Interaction of High Temperature Stress and Wolbachia Infection on the Biological Characteristic of Drosophila melanogaster

Hu, Die; Li, W.; Ju, Wang; Peng, Yaqi; Yao, Yun; Peng, Yu

doi:10.3390/insects14060558

Insects

2023

DOI: 10.3390/insects14060558

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Interaction of High Temperature Stress and Wolbachia Infection on the Biological Characteristic of Drosophila melanogaster

Die Hu

W. Li

Wang Ju

et al.

Abstract: It was reported that temperature affects the distribution of Wolbachia in the host, but only a few papers reported the effect of the interaction between high temperature and Wolbachia on the biological characteristic of the host. Here, we set four treatment Drosophila melanogaster groups: Wolbachia-infected flies in 25 °C (W+M), Wolbachia-infected flies in 31 °C (W+H), Wolbachia-uninfected flies in 25 °C (W-M), Wolbachia-uninfected flies in 31 °C (W-H), and detected the interaction effect of temperature and Wo… Show more

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2024

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Wolbachia infection negatively impacts Drosophila simulans heat tolerance in a strain‐ and trait‐specific manner

Ferguson,

Ross,

van Heerwaarden

2024

Environmental Microbiology

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The susceptibility of insects to rising temperatures has largely been measured by their ability to survive thermal extremes. However, the capacity for maternally inherited endosymbionts to influence insect heat tolerance has been overlooked. Further, while some studies have addressed the impact of heat on traits like fertility, which can decline at temperatures below lethal thermal limits, none have considered the impact of endosymbionts. Here, we assess the impact of three Wolbachia strains (wRi, wAu and wNo) on the survival and fertility of Drosophila simulans exposed to heat stress during development or as adults. The effect of Wolbachia infection on heat tolerance was generally small and trait/strain specific. Only the wNo infection significantly reduced the survival of adult males after a heat shock. When exposed to fluctuating heat stress during development, the wRi and wAu strains reduced egg‐to‐adult survival but only the wNo infection reduced male fertility. Wolbachia densities of all three strains decreased under developmental heat stress, but reductions occurred at temperatures above those that reduced host fertility. These findings emphasize the necessity to account for endosymbionts and their effect on both survival and fertility when investigating insect responses to heat stress.

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Wolbachia infection negatively impacts Drosophila simulans heat tolerance in a strain‐ and trait‐specific manner

Ferguson,

Ross,

van Heerwaarden

2024

Environmental Microbiology

View full text Add to dashboard Cite

show abstract

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Interaction of High Temperature Stress and Wolbachia Infection on the Biological Characteristic of Drosophila melanogaster

Cited by 1 publication

References 42 publications

Wolbachia infection negatively impacts Drosophila simulans heat tolerance in a strain‐ and trait‐specific manner

Wolbachia infection negatively impacts Drosophila simulans heat tolerance in a strain‐ and trait‐specific manner

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