Your search keyword '"Eilenberg, Jørgen"' showing total 16 results

1. A biobased superabsorbent formulation for above-ground application of a new entomophthoralean fungus for biological psyllid pest control

Author

Muskat, Linda C., Kais, Britta, Gross, Jürgen, Eilenberg, Jørgen, and Patel, Anant V.

Published

2023

2. Community composition of the entomopathogenic fungal genus Metarhizium in soils of tropical and temperate conventional and organic strawberry fields

Author

Iwanicki, Natasha Sant Anna, Castro, Thiago, Eilenberg, Jørgen, Meyling, Nicolai V., Moral, Rafael de Andrade, Demétrio, Clarice Garcia Borges, and Delalibera, Italo, Jr.

Published

2024

3. Pandora cacopsyllae Eilenberg, Keller & Humber (Entomophthorales: Entomophthoraceae), a new species infecting pear psyllid Cacopsylla pyri L. (Hemiptera: Psyllidae)

Author

Eilenberg, Jørgen, Keller, Siegfried, Humber, Richard A., Jensen, Annette H., Jensen, Annette B., Görg, Louisa M., Muskat, Linda C., Kais, Britta, Gross, Jürgen, and Patel, Anant V.

Published

2023

4. Development of novel spray-dried and air-dried formulations of Metarhizium robertsii blastospores and their virulence against Dalbulus maidis

Author

Iwanicki, Natasha Sant´Anna, Mascarin, Gabriel Moura, Moreno, Sara Giro, Eilenberg, Jørgen, and Delalibera, Jr, Italo

Published

2021

5. Potential for Use of Species in the Subfamily Erynioideae for Biological Control and Biotechnology.

Author

Gryganskyi, Andrii P., Hajek, Ann E., Voloshchuk, Nataliya, Idnurm, Alexander, Eilenberg, Jørgen, Manfrino, Romina G., Bushley, Kathryn E., Kava, Liudmyla, Kutovenko, Vira B., Anike, Felicia, and Nie, Yong

Subjects

NUMBERS of species, BIOTECHNOLOGY, SPECIES, SPECIES diversity, DIPTERA

Abstract

The fungal order Entomophthorales in the Zoopagomycota includes many fungal pathogens of arthropods. This review explores six genera in the subfamily Erynioideae within the family Entomophthoraceae, namely, Erynia, Furia, Orthomyces, Pandora, Strongwellsea, and Zoophthora. This is the largest subfamily in the Entomophthorales, including 126 described species. The species diversity, global distribution, and host range of this subfamily are summarized. Relatively few taxa are geographically widespread, and few have broad host ranges, which contrasts with many species with single reports from one location and one host species. The insect orders infected by the greatest numbers of species are the Diptera and Hemiptera. Across the subfamily, relatively few species have been cultivated in vitro, and those that have require more specialized media than many other fungi. Given their potential to attack arthropods and their position in the fungal evolutionary tree, we discuss which species might be adopted for biological control purposes or biotechnological innovations. Current challenges in the implementation of these species in biotechnology include the limited ability or difficulty in culturing many in vitro, a correlated paucity of genomic resources, and considerations regarding the host ranges of different species. [ABSTRACT FROM AUTHOR]

Published

2024

6. Safety, regulatory and environmental issues related to breeding and international trade of edible insects in Africa

Author

Niassy, S, Omuse, E R, Roos, Nanna, Halloran, Afton, Eilenberg, Jørgen, Egonyu, J P, Tanga, C, Meutchieye, F, Mwangi, R, Subramanian, S, Musundire, R, Nkunika, P O Y, Anankware, J P, Kinyuru, J, Yusuf, A, and Ekesi, S

Subjects

Global food and nutrition security, Standards, Protein, Enterprises, Legislation, Faculty of Science, Sustainable Development Goals, Animal feed, Healthy diets

Abstract

Insect breeding or farming for food and feed is an emerging enterprise that can address the ever-growing demand for protein and curb high unemployment rates in Africa and beyond. However, for the sector to prosper, its value chain needs to be regulated to ensure sustainability and safety for consumers and the environment. Although a few African countries, such as Kenya, Uganda and Rwanda, have promulgated standards on the use of insects as food and feed, greater efforts are needed in other countries, and relevant policies governing the sector need to be formulated. All over the globe, attention to the regulation of the edible insect sector is increasing, and more investment in the industry is foreseen. Safety issues such as identifying which species should be reared, substrate quality and traceability imposed by importing countries will be critical for expansion of the sector. This paper analyses safety, regulatory and environmental issues related to breeding and international trade of edible insects in Africa and provides case studies and recommendations for sustainable use of insects for food and feed.

Published

2022

7. Growth and Reproductive Performance of Edible Grasshopper (Ruspolia differens) on Different Artificial Diets.

Author

Malinga, Geoffrey M, Acur, Amos, Ocen, Patrick, Holm, Sille, Rutaro, Karlmax, Ochaya, Stephen, Kinyuru, John N, Eilenberg, Jørgen, Roos, Nanna, Valtonen, Anu, Nyeko, Philip, and Roininen, Heikki

Subjects

RAGI, EDIBLE insects, DIET, SOY flour, TETTIGONIIDAE, GRASSHOPPERS, WHEAT bran

Abstract

Ruspolia differens (Serville) (Orthoptera: Tettigoniidae), also known as the 'edible grasshopper', 'African edible bush-cricket', and 'nsenene', is regarded as one of the most promising edible insect species that can be used for food, particularly in Sub-Saharan Africa. However, there is insufficient information on suitable diets and their effects on survival, adult weight, fecundity, and developmental time of this species, which are preconditions for large-scale production. In this study, we experimentally evaluated the effects of 12 diets (wheat bran, rice seed head, finger millet seed head, soya bran, maize bran, fresh maize comb, millet flour, chicken feed egg booster, simsim cake, sorghum seed head, powdered groundnut, and germinated finger millet), that are known to be accepted by R. differens , on their growth and reproductive parameters. The survival rate, developmental time, and adult weight varied considerably on the various diets. The highest nymphal survival rates, shortest development times, and highest adult weights were recorded for both sexes when fed fresh maize comb and germinated finger millet diet. Lifetime fecundity of females fed on germinated finger millet also was, on average, more than twice higher compared to other diets. The present study demonstrated that relatively inexpensive and locally available germinated finger millet, fresh maize seed (at the silking stage on the comb), sorghum seedhead, and finger millet seedhead could be successfully used to rear and sustain populations of R. differens. Our findings contribute to the future design of an effective mass-rearing system for this economically important edible insect. [ABSTRACT FROM AUTHOR]

Published

2022

8. Fermentation of the psyllid-pathogenic fungus Pandora sp. nov. inedit. (Entomophthorales: Entomophthoraceae).

Author

Muskat, Linda C., Przyklenk, Michael, Humbert, Pascal, Eilenberg, Jørgen, and Patel, Anant V.

Subjects

BIOLOGICAL pest control, FERMENTATION, BIOMASS production, ENTOMOPATHOGENIC fungi, SKIM milk, GRANULATION

Abstract

Pandora sp. nov. inedit. (ARSEF13372) is a recently isolated entomophthoralean fungus with high potential for psyllid pest control. The use of entomopathogenic fungi as biocontrol agents in large-scale field application requires biomass production in a sufficient quantity and quality. This work is the first attempt to explore the biomass production of the novel entomophthoralean Pandora species in a liquid medium. This study aims at establishing a submerged fermentation process with potential for mass production of the fungus. Three different complex nutrient sources were evaluated for maximising biomass in a liquid shaking culture. Pandora sp. nov. grew best in media containing skimmed milk, but even faster in a mixture of skimmed milk, yeast extract and a low-cost protein hydrolysate from animal by-products. Subsequently, the produced biomass can be encapsulated in biopolymer beads or granules in order to transfer the fungus into an easily applicable form. Therefore, growth as finely dispersed mycelium was promoted by increased media osmolality through the addition of sodium chloride. After the medium had been transferred to a stirred tank bioreactor with a working volume of 8 L, a maximum biomass dry weight of 21 g·L−1 was reached after 48 h. These promising results can pave the way for large-scale fermentation and formulation processes of this novel Pandora species for biological psyllid pest control. [ABSTRACT FROM AUTHOR]

Published

2022

9. Encapsulation of the psyllid‐pathogenic fungus Pandora sp. nov. inedit. and experimental infection of target insects1.

Author

Muskat, Linda C, Görg, Louisa M, Humbert, Pascal, Gross, Jürgen, Eilenberg, Jørgen, and Patel, Anant V

Subjects

BIOLOGICAL pest control, SURVIVAL rate, SKIM milk, CALCIUM alginate, SURVIVAL analysis (Biometry)

Abstract

BACKGROUND Pandora sp. nov. inedit. (Entomophthorales: Entomophthoraceae) (ARSEF 13372) is a recently isolated entomophthoralean fungus with potential for psyllid pest control. This study aimed to develop a formulation based on biocompatible hydrogel beads in order to transfer the fungus into an easily applicable form and to test the effects on psyllids. RESULTS: After encapsulation in calcium alginate beads, Pandora sp. nov. grew from the beads and discharged conidia over 12 days under optimal humidity conditions at 18 °C. Conidial number was increased 2.95‐fold by the addition of skimmed milk as nutritional formulation adjuvant to the beads. The virulence of the encapsulated fungus was assessed with the two target psyllid species; the summer apple psyllid, Cacopsylla picta and the pear psyllid, Cacopsylla pyri. Beads containing skimmed milk as nutritional adjuvant led to the highest mortalities (48.3% on C. picta and 75.0% on C. pyri). In a second bioassay, survival time of C. pyri exposed to beads containing different concentration (10%, 20% or 40%) of Pandora sp. nov. was tested. The survival time of C. pyri was significantly reduced when exposed to beads containing 10% or 20% Pandora sp. nov. The median survival time was reached after 5–6 days past inoculation and the cumulative mortality for C. pyri treated with Pandora sp. nov. beads showed up to 89% mortality. CONCLUSION: The promising results of this study will ease the way for large‐scale field application of a novel Pandora species in biological psyllid pest control. [ABSTRACT FROM AUTHOR]

Published

2022

10. Editorial: Microbial Dynamics During Industrial Rearing and Processing of Insects.

Author

Van Campenhout, Leen and Eilenberg, Jørgen

Subjects

INSECT rearing, MANUFACTURING processes

Published

2021

11. Strongwellsea selandia and Strongwellsea gefion (Entomophthorales: Entomophthoraceae), two new species infecting adult flies from genus Helina (Diptera: Muscidae).

Author

Eilenberg, Jørgen, Michelsen, Verner, Jensen, Annette Bruun, and Humber, Richard A.

Subjects

*MUSCIDAE, *DIPTERA, *SPECIES, *FLIES, *ENTOMOPATHOGENIC fungi, *ADULTS

Abstract

[Display omitted] • Two new species from the fungal genus Strongwellsea (Entomophthorales) are described. • Strongwellsea selandia infects adult Helina evecta (Diptera). • Strongwellsea gefion infects adult Helina reversio (Diptera). • The two new species differ from other described species from the genus. • Differences include morphology of spores, genetic identity, and host species. Two new species from the genus Strongwellsea (Entomophthorales: Entomophthoraceae) that infect adult flies from the genus Helina (Muscidae) are described: Strongwellsea selandia Eilenberg & Humber infecting adult Helina evecta (Harris), and Strongwellsea gefion Eilenberg & Humber infecting adult Helina reversio (Harris). The descriptions are based on pathobiological, phenotypical and genotypical characters. The new species differ from other described members from the genus Strongwellsea by a) pathobiology as revealed by natural host species, b) morphology of primary conidia, c) color of resting spores, and d) genotypical clustering based on analysis of ITS2. The two new species have only been documented from North Zealand, Denmark. [ABSTRACT FROM AUTHOR]

Published

2022

12. Strongwellsea crypta (Entomophthorales: Entomophthoraceae), a new species infecting Botanophila fugax (Diptera: Anthomyiidae).

Author

Eilenberg, Jørgen, Michelsen, Verner, Jensen, Annette Bruun, and Humber, Richard A.

Subjects

*DIPTERA, *SPECIES, *ENTOMOPATHOGENIC fungi, *ADULTS

Abstract

Strongwellsea crypta Eilenberg & Humber. [Display omitted] • Strongwellsea crypta is a new species infecting its dipteran host adult Botanophila fugax. • The description includes symptoms on the infected host, and morphology of spores. A new species from the genus Strongwellsea (Entomophthorales: Entomophthoraceae) is described: Strongwellsea crypta Eilenberg & Humber from adult Botanophila fugax (Meigen) (Diptera: Anthomyiidae). The description is based on pathobiological, phenotypical and genotypical characters. The abdominal holes in infected hosts develop rapidly and become strikingly large and edgy, almost rhomboid in shape. The new species S. crypta differs from S. castrans, the only described species infecting flies from Anthomyiidae, by: (a) naturally infecting another host species, (b) by having significantly longer primary conidia, and (c) by genotypical clustering separately from that species when sequencing ITS2. [ABSTRACT FROM AUTHOR]

Published

2021

13. Pathogenicity against hemipteran vector insects of a novel insect pathogenic fungus from Entomophthorales (Pandora sp. nov. inedit.) with potential for biological control.

Author

Görg, Louisa Maria, Eilenberg, Jørgen, Jensen, Annette Bruun, Jensen, Annette Hjorthøj, and Gross, Jürgen

Subjects

*ENTOMOPATHOGENIC fungi, *APPLES, *INSECT nematodes, *SURVIVAL rate, *BIOLOGICAL pest control agents, *STONE fruit, *INTEGRATED pest control, *AGRICULTURAL pests

Abstract

[Display omitted] • Laboratory infection bioassay with conidia shower from Pandora sp. nov. mycelial mat. • The entomopathogen infects insect families Psyllidae and Triozidae. • Survival times of fruit crop pests are significantly reduced after inoculation. • No interaction between phytoplasma infection of vector, host plant and the fungus. • Pandora sp. nov. has high potential to become a biocontrol agent for vector control. A new but still unpublished entomopathogenic fungus (ARSEF13372) in the genus Pandora (Entomophthorales: Entomophthoraceae) was originally isolated from Cacopsylla sp. (Hemiptera: Psyllidae). Several species of the genus Cacopsylla vector phloem-borne bacteria of the genus ' Candidatus Phytoplasma', which cause diseases in fruit crops such as apple proliferation, pear decline and European stone fruit yellows. To determine Pandora 's host range and biocontrol potential we conducted laboratory infection bioassays; Hemipteran phloem-feeding insects were exposed to conidia actively discharged from in vitro produced mycelial mats of standardized area. We documented the pathogenicity of Pandora sp. nov. to species of the insect families Psyllidae and Triozidae, namely Cacopsylla pyri L., C. pyricola (Foerster), C. picta (Foerster, 1848), C. pruni (Scopoli), C. peregrina (Foerster), and Trioza apicalis Foerster. The occurrence of postmortem signs of infection on cadavers within 10 days post inoculation proved that Pandora sp. nov. was infective to the tested insect species under laboratory conditions and significantly reduced mean survival time for C. pyri (summer form and nymph), C. pyricola , C. picta , C. pruni , C. peregrina and T. apicalis. Assessing a potential interaction between phytoplasma, fungus and insect host revealed that phytoplasma infection (' Candidatus Phytoplasma mali') of the vector C. picta and/or its host plant apple Malus domestica Borkh. did not significantly impact the survival of C. picta after Pandora sp. nov. infection. The results from infection bioassays were discussed in relation to Pandora sp. nov. host range and its suitability as biocontrol agent in integrated pest management strategies of psyllid pests, including vector species, in orchards. [ABSTRACT FROM AUTHOR]

Published

2021

14. Comparative transcriptomics of growth metabolism and virulence reveal distinct morphogenic profiles of yeast-like cells and hyphae of the fungus Metarhizium rileyi.

Author

Sant́Anna Iwanicki, Natasha, Delalibera Júnior, Italo, de Carvalho, Lana L.B., Eilenberg, Jørgen, and De Fine Licht, Henrik H.

Subjects

*INSECT nematodes, *METARHIZIUM, *HEAT shock proteins, *FALL armyworm, *MEMBRANE transport proteins, *MEMBRANE proteins

Abstract

• Yeast-like cells from solid and liquid media have similar virulence. • Yeast-like cells of Metarhizium rileyi express specific genes related to virulence. • Yeast-like cells grown on solid medium express unique genes. • Few up-regulated orthologous genes in common between M. rileyi and M. anisopliae yeast-like cells. • Many unknown protein-coding genes up-regulated in the yeast-like cells from solid medium. Metarhizium rileyi is an entomopathogenic fungus with a narrow host range which distinguishes it from other Metarhizium species with broad host ranges. This species is also unique because the initial yeast-like growth on solid media is only observed in liquid culture in other Metharizium species. A lack of knowledge about the metabolism and genetic signatures of M. rileyi during this yeast-like phase on solid and in liquid media is a bottleneck for its large-scale production as a commercial biocontrol agent. In this study we found that M. rileyi yeast-like cells produced on solid medium infected and killed the important insect pest Spodoptera frugiperda with comparable efficiency as yeast-like cells grown in liquid medium. Secondly, we used comparative transcriptomic analysis to investigate the active genes and genomic signatures of the M. rileyi yeast-like morphotypes produced on solid and in liquid media. Yeast-like cells grown in liquid medium had upregulated genes relating specifically to signal transduction and particular membrane transporters. Thirdly, we compared the transcriptomic profiles of yeast-like phases of M. rileyi with those of M. anisopliae. The yeast-like phase of M. rileyi grown on solid medium upregulated unique genes not found in other Metarhizium species including specific membrane proteins and several virulence factors. Orthologous genes associated with heat shock protein, iron permease, membrane proteins and key virulence traits (e.g. collagen-like protein Mcl1) were upregulated in both species. Comparative transcriptome analyses of gene expression showed more differences than similarities between M. anisopliae and M. rileyi yeast-like cells. [ABSTRACT FROM AUTHOR]

Published

2023

15. Comparative transcriptomics of growth metabolism and virulence reveal distinct morphogenic profiles of yeast-like cells and hyphae of the fungus Metarhizium rileyi.

Author

Sant Anna Iwanicki N, Delalibera Júnior I, de Carvalho LLB, Eilenberg J, and De Fine Licht HH

Subjects

Animals, Gene Expression Profiling, Membrane Proteins genetics, Transcriptome genetics, Virulence genetics, Hyphae genetics, Metarhizium

Abstract

Metarhizium rileyiis an entomopathogenic fungus with a narrow host range which distinguishes it from other Metarhiziumspecies with broad host ranges. This species is also unique because the initial yeast-like growth on solid media is only observed in liquid culture in other Metharizium species. A lack of knowledge about the metabolism and genetic signatures of M. rileyiduring this yeast-like phase on solid and in liquid media is a bottleneck for its large-scale production as a commercial biocontrol agent.In this study wefound that M. rileyiyeast-like cells produced on solid medium infected and killed the important insect pest Spodoptera frugiperda with comparable efficiency as yeast-like cells grown in liquid medium. Secondly, we used comparative transcriptomic analysis to investigate theactive genes and genomic signatures of the M. rileyi yeast-like morphotypes produced on solid and in liquid media. Yeast-like cells grown in liquid medium had upregulated genes relating specifically to signal transduction andparticular membrane transporters. Thirdly, we compared the transcriptomic profiles of yeast-like phases of M. rileyi with those of M. anisopliae. The yeast-like phase of M. rileyi grown on solid medium upregulated unique genes not found in otherMetarhiziumspecies including specific membrane proteins and several virulence factors. Orthologous genes associated with heat shock protein, iron permease, membrane proteins and key virulence traits (e.g. collagen-like protein Mcl1) were upregulated in both species. Comparative transcriptome analyses of gene expression showed more differences than similarities between M. anisopliae and M. rileyi yeast-like cells., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

16. Encapsulation of the psyllid-pathogenic fungus Pandora sp. nov. inedit. and experimental infection of target insects.

Author

Muskat LC, Görg LM, Humbert P, Gross J, Eilenberg J, and Patel AV

Subjects

Animals, Insecta, Pest Control, Biological, Entomophthorales, Hemiptera, Pyrus

Abstract

Background: Pandora sp. nov. inedit. (Entomophthorales: Entomophthoraceae) (ARSEF 13372) is a recently isolated entomophthoralean fungus with potential for psyllid pest control. This study aimed to develop a formulation based on biocompatible hydrogel beads in order to transfer the fungus into an easily applicable form and to test the effects on psyllids., Results: After encapsulation in calcium alginate beads, Pandora sp. nov. grew from the beads and discharged conidia over 12 days under optimal humidity conditions at 18 °C. Conidial number was increased 2.95-fold by the addition of skimmed milk as nutritional formulation adjuvant to the beads. The virulence of the encapsulated fungus was assessed with the two target psyllid species; the summer apple psyllid, Cacopsylla picta and the pear psyllid, Cacopsylla pyri. Beads containing skimmed milk as nutritional adjuvant led to the highest mortalities (48.3% on C. picta and 75.0% on C. pyri). In a second bioassay, survival time of C. pyri exposed to beads containing different concentration (10%, 20% or 40%) of Pandora sp. nov. was tested. The survival time of C. pyri was significantly reduced when exposed to beads containing 10% or 20% Pandora sp. nov. The median survival time was reached after 5-6 days past inoculation and the cumulative mortality for C. pyri treated with Pandora sp. nov. beads showed up to 89% mortality., Conclusion: The promising results of this study will ease the way for large-scale field application of a novel Pandora species in biological psyllid pest control., (© 2021 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.)

Published

2022