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== '''论文著作''' ==


Xing*, Z., Ma, T., Wu, L., Zhang, Z.,Ding*, J., Siemann, E. 2023. Foliar herbivory modifies arbuscular mycorrhizal fungal colonization likely through altering root flavonoids.Functional Ecology. https://doi.org/10.1111/1365-2435.14461.

Sun, X., Sun, Y., Cao, X., Zhai, X., Callaway, R., Wan, J., Flory, S., Huang*, W.,Ding, J. 2023. Trade-offs in non-native plant herbivore defences enhance performance.Ecology Letters. https://doi.org/10.1111/ele.14283

Yin, W., Zhou, L., Yang, K., Fang, J., Biere, A., Callaway, M., Wu, M., Yu, H., Shi, Y.,Ding*, J.2023.Rapid evolutionary tradeoffs between resistance to herbivory and tolerance to abiotic stress in an invasive plant.Ecology Letters26:942-954

Yu, H., He, Y., Zhang, W., Chen, L., Zhang, J., Zhang, X., Dawson, W.,Ding*, J. 2022. Greater chemical signaling in root exudates enhances soil mutualistic associations in invasive plants compared to natives.New Phytologist236:1140-1153.

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 Journal15:1919-1930

Yang, Q.,Ding*, J., Siemann E. 2019. Biogeographic variation of distance‐dependent effects in an invasive tree species.Functional Ecology33:1135-1143.

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 Ecology107:2713-2723.

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 Journal12:2811-2822

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 Phytologist211:1371–1381

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 Letters18:48-56

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 Communications5:4851

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 Biology19:2339–2347

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 B280:20131318

Huang, W., Carrillo, J.,Ding*, J. Siemann, E. 2012. Invader partitions ecological and evolutionary responses to above-and belowground herbivory.Ecology93:2343–2352

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 Ecology100:894–904

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 Applications21:729–738

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 invasive plant.Journal of Ecology98:1157–1167



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