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Lymantria Dispar

Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph

Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
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Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph

Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
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Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph

Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
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Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph

Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
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Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph

Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
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Dynamics of Airborne Conidia of the Gypsy Moth (Lepidoptera: Lymantriidae) Fungal Pathogen Entomophaga maimaiga (Zygomycetes: Entomophthorales)

Zoology / Biological Control / Seasonality / Fungal Pathogens / Lymantria Dispar / Entomopathogenic Fungi / Gypsy Moth / Forest Canopy / Entomopathogenic Fungi / Gypsy Moth / Forest Canopy
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Within-Host Interactions ofLymantria dispar(Lepidoptera: Lymantriidae) Nucleopolyhedrosis Virus andEntomophaga maimaiga(Zygomycetes: Entomophthorales)

Zoology / Invertebrate Pathology / Lymantria Dispar / Invertebrate / Gypsy Moth
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Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph

Zoology / Cell Culture / Animals / Invertebrate Pathology / Hemocytes / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi
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Larval behavior in Lymantria dispar increases risk of fungal infection

Ecology / Fungal Infection / Oecologia / North America / Animals and disease transmission / Host Pathogen Interaction / Leaf Litter / Host Specificity / Lymantria Dispar / Host Pathogen Interaction / Leaf Litter / Host Specificity / Lymantria Dispar
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Dynamics of airborne conidia of the gypsy moth (Lepidoptera: Lymantriidae) fungal pathogen Entomophaga maimaiga (Zygomycetes: Entomophthorales)

Zoology / Biological Control / Seasonality / Fungal Pathogens / Lymantria Dispar / Entomopathogenic Fungi / Gypsy Moth / Forest Canopy / Entomopathogenic Fungi / Gypsy Moth / Forest Canopy
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Survival and differential development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar hemolymph

Zoology / Cell Culture / Animals / Invertebrate Pathology / Hemocytes / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi
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Incorporating anthropogenic variables into a species distribution model to map gypsy moth risk

Modeling / Risk / Invasive Species / Neural Network / Multidisciplinary / Ecological Modelling / Lepidoptera / Logistic Regression / Models / Case Study / United States / Ecological / Vulnerability assessment / Species Distribution Model / Insect pests / Back Propagation Neural Network / Human Activity / Spatial Data / Variable / Lymantria Dispar / Weighted Linear Combination / Area Under the Curve / Gypsy Moth / Neural Network Model / Ecological Modelling / Lepidoptera / Logistic Regression / Models / Case Study / United States / Ecological / Vulnerability assessment / Species Distribution Model / Insect pests / Back Propagation Neural Network / Human Activity / Spatial Data / Variable / Lymantria Dispar / Weighted Linear Combination / Area Under the Curve / Gypsy Moth / Neural Network Model
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Vairimorpha disparis n. comb. (Microsporidia: Burenellidae): A Redescription and Taxonomic Revision of Thelohania disparis Timofejeva 1956, a Microsporidian Parasite of the Gypsy Moth Lymantria dispar (L.) (Lepidoptera: Lymantriidae)

Microbiology / Zoology / Phylogeny / Animals / Moths / Lymantria Dispar / Eukaryotic microbiology / Base Sequence / Gypsy Moth / Lymantria Dispar / Eukaryotic microbiology / Base Sequence / Gypsy Moth
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Vairimorpha disparis n. comb. (Microsporidia: Burenellidae): A Redescription and Taxonomic Revision of Thelohania disparis Timofejeva 1956, a Microsporidian Parasite of the Gypsy Moth Lymantria dispar (L.) (Lepidoptera: Lymantriidae)

Microbiology / Zoology / Phylogeny / Animals / Moths / Lymantria Dispar / Eukaryotic microbiology / Base Sequence / Gypsy Moth / Lymantria Dispar / Eukaryotic microbiology / Base Sequence / Gypsy Moth
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Incorporating anthropogenic variables into a species distribution model to map gypsy moth risk

Invasive Species / Neural Network / Multidisciplinary / Ecological Modelling / Logistic Regression / Case Study / United States / Ecological / Vulnerability assessment / Species Distribution Model / Insect pests / Back Propagation Neural Network / Human Activity / Spatial Data / Lymantria Dispar / Weighted Linear Combination / Area Under the Curve / Gypsy Moth / Neural Network Model / Case Study / United States / Ecological / Vulnerability assessment / Species Distribution Model / Insect pests / Back Propagation Neural Network / Human Activity / Spatial Data / Lymantria Dispar / Weighted Linear Combination / Area Under the Curve / Gypsy Moth / Neural Network Model
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Nutrient deficiencies and the gypsy moth, Lymantria dispar: Effects on larval performance and detoxication enzyme activities

Physiology / Zoology / Insect Physiology / Enzyme activity / Lymantria Dispar / Gypsy Moth
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