AUTHOR=Khamis Fathiya M. , Ombura Fidelis L. O. , Akutse Komivi S. , Subramanian Sevgan , Mohamed Samira A. , Fiaboe Komi K. M. , Saijuntha Weerachai , Van Loon Joop J. A. , Dicke Marcel , Dubois Thomas , Ekesi Sunday , Tanga Chrysantus M. 

TITLE=Insights in the Global Genetics and Gut Microbiome of Black Soldier Fly, Hermetia illucens: Implications for Animal Feed Safety Control

JOURNAL=Frontiers in Microbiology

VOLUME=11

YEAR=2020

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2020.01538

DOI=10.3389/fmicb.2020.01538

ISSN=1664-302X

ABSTRACT=<p>The utilization of the black soldier fly (BSF) <italic>Hermetia illucens</italic> L. for recycling organic waste into high-quality protein and fat biomass for animal feeds has gained momentum worldwide. However, information on the genetic diversity and environmental implications on safety of the larvae is limited. This study delineates genetic variability and unravels gut microbiome complex of wild-collected and domesticated BSF populations from six continents using mitochondrial <italic>COI</italic> gene and 16S metagenomics. All sequences generated from the study linked to <italic>H. illucens</italic> accessions KM967419.1, FJ794355.1, FJ794361.1, FJ794367.1, KC192965.1, and KY817115.1 from GenBank. Phylogenetic analyses of the sequences generated from the study and rooted by GenBank accessions of <italic>Hermetia albitarsis</italic> Fabricius and <italic>Hermetia sexmaculata</italic> Macquart separated all samples into three branches, with <italic>H. illucens</italic> and <italic>H. sexmaculata</italic> being closely related. Genetic distances between <italic>H. illucens</italic> samples from the study and GenBank accessions of <italic>H. illucens</italic> ranged between 0.0091 and 0.0407 while <italic>H. sexmaculata</italic> and <italic>H. albitarsis</italic> samples clearly separated from all <italic>H. illucens</italic> by distances of 0.1745 and 0.1903, respectively. Genetic distance matrix was used to generate a principal coordinate plot that further confirmed the phylogenetic clustering. Haplotype network map demonstrated that Australia, United States 1 (Rhode Island), United States 2 (Colorado), Kenya, and China shared a haplotype, while Uganda shared a haplotype with GenBank accession <ext-link ext-link-type="DDBJ/EMBL/GenBank" xlink:href="KC192965" xmlns:xlink="http://www.w3.org/1999/xlink">KC192965</ext-link> BSF from United States. All other samples analyzed had individual haplotypes. Out of 481,695 reads analyzed from 16S metagenomics, four bacterial families (Enterobactereaceae, Dysgonomonadaceae, Wohlfahrtiimonadaceae, and Enterococcaceae) were most abundant in the BSF samples. Alpha-diversity, as assessed by Shannon index, showed that the Kenyan and Thailand populations had the highest and lowest microbe diversity, respectively; while microbial diversity assessed through Bray Curtis distance showed United States 3 (Maysville) and Netherlands populations to be the most dissimilar. Our findings on genetic diversity revealed slight phylogeographic variation between BSF populations across the globe. The 16S data depicted larval gut bacterial families with economically important genera that might pose health risks to both animals and humans. This study recommends pre-treatment of feedstocks and postharvest measures of the harvested BSF larvae to minimize risk of pathogen contamination along the insect-based feed value chain.</p>