Leveraging insect-specific viruses to elucidate mosquito population structure and dynamics

Several aspects of mosquito ecology that are important for vectored disease transmission and control have been difficult to measure at epidemiologically important scales in the field. In particular, the ability to describe mosquito population structure and movement rates has been hindered by difficu...

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Bibliographic Details
Published in:PLoS pathogens 2023-08, Vol.19 (8), p.e1011588-e1011588
Main Authors: Hollingsworth, Brandon D, Grubaugh, Nathan D, Lazzaro, Brian P, Murdock, Courtney C
Format: Article
Language:English
Subjects:
Analysis
Analytical methods
Animals
Biology and Life Sciences
Computer and Information Sciences
Control
Control programs
Costs
Dengue fever
Development and progression
Disease control
Disease transmission
Dispersal
Earth Sciences
Ecology
Ecology and Environmental Sciences
Epidemiology
Genetic aspects
Genetic diversity
Genetic Vectors
Genomics
Infections
Insect control
Insect Viruses
Insecta
Insects
Medicine and Health Sciences
Mosquitoes
Pathogens
Phylogeny
Population genetics
Population structure
Population studies
Populations
Prevalence studies (Epidemiology)
Public health
Review
Vector-borne diseases
Viruses
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Summary:Several aspects of mosquito ecology that are important for vectored disease transmission and control have been difficult to measure at epidemiologically important scales in the field. In particular, the ability to describe mosquito population structure and movement rates has been hindered by difficulty in quantifying fine-scale genetic variation among populations. The mosquito virome represents a possible avenue for quantifying population structure and movement rates across multiple spatial scales. Mosquito viromes contain a diversity of viruses, including several insect-specific viruses (ISVs) and "core" viruses that have high prevalence across populations. To date, virome studies have focused on viral discovery and have only recently begun examining viral ecology. While nonpathogenic ISVs may be of little public health relevance themselves, they provide a possible route for quantifying mosquito population structure and dynamics. For example, vertically transmitted viruses could behave as a rapidly evolving extension of the host's genome. It should be possible to apply established analytical methods to appropriate viral phylogenies and incidence data to generate novel approaches for estimating mosquito population structure and dispersal over epidemiologically relevant timescales. By studying the virome through the lens of spatial and genomic epidemiology, it may be possible to investigate otherwise cryptic aspects of mosquito ecology. A better understanding of mosquito population structure and dynamics are key for understanding mosquito-borne disease ecology and methods based on ISVs could provide a powerful tool for informing mosquito control programs.
ISSN:1553-7374
1553-7366
1553-7374
DOI:10.1371/journal.ppat.1011588