Absolutely relative chicks: individual strategy preferences in numerical discrimination in Gallus gallus

Name: Absolutely relative chicks: individual strategy preferences in numerical discrimination in Gallus gallus
Published: 2024
Keywords: Numerical discrimination, absolute numerosity, relative numerosity, domestic chick, Gallus gallus, individuality, Neural bases of cognitive processes (e.g. memory, learning, attention), Behavioural ecology and evolution, Learning, memory; cognition in ageing

Brosche, Kimberly and Regolin, Lucia and Zazio, Agnese and Rugani, Rosa (2024) Absolutely relative chicks: individual strategy preferences in numerical discrimination in Gallus gallus. [Data Collection]

Collection description

When trained to discriminate between two numerosities, animals could employ either (a) an absolute or (b) a relative discrimination strategy. In absolute discrimination, a specific numerosity (e.g., 10) is chosen against other numerosities. Relative discrimination consists in selecting the higher (or the lower) numerosity in any pair. Humans and fish have been shown to preferentially adopt a relative strategy, while honeybees apply an absolute strategy. This study aims to identify the strategy (absolute vs. relative) 3-day-old chicks (Gallus gallus) spontaneously adopt. During rearing, 124 chicks were exposed to a numerical comparison (10 vs. 20) and learned that one numerosity (10) was associated with food (Sp). During testing, which consisted of a single 6-minute unrewarded trial, each chick was presented with Sp (10; absolute strategy) alongside an unfamiliar numerosity consistent with the relative strategy ( 5, the smaller one out of 5 vs. 10). We hypothesized that chicks would spend more time near the numerosity corresponding to their preferred strategy. Chicks did not show a significant preference for either strategy on a group level, regardless of whether the higher (Exp. 1 and 2) or the lower numerosity (Exp. 3) had been reinforced during rearing. Interestingly, chicks exhibited significant individual preferences for one or the other strategy that cannot be explained by the novelty of the stimuli (Exp. 4) or by the use of physical variables (Exp. 2). These findings suggest either that diversity of numerical discrimination strategies was evolutionary favorable in domestic chickens’ natural environments, or that, at this early stage of ontogeny, young chicks’ strategies are still highly variable and flexible.

DOI:

10.25430/researchdata.cab.unipd.it.00001331

Keywords:

Numerical discrimination, absolute numerosity, relative numerosity, domestic chick, Gallus gallus, individuality

Subjects:

Life Sciences > Neuroscience and Neural Disorders: Neural cell function and signalling, systems neuroscience, neural bases of cognitive and behavioural processes, neurological and psychiatric disorders > Neural bases of cognitive processes (e.g. memory, learning, attention)
Life Sciences > Ecology, Evolution and Environmental Biology: Population, community and ecosystem ecology, evolutionary biology, behavioural ecology, microbial ecology > Behavioural ecology and evolution
Social Sciences and Humanities > The Human Mind and Its Complexity: Cognitive science, psychology, linguistics, philosophy of mind > Learning, memory; cognition in ageing

Department:

Departments > Dipartimento di Psicologia Generale (DPG)

Depositing User:

Kimberly Yvonne Brosche

Date Deposited:

11 Jul 2024 06:56

Last Modified:

11 Jul 2024 06:56

Creators/Authors:

Creators	Email	ORCID
Brosche, Kimberly	kimberlyyvonne.brosche@studenti.unipd.it	orcid.org/0000-0003-2809-8591
Regolin, Lucia	lucia.regolin@unipd.it	orcid.org/0000-0001-8960-0309
Zazio, Agnese	UNSPECIFIED	orcid.org/0000-0002-1395-9005
Rugani, Rosa	rosa.rugani@unipd.it	orcid.org/0000-0001-5294-6306