生物
寄主(生物学)
肠道菌群
昆虫
进化生物学
生态学
动物
寄生虫学
进化生态学
生物病虫害防治
传输(电信)
机制(生物学)
农业害虫
沃尔巴克氏菌
进化动力学
昆虫学
生命史理论
实验进化
模型系统
病虫害综合治理
微生物群
发光杆菌属
生物进化
肠道细菌
航程(航空)
人类进化遗传学
作者
Zijing Zhang,Lin Xiao,David I. Gibson,Hao Zheng,L Li
标识
DOI:10.1111/1744-7917.70213
摘要
Insects, the most diverse group of animals, inhabit almost all environments on Earth. They are susceptible to a wide range of parasites, including entomopathogenic protozoans, nematodes, and ectoparasitic mites. These parasites manipulate host physiology via immunomodulation, endocrine disruption, and metabolic reprogramming. The long-term coexistence of insects and parasites has driven the evolution of intricate survival strategies. Insects deploy morphological, physiological, and behavioral adaptations to mitigate infection risks, whereas parasites counter with sophisticated mechanisms enhancing transmission and reproductive success. Emerging evidence indicates symbiotic microbiota as critical mediators in this evolutionary arms race, modulating infection outcomes through microbial-host-parasite crosstalk. Here, we review recent research progress on the effects of parasites on the development, reproduction, immunity, and behavior of insect hosts; the evolutionary dynamics between insects and parasites; and the interactions of host-parasite-microbiota in insects. Compared to mammals, insects provide a simple model system for elucidating conserved molecular mechanisms underlying host-parasite-gut microbiota interactions. This paradigm not only advances fundamental understanding of evolutionary parasitology but also pioneers microbial-based biocontrol approaches, offering sustainable alternatives for agricultural pest management and economic insect conservation.
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