Predation risk modifies behaviour by shaping the response of identified brain neurons

Interpopulation comparisons in species that show behavioural variations associated with particular ecological disparities offer good opportunities for assessing how environmental factors may foster specific functional adaptations in the brain. Yet, studies on the neural substrate that can account fo...

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Autores principales: Magani, F., Luppi, T., Nuñez, J., Tomsic, D.
Formato: JOUR
Materias:
Crab
Ecology
Escape
Population
Visual stimuli
animal
Argentina
Brachyura
brain
escape behavior
geography
male
nerve cell
nociception
photostimulation
physiology
predation
risk factor
Animals
Brain
Escape Reaction
Geography
Male
Neurons
Nociception
Photic Stimulation
Predatory Behavior
Risk Factors
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00220949_v219_n8_p1172_Magani
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00220949_v219_n8_p1172_Magani
record_format dspace
spelling todo:paper_00220949_v219_n8_p1172_Magani2023-10-03T14:26:09Z Predation risk modifies behaviour by shaping the response of identified brain neurons Magani, F. Luppi, T. Nuñez, J. Tomsic, D. Crab Ecology Escape Population Visual stimuli animal Argentina Brachyura brain escape behavior geography male nerve cell nociception photostimulation physiology predation risk factor Animals Argentina Brachyura Brain Escape Reaction Geography Male Neurons Nociception Photic Stimulation Predatory Behavior Risk Factors Interpopulation comparisons in species that show behavioural variations associated with particular ecological disparities offer good opportunities for assessing how environmental factors may foster specific functional adaptations in the brain. Yet, studies on the neural substrate that can account for interpopulation behavioural adaptations are scarce. Predation is one of the strongest driving forces for behavioural evolvability and, consequently, for shaping structural and functional brain adaptations. We analysed the escape response of crabs Neohelice granulata from two isolated populations exposed to different risks of avian predation. Individuals from the high-risk area proved to be more reactive to visual danger stimuli (VDS) than those from an area where predators are rare. Control experiments indicate that the response difference was specific for impending visual threats. Subsequently, we analysed the response to VDS of a group of giant brain neurons that are thought to play a main role in the visually guided escape response of the crab. Neurons from animals of the population with the stronger escape response were more responsive to VDS than neurons from animals of the less reactive population. Our results suggest a robust linkage between the pressure imposed by the predation risk, the response of identified neurons and the behavioural outcome. © 2016, Company of Biologists Ltd. All rights reserved. Fil:Magani, F. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Tomsic, D. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00220949_v219_n8_p1172_Magani
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Crab
Ecology
Escape
Population
Visual stimuli
animal
Argentina
Brachyura
brain
escape behavior
geography
male
nerve cell
nociception
photostimulation
physiology
predation
risk factor
Animals
Argentina
Brachyura
Brain
Escape Reaction
Geography
Male
Neurons
Nociception
Photic Stimulation
Predatory Behavior
Risk Factors
spellingShingle Crab
Ecology
Escape
Population
Visual stimuli
animal
Argentina
Brachyura
brain
escape behavior
geography
male
nerve cell
nociception
photostimulation
physiology
predation
risk factor
Animals
Argentina
Brachyura
Brain
Escape Reaction
Geography
Male
Neurons
Nociception
Photic Stimulation
Predatory Behavior
Risk Factors
Magani, F.
Luppi, T.
Nuñez, J.
Tomsic, D.
Predation risk modifies behaviour by shaping the response of identified brain neurons
topic_facet Crab
Ecology
Escape
Population
Visual stimuli
animal
Argentina
Brachyura
brain
escape behavior
geography
male
nerve cell
nociception
photostimulation
physiology
predation
risk factor
Animals
Argentina
Brachyura
Brain
Escape Reaction
Geography
Male
Neurons
Nociception
Photic Stimulation
Predatory Behavior
Risk Factors
description Interpopulation comparisons in species that show behavioural variations associated with particular ecological disparities offer good opportunities for assessing how environmental factors may foster specific functional adaptations in the brain. Yet, studies on the neural substrate that can account for interpopulation behavioural adaptations are scarce. Predation is one of the strongest driving forces for behavioural evolvability and, consequently, for shaping structural and functional brain adaptations. We analysed the escape response of crabs Neohelice granulata from two isolated populations exposed to different risks of avian predation. Individuals from the high-risk area proved to be more reactive to visual danger stimuli (VDS) than those from an area where predators are rare. Control experiments indicate that the response difference was specific for impending visual threats. Subsequently, we analysed the response to VDS of a group of giant brain neurons that are thought to play a main role in the visually guided escape response of the crab. Neurons from animals of the population with the stronger escape response were more responsive to VDS than neurons from animals of the less reactive population. Our results suggest a robust linkage between the pressure imposed by the predation risk, the response of identified neurons and the behavioural outcome. © 2016, Company of Biologists Ltd. All rights reserved.
format JOUR
author Magani, F.
Luppi, T.
Nuñez, J.
Tomsic, D.
author_facet Magani, F.
Luppi, T.
Nuñez, J.
Tomsic, D.
author_sort Magani, F.
title Predation risk modifies behaviour by shaping the response of identified brain neurons
title_short Predation risk modifies behaviour by shaping the response of identified brain neurons
title_full Predation risk modifies behaviour by shaping the response of identified brain neurons
title_fullStr Predation risk modifies behaviour by shaping the response of identified brain neurons
title_full_unstemmed Predation risk modifies behaviour by shaping the response of identified brain neurons
title_sort predation risk modifies behaviour by shaping the response of identified brain neurons
url http://hdl.handle.net/20.500.12110/paper_00220949_v219_n8_p1172_Magani
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AT luppit predationriskmodifiesbehaviourbyshapingtheresponseofidentifiedbrainneurons
AT nunezj predationriskmodifiesbehaviourbyshapingtheresponseofidentifiedbrainneurons
AT tomsicd predationriskmodifiesbehaviourbyshapingtheresponseofidentifiedbrainneurons
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