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Absolute brain size predicts dog breed differences in executive function

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Absolute brain size predicts dog breed differences in executive function. / Horschler, Daniel J.; Hare, Brian; Call, Josep; Kaminski, Juliane; Miklósi, Ádám; Maclean, Evan L.

In: Animal Cognition, 03.01.2019.

Research output: Contribution to journalArticlepeer-review

Harvard

Horschler, DJ, Hare, B, Call, J, Kaminski, J, Miklósi, Á & Maclean, EL 2019, 'Absolute brain size predicts dog breed differences in executive function', Animal Cognition. https://doi.org/10.1007/s10071-018-01234-1

APA

Horschler, D. J., Hare, B., Call, J., Kaminski, J., Miklósi, Á., & Maclean, E. L. (2019). Absolute brain size predicts dog breed differences in executive function. Animal Cognition. https://doi.org/10.1007/s10071-018-01234-1

Vancouver

Horschler DJ, Hare B, Call J, Kaminski J, Miklósi Á, Maclean EL. Absolute brain size predicts dog breed differences in executive function. Animal Cognition. 2019 Jan 3. https://doi.org/10.1007/s10071-018-01234-1

Author

Horschler, Daniel J. ; Hare, Brian ; Call, Josep ; Kaminski, Juliane ; Miklósi, Ádám ; Maclean, Evan L. / Absolute brain size predicts dog breed differences in executive function. In: Animal Cognition. 2019.

Bibtex

@article{3f8321e95ae349119588633475784a24,
title = "Absolute brain size predicts dog breed differences in executive function",
abstract = "Large-scale phylogenetic studies of animal cognition have revealed robust links between absolute brain volume and species differences in executive function. However, past comparative samples have been composed largely of primates, which are characterized by evolutionarily derived neural scaling rules. Therefore, it is currently unknown whether positive associations between brain volume and executive function reflect a broad-scale evolutionary phenomenon, or alternatively, a unique consequence of primate brain evolution. Domestic dogs provide a powerful opportunity for investigating this question due to their close genetic relatedness, but vast intraspecific variation. Using citizen science data on more than 7000 purebred dogs from 74 breeds, and controlling for genetic relatedness between breeds, we identify strong relationships between estimated absolute brain weight and breed differences in cognition. Specifically, larger-brained breeds performed significantly better on measures of short-term memory and self-control. However, the relationships between estimated brain weight and other cognitive measures varied widely, supporting domain-specific accounts of cognitive evolution. Our results suggest that evolutionary increases in brain size are positively associated with taxonomic differences in executive function, even in the absence of primate-like neuroanatomy. These findings also suggest that variation between dog breeds may present a powerful model for investigating correlated changes in neuroanatomy and cognition among closely related taxa.",
author = "Horschler, {Daniel J.} and Brian Hare and Josep Call and Juliane Kaminski and {\'A}d{\'a}m Mikl{\'o}si and Maclean, {Evan L.}",
year = "2019",
month = jan,
day = "3",
doi = "10.1007/s10071-018-01234-1",
language = "English",
journal = "Animal Cognition",
issn = "1435-9448",
publisher = "Springer Verlag",

}

RIS

TY - JOUR

T1 - Absolute brain size predicts dog breed differences in executive function

AU - Horschler, Daniel J.

AU - Hare, Brian

AU - Call, Josep

AU - Kaminski, Juliane

AU - Miklósi, Ádám

AU - Maclean, Evan L.

PY - 2019/1/3

Y1 - 2019/1/3

N2 - Large-scale phylogenetic studies of animal cognition have revealed robust links between absolute brain volume and species differences in executive function. However, past comparative samples have been composed largely of primates, which are characterized by evolutionarily derived neural scaling rules. Therefore, it is currently unknown whether positive associations between brain volume and executive function reflect a broad-scale evolutionary phenomenon, or alternatively, a unique consequence of primate brain evolution. Domestic dogs provide a powerful opportunity for investigating this question due to their close genetic relatedness, but vast intraspecific variation. Using citizen science data on more than 7000 purebred dogs from 74 breeds, and controlling for genetic relatedness between breeds, we identify strong relationships between estimated absolute brain weight and breed differences in cognition. Specifically, larger-brained breeds performed significantly better on measures of short-term memory and self-control. However, the relationships between estimated brain weight and other cognitive measures varied widely, supporting domain-specific accounts of cognitive evolution. Our results suggest that evolutionary increases in brain size are positively associated with taxonomic differences in executive function, even in the absence of primate-like neuroanatomy. These findings also suggest that variation between dog breeds may present a powerful model for investigating correlated changes in neuroanatomy and cognition among closely related taxa.

AB - Large-scale phylogenetic studies of animal cognition have revealed robust links between absolute brain volume and species differences in executive function. However, past comparative samples have been composed largely of primates, which are characterized by evolutionarily derived neural scaling rules. Therefore, it is currently unknown whether positive associations between brain volume and executive function reflect a broad-scale evolutionary phenomenon, or alternatively, a unique consequence of primate brain evolution. Domestic dogs provide a powerful opportunity for investigating this question due to their close genetic relatedness, but vast intraspecific variation. Using citizen science data on more than 7000 purebred dogs from 74 breeds, and controlling for genetic relatedness between breeds, we identify strong relationships between estimated absolute brain weight and breed differences in cognition. Specifically, larger-brained breeds performed significantly better on measures of short-term memory and self-control. However, the relationships between estimated brain weight and other cognitive measures varied widely, supporting domain-specific accounts of cognitive evolution. Our results suggest that evolutionary increases in brain size are positively associated with taxonomic differences in executive function, even in the absence of primate-like neuroanatomy. These findings also suggest that variation between dog breeds may present a powerful model for investigating correlated changes in neuroanatomy and cognition among closely related taxa.

UR - http://www.scopus.com/inward/record.url?scp=85059667263&partnerID=8YFLogxK

U2 - 10.1007/s10071-018-01234-1

DO - 10.1007/s10071-018-01234-1

M3 - Article

JO - Animal Cognition

JF - Animal Cognition

SN - 1435-9448

ER -

ID: 12752463