TY - JOUR
T1 - Establishing an infrastructure for collaboration in primate cognition research
AU - Altschul, Drew M.
AU - Beran, Michael J.
AU - Bohn, Manuel
AU - Call, Josep
AU - DeTroy, Sarah
AU - Duguid, Shona J.
AU - Egelkamp, Crystal L.
AU - Fichtel, Claudia
AU - Fischer, Julia
AU - Flessert, Molly
AU - Hanus, Daniel
AU - Haun, Daniel B. M.
AU - Haux, Lou M.
AU - Hernandez-Aguilar, R. Adriana
AU - Herrmann, Esther
AU - Hopper, Lydia M.
AU - Joly, Marine
AU - Kano, Fumihiro
AU - Keupp, Stefanie
AU - Melis, Alicia P.
AU - Motes Rodrigo, Alba
AU - Ross, Stephen R.
AU - Sánchez-Amaro, Alejandro
AU - Sato, Yutaro
AU - Schmitt, Vanessa
AU - Schweinfurth, Manon Karin
AU - Seed, Amanda Madeleine
AU - Taylor, Derry
AU - Voelter, Christoph Johannes
AU - Warren, Elizabeth
AU - Watzek, Julia
AU - on behalf of Many Primates
PY - 2019/10/24
Y1 - 2019/10/24
N2 - Inferring the evolutionary history of cognitive abilities requires large
and diverse samples. However, such samples are often beyond the reach
of individual researchers or institutions, and studies are often limited
to small numbers of species. Consequently, methodological and
site-specific-differences across studies can limit comparisons between
species. Here we introduce the ManyPrimates project, which
addresses these challenges by providing a large-scale collaborative
framework for comparative studies in primate cognition. To demonstrate
the viability of the project we conducted a case study of short-term
memory. In this initial study, we were able to include 176 individuals
from 12 primate species housed at 11 sites across Africa, Asia, North
America and Europe. All subjects were tested in a delayed-response task
using consistent methodology across sites. Individuals could access food
rewards by remembering the position of the hidden reward after a 0, 15,
or 30-second delay. Overall, individuals performed better with shorter
delays, as predicted by previous studies. Phylogenetic analysis revealed
a strong phylogenetic signal for short-term memory. Although, with only
12 species, the validity of this analysis is limited, our initial
results demonstrate the feasibility of a large, collaborative
open-science project. We present the ManyPrimates project as an exciting opportunity to address open questions in primate cognition and behaviour with large, diverse datasets.
AB - Inferring the evolutionary history of cognitive abilities requires large
and diverse samples. However, such samples are often beyond the reach
of individual researchers or institutions, and studies are often limited
to small numbers of species. Consequently, methodological and
site-specific-differences across studies can limit comparisons between
species. Here we introduce the ManyPrimates project, which
addresses these challenges by providing a large-scale collaborative
framework for comparative studies in primate cognition. To demonstrate
the viability of the project we conducted a case study of short-term
memory. In this initial study, we were able to include 176 individuals
from 12 primate species housed at 11 sites across Africa, Asia, North
America and Europe. All subjects were tested in a delayed-response task
using consistent methodology across sites. Individuals could access food
rewards by remembering the position of the hidden reward after a 0, 15,
or 30-second delay. Overall, individuals performed better with shorter
delays, as predicted by previous studies. Phylogenetic analysis revealed
a strong phylogenetic signal for short-term memory. Although, with only
12 species, the validity of this analysis is limited, our initial
results demonstrate the feasibility of a large, collaborative
open-science project. We present the ManyPrimates project as an exciting opportunity to address open questions in primate cognition and behaviour with large, diverse datasets.
KW - Evolution
KW - Large-scale collaboration
KW - Open science
KW - Short-term memory
KW - Delayed-response task
UR - https://doi.org/10.31234/osf.io/3xu7q
U2 - 10.1371/journal.pone.0223675
DO - 10.1371/journal.pone.0223675
M3 - Article
SN - 1932-6203
VL - 14
JO - PLoS One
JF - PLoS One
IS - 10
M1 - e0223675
ER -