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Microbial Volatile Emissions as Insect Semiochemicals
Thomas Seth Davis
, Tawni L. Crippen
,
Richard W. Hofstetter
, Jeffery K. Tomberlin
Forestry, School of
Research output
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Contribution to journal
›
Article
›
peer-review
412
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Keyphrases
Microorganisms
100%
Volatile Emission
100%
Microbial Volatiles
100%
Insect Semiochemicals
100%
Microbial Volatile Organic Compounds (mVOCs)
66%
Compound Production
33%
Chemoreception
16%
Mating Behavior
16%
In Situ
16%
Behavioral Response
16%
Repellent
16%
Symbiosis
16%
Across Species
16%
Functional Redundancy
16%
Biochemical Interactions
16%
Ecological Context
16%
Oviposition Behavior
16%
Metabolic Pathway
16%
Multipartite
16%
Polyketides
16%
Cosmopolitan Distribution
16%
Insect Behavior
16%
Habitat Suitability
16%
Microbial Species
16%
Amines
16%
Insect Olfactory
16%
Olfactory Response
16%
Volatile Compounds
16%
Sexual Pheromones
16%
Potential Exposure
16%
Fungal Volatiles
16%
Tritrophic Interactions
16%
Insect Feeding Behavior
16%
Compound Signal
16%
Infochemicals
16%
Sensory Environment
16%
Bacterial Volatiles
16%
Short-chain Alcohols
16%
Entomopathogen
16%
Pyrazine
16%
Biochemical Pathways
16%
Volatile Production
16%
Habitat Potential
16%
Agricultural and Biological Sciences
Microorganism
100%
Semiochemical
100%
Volatile Organic Compound
66%
Feeding Behavior
16%
Ontogeny
16%
Pheromone
16%
Oviposition
16%
Insect Behavior
16%
Polyketide
16%
Entomopathogens
16%
Biochemical Pathway
16%
Tritrophic Interaction
16%
Immunology and Microbiology
Microorganism
100%
Ontogeny
16%
Metabolism
16%
Egg Laying
16%