Group size and mating system predict sex differences in vocal fundamental frequency in anthropoid primates

Toe Aung; Alexander K. Hill; Dana Pfefferle; Edward McLester; James Fuller; Jenna M. Lawrence; Ivan Garcia-Nisa; Rachel L. Kendal; Megan Petersdorf; James P. Higham; Gérard Galat; Adriano R. Lameira; Coren L. Apicella; Claudia Barelli; Mary E. Glenn; Gabriel Ramos-Fernandez; David A. Puts

doi:10.1038/s41467-023-39535-w

Group size and mating system predict sex differences in vocal fundamental frequency in anthropoid primates

Toe Aung, Alexander K. Hill, Dana Pfefferle, Edward McLester, James Fuller, Jenna M. Lawrence, Ivan Garcia-Nisa, Rachel L. Kendal, Megan Petersdorf, James P. Higham, Gérard Galat, Adriano R. Lameira, Coren L. Apicella, Claudia Barelli, Mary E. Glenn, Gabriel Ramos-Fernandez, David A. Puts

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Vocalizations differ substantially between the sexes in many primates, and low-frequency male vocalizations may be favored by sexual selection because they intimidate rivals and/or attract mates. Sexual dimorphism in fundamental frequency may be more pronounced in species with more intense male mating competition and in those with large group size, where social knowledge is limited and efficient judgment of potential mates and competitors is crucial. These non-mutually exclusive explanations have not been tested simultaneously across primate species. In a sample of vocalizations (n = 1914 recordings) across 37 anthropoid species, we investigated whether fundamental frequency dimorphism evolved in association with increased intensity of mating competition (H1), large group size (H2), multilevel social organization (H3), a trade-off against the intensity of sperm competition (H4), and/or poor acoustic habitats (H5), controlling for phylogeny and body size dimorphism. We show that fundamental frequency dimorphism increased in evolutionary transitions towards larger group size and polygyny. Findings suggest that low-frequency male vocalizations in primates may have been driven by selection to win mating opportunities by avoiding costly fights and may be more important in larger groups, where limited social knowledge affords advantages to rapid assessment of status and threat potential via conspicuous secondary sexual characteristics.

Original language	English (US)
Article number	4069
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-39535-w
State	Published - Dec 2023

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Aung, T., Hill, A. K., Pfefferle, D., McLester, E., Fuller, J., Lawrence, J. M., Garcia-Nisa, I., Kendal, R. L., Petersdorf, M., Higham, J. P., Galat, G., Lameira, A. R., Apicella, C. L., Barelli, C., Glenn, M. E., Ramos-Fernandez, G., & Puts, D. A. (2023). Group size and mating system predict sex differences in vocal fundamental frequency in anthropoid primates. Nature communications, 14(1), Article 4069. https://doi.org/10.1038/s41467-023-39535-w

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title = "Group size and mating system predict sex differences in vocal fundamental frequency in anthropoid primates",

abstract = "Vocalizations differ substantially between the sexes in many primates, and low-frequency male vocalizations may be favored by sexual selection because they intimidate rivals and/or attract mates. Sexual dimorphism in fundamental frequency may be more pronounced in species with more intense male mating competition and in those with large group size, where social knowledge is limited and efficient judgment of potential mates and competitors is crucial. These non-mutually exclusive explanations have not been tested simultaneously across primate species. In a sample of vocalizations (n = 1914 recordings) across 37 anthropoid species, we investigated whether fundamental frequency dimorphism evolved in association with increased intensity of mating competition (H1), large group size (H2), multilevel social organization (H3), a trade-off against the intensity of sperm competition (H4), and/or poor acoustic habitats (H5), controlling for phylogeny and body size dimorphism. We show that fundamental frequency dimorphism increased in evolutionary transitions towards larger group size and polygyny. Findings suggest that low-frequency male vocalizations in primates may have been driven by selection to win mating opportunities by avoiding costly fights and may be more important in larger groups, where limited social knowledge affords advantages to rapid assessment of status and threat potential via conspicuous secondary sexual characteristics.",

author = "Toe Aung and Hill, {Alexander K.} and Dana Pfefferle and Edward McLester and James Fuller and Lawrence, {Jenna M.} and Ivan Garcia-Nisa and Kendal, {Rachel L.} and Megan Petersdorf and Higham, {James P.} and G{\'e}rard Galat and Lameira, {Adriano R.} and Apicella, {Coren L.} and Claudia Barelli and Glenn, {Mary E.} and Gabriel Ramos-Fernandez and Puts, {David A.}",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

doi = "10.1038/s41467-023-39535-w",

language = "English (US)",

volume = "14",

journal = "Nature communications",

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Aung, T, Hill, AK, Pfefferle, D, McLester, E, Fuller, J, Lawrence, JM, Garcia-Nisa, I, Kendal, RL, Petersdorf, M, Higham, JP, Galat, G, Lameira, AR, Apicella, CL, Barelli, C, Glenn, ME, Ramos-Fernandez, G & Puts, DA 2023, 'Group size and mating system predict sex differences in vocal fundamental frequency in anthropoid primates', Nature communications, vol. 14, no. 1, 4069. https://doi.org/10.1038/s41467-023-39535-w

TY - JOUR

T1 - Group size and mating system predict sex differences in vocal fundamental frequency in anthropoid primates

AU - Aung, Toe

AU - Hill, Alexander K.

AU - Pfefferle, Dana

AU - McLester, Edward

AU - Fuller, James

AU - Lawrence, Jenna M.

AU - Garcia-Nisa, Ivan

AU - Kendal, Rachel L.

AU - Petersdorf, Megan

AU - Higham, James P.

AU - Galat, Gérard

AU - Lameira, Adriano R.

AU - Apicella, Coren L.

AU - Barelli, Claudia

AU - Glenn, Mary E.

AU - Ramos-Fernandez, Gabriel

AU - Puts, David A.

PY - 2023/12

Y1 - 2023/12

N2 - Vocalizations differ substantially between the sexes in many primates, and low-frequency male vocalizations may be favored by sexual selection because they intimidate rivals and/or attract mates. Sexual dimorphism in fundamental frequency may be more pronounced in species with more intense male mating competition and in those with large group size, where social knowledge is limited and efficient judgment of potential mates and competitors is crucial. These non-mutually exclusive explanations have not been tested simultaneously across primate species. In a sample of vocalizations (n = 1914 recordings) across 37 anthropoid species, we investigated whether fundamental frequency dimorphism evolved in association with increased intensity of mating competition (H1), large group size (H2), multilevel social organization (H3), a trade-off against the intensity of sperm competition (H4), and/or poor acoustic habitats (H5), controlling for phylogeny and body size dimorphism. We show that fundamental frequency dimorphism increased in evolutionary transitions towards larger group size and polygyny. Findings suggest that low-frequency male vocalizations in primates may have been driven by selection to win mating opportunities by avoiding costly fights and may be more important in larger groups, where limited social knowledge affords advantages to rapid assessment of status and threat potential via conspicuous secondary sexual characteristics.

AB - Vocalizations differ substantially between the sexes in many primates, and low-frequency male vocalizations may be favored by sexual selection because they intimidate rivals and/or attract mates. Sexual dimorphism in fundamental frequency may be more pronounced in species with more intense male mating competition and in those with large group size, where social knowledge is limited and efficient judgment of potential mates and competitors is crucial. These non-mutually exclusive explanations have not been tested simultaneously across primate species. In a sample of vocalizations (n = 1914 recordings) across 37 anthropoid species, we investigated whether fundamental frequency dimorphism evolved in association with increased intensity of mating competition (H1), large group size (H2), multilevel social organization (H3), a trade-off against the intensity of sperm competition (H4), and/or poor acoustic habitats (H5), controlling for phylogeny and body size dimorphism. We show that fundamental frequency dimorphism increased in evolutionary transitions towards larger group size and polygyny. Findings suggest that low-frequency male vocalizations in primates may have been driven by selection to win mating opportunities by avoiding costly fights and may be more important in larger groups, where limited social knowledge affords advantages to rapid assessment of status and threat potential via conspicuous secondary sexual characteristics.

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SN - 2041-1723

VL - 14

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 4069

ER -

Group size and mating system predict sex differences in vocal fundamental frequency in anthropoid primates

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