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1. Active and Covert Infections of Cricket Iridovirus and Acheta domesticus Densovirus in Reared Gryllodes sigillatus Crickets

   https://doi.org/10.3389/fmicb.2021.780796  

   Duffield, Kristin R.; Hunt, John; Sadd, Ben M.; Sakaluk, Scott K.; Oppert, Brenda; Rosario, Karyna; Behle, Robert W.; Ramirez, José L. (November 2021, Frontiers in Microbiology)

   Interest in developing food, feed, and other useful products from farmed insects has gained remarkable momentum in the past decade. Crickets are an especially popular group of farmed insects due to their nutritional quality, ease of rearing, and utility. However, production of crickets as an emerging commodity has been severely impacted by entomopathogenic infections, about which we know little. Here, we identified and characterized an unknown entomopathogen causing mass mortality in a lab-reared population of Gryllodes sigillatus crickets, a species used as an alternative to the popular Acheta domesticus due to its claimed tolerance to prevalent entomopathogenic viruses. Microdissection of sick and healthy crickets coupled with metagenomics-based identification and real-time qPCR viral quantification indicated high levels of cricket iridovirus (CrIV) in a symptomatic population, and evidence of covert CrIV infections in a healthy population. Our study also identified covert infections of Acheta domesticus densovirus (AdDNV) in both populations of G. sigillatus . These results add to the foundational research needed to better understand the pathology of mass-reared insects and ultimately develop the prevention, mitigation, and intervention strategies needed for economical production of insects as a commodity. 

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2. A worldwide overview of the status and prospects of edible insect production [A worldwide overview of the status and prospects of edible insect production]

   https://doi.org/10.1127/entomologia/2023/2279  

   Caparros_Megido, R; Francis, F; Haubruge, E; Le_Gall, P; Tomberlin, JK; Miranda, CD; Jordan, HR; Picard, CJ; Pino, MJM; Ramos-Elordy, J; et al (March 2024, Entomologia Generalis)

   Desneux, N (Ed.)

   There has been continuous and growing interest in edible insects. Worldwide, various levels of insect farming are emerging, ranging from small domestic farms to vertical farms reaching heights of 36 meters, accommodating several million growing insects. The appeal of insects lies in their ecological benefits, as they contribute to the valorization of underutilized organic residues while requiring minimal space and water. The selection of insect species is influenced not only by their biology and behavior but also by local preferences and customs, varying with the scale of production and geographical location. This review article aims to provide an updated overview of the main insect species produced across different continents, their current level of industrialization, and production prospects based on available literature. 

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3. BugBook: Black soldier fly as a model to assess behaviour of insects mass produced as food and feed

   Tomberlin, JK; Klammsteiner, T; Lemke, N; Yadav, P; Sandrock, C (May 2025, Journal of insects as food and feed)

   Behavioural research and its applications has a rich history in science with direct applications continuing to expand global understanding of ecosystem function, structure, and evolution. The same can be said for such research as related to the applied sciences including entomology. The purpose of this chapter is to provide context to various approaches for assessing behaviour of insects that are mass produced for food and feed. By using the black soldier fly as a model, various approaches for conducting such research are explored along with providing some perspective on the value of such data for optimising insect production. However, it should be noted that this chapter is not exhaustive with regards to variables that can be examined, or the methods employed. 

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4. Agri-food tech’s building block: narrating protein, agnostic of source, in the face of crisis

   https://doi.org/10.1057/s41292-022-00287-3  

   Guthman, Julie; Biltekoff, Charlotte (September 2023, BioSocieties)

   Inventive producers in Silicon Valley and other innovations sectors are going beyond the simulated animal products of plant-based proteins and cellular technologies to produce a third generation of protein products, making protein the leading edge of high tech food innovation. Since innovators draw on sources not generally recognized as food these products are speculative as both foods and investments. Building on scholarship that examines edibility formation of so-called alternative proteins, we show the deployment of three interlocking narratives that make novel protein products both edible and investible: protein is ubiquitous and protean, which provides myriad opportunities for technological transformation; its longtime associations with vigor, strength and energy, along with current day obsessions with the negatives of fats and carbohydrates, renders it the one remaining macronutrient that it is unequivocally good; and widely circulated discourses of both future shortages and the problems with contemporary livestock production makes producing more an almost indisputable solution. While innovators and investors act as if protein needs this sector to solve an impending crisis and bring its possibilities to fruition, we suggest the inverse—that without protein the sector would be nearly barren of novelty and food, much less the disruption and impact routinely claimed. 

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5. InsectChange: a global database of temporal changes in insect and arachnid assemblages

   https://doi.org/10.1002/ecy.3354  

   van Klink, Roel; Bowler, Diana E.; Comay, Orr; Driessen, Michael M.; Ernest, S. K. Morgan; Gentile, Alessandro; Gilbert, Francis; Gongalsky, Konstantin B.; Owen, Jennifer; Pe'er, Guy; et al (May 2021, Ecology)

   Abstract Insects are the most ubiquitous and diverse group of eukaryotic organisms on Earth, forming a crucial link in terrestrial and freshwater food webs. They have recently become the subject of headlines because of observations of dramatic declines in some places. Although there are hundreds of long‐term insect monitoring programs, a global database for long‐term data on insect assemblages has so far remained unavailable. In order to facilitate synthetic analyses of insect abundance changes, we compiled a database of long‐term (≥10 yr) studies of assemblages of insects (many also including arachnids) in the terrestrial and freshwater realms. We searched the scientific literature and public repositories for data on insect and arachnid monitoring using standardized protocols over a time span of 10 yr or longer, with at least two sampling events. We focused on studies that presented or allowed calculation of total community abundance or biomass. We extracted data from tables, figures, and appendices, and, for data sets that provided raw data, we standardized trapping effort over space and time when necessary. For each site, we extracted provenance details (such as country, state, and continent) as well as information on protection status, land use, and climatic details from publicly available GIS sources. In all, the database contains 1,668 plot‐level time series sourced from 165 studies with samples collected between 1925 and 2018. Sixteen data sets provided here were previously unpublished. Studies were separated into those collected in the terrestrial realm (103 studies with a total of 1,053 plots) and those collected in the freshwater realm (62 studies with 615 plots). Most studies were from Europe (48%) and North America (29%), with 34% of the plots located in protected areas. The median monitoring time span was 19 yr, with 12 sampling years. The number of individuals was reported in 129 studies, the total biomass was reported in 13 studies, and both abundance and biomass were reported in 23 studies. This data set is published under a CC‐BY license, requiring attribution of the data source. Please cite this paper if the data are used in publications, and respect the licenses of the original sources when using (part of) their data as detailed in Metadata S1: Table 1. 

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