胡佳

 
职务职称:
讲师
最高学历:
博士研究生
研究领域:
作物遗传育种学
E-mail:
Hujia77929@126.com
 

工作经历:

2024-09至今,湖南农业大学,农学院,讲师

2023-06至2024-06,瑞典农业科学大学,作物遗传育种学,博士后

学习经历:

2018-09至2023-05,瑞典农业科学大学,作物遗传育种,农学博士

2014-09至2017-06,湖南农业大学,作物遗传育种,农学硕士

2010-09至2014-06,邵阳学院,生物工程,工学学士

 
 

    2018年受国家留学基金委支持在瑞典农业科学大学攻读博士,研究主要方向为水稻田甲烷排放的机理以及高产低甲烷水稻品种的培育。以第一作者发表高水平论文5篇。

 

1、瑞典农业科学大学支持项目,SLU-C4F,Crops for the future,已结题;

2、农业与环境类,瑞典可持续发展研究理事会,Fumarate directed

3、quick breeding of low-methane rice for the global environment,2020-0137,已结题,参与人;

4、横向项目,北京先河交通设备技术有限公司,低甲烷水稻品种选育与机理研究,22670000,已结题,完成人;

 

1、Jia Hu; Girma Bedada; Chuanxin Sun; Choong-Min Ryu; Anna Schnürer; Pär K Ingvarsson; Yunkai Jin ; Fumarate reductase drives methane emissions in the genus Oryza through differential regulation of the rhizospheric ecosystem , environment international, 2024, 108913(190). 

2、Jia Hu; Mathilde Bettembourg; Lihong Xue; Ronggui Hu; Anna Schnürer; Chuanxin Sun; Yunkai Jin; Jens F. Sundström ; A low-methane rice with high-yield potential realized via optimized carbon partitioning, Science of The Total Environment, 2024, 920: 170980. 

3、Jia Hu; Mathilde Bettembourg; Silvana Moreno; Ai Zhang; Anna Schnürer; Chuanxin Sun; Jens Sundström; Yunkai Jin ; Characterisation of a low methane emission rice cultivar suitable for cultivation in high latitude light and temperature conditions, Environmental Science and Pollution Research , 2023, 30(40). 

4、Yunkai Jin; Jia Hu; Jun Su; Selcuk Aslan; Yan Lin; Lu Jin; Simon Isaksson; Chunlin Liu; Feng Wang; Anna Schnürer; Folke Sitbon; Per Hofvander; Chuanxin Sun ; Improved bioenergy value of residual rice straw by increased lipid levels from upregulation of fatty acid biosynthesis, Biotechnology for Biofuels and Bioproducts, 2023, 16(1). (并列一作) 

5、Jin Y, Hu J, Liu X, Ruan Y, Sun C, Liu C. T-6b allocates more assimilation product for oil synthesis and less for polysaccharide synthesis during the seed development of Arabidopsis thaliana. Biotechnol Biofuels. 2017 Jan 21;10:19. (并列一作)

6、Fei, M., Jin, Y., Hu, J. et al. Achieving of high-diet-fiber barley via managing fructan hydrolysis. Sci Rep 12, 19151 (2022).