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      Grinding as a slaughter method for farmed black soldier fly ( Hermetia illucens) larvae: Empirical recommendations to achieve instantaneous killing

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          Abstract

          At least 200 billion black soldier fly ( Hermetia illucens) larvae (BSFL) are reared each year as food and feed, and the insect farming industry is projected to grow rapidly. Despite interest by consumers, producers, and legislators, no empirical evidence exists to guide producers in practicing humane – or instantaneous – slaughter for these novel mini-livestock. BSFL may be slaughtered via freezing, boiling, grinding, or other methods; however standard operating procedures (SOPs) and equipment design may affect the likelihood of instantaneous death using these methods. We tested how larval body size and particle size plate hole diameter affect the likelihood of instantaneous death for black soldier fly larvae that are slaughtered using a standard meat grinder. Larval body size did not affect the likelihood of instantaneous death for larvae that are 106–175 mg in mass. However, particle size plate hole diameter had a significant effect on the likelihood of instantaneous death, with only 54% of larvae experiencing an instant death when using the largest particle size plate (12-mm hole diameter) compared to 84% using the smallest particle size plate (2.55 mm). However, a higher percentage of instantaneous death (up to 99%) could be achieved by reducing the proportion of larvae that become stuck in the machine. We conclude by outlining specific recommendations to support producers in achieving a 99% instantaneous death rate through specific SOPs to be used with similarly designed machines. We also develop a protocol for producers that wish to test their own grinding SOPs.

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          glmmTMB balances speed and flexibility among packages for zero-inflated generalized linear mixed modeling

          Count data can be analyzed using generalized linear mixed models when observations are correlated in ways that require random effects. However, count data are often zero-inflated, containing more zeros than would be expected from the typical error distributions. We present a new package, glmmTMB, and compare it to other R packages that fit zero-inflated mixed models. The glmmTMB package fits many types of GLMMs and extensions, including models with continuously distributed responses, but here we focus on count responses. glmmTMB is faster than glmmADMB, MCMCglmm, and brms, and more flexible than INLA and mgcv for zero-inflated modeling. One unique feature of glmmTMB (among packages that fit zero-inflated mixed models) is its ability to estimate the Conway-Maxwell-Poisson distribution parameterized by the mean. Overall, its most appealing features for new users may be the combination of speed, flexibility, and its interface’s similarity to lme4. The R journal, 9 (2) ISSN:2073-4859
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            Potential of insects as food and feed in assuring food security.

            With a growing world population and increasingly demanding consumers, the production of sufficient protein from livestock, poultry, and fish represents a serious challenge for the future. Approximately 1,900 insect species are eaten worldwide, mainly in developing countries. They constitute quality food and feed, have high feed conversion ratios, and emit low levels of greenhouse gases. Some insect species can be grown on organic side streams, reducing environmental contamination and transforming waste into high-protein feed that can replace increasingly more expensive compound feed ingredients, such as fish meal. This requires the development of cost-effective, automated mass-rearing facilities that provide a reliable, stable, and safe product. In the tropics, sustainable harvesting needs to be assured and rearing practices promoted, and in general, the food resource needs to be revalorized. In the Western world, consumer acceptability will relate to pricing, perceived environmental benefits, and the development of tasty insect-derived protein products.
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              State-of-the-art on use of insects as animal feed

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                Author and article information

                Contributors
                Role: ConceptualizationRole: Data curationRole: Formal analysisRole: InvestigationRole: MethodologyRole: VisualizationRole: Writing – original draftRole: Writing – review & editing
                Role: InvestigationRole: MethodologyRole: Writing – original draftRole: Writing – review & editing
                Role: Investigation
                Role: InvestigationRole: MethodologyRole: Writing – review & editing
                Role: Formal analysisRole: VisualizationRole: Writing – review & editing
                Role: Investigation
                Role: ConceptualizationRole: SupervisionRole: Writing – review & editing
                Role: ConceptualizationRole: Funding acquisitionRole: ResourcesRole: SupervisionRole: Writing – review & editing
                Journal
                Anim Welf
                Anim Welf
                AWF
                Animal Welfare
                Cambridge University Press (Cambridge, UK )
                0962-7286
                2054-1538
                2024
                12 March 2024
                : 33
                : e16
                Affiliations
                [1 ]Department of Biology, Indiana University Indianapolis , Indianapolis, IN, USA
                [2 ]Department of Biology, California State University Dominguez Hills , Carson, CA, USA
                [3 ]Department of Biology, Howard Payne University , Brownwood, TX, USA
                [4 ]Department of Entomology, Texas A & M University , College Station, TX, USA
                [5 ]Insect Welfare Research Society, Indianapolis, IN, USA
                [6 ]Department of Philosophy, Texas State University , San Marcos, TX, USA
                Author notes
                Corresponding author: Meghan Barrett; Email: meghbarr@ 123456iu.edu

                Author contributions: Conceptualisation: MB, BF, JT; Data curation: MB; Formal analysis: CP, MB; Investigation: MB, CM, IV, CF, AM; Supervision: JT, BF; Methodology: MB, CM, CF; Visualisation: CP, MB; Resources: JT; Funding acquisition: JT; Writing – original draft: MB, CM; Writing – review & editing: MB, CM, CF, CP, BF, JT.

                Author information
                https://orcid.org/0000-0002-1270-4983
                Article
                S0962728624000101
                10.1017/awf.2024.10
                10951668
                38510427
                d7e3efa9-3e39-497e-b9d0-ecb7cc5bb1d1
                © The Author(s) 2024

                This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NoDerivatives licence ( http://creativecommons.org/licenses/by-nd/4.0), which permits re-use, distribution, and reproduction in any medium, provided that no alterations are made and the original article is properly cited.

                History
                : 03 November 2023
                : 02 January 2024
                : 12 January 2024
                Page count
                Figures: 5, Tables: 1, References: 67, Pages: 9
                Funding
                Funded by: Texas A & M AgriLife Research State Air Quality Initiative (SAQI)
                Funded by: Insect Welfare Research Society
                Funded by: NSF Postdoctoral Research Fellowship in Biology
                Award ID: 2109399
                Funded by: Texas A&M AgriLife Institute for Advancing Health Through Agriculture
                Categories
                Research Article

                animal welfare,black soldier fly,farmer insect welfare,grinding,humane slaughter,insects as food and feed

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