High-throughput microbiome profiling and co-occurrence with antibiotic resistance genes in Lucilia sericata
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Blow flies such as Lucilia sericata (Diptera: Calliphoridae) serve important ecological functions as decomposers. However, due to their close association with decaying organic matter they also play potential roles as reservoirs for pathogenic bacteria and antimicrobial resistance genes (ARGs). In this study, we characterized the bacterial communities and resistome profiles of L. sericata specimens collected from six provinces across South Korea using 16S rRNA gene metabarcoding and targeted PCR screening. The microbiome was dominated by Dysgonomonas, Vagococcus, Pseudomonas, Ignatzschineria , and Providencia with geographic variation in community structure. Flies from Chungnam exhibited the lowest microbial diversity, while samples from Jeonnam and Gyeonggi showed greater richness and evenness. Beta diversity analyses confirmed geographic structuring of bacterial communities, with semi-urban, rural locations harboring more diverse taxa. Notably, opportunistic pathogens such as Proteus mirabilis and Providencia were detected, alongside a range of ARGs ( blaTEM , ermB , sul1 , aac(6′)-Ib-cr , cat and mecA) and integron elements ( intI and intII ), suggesting that L. sericata may act as a reservoir of clinically important microbes and resistance genes.
Importance
The environment plays a significant role in shaping the microbiome of flies. Due to their motile nature and close association with decomposing matter blow flies of the species Lucilia sericata can harbor diverse bacterial communities, including potential pathogens that threaten human and animal health. Furthermore, due to their synanthropic lifestyle, this species is also exposed to bacteria that host antibiotic resistance genes (ARGs). Here we investigate the role of blowflies as reservoirs of potential pathogens and ARGs using metabarcoding. Our study revealed a diverse microbiome and resistome shaped by location and possible biotic or abiotic factors. These findings provide baseline information for wildlife surveillance and emphasize the importance of including synanthropic flies in strategies aimed at controlling the dissemination of antibiotic resistance.
