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师资队伍

师资队伍

教授

研究领域:土壤生态学,土壤养分循环

主讲课程: 土壤学,土壤肥力学

电子邮箱: jiangxj@swu.edu.cn;jiangxianjunswu@yeah.net

个人简介

博士、教授,博士研究生导师,美国加州大学Davis分校高级研究学者、Florida大学访问教授、台湾“中央研究院”博士后。教育部“新世纪优秀人才计划”入选者,国家自然科学基金通讯评审专家,科技部国际科技合作计划项目评审专家,中国博士后基金评审专家,教育部优秀学位论文评审专家,农业部“西南耕地保育重点实验室”学术委员会委员,重庆市学术技术带头人。担任国际期刊“Soil Ecology Letters”、“Eurasian Journal of Forest Science”以及“农业资源与环境学报”编委;担任多个国际期刊包括“Soil Biology & Biochemistry”, “Geoderma”, “Soil & Tillage Research”, “Chemosphere”, “Catena”, 以及“科学通报”、“土壤学报”、“生态学报”等学术刊物审稿人。2001年在中国科学院南京土壤所获博士学位。2003-2004年赴台湾“中央研究院”从事博士后研究,20091-4月赴英国Wales联盟学院,并应邀前往英国洛桑试验站、苏格兰作物研究所进行学术交流,2010-2011年、2016-2017年赴美国Florida大学担任高级研究学者,访问教授;2015-2016年赴美国加州大学Davis分校担任高级研究学者。主要从事土壤学的科研与教学工作。主持国家自然科学基金项目5项,教育部“新世纪优秀人才计划”项目,重庆市自然科学基金重点项目1项,国家科技支撑项目子课题2项。发表论文80余篇,其中被SCI收录40篇,国际会议论文8篇。出版专著1部,获得国家发明专利1项。


近年主持的科研项目:

全程氨氧化细菌与亚硝酸盐氧化细菌在土壤中的生态位分化特征及影响因子研究,国家自然科学基金(编号42077035),2021-2024,主持,直接经费57万。

探索单步硝化作用在土壤硝化作用中的相对贡献,国家自然科学基金(编号41671232),2017-2020,主持,直接经费66万。

西南水旱轮作稻区高产稻田肥力变化特征及培肥耕作途径,国家重点研发计划子课题(编号2016YFD0300901),2016-2020,主持,直接经费130万。


国际合作

与美国佛罗里达大学、加州大学Davis分校、法国里昂大学、英国洛桑试验站、苏格兰作物研究所、维也纳大学、西澳大利亚大学以及台湾大学、台湾中兴大学,台湾中央研究院生物多样性研究中心等有密切的合作研究关系。



科研兴趣

研究土壤生态系统养分元素循环及其生物学机制;

研究土壤生态系统温室气体排放及其生物学机制;

研究土壤物理结构与微生物交互作用;

研究土壤微生物群落演替与进化途径及功能效应;

研究土壤微生物地理空间分布规律及驱动因子。

研究生按照以上研究方向培养,招收的研究生/博士后可到上述(国际合作)高校及研究所交流培养。


近五年发表在国际著名学术期刊论文(SCI (*为通讯作者)

1. Cai K, Zhao Y, Kang Z, Wang S, Wright A L, Jiang X.*. Environmental pseudotargeted metabolomics: A high throughput and wide coverage method for metabolic profiling of 1000-year paddy soil chronosequences. Science of the Total Environment, 2023, 858: 159978. (IF= 10.754, JCR 1 )

2. Wang S, Wang Z, Zhao Y, Wright A L, Jiang X.*. Oxygen availability, rather than ammonia, play an important role in niche differentiation between comammox Nitrospira and canonical ammonia oxidizers in a purple paddy soil. Pedosphere, 2022 (In Press). (IF= 5.514, JCR 1 )

3. Wang S, Zhao Y, Wang Z, Lv X, Wright A L, Jiang X.*. Contrasting seasonal response of comammox Nitrospira and canonical ammonia oxidizers in two paddy soils. Soil Biology and Biochemistry, 2022, 168: 108641. (IF= 8.546, JCR 1 )

4. Cai K, Zhao Y, Kang Z, Ma R, Wright A L, Jiang X.*. Pyrolysis-assisted transesterification for accurate quantification of phospholipid fatty acids: Application to microbial community analysis in 1000-years paddy soil chronosequence. Geoderma, 2022, 406: 115504. (IF= 7.422, JCR 1 )

5. Ma R, Zhao W, Zhao Y, Wright A L, Wang Z, Zhu-Barker X, Jiang X.. Land use pattern effects after 30 years of shifting cropland to fallow land on soil ammonia-oxidizer community. Applied Soil Ecology, 2020, 156: 103707. (IF=3.187, JCR 2 )

6. Qin C, Xie D, Wright A.L. Jiang X.. Improving Nitrogen-use efficiency by ridge-tillage in rice paddy soils. Soil Use and Management, 2020.

7. Wang Z, Cao Y, Wright A L, Shi X, Jiang X.. Different ammonia oxidizers are responsible for nitrification in two neutral paddy soils[J]. Soil and Tillage Research, 2019, 195: 104433. (IF=4.601, JCR 1 )

8. Wang Z, Cao Y, Zhu-Barker X, Graeme W. N, Wright A L, Jia Z, Jiang X.. Comammox Nitrospira clade B contributes to nitrification in soil[J]. Soil Biology & Biochemistry, 2019.IF=5.795JCR 1.

9. Liu T, Wang Z, Wang S, et al. Responses of ammonia-oxidizers and comammox to different long-term fertilization regimes in a subtropical paddy soil[J]. European Journal of Soil Biology, 2019, 93: 103087. (IF=2.285JCR 2)

10. Wang Z, Meng Y, Zhu-Barker X, He X, Horwath W, Luo H, Zhao Y, Jiang X*. 2019. Responses of nitrification and ammonia oxidizers to a range of background and adjusted pH in purple soils. Geoderma 334:9-14 (IF=4.848, JCR 1

11. Huang X, Zhao J, Su J, Jia Z, Shi X, Wright A L, Barker X, Jiang X*. 2018. Neutrophilic bacteria are responsible for autotrophic ammonia oxidation in an acidic forest soil. Soil Biology & Biochemistry 119:83-89 (IF=5.795, JCR 1 )

12. Jiang X. *, Hou X, Zhou X., Xin X., A. L. Wright, Jia Z.. 2015. pH regulates key players of nitrification in paddy soils. Soil Biology & Biochemistry 81: 9-16 (IF=5.795, JCR I)

13. X. Xin, A. L. Wright, Z. He, X. Jiang*. Manganese oxide affects nitrification and N2O emissions in a subtropical paddy soil with variable water regimes. European Journal of Soil Science, 2017, 68:749-757. (IF=3.742, JCR 1

14. Huang X., Zhu-Barker X. Horwath W. R. S. J. Faeflen, H. Luo, Xin X. Jiang X*. 2016. Effect of iron oxide on nitrification in two agricultural soils with different pH. Biogeosciences 13: 5609-5617. (IF=3.48, JCR I)

15. Huang X, H. Li, S. Li, Jiang X. 2016. Role of cationic polarization in humus-increased soil aggregate stability. European Journal of Soil Science 67, 341-350. (IF=3.742, JCR 1 )

16. Li S., Jiang X.*, Wang X., Wright A. L. 2015. No-till effects on soil nitrification and the dynamic changes in nitrifying microorganisms in a subtropical rice-based ecosystem: A long-term field study. Soil & Tillage Research 150: 132-138. (IF=4.601, JCR 1 )

17. Xin X. Jiang X. Su J., Yan X., N J. I, Faeflen S. J., X. Huang, Wright A. L. 2016. Manganese oxide affects nitrification and ammonia oxidizers in subtropical and temperate acid forest soils. Catena 137, 24-30. (IF=4.333, JCR 2)

18. Faeflen S.J., Jiang X. *, Li S., Xin X., Wright A.L. 2016. Autotrophic and heterotrophic nitrification in a highly acidic subtropical pine forest soil. Pedosphere 26: 904-910. (IF=3.736, JCR 2)

19. Jiang X. *, Xin X., Li S., Zhou J., Zhu T., Muller C., Cai Z., Wright A. L. 2015. Effects of Fe oxide on N transformations in subtropical acid soils. Scientific Reports 5: 8615 (IF=5.228, JCR 1 )

Website: https://www.researchgate.net/profile/Xianjun_Jiang



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