Abstract
BackgroundHouseflies (Musca domestica L.) live in intimate association with numerous microorganisms and is a vector of human pathogens. In temperate areas, houseflies will overwinter in environments constructed by humans and recolonize surrounding areas in early summer. However, the dispersal patterns and associated bacteria across season and location are unclear. We used genotyping-by-sequencing (GBS) for the simultaneous identification and genotyping of thousands of Single Nucleotide Polymorphisms (SNPs) to establish dispersal patterns of houseflies across farms. Secondly, we used 16S rRNA gene amplicon sequencing to establish the variation and association between bacterial communities and the housefly across farms.ResultsUsing GBS we identified 18,000 SNPs across 400 individuals sampled within and between 11 dairy farms in Denmark. There was evidence for sub-structuring of Danish housefly populations and with genetic structure that differed across season and sex. Further, there was a strong isolation by distance (IBD) effect, but with large variation suggesting that other hidden geographic barriers are important. Large individual variations were observed in the community structure of the microbiome and it was found to be dependent on location, sex, and collection time. Furthermore, the relative prevalence of putative pathogens was highly dependent on location and collection time.ConclusionWe were able to identify SNPs for the determination of the spatiotemporal housefly genetic structure, and to establish the variation and association between bacterial communities and the housefly across farms using novel next-generation sequencing (NGS) techniques. These results are important for disease prevention given the fine-scale population structure and IBD for the housefly, and that individual houseflies carry location specific bacteria including putative pathogens.
Highlights
Houseflies (Musca domestica L.) live in intimate association with numerous microorganisms and is a vector of human pathogens
After stringent filtering based on coverage and presence in the 400 individuals, 18,287 loci Single nucleotide polymorphisms (SNP) had a sufficiently high quality for downstream genetic analysis, with an overall call rate of 92.97%
In conclusion, the results of the present study detected a distribution of potential human pathogens dictated by locations and season, and genetic structure dominated by isolation by distance (IBD) across sex and season
Summary
Houseflies (Musca domestica L.) live in intimate association with numerous microorganisms and is a vector of human pathogens. The dispersal patterns and associated bacteria across season and location are unclear. The housefly is a cosmopolitan species and lives in close association with humans. It breeds in animal manure, human excrement, garbage, animal bedding, and decaying organic matter where bacteria are abundant [1]. The housefly has been found as a carrier of pathogenic bacteria such as Salmonella spp. Results have shown the housefly to be an important vector of human pathogens such as Campylobacter spp. and Shigella spp. Dispersal patterns of the housefly and the variation and association of bacteria with the housefly across locations are unclear [8]
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