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ECB-ART-50372
J Comp Physiol A Neuroethol Sens Neural Behav Physiol 2022 May 01;2083:435-442. doi: 10.1007/s00359-022-01549-y.
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Contact chemoreception in multi-modal sensing of prey by Octopus.

Buresch KC , Sklar K , Chen JY , Madden SR , Mongil AS , Wise GV , Boal JG , Hanlon RT .


Abstract
Octopuses have keen vision and are generally considered visual predators, yet octopuses predominantly forage blindly in nature, inserting their arms into crevices to search and detect hidden prey. The extent to which octopuses discriminate prey using chemo- versus mechano-tactile sensing is unknown. We developed a whole-animal behavioral assay that takes advantage of octopuses' natural searching behavior to test their ability to discriminate prey from non-prey tastes solely via contact chemoreception. This methodology eliminated vision, mechano-tactile sensing and distance chemoreception while testing the contact chemosensory discriminatory abilities of the octopus arm suckers. Extracts from two types of prey (crab, shrimp) and three types of non-prey (sea star, algae, seawater) were embedded in agarose (to control for mechano-tactile discrimination) and presented to octopuses inside an artificial rock dome; octopuses reached their arms inside to explore its contents - imitating natural prey-searching behavior. Results revealed that octopuses are capable of discriminating between potential prey items using only contact chemoreception, as measured by an increased amount of sucker contact time and arm curls when presented with prey extracts versus non-prey extracts. These results highlight the importance of contact chemoreception in the multi-modal sensing involved in a complex foraging behavior.

PubMed ID: 35445334
Article link: J Comp Physiol A Neuroethol Sens Neural Behav Physiol
Grant support: [+]


References [+] :
Al-Soudy, Identification and Characterization of a Rhodopsin Kinase Gene in the Suckers of Octopus vulgaris: Looking around Using Arms? 2021, Pubmed