Role of Gut Bacteria in Enhancing Host Adaptation of Tuta absoluta to Different Host Plants

The insect gut bacteria play important roles in insect development and growth, such as immune defense, nutrient metabolism, regulating insect adaptations for plants, etc. The (Meyrick) is a destructive invasive pest that mainly feeds on solanaceae plants. However, the relationship between gut microf...

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Bibliographic Details
Published in:Insects (Basel, Switzerland) Switzerland), 2024-10, Vol.15 (10), p.795
Main Authors: Shang, Luo-Hua, Cai, Xiang-Yun, Li, Xiu-Jie, Wang, Yu-Zhou, Wang, Jin-Da, Hou, You-Ming
Format: Article
Language:English
Subjects:
Adaptability
Adaptation
Agricultural production
Bacteria
bacterial biomarker
Biomarkers
Control methods
Egg production
Enterobacter cloacae
Environmental aspects
Enzymes
Feeding
Flowers & plants
Food and nutrition
Genetic aspects
host adaptability
Host plants
Host preferences
Identification and classification
Immune system
insect gut bacteria
Insect-plant relationships
Insects
Invasive species
Larvae
Leaves
Metabolites
Microbiota (Symbiotic organisms)
Microflora
Moths
Pest control
Pests
Physiological aspects
Physiology
Plant layout
Plants
Potatoes
Proteins
Sequences
SMRT
Strains (organisms)
Tomatoes
Tuta absoluta
Vegetables
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Summary:The insect gut bacteria play important roles in insect development and growth, such as immune defense, nutrient metabolism, regulating insect adaptations for plants, etc. The (Meyrick) is a destructive invasive pest that mainly feeds on solanaceae plants. However, the relationship between gut microflora and host adaption of remains to be known. In this study, we first compared the survival adaptability of feeding with two host plants (tomatoes and potatoes). The completed the generation cycle by feeding on the leaves of both plants. However, the larvae feeding on tomato leaves have shorter larvae durations, longer adult durations, and a greater number of egg production per female. After Single Molecular Real-Time (SMRT) sequencing, according to the LDA Effect Size (LEfSe) analysis, the gut bacterial biomarker of fed on tomato was and the gut bacterial biomarker of fed on potatoes was and . Furthermore, a total of 6 and 7 culturable bacteria were isolated from the guts of tomato- and potato-treated , respectively. However, the isolated strains included bacterial biomarkers and but not . In addition, different stains bacterial biomarkers on feeding selection were also studied. enhanced the host preference of the SLTA ( of tomato strain) for tomato but had no impact on STTA ( of potato strain). improved the host preference of STTA to a potato but did not affect SLTA. The results showed that the gut bacteria of were affected by exposure to different host plants, and the bacterial biomarkers played an important role in host adaptability. This study not only deepens our understanding of gut bacteria-mediated insect-plant interactions but also provides theoretical support for the development of environmentally friendly and effective agricultural pest control methods.
ISSN:2075-4450
2075-4450
DOI:10.3390/insects15100795