinacea). Plant, Cell & Environment, 42: 947-958.

7、Zhang X, Wang X, Zhuang L, Gao Y, Huang B* (2019) Abscisic acid mediation of drought priming-enhanced heat tolerance in tall fescue (Festuca arundinacea) and Arabidopsis. Physiologia Plantarum, 167: 488-501.

8、Zhang X, Shi Z, Jiang D*, Högy P*, Fangmeier A (2019) Independent and combined effects of elevated CO₂ and post-anthesis heat stress on protein quantity and quality in spring wheat grains. Food Chemistry, 277: 524-530.

9、Zhang X, Högy P*, X., Schmid I, Wang X, Schulze W, Jiang D*, Fangmeier A (2018) Physiological and proteomic evidence for the interactive effects of post-anthesis heat stress and elevated CO₂ on wheat. Proteomics, 18: 1800262.

10、Wang X, Zhang X, Chen J, Wang X, Cai J, Zhou Q, Dai T, Cao W, Jiang D* (2018) Parental drought-priming enhances tolerance to post-anthesis drought in offspring of wheat. Frontiers in Plant Science, 9: 261.

11、Zhang X, Zhou Q, Wang X, Cai J, Dai T, Cao W, Jiang D* (2016) Physiological and transcriptional analyses of induced post-anthesis thermo-tolerance by heat -shock pretreatment on germinating seeds of winter wheat. Environmental and Experimental Botany, 131: 181-189.

12、Zhang X, Wang X, Zhong J, Zhou Q, Wang X, Cai J, Dai T, Cao W, Jiang D* (2016) Drought priming induces thermo-tolerance to post-anthesis high-temperature in offspring of winter wheat. Environmental and Experimental Botany, 127: 26-36.

13、Zhang X, Shi Z, Tian Y, Zhou Q, Cai J, Dai T, Cao W, Pu H*, Jiang D* (2016) Salt stress increases content and size of glutenin macropolymers in wheat grain. Food Chemistry, 197: 516-521.

14、Zhang X, Cai J, Wollenweber B, Liu F, Dai T, Cao W, Jiang D* (2013) Multiple heat and drought events affect grain yield and accumulations of high molecular weight glutenin subunits and glutenin macropolymers in wheat. Journal of Cereal Science, 57: 134-140.

15、Zhang X, Jiang D*, Zheng C, Dai T, Cao W (2011) Post-anthesis salt and combination of salt and waterlogging affect distributions of sugars, amino acids, Na⁺ and K⁺ in wheat. Journal of Agronomy and Crop Science, 197: 31-39.

 

主要著作

1、Zhang X, Huang B (2020) Chapter 9 - Drought priming-induced heat tolerance: Metabolic pathways and molecular mechanisms, in: M. A. Hossain, et al. (Eds.), Priming-Mediated Stress and Cross-Stress Tolerance in Crop Plants, Academic Press. pp. 149-160.