4.7 Article

Evaluation of Transgenerational Effects of Sublethal Imidacloprid and Diversity of Symbiotic Bacteria on Acyrthosiphon gossypii

Journal

INSECTS
Volume 14, Issue 5, Pages -

Publisher

MDPI
DOI: 10.3390/insects14050427

Keywords

cyrthosiphon gossypii; imidacloprid; hormesis; transgenerational effects; symbiotic bacteria

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This study investigated the toxicity and sublethal effects of the neonicotinoid insecticide imidacloprid on Acyrthosiphon gossypii and its symbiotic bacteria. The results showed that imidacloprid had a negative impact on the reproduction and longevity of A. gossypii, and altered the abundance of symbiotic bacteria. These findings provide insight into the transgenerational and sublethal effects of imidacloprid on A. gossypii and its implications for symbiotic bacteria.
Simple Summary: Acyrthosiphon gossypii is a sap-sucking pest that causes direct cotton damage by sucking sap and indirect damage by honeydew contamination and induced fungal growth. Chemical pesticides are widely used to combat the damage caused by A. gossypii. However, the escalating use of pesticides has had a notable impact on the resurgence and resistance of pests. In addition, microbes that live in insects as symbionts have recently been found to protect their hosts against toxins. In this study, we determined the toxicity and sublethal effects of the neonicotinoid insecticide imidacloprid on A. gossypii and further determined the effects of imidacloprid on symbiotic bacteria. The sublethal concentrations of imidacloprid had a negative effect on the reproduction and longevity of the G0 generation of A. gossypii, increased the population growth parameters of the G1 and G2 generations, but not those of the G3 generation, and altered the abundance of symbiotic bacteria. Our results revealed the transgenerational and sublethal effects of imidacloprid on A. gossypii, which may have implications for the endosymbiont-insecticide of the major pest. Symbiotic bacteria and hormesis in aphids are the driving forces for pesticide resistance. However, the mechanism remains unclear. In this study, the effects of imidacloprid on the population growth parameters and symbiotic bacterial communities of three successive generations of Acyrthosiphon gossypii were investigated. The bioassay results showed that imidacloprid had high toxicity to A. gossypii with an LC50 of 1.46 mg center dot L-1. The fecundity and longevity of the G0 generation of A. gossypii decreased when exposed to the LC15 of imidacloprid. The net reproductive rate (R-0), intrinsic rate of increase (r(m)), finite rate of increase (lambda), and total reproductive rate (GRR) of G1 and G2 offspring were significantly increased, but those of the control and G3 offspring were not. In addition, sequencing data showed that the symbiotic bacteria of A. gossypii mainly belonged to Proteobacteria, with a relative abundance of 98.68%. The dominant genera of the symbiotic bacterial community were Buchnera and Arsenophonus. After treatment with the LC15 of imidacloprid, the diversity and species number of bacterial communities of A. gossypii decreased for G1-G3 and the abundance of Candidatus-Hamiltonella decreased, but Buchnera increased. These results provide insight into the resistance mechanism of insecticides and the stress adaptation between symbiotic bacteria and aphids.

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