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Multimodal Information Processing and Associative Learning in the Insect Brain

Devasena Thiagarajan, Silke Sachse

2022Insects29 citationsDOIOpen Access PDF

Abstract

The study of sensory systems in insects has a long-spanning history of almost an entire century. Olfaction, vision, and gustation are thoroughly researched in several robust insect models and new discoveries are made every day on the more elusive thermo- and mechano-sensory systems. Few specialized senses such as hygro- and magneto-reception are also identified in some insects. In light of recent advancements in the scientific investigation of insect behavior, it is not only important to study sensory modalities individually, but also as a combination of multimodal inputs. This is of particular significance, as a combinatorial approach to study sensory behaviors mimics the real-time environment of an insect with a wide spectrum of information available to it. As a fascinating field that is recently gaining new insight, multimodal integration in insects serves as a fundamental basis to understand complex insect behaviors including, but not limited to navigation, foraging, learning, and memory. In this review, we have summarized various studies that investigated sensory integration across modalities, with emphasis on three insect models (honeybees, ants and flies), their behaviors, and the corresponding neuronal underpinnings.

Topics & Concepts

Stimulus modalityBiologySensory systemInsectForagingAssociative learningModalitiesMushroom bodiesNeuroscienceMultimodalityCognitive scienceArtificial intelligenceComputer scienceEcologyDrosophila melanogasterPsychologyBiochemistryWorld Wide WebSociologyGeneSocial scienceNeurobiology and Insect Physiology ResearchInsect and Arachnid Ecology and BehaviorPlant and animal studies
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