Olfactory navigation in arthropods

Author:

Steele Theresa J.,Lanz Aaron J.ORCID,Nagel Katherine I.ORCID

Abstract

AbstractUsing odors to find food and mates is one of the most ancient and highly conserved behaviors. Arthropods from flies to moths to crabs use broadly similar strategies to navigate toward odor sources—such as integrating flow information with odor information, comparing odor concentration across sensors, and integrating odor information over time. Because arthropods share many homologous brain structures—antennal lobes for processing olfactory information, mechanosensors for processing flow, mushroom bodies (or hemi-ellipsoid bodies) for associative learning, and central complexes for navigation, it is likely that these closely related behaviors are mediated by conserved neural circuits. However, differences in the types of odors they seek, the physics of odor dispersal, and the physics of locomotion in water, air, and on substrates mean that these circuits must have adapted to generate a wide diversity of odor-seeking behaviors. In this review, we discuss common strategies and specializations observed in olfactory navigation behavior across arthropods, and review our current knowledge about the neural circuits subserving this behavior. We propose that a comparative study of arthropod nervous systems may provide insight into how a set of basic circuit structures has diversified to generate behavior adapted to different environments.

Funder

National Science Foundation

NIH Brain Initiative

National Institute on Deafness and Other Communication Disorders

Publisher

Springer Science and Business Media LLC

Subject

Behavioral Neuroscience,Animal Science and Zoology,Physiology,Ecology, Evolution, Behavior and Systematics

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