Insights in the global genetics and gut microbiome of black soldier fly, hermetia illucens : implications for animal feed safety control

This study delineates genetic variability and unravels gut microbiome complex of wild-collected and domesticated BSF populations from six continents using mitochondrial COI gene and 16S metagenomics. Alpha-diversity 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 (Maysville) and Netherlands populations to be the most dissimilar. The 16S data depicted larval gut bacterial families with economically important genera that might pose health risks to both animals and humans. To minimize risk of pathogen contamination along the insect-based feed value chain, this study recommends pre-treatment of feedstocks.Netherlands Organization for Scientific ResearchWOTRO Science for Global Development (NWO-WOTRO)Australian Centre for International Agricultural Research (ACIAR)Rockefeller Foundatio

Metarhizium anisopliae infection reduces Trypanosoma congolense reproduction in Glossina fuscipes fuscipes and its ability to acquire or transmit the parasite

Abstract Background Tsetse fly-borne trypanosomiasis remains a significant problem in Africa despite years of interventions and research. The need for new strategies to control and possibly eliminate trypanosomiasis cannot be over-emphasized. Entomopathogenic fungi (EPF) infect their hosts through the cuticle and proliferate within the body of the host causing death in about 3–14 days depending on the concentration. During the infection process, EPF can reduce blood feeding abilities in hematophagous arthropods such as mosquitoes, tsetse flies and ticks, which may subsequently impact the development and transmission of parasites. Here, we report on the effects of infection of tsetse fly (Glossina fuscipes fuscipes) by the EPF, Metarhizium anisopliae ICIPE 30 wild-type strain (WT) and green fluorescent protein-transformed strain (GZP-1) on the ability of the flies to harbor and transmit the parasite, Trypanosoma congolense. Results Teneral flies were fed T. congolense-infected blood for 2 h and then infected using velvet carpet fabric impregnated with conidia covered inside a cylindrical plastic tube for 12 h. Control flies were fed with T. congolense-infected blood but not exposed to the fungal treatment via the carpet fabric inside a cylindrical plastic tube. Insects were dissected at 2, 3, 5 and 7 days post-fungal exposure and the density of parasites quantified. Parasite load decreased from 8.7 × 107 at day 2 to between 8.3 × 104 and 1.3 × 105 T. congolense ml− 1 at day 3 post-fungal exposure in fungus-treated (WT and GZP-1) fly groups. When T. congolense-infected flies were exposed to either fungal strain, they did not transmit the parasite to mice whereas control treatment flies remained capable of parasite transmission. Furthermore, M. anisopliae-inoculated flies which fed on T. congolense-infected mice were not able to acquire the parasites at 4 days post-fungal exposure while parasite acquisition was observed in the control treatment during the same period. Conclusions Infection of the vector G. f. fuscipes by the entomopathogenic fungus M. anisopliae negatively affected the multiplication of the parasite T. congolense in the fly and reduced the vectorial capacity to acquire or transmit the parasite

A new edible cricket species from Africa of the genus Scapsipedus

Tanga, Chrysantus M., Magara, Henlay J. O., Ayieko, Monica A., Copeland, Robert S., Khamis, Fathiya M., Mohamed, Samira A., Ombura, Fidelis L. O., Niassy, Saliou, Subramanian, Sevgan, Fiaboe, Komi K. M., Roos, Nanna, Ekesi, Sunday, Hugel, Sylvain (2018): A new edible cricket species from Africa of the genus Scapsipedus. Zootaxa 4486 (3): 383-392, DOI: https://doi.org/10.11646/zootaxa.4486.3.