Food information acquired socially overrides individual food assessment in ants

Abstract: Social insects rely on sophisticated communication channels and on individual decision making to achieve efficient foraging behavior. Through social interactions, individuals can acquire information inadvertently provided by a nestmate such as in trophallaxis. During this mouth-to-mouth fo...

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Autores principales: Josens, R., Mattiacci, A., Lois-Milevicich, J., Giacometti, A.
Formato: JOUR
Materias:
Ants
Foraging
Individual information
Olfaction
Recruitment
Social information
ant
communication
decision making
eusociality
food availability
food quality
foraging behavior
olfaction
recruitment (population dynamics)
Camponotus
Camponotus mus
Formicidae
Hexapoda
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_03405443_v70_n12_p2127_Josens
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_03405443_v70_n12_p2127_Josens
record_format dspace
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Ants
Foraging
Individual information
Olfaction
Recruitment
Social information
ant
communication
decision making
eusociality
food availability
food quality
foraging behavior
olfaction
recruitment (population dynamics)
Camponotus
Camponotus mus
Formicidae
Hexapoda
spellingShingle Ants
Foraging
Individual information
Olfaction
Recruitment
Social information
ant
communication
decision making
eusociality
food availability
food quality
foraging behavior
olfaction
recruitment (population dynamics)
Camponotus
Camponotus mus
Formicidae
Hexapoda
Josens, R.
Mattiacci, A.
Lois-Milevicich, J.
Giacometti, A.
Food information acquired socially overrides individual food assessment in ants
topic_facet Ants
Foraging
Individual information
Olfaction
Recruitment
Social information
ant
communication
decision making
eusociality
food availability
food quality
foraging behavior
olfaction
recruitment (population dynamics)
Camponotus
Camponotus mus
Formicidae
Hexapoda
description Abstract: Social insects rely on sophisticated communication channels and on individual decision making to achieve efficient foraging behavior. Through social interactions, individuals can acquire information inadvertently provided by a nestmate such as in trophallaxis. During this mouth-to-mouth food exchange, food receivers can perceive the odor of the food delivered by the donor and thus associate this odor with a food reward. Through individual experience, workers are able to perceive characteristic information of the food they have found and to evaluate food quality. Here, we determined which information, social or individual, is prioritized by the carpenter ants Camponotus mus in a foraging context. We exposed receiver ants to a deterrent and harmful food with the same odor they had previously learned in the social context of trophallaxis. We determined on which information individual ants based their decision to forage, whether on their individual evaluation of food quality or on the previously acquired social information. We show that the odor experienced in a trophallactic contact overrides individual food assessment to the extent that ants collect the deterrent food when the odor coincided with that experienced in a social context. If ants were exposed individually during a similar time to a food with the odor and afterwards, they were confronted with the same odor paired with the deterrent substance, and they rejected the deterrent food, contrary to what occurred when the odor was experienced in a social context. These results show that olfactory appetitive experiences in the social context play a fundamental role for subsequent individual foraging decisions. Individuals can acquire information by interacting directly with the environment or through social interactions with other individuals. Individual and social information may induce informational conflicts so that it is crucial to determine when it is worth ignoring one sort of information in favor of the other. Social insects are useful models to address this question: individuals evaluate and learn about their environment and rely on sophisticated communication systems. Here, we show that carpenter ants receiving social instructions, leading them to forage on a toxic food, overcome their natural rejection of this food, despite its noxious effects. Social instructions are, therefore, powerful enough to induce the consumption of food that would be otherwise rejected on the basis of the ants’ individual evaluation. Thus, although eusociality seems to favor sacrificing individual assessments in favor of social information, the resulting ‘social obedience’ may not always be adaptive. Significance Statement: Individuals can acquire information by interacting directly with the environment, or through social interactions with other individuals. Individual and social information may induce informational conflicts so that it is crucial to determine when it is worth ignoring one sort of information in favor of the other. Social insects are useful models to address this question: individuals evaluate and learn about their environment and rely on sophisticated communication systems. Here we show that carpenter ants receiving social instructions leading them to forage on a toxic food, overcome their natural rejection of this food, despite its noxious effects. Social instructions are, therefore, powerful enough to induce the consumption of food that would be otherwise rejected on the basis of the ants‘ individual evaluation. Thus, although eusociality seems to favor sacrificing individual assessments in favor of social information, the resulting ‘social obedience’ may not always be adaptive. © 2016, Springer-Verlag Berlin Heidelberg.
format JOUR
author Josens, R.
Mattiacci, A.
Lois-Milevicich, J.
Giacometti, A.
author_facet Josens, R.
Mattiacci, A.
Lois-Milevicich, J.
Giacometti, A.
author_sort Josens, R.
title Food information acquired socially overrides individual food assessment in ants
title_short Food information acquired socially overrides individual food assessment in ants
title_full Food information acquired socially overrides individual food assessment in ants
title_fullStr Food information acquired socially overrides individual food assessment in ants
title_full_unstemmed Food information acquired socially overrides individual food assessment in ants
title_sort food information acquired socially overrides individual food assessment in ants
url http://hdl.handle.net/20.500.12110/paper_03405443_v70_n12_p2127_Josens
work_keys_str_mv AT josensr foodinformationacquiredsociallyoverridesindividualfoodassessmentinants
AT mattiaccia foodinformationacquiredsociallyoverridesindividualfoodassessmentinants
AT loismilevicichj foodinformationacquiredsociallyoverridesindividualfoodassessmentinants
AT giacomettia foodinformationacquiredsociallyoverridesindividualfoodassessmentinants
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spelling todo:paper_03405443_v70_n12_p2127_Josens2023-10-03T15:25:43Z Food information acquired socially overrides individual food assessment in ants Josens, R. Mattiacci, A. Lois-Milevicich, J. Giacometti, A. Ants Foraging Individual information Olfaction Recruitment Social information ant communication decision making eusociality food availability food quality foraging behavior olfaction recruitment (population dynamics) Camponotus Camponotus mus Formicidae Hexapoda Abstract: Social insects rely on sophisticated communication channels and on individual decision making to achieve efficient foraging behavior. Through social interactions, individuals can acquire information inadvertently provided by a nestmate such as in trophallaxis. During this mouth-to-mouth food exchange, food receivers can perceive the odor of the food delivered by the donor and thus associate this odor with a food reward. Through individual experience, workers are able to perceive characteristic information of the food they have found and to evaluate food quality. Here, we determined which information, social or individual, is prioritized by the carpenter ants Camponotus mus in a foraging context. We exposed receiver ants to a deterrent and harmful food with the same odor they had previously learned in the social context of trophallaxis. We determined on which information individual ants based their decision to forage, whether on their individual evaluation of food quality or on the previously acquired social information. We show that the odor experienced in a trophallactic contact overrides individual food assessment to the extent that ants collect the deterrent food when the odor coincided with that experienced in a social context. If ants were exposed individually during a similar time to a food with the odor and afterwards, they were confronted with the same odor paired with the deterrent substance, and they rejected the deterrent food, contrary to what occurred when the odor was experienced in a social context. These results show that olfactory appetitive experiences in the social context play a fundamental role for subsequent individual foraging decisions. Individuals can acquire information by interacting directly with the environment or through social interactions with other individuals. Individual and social information may induce informational conflicts so that it is crucial to determine when it is worth ignoring one sort of information in favor of the other. Social insects are useful models to address this question: individuals evaluate and learn about their environment and rely on sophisticated communication systems. Here, we show that carpenter ants receiving social instructions, leading them to forage on a toxic food, overcome their natural rejection of this food, despite its noxious effects. Social instructions are, therefore, powerful enough to induce the consumption of food that would be otherwise rejected on the basis of the ants’ individual evaluation. Thus, although eusociality seems to favor sacrificing individual assessments in favor of social information, the resulting ‘social obedience’ may not always be adaptive. Significance Statement: Individuals can acquire information by interacting directly with the environment, or through social interactions with other individuals. Individual and social information may induce informational conflicts so that it is crucial to determine when it is worth ignoring one sort of information in favor of the other. Social insects are useful models to address this question: individuals evaluate and learn about their environment and rely on sophisticated communication systems. Here we show that carpenter ants receiving social instructions leading them to forage on a toxic food, overcome their natural rejection of this food, despite its noxious effects. Social instructions are, therefore, powerful enough to induce the consumption of food that would be otherwise rejected on the basis of the ants‘ individual evaluation. Thus, although eusociality seems to favor sacrificing individual assessments in favor of social information, the resulting ‘social obedience’ may not always be adaptive. © 2016, Springer-Verlag Berlin Heidelberg. Fil:Josens, R. 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_03405443_v70_n12_p2127_Josens

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