丁建清

丁建清

个人简历

丁建清,教授,博士生导师。河南大学“攀登计划”第一层次特聘教授,河南大学生态学学科带头人。

2002年在中国农业大学获昆虫学博士学位;2002-2006分别在美国康乃尔大学和密歇根州立大学进行博士后研究。2006年入选中国科学院百人计划并获择优支持;2006-2016年在中国科学院武汉植物园担任研究员,2014.10-2016.7年担任中国科学院武汉植物园副主任(副所长)。19892002年分别在北京市农科院和中国农科院工作(期间:1994年作为访问学者在国际农业与生物研究中心(CABI)瑞士分中心参加合作研究;1996年在澳大利亚科工组织(CSIRO)及昆士兰大学接受国际生物防治短期培训;2001年在南非国家植物保护研究所(PPRI)开展生物入侵短期合作研究)。

目前兼任中国生态学会生物入侵专业委员会副主任,Journal of Plant Ecology、生物多样性、植物科学学报、生物安全学报、杂草学报等编委。曾兼任国际生物防治组织(IOBC)副主席。

近年来先后主持基金委区域联合重点项目、国家重点研发计划课题、国家科技支撑计划、国家重点研发专项、973计划、国家林业局项目、国际合作项目以及国家自然科学基金等多个项目;以第一或通讯作者发表SCI期刊文章200余篇,其中包括Nature Communications, Ecology Letters, The ISME Journal等;荣获多项省部级科技成果奖励;获得中国科学院百人计划终期评估优秀奖;培养的研究生连续两年获得中国科学院优秀博士论文奖


主要研究方向

植物入侵机制及生态安全效应;入侵植物-昆虫-微生物的互作关系及演化;农林重大有害生物灾变机制及绿色防控


代表性论文

Xiao Sun, Yumei Sun, Xueyao Cao, Xincong Zhai, Ragan M. Callaway, Jinlong Wan, S. Luke Flory, Wei Huang*, Jianqing Ding. 2023. Trade-offs in non-native plant herbivore defenses enhance performance. Ecology Letters, 26: 1584-1596

Wandong Yin, … Jianqing Ding*. 2023. Rapid evolutionary tradeoffs between resistance to herbivory and tolerance to abiotic stress in an invasive plant. Ecology Letters, 26: 942-954

Tian BL, Pei YC, Huang W, Ding JQ, Siemann E. 2021. Increasing flavonoid concentrations in root exudates enhance associations between arbuscular mycorrhizal fungi and an invasive plant. The ISME Journal, 15(7): 1919-1930

Hongwei Yu, Yingying He, Wen Zhang, Li chen, junli Zhang, Xuebin Zhang, Wayne Dawson, Jianging Ding. 2022. Greater chemical signaling in root exudates enhances soil mutualistic associations in invasive plants compared to natives. New Phytologist, 236: 1140-1153

Tian BL, Pei YC, Li WQ, Zhang JL, Zhang SL, Ding JQ, Zhang XB, Siemann E. 2024. Gene expression controlling signalling molecules within mutualistic associations of an invasive plant: An evolutionary perspective. Journal of Ecology, 112(8): 1683-1922

Zhenlong Xing, Zhongyue Zhang, Yige Zhao, Arjen Biere, Siqiao Liu, Yu Shi*, Jianqing Ding*. Foliar herbivory-enhanced mycorrhization is associated with increased levels of lipids in root and root exudates, Journal of Ecology, 2024, 112: 701-716

Zhenlong Xing*; Tiantian Ma; Libo Wu; Zhongyue Zhang; Jianqing Ding; Evan Siemann; Foliar herbivory modifies arbuscular mycorrhizal fungal colonization likely through altering root flavonoids, Functional Ecology, 2024, 38: 259-271

Tian, B., Pei,Y., Huang, W., Ding*, J., Siemann, E. 2020. Increasing flavonoid concentrations in root exudates enhance associations between arbuscular mycorrhizal fungi and an invasive plant. The ISME Journal. https://doi.org/10.1038/s41396-021-00894-1

Yang, Q., Ding*, J., Siemann E. 2019. Biogeographic variation of distancedependent effects in an invasive tree species, Functional Ecology, 33: 1135-1143.

Sun X., Siemann E., Liu Z., Wang, Q., Wang D., Huang, W., Zhang, C., Ding*, J. 2019. Root feeding larvae increase their performance by inducing leaf volatiles that attract aboveground conspecific adults, Journal of Ecology, 107: 2713-2723.

Lu X, He M, Ding*, J, Siemann E. 2018. Latitudinal variation in soil biota: testing the biotic interaction hypothesis with an invasive plant and a native congener. The ISME Journal, 12:2811-2822.

Lu*, X., Siemann, E., He, M., Wei, H., Shao, X., Ding*, J. 2016. Warming benefits a native species competing with an invasive congener in the presence of a biocontrol beetle. New Phytologist, 211: 1371–1381

Li, X., Guo, W.,Siemann, E., Wen, Y., Huang, W., Ding*, J. 2016 Plant genotypes affect aboveground and belowground herbivore interactions by changing chemical defense. Oecologia, 182:1107–1115

Lu, X., Siemann, E., He, M., Wei, H., Shao, X., Ding*, J. 2015. Climate warming increases biological control agent impact on a non-target species. Ecology Letters, 18, 48-56

Lin, W., Yu. F., Tian, J., Xiang, M, Sun., J., Ding, J., Yin., W., Stadler, M., Che,Y., Liu, X. 2015. Farming of a defensive fungal mutualist by an attelabid weevil. The ISME Journal, 9:1793-801

Huang, W., Siemann, E., Li, X., Yang, X., Ding* J. 2014. Species-specific defense responses facilitate conspecifics and inhibit heterospecifics in above-belowground herbivore interactions. Nature Communications, 5:4851

Lu. X., Siemann, E., Shao, X., Wei, H., Ding*, J. 2013. Climate warming affects biological invasions by shifting interactions of plants and herbivores. Global Change Biology, 19, 2339–2347

Huang, W., Siemann, E., Yang, X., Wheeler, S.G., Ding* J. 2013. Facilitation and inhibition: changes in plant nitrogen and secondary metabolites mediate interactions between aboveground and belowground herbivores. Proceedings of the Royal Society B, 280: 20131318

Huang, W., Carrillo, J., Ding* J. Siemann, E. 2012. Invader partitions ecological and evolutionary responses to above-and belowground herbivory. Ecology, 93:2343–2352

Wang, Y., Siemann, E., Wheeler, G.S., Zhu, L., Gu, X., Ding*, J. 2012. Genetic variation in anti-herbivore chemical defences in an invasive plant . Journal of Ecology, 100, 894–904

Huang, W.,Carrillo, J., Ding*, J., Siemann, E. 2012. Interactive effects of herbivory and competition intensity determine invasive plant performance. Oecologia, 170:373-82

Wang. Y., Huang, W., Siemann, E., Zou, J., Wheeler, S.G., Carrillo, J., Ding* J. 2011. Lower resistance and higher tolerance of host plants: biological control agents reach high densities but exert weak control. Ecological Applications, 21: 729–738

Huang, W., Siemann, E., Wheeler, S.G., Zou, J., Carrillo, J., Ding* J. 2010. Resource allocation to defense and growth are driven by different responses to generalist and specialist herbivory in an invasiveplant. Journal of Ecology, 98: 1157–1167

Ding, J., Mack, R.N., Lu, L., Ren, M., Huang, H. 2008 China’s booming economy is sparking and accelerating biological invasions. BioScience, 58: 317-324


联系方式

Email:jding@henu.edu.cn


实验室网页

http://bab.henu.edu.cn/