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Insects
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Insect–Pathogen Interactions in Mass-Reared Insects
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Insect–Pathogen Interactions in Mass-Reared Insects

A special issue of Insects (ISSN 2075-4450). This special issue belongs to the section "Insect Behavior and Pathology".

Deadline for manuscript submissions: closed (28 February 2023) | Viewed by 34340

Special Issue Editors

Prof. Dr. Monique M. van Oers

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Guest Editor
Laboratory of Virology, Department of Plant Sciences, Wageningen University, Wageningen, The Netherlands
Interests: insect viruses; virus-host interactions; baculovirus; virus evolution; virus taxonomy; antiviral defense; caterpillars; bees; dipteran insects
Special Issues, Collections and Topics in MDPI journals
Dr. Annete Bruun Jensen

E-Mail Website
Guest Editor
Department of Plant and Environmental Sciences, University of Copenhagen, Frederiksberg, Denmark
Interests: insect pathology; microorganisms; fungi; co-evolution; apiculture; crickets; mealworms; biocontrol; food and feed; behavioral manipulation
Dr. Christina Nielsen-LeRoux

E-Mail Website
Guest Editor
Micalis Institute, INRAE, AgroParisTech, Université Paris-Saclay, 78350 Jouy-en-Josas, France
Interests: insect pathology; bacteria; bacterial host adaptation; iron homeostasis; insect mass rearing for food and feed; mealworms; wax moths; gut microbiota

Special Issue Information

Dear Colleagues,

The insect-rearing industry is rapidly growing, and mass production of insects is a core activity to address the global demand for better food safety and security. In addition, insects are mass reared for integrated pest management and insect vector control. Further valuable applications include pollination services, silk production and waste management. Successful application of mass-reared insects heavily relies on culturing large, healthy insect colonies. The insects are generally grown under high-density monoculture conditions in artificial environments. In such “insect factories”, the emergence of insect pathogens can be easily triggered, leading to extensive economic losses. This Special Issue aims to publish newly gained knowledge on the nature and biology of insect pathogens that threaten mass-reared insect colonies. We encourage the submission of papers that aim to better understand the underlying mechanisms of pathogen–host interactions. How these mechanisms lead to disease outbreaks and what (a)biotic factors can trigger or, on the contrary, how they can reduce the risk of such outbreaks is clearly within the focus of this Special Issue. The published data will (ultimately) contribute to more resilient insect farming.

Prof. Dr. Monique M. van Oers
Dr. Annete Bruun Jensen
Dr. Christina Nielsen-LeRoux
Guest Editors

Manuscript Submission Information

Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. All submissions that pass pre-check are peer-reviewed. Accepted papers will be published continuously in the journal (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as short communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.

Submitted manuscripts should not have been published previously, nor be under consideration for publication elsewhere (except conference proceedings papers). All manuscripts are thoroughly refereed through a single-blind peer-review process. A guide for authors and other relevant information for submission of manuscripts is available on the Instructions for Authors page. Insects is an international peer-reviewed open access monthly journal published by MDPI.

Please visit the Instructions for Authors page before submitting a manuscript. The Article Processing Charge (APC) for publication in this open access journal is 2600 CHF (Swiss Francs). Submitted papers should be well formatted and use good English. Authors may use MDPI's English editing service prior to publication or during author revisions.

Keywords

  • mass-reared insects
  • food and feed
  • biocontrol agents
  • waste management
  • fungi
  • virus
  • bacteria
  • microsporidia
  • stress factors

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Published Papers (9 papers)

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Research

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12 pages, 1198 KiB  
Article
Molecular Characterization of Serratia marcescens Strain Isolated from Yellow Mealworms, Tenebrio molitor, in The Netherlands
by Teresita d. J. Bello Gonzalez, Betty van Gelderen, Frank Harders, Rianka Vloet, Michal Voorbergen-Laarman, Bart de Ruiter and Olga L. M. Haenen
Insects 2023, 14(9), 770; https://doi.org/10.3390/insects14090770 - 16 Sep 2023
Viewed by 2504
Abstract
Insect culture has developed rapidly worldwide; it faces important security and safety control issues, including animal infections and disease development. In the Netherlands, in 2021, a ~30% mortality of mealworms, Tenebrio molitor, occurred at one farm, where over-humid sites in the substrate [...] Read more.
Insect culture has developed rapidly worldwide; it faces important security and safety control issues, including animal infections and disease development. In the Netherlands, in 2021, a ~30% mortality of mealworms, Tenebrio molitor, occurred at one farm, where over-humid sites in the substrate were observed. Bacterial cultures from both the external and internal partsof fry and larger mealworms were identified by MALDI-TOF to predominantly Serratia marcescens, Staphylococcus xylosus and Staphylococus saprofyticus. Due to the important role of S. marcescens as a potential zoonotic bacterium, we performed a molecular characterization of the isolated strain. Genomic analysis showed a multidrug-resistant S. marcescens isolate carrying a tet (41), aac (6′)-Ic, and blaSST-1 chromosomal class C beta-lactamase-resistantgenes, all located on the chromosome. Additionally, several virulence genes were identified. The phylogenetic tree revealed that the S. marcescens strain from this study was similar to other S. marcescens strains from different ecological niches. Although the entomopathogenic activity was not confirmed, this case demonstrates that T. molitor can act as a reservoir and as an alternative path for exposing clinically important antibiotic-resistant bacteria that can affect animals and humans. It underlines the need to keep management factors optimal, before insects and their products enter the feed and food chain. Full article
(This article belongs to the Special Issue Insect–Pathogen Interactions in Mass-Reared Insects)
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14 pages, 2259 KiB  
Article
A Rapid Method for Measuring In Vitro Growth in Entomopathogenic Fungi
by Anna R. Slowik, Helen Hesketh, Steven M. Sait and Henrik H. de Fine Licht
Insects 2023, 14(8), 703; https://doi.org/10.3390/insects14080703 - 13 Aug 2023
Cited by 2 | Viewed by 3982
Abstract
Quantifying the growth of entomopathogenic fungi is crucial for understanding their virulence and pathogenic potential. Traditional methods for determining growth, such as biomass determination or colony growth area, are time-consuming and quantitatively and spatially limited in scope. In this study, we introduce a [...] Read more.
Quantifying the growth of entomopathogenic fungi is crucial for understanding their virulence and pathogenic potential. Traditional methods for determining growth, such as biomass determination or colony growth area, are time-consuming and quantitatively and spatially limited in scope. In this study, we introduce a high-throughput method for rapidly measuring fungal growth using spectrophotometry in small-volume, liquid media cultures in 96-well microplates. Optical density (OD) changes were directly correlated with dry weight of samples for six isolates from three species of the genus Metarhizium to validate spectrophotometric growth measurements, and investigate species- and isolate-specific effects. We quantified fungal biomass from the microcultures by extracting, drying, and weighing mycelial mats. From the relationship established between OD and biomass, we generated standard curves for predicting biomass based on the OD values. The OD measurements clearly distinguished growth patterns among six isolates from three Metarhizium species. The logistic growth phase, as captured by the OD measurements, could be accurately assessed within a span of 80 h. Using isolates of M. acridum, M. brunneum, and M. guizhouense, this technique was demonstrated to be an effective, reproducible, and simple method for rapidly measuring filamentous fungal growth with high precision. This technique offers a valuable tool for studying the growth dynamics of entomopathogenic fungi and investigating the factors that influence their growth. Full article
(This article belongs to the Special Issue Insect–Pathogen Interactions in Mass-Reared Insects)
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13 pages, 2213 KiB  
Article
Effects of Temperature and Density on House Cricket Survival and Growth and on the Prevalence of Acheta Domesticus Densovirus
by Jozsef Takacs, Astrid Bryon, Annette B. Jensen, Joop J. A. van Loon and Vera I. D. Ros
Insects 2023, 14(7), 588; https://doi.org/10.3390/insects14070588 - 29 Jun 2023
Cited by 3 | Viewed by 3243
Abstract
The house cricket, Acheta domesticus, is a commonly reared insect for food and feed purposes. In 1977, a report described a colony collapse, which was caused by the single-stranded DNA virus Acheta domesticus densovirus (AdDV). Currently, there are no confirmed A. domesticus [...] Read more.
The house cricket, Acheta domesticus, is a commonly reared insect for food and feed purposes. In 1977, a report described a colony collapse, which was caused by the single-stranded DNA virus Acheta domesticus densovirus (AdDV). Currently, there are no confirmed A. domesticus colonies free of AdDV, and viral disease outbreaks are a continuous threat to A. domesticus mass rearing. Correlations between cricket rearing density or temperature and AdDV abundance have been hypothesized, but experimental evidence is lacking. Optimised rearing conditions, including temperature and density, are key to cost-effective cricket production. In this study, house crickets were subjected to different combinations of rearing density (10, 20, 40 crickets per box) and temperature (25, 30, 35 °C) to study the effect on cricket survival, biomass, and AdDV abundance. Rearing temperature affected had a minor effect on survival, which ranged between 80 and 83%. Total cricket biomass increased with higher temperatures and higher densities. Viral abundance in crickets at the end of the rearing period was variable; however, high rearing density seemed to result in higher AdDV abundance. At 35 °C, a temperature considered suboptimal for house cricket production, viral abundance tended to be lower than at 25 or 30 °C. Full article
(This article belongs to the Special Issue Insect–Pathogen Interactions in Mass-Reared Insects)
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17 pages, 1412 KiB  
Article
Evaluating the Effect of Irradiation on the Densities of Two RNA Viruses in Glossina morsitans morsitans
by Caroline K. Mirieri, Adly M.M. Abd-Alla, Vera I.D. Ros and Monique M. van Oers
Insects 2023, 14(4), 397; https://doi.org/10.3390/insects14040397 - 20 Apr 2023
Cited by 1 | Viewed by 1438
Abstract
Tsetse flies are cyclic vectors of Trypanosoma parasites, which cause debilitating diseases in humans and animals. To decrease the disease burden, the number of flies is reduced using the sterile insect technique (SIT), where male flies are sterilized through irradiation and released into [...] Read more.
Tsetse flies are cyclic vectors of Trypanosoma parasites, which cause debilitating diseases in humans and animals. To decrease the disease burden, the number of flies is reduced using the sterile insect technique (SIT), where male flies are sterilized through irradiation and released into the field. This procedure requires the mass rearing of high-quality male flies able to compete with wild male flies for mating with wild females. Recently, two RNA viruses, an iflavirus and a negevirus, were discovered in mass-reared Glossina morsitans morsitans and named GmmIV and GmmNegeV, respectively. The aim of this study was to evaluate whether the densities of these viruses in tsetse flies are affected by the irradiation treatment. Therefore, we exposed tsetse pupae to various doses (0–150 Gy) of ionizing radiation, either in air (normoxia) or without air (hypoxia), for which oxygen was displaced by nitrogen. Pupae and/or emerging flies were collected immediately afterwards, and at three days post irradiation, virus densities were quantified through RT-qPCR. Generally, the results show that irradiation exposure had no significant impact on the densities of GmmIV and GmmNegeV, suggesting that the viruses are relatively radiation-resistant, even at higher doses. However, sampling over a longer period after irradiation would be needed to verify that densities of these insect viruses are not changed by the sterilisation treatment. Full article
(This article belongs to the Special Issue Insect–Pathogen Interactions in Mass-Reared Insects)
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12 pages, 750 KiB  
Article
Effect of Probiotics on Tenebrio molitor Larval Development and Resistance against the Fungal Pathogen Metarhizium brunneum
by Sabina Dahal, Annette Bruun Jensen and Antoine Lecocq
Insects 2022, 13(12), 1114; https://doi.org/10.3390/insects13121114 - 2 Dec 2022
Cited by 6 | Viewed by 2843
Abstract
In recent years, the yellow mealworm (Tenebrio molitor L.) has demonstrated its potential as a mass-produced edible insect for food and feed. However, challenges brought on by pathogens in intensive production systems are unavoidable and require the development of new solutions. One [...] Read more.
In recent years, the yellow mealworm (Tenebrio molitor L.) has demonstrated its potential as a mass-produced edible insect for food and feed. However, challenges brought on by pathogens in intensive production systems are unavoidable and require the development of new solutions. One potential solution is the supplementation of probiotics in the insect’s diet to obtain the double benefits of improved growth and enhanced immune response. The aim of this study was to evaluate the effects of diet-based probiotic supplementation on T. molitor larval survival, growth, and resistance against a fungal pathogen. Three probiotic strains, namely Pediococcus pentosacceus KVL-B19-01 isolated from T. molitor and two commercialized strains for traditional livestock, Enterococcus faecium 669 and Bacillus subtilis 597, were tested. Additionally, when larvae were 9 weeks old, a pathogen challenge experiment was conducted with the fungus Metarhizium brunneum. Results showed that both P. pentosaceus and E. faecium improved larval growth and larval survival following fungal exposure compared to the non-supplemented control diet. Since B. subtilis did not improve larval performance in terms of either development or protection against M. brunneum, this study suggests the need for further research and evaluation of probiotic strains and their modes of action when considered as a supplement in T. molitor‘s diet. Full article
(This article belongs to the Special Issue Insect–Pathogen Interactions in Mass-Reared Insects)
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14 pages, 2119 KiB  
Article
Impact and Persistence of Serratia marcescens in Tenebrio molitor Larvae and Feed under Optimal and Stressed Mass Rearing Conditions
by Florent Dupriez, Agnès Rejasse, Alfredo Rios, Thomas Lefebvre and Christina Nielsen-LeRoux
Insects 2022, 13(5), 458; https://doi.org/10.3390/insects13050458 - 12 May 2022
Cited by 13 | Viewed by 4329
Abstract
Industrial insect mass rearing aims to produce quality insects under safe sanitary conditions which can be compromised by pathogens and abiotic stressors. Therefore, knowledge on pathogen persistence, virulence and means of detection is of importance. This study focuses on the opportunistic pathogen Serratia [...] Read more.
Industrial insect mass rearing aims to produce quality insects under safe sanitary conditions which can be compromised by pathogens and abiotic stressors. Therefore, knowledge on pathogen persistence, virulence and means of detection is of importance. This study focuses on the opportunistic pathogen Serratia marcescens (Sm) as a possible candidate to reveal sanitary issues in Tenebrio molitor (Tm) breeding. A screening test was performed to assess the impact of abiotic stressors (starvation, density and sieving) in presence and absence of Sm. Two Sm detection methods were conducted, and the kinetics of Sm persistence were investigated. Our results show that (i) the presence of Sm had a low but significant effect on Tm mortality, (ii) a short temporary starvation period had a negative impact on larval growth, (iii) the detection of Sm by q-PCR was sensitive but less convenient than a specific Sm growth media, (iv) the kinetics of persistence showed that Sm declined but survived for nine days in the feed and in the feces for three weeks. Both the relatively low virulence and the persistence in the environment suggest that Sm could be used as an indicator for the sanitary status of mealworm production. Full article
(This article belongs to the Special Issue Insect–Pathogen Interactions in Mass-Reared Insects)
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17 pages, 3851 KiB  
Article
Bombyx mori Nucleopolyhedrovirus (BmNPV) Induces G2/M Arrest to Promote Viral Multiplication by Depleting BmCDK1
by Qin Xiao, Zhan-Qi Dong, Yan Zhu, Qian Zhang, Xiu Yang, Miao Xiao, Peng Chen, Cheng Lu and Min-Hui Pan
Insects 2021, 12(12), 1098; https://doi.org/10.3390/insects12121098 - 8 Dec 2021
Cited by 7 | Viewed by 2944
Abstract
Understanding virus–host interaction is very important for delineating the mechanism involved in viral replication and host resistance. Baculovirus, an insect virus, can cause S or G2/M phase arrest in insect cells. However, the roles and mechanism of Baculovirus-mediated S or G2/M phase arrest [...] Read more.
Understanding virus–host interaction is very important for delineating the mechanism involved in viral replication and host resistance. Baculovirus, an insect virus, can cause S or G2/M phase arrest in insect cells. However, the roles and mechanism of Baculovirus-mediated S or G2/M phase arrest are not fully understood. Our results, obtained using flow cytometry (FCM), tubulin-labeling, BrdU-labeling, and CellTiter 96® AQueous One Solution Cell Proliferation Assay (MTS), showed that Bombyx mori nucleopolyhedrovirus (BmNPV) induced G2/M phase arrest and inhibited cellular DNA replication as well as cell proliferation in BmN-SWU1 cells. We found that BmNPV induced G2/M arrest to support its replication and proliferation by reducing the expression of BmCDK1 and BmCyclin B. Co-immunoprecipitation assays confirmed that BmNPV IAP1 interacted with BmCDK1. BmNPV iap1 was involved in the process of BmNPV-induced G2/M arrest by reducing the content of BmCDK1. Taken together, our results improve the understanding of the virus–host interaction network, and provide a potential target gene that connects apoptosis and the cell cycle. Full article
(This article belongs to the Special Issue Insect–Pathogen Interactions in Mass-Reared Insects)
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Review

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32 pages, 4788 KiB  
Review
Protists in the Insect Rearing Industry: Benign Passengers or Potential Risk?
by Edouard Bessette and Bryony Williams
Insects 2022, 13(5), 482; https://doi.org/10.3390/insects13050482 - 21 May 2022
Cited by 6 | Viewed by 4894
Abstract
As the insects for food and feed industry grows, a new understanding of the industrially reared insect microbiome is needed to better comprehend the role that it plays in both maintaining insect health and generating disease. While many microbiome projects focus on bacteria, [...] Read more.
As the insects for food and feed industry grows, a new understanding of the industrially reared insect microbiome is needed to better comprehend the role that it plays in both maintaining insect health and generating disease. While many microbiome projects focus on bacteria, fungi or viruses, protists (including microsporidia) can also make up an important part of these assemblages. Past experiences with intensive invertebrate rearing indicate that these parasites, whilst often benign, can rapidly sweep through populations, causing extensive damage. Here, we review the diversity of microsporidia and protist species that are found in reared insect hosts and describe the current understanding of their host spectra, life cycles and the nature of their interactions with hosts. Major entomopathogenic parasite groups with the potential to infect insects currently being reared for food and feed include the Amoebozoa, Apicomplexa, Ciliates, Chlorophyta, Euglenozoa, Ichtyosporea and Microsporidia. However, key gaps exist in the understanding of how many of these entomopathogens affect host biology. In addition, for many of them, there are very limited or even no molecular data, preventing the implementation of molecular detection methods. There is now a pressing need to develop and use novel molecular tools, coupled with standard molecular diagnostic methods, to help unlock their biology and predict the effects of these poorly studied protist parasites in intensive insect rearing systems. Full article
(This article belongs to the Special Issue Insect–Pathogen Interactions in Mass-Reared Insects)
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18 pages, 1225 KiB  
Review
Bugs in Bugs: The Role of Probiotics and Prebiotics in Maintenance of Health in Mass-Reared Insects
by Carlotta Savio, Loretta Mugo-Kamiri and Jennifer K. Upfold
Insects 2022, 13(4), 376; https://doi.org/10.3390/insects13040376 - 11 Apr 2022
Cited by 21 | Viewed by 5240
Abstract
Interactions between insects and their microbiota affect insect behaviour and evolution. When specific microorganisms are provided as a dietary supplement, insect reproduction, food conversion and growth are enhanced and health is improved in cases of nutritional deficiency or pathogen infection. The purpose of [...] Read more.
Interactions between insects and their microbiota affect insect behaviour and evolution. When specific microorganisms are provided as a dietary supplement, insect reproduction, food conversion and growth are enhanced and health is improved in cases of nutritional deficiency or pathogen infection. The purpose of this review is to provide an overview of insect–microbiota interactions, to review the role of probiotics, their general use in insects reared for food and feed, and their interactions with the host microbiota. We review how bacterial strains have been selected for insect species reared for food and feed and discuss methods used to isolate and measure the effectiveness of a probiotic. We outline future perspectives on probiotic applications in mass-reared insects. Full article
(This article belongs to the Special Issue Insect–Pathogen Interactions in Mass-Reared Insects)
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