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2021
1. Fu W., Liu X., Rao C., Ji R., Bing X., Li J., Wang Y. and Xu H. * (2021)
Screening Candidate Effectors of the Bean Bug Riptortus pedestris by Proteomic
and Transcriptomic Analyses. Frontiers in Ecology and Evolution, 9:760368.
(IF=4.1)
2. Xu, H.; Zhao, J.; Li, F.; Yan, Q.; Meng, L. & Li, B. * (2021). Chemical
polymorphism regulates the attractiveness to nymphs in the bean bug Riptortus
pedestris. Journal of Pest Science, 94: 463–472 (IF=5.9)
3. Wang, Z., Zhu, W., Chen, F., Yue, L., Ding, Y., Xu, H., Sergio R. & Xiao, Z. *
(2021). Nanosilicon enhances maize resistance against oriental armyworm
(Mythimna separata) by activating the biosynthesis of chemical defenses. Science
of the Total Environment, 778, 146378. (IF=7.9)
2020
4. Xu, H.*; Zhou, G.; Dötterl, S.; Schäffler, I.; Degen, T.; Chen L.; Turlings, T.C.J.*
(2020). The distinct role of common cuticular aldehydes as pheromonal cues in
two Cotesia parasitoids. Journal of Chemical Ecology, 46: 128–137. (IF=2.4)
5. Liu, X. L., Zhang, J., Yan, Q., Miao, C. L., Han, W. K., Hou, W., Yang K.,
Hansson B. S., Peng Y., Guo J., Xu H., Wang C., Dong S*., & Knaden, M.*
(2020). The molecular basis of host selection in a crucifer-specialized moth.
Current Biology, 30(22), 4476-4482. (IF=10.8)
2019
6. Xu, H.; Wang, X.; Chi, G; Tan, B. & Wang, J. * (2019). Effects of Bacillus
thuringiensis genetic engineering on induced volatile organic compounds
emission in maize and the attractiveness to a parasitic wasp. Frontiers in
Bioengineering and Biotechnology, 7. (IF=5.1)
7. Xu, H.; Zhou, G.; Dötterl, S.; Schäffler, I.; von Arx, M.; Röder, G.; Degen, T.;
Chen, L. & Turlings, T.C.J. * (2019). The combined use of an attractive and a
repellent sex pheromonal component by a gregarious parasitoid (封面文章).
Journal of Chemical Ecology, 45: 559–569. (IF=2.4)
2018
8. Ye, M., Veyrat, N., Xu, H., Hu, L., Turlings, T.C.J. * & Erb, M. * (2018). An
herbivore-induced plant volatile reduces parasitoid attraction by changing the
smell of caterpillars. Science Advances, 4, eaar4767 (IF=11.51)
9. Xu H.* & Turlings, T.C.J.* (2018). Plant Volatiles as Mate Finding Cues for
Insects (封面文章). Trends in Plant Science, 23(2): 100~111。(IF=14.1)
2017
10. Desurmont, G.A.; Köhler, A.; Maag, D.; Laplanche, D.; Xu, H.; Baumann, J.;
Demairé, C.; Devenoges, D.; Glavan, M.; Mann, L. & Turlings, T. (2017). The
spitting image of plant defenses: effects of plant secondary chemistry on the
efficacy of caterpillar regurgitant as an anti-predator defense. Ecology and
Evolution, 7, 6304-6313. (IF=2.44)
11. Xu, H.; Desurmont, G.; Degen, T.; Zhou, G.; Laplanche, D.; Henryk, L. &
Turlings, T.C.J.*, (2017). Combined use of herbivore-induced plant volatiles and
sex pheromones for mate location in braconid parasitoids (封面文章). Plant, Cell
& Environment, 40(3): 330~339.(IF=6.17)
美国普渡大学 Ian Kaplan 教授评论了该文章:“A cry for help or sexual perfumes? An
alternative hypothesis for wasp attraction to the scent of caterpillar-wounded plants”。
2016
12. Desurmont, G.A.*; Xu, H. & Turlings, T.C., (2016). Powdery mildew suppresses
herbivore-induced plant volatiles and interferes with parasitoid attraction in
Brassica rapa. Plant, Cell & Environment, 39, 1920-1927. (IF=6.17)
2015
13. Erb, M.*; Veyrat, N.; Robert, C. A.; Xu, H.; Frey, M.; Ton, J.; & Turlings, T.C.*,
(2015). Indole is an essential herbivore-induced volatile priming signal in maize.
Nature Communications, 6, 6273. (IF=11.33)
14. Hu, G.L.; Yan, G.; Xu, H. & Hua, B.Z.* (2015). Molecular phylogeny of
Panorpidae (Insecta: Mecoptera) based on mitochondrial and nuclear genes.
Molecular Phylogenetics and Evolution, 85, 22-31. (IF=3.79)
2014
15. Xu, H.; Veyrat, N.; Degen, T. & Turlings, T.C.J.* (2014). Exceptional use of sex
pheromones by parasitoids of the genus Cotesia: males are strongly attracted to
virgin females, but are no longer attracted to or even repelled by mated females.
Insects, 5, 499-512. (IF=1.85)
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