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Autori principali: Prétôt, Laurent, Agrillo, Christian, Bluck, Benjamin C, Cabrera-Álvarez, María J, Héjja-Brichard, Yseult, Irwin, Kyndal, Klinke, Annabell, Lucon-Xiccato, Tyrone, Newport, Cait, Segev, Ronen, Yeager, Justin
Natura: Artículo científico
Lingua:en
Pubblicazione: Animal cognition 2025
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/41402530/
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author Prétôt, Laurent
Agrillo, Christian
Bluck, Benjamin C
Cabrera-Álvarez, María J
Héjja-Brichard, Yseult
Irwin, Kyndal
Klinke, Annabell
Lucon-Xiccato, Tyrone
Newport, Cait
Segev, Ronen
Yeager, Justin
author_facet Prétôt, Laurent
Agrillo, Christian
Bluck, Benjamin C
Cabrera-Álvarez, María J
Héjja-Brichard, Yseult
Irwin, Kyndal
Klinke, Annabell
Lucon-Xiccato, Tyrone
Newport, Cait
Segev, Ronen
Yeager, Justin
Prétôt, Laurent
Agrillo, Christian
Bluck, Benjamin C
Cabrera-Álvarez, María J
Héjja-Brichard, Yseult
Irwin, Kyndal
Klinke, Annabell
Lucon-Xiccato, Tyrone
Newport, Cait
Segev, Ronen
Yeager, Justin
collection PubMed - marine biology
contents ManyFishes: a big team science collaboration on fish comparative cognition. Prétôt, Laurent Agrillo, Christian Bluck, Benjamin C Cabrera-Álvarez, María J Héjja-Brichard, Yseult Irwin, Kyndal Klinke, Annabell Lucon-Xiccato, Tyrone Newport, Cait Segev, Ronen Yeager, Justin Animals Fishes Cognition Cooperative Behavior Biological Evolution Fishes are among the oldest and most diverse groups of vertebrates, encompassing a vast array of species that differ in morphology, ecology, and behavior. While such diversity can pose challenges to comparative cognition research, it can also offer valuable insights into how different ecological and evolutionary pressures shape cognitive abilities. As the earliest diverging extant vertebrates, and the simplest neural architecture, fishes also provide a critical window into the origins and evolution of vertebrate intelligence. However, despite their potential, we have only just begun to scratch the surface of what fish cognition can reveal, in part due to practical limitations that have constrained cross-species comparisons, including the use of small, single-species samples and a lack of standardized testing procedures. To address these challenges, we introduce ManyFishes, the first big team science collaboration dedicated to comparative cognition and behavior in fishes. Here, we discuss the benefits, potential, challenges and solutions, and impact of this large-scale collaborative effort. Like other big team science initiatives, ManyFishes relies on the ability to establish an infrastructure that facilitates communication and coordination among collaborators from diverse backgrounds, while promoting openness, transparency, and reproducibility in fish cognition research. With this paper, we aim to raise awareness of the ManyFishes initiative and invite researchers to join, contribute to, and benefit from this large-scale collaborative effort in future projects.
format Artículo científico
id pubmed_41402530
institution PubMed
language en
publishDate 2025
publisher Animal cognition
record_format pubmed
spellingShingle ManyFishes: a big team science collaboration on fish comparative cognition.
Prétôt, Laurent
Agrillo, Christian
Bluck, Benjamin C
Cabrera-Álvarez, María J
Héjja-Brichard, Yseult
Irwin, Kyndal
Klinke, Annabell
Lucon-Xiccato, Tyrone
Newport, Cait
Segev, Ronen
Yeager, Justin
Animals
Fishes
Cognition
Cooperative Behavior
Biological Evolution
ManyFishes: a big team science collaboration on fish comparative cognition. Prétôt, Laurent Agrillo, Christian Bluck, Benjamin C Cabrera-Álvarez, María J Héjja-Brichard, Yseult Irwin, Kyndal Klinke, Annabell Lucon-Xiccato, Tyrone Newport, Cait Segev, Ronen Yeager, Justin Animals Fishes Cognition Cooperative Behavior Biological Evolution Fishes are among the oldest and most diverse groups of vertebrates, encompassing a vast array of species that differ in morphology, ecology, and behavior. While such diversity can pose challenges to comparative cognition research, it can also offer valuable insights into how different ecological and evolutionary pressures shape cognitive abilities. As the earliest diverging extant vertebrates, and the simplest neural architecture, fishes also provide a critical window into the origins and evolution of vertebrate intelligence. However, despite their potential, we have only just begun to scratch the surface of what fish cognition can reveal, in part due to practical limitations that have constrained cross-species comparisons, including the use of small, single-species samples and a lack of standardized testing procedures. To address these challenges, we introduce ManyFishes, the first big team science collaboration dedicated to comparative cognition and behavior in fishes. Here, we discuss the benefits, potential, challenges and solutions, and impact of this large-scale collaborative effort. Like other big team science initiatives, ManyFishes relies on the ability to establish an infrastructure that facilitates communication and coordination among collaborators from diverse backgrounds, while promoting openness, transparency, and reproducibility in fish cognition research. With this paper, we aim to raise awareness of the ManyFishes initiative and invite researchers to join, contribute to, and benefit from this large-scale collaborative effort in future projects.
title ManyFishes: a big team science collaboration on fish comparative cognition.
topic Animals
Fishes
Cognition
Cooperative Behavior
Biological Evolution
url https://pubmed.ncbi.nlm.nih.gov/41402530/