Diet and bite force in red foxes: Ontogenetic and sex differences in an invasive carnivore

Bite force is often used as a predictive indicator of an animal's feeding ecology, although the premise that there is a direct link between diet and cranial morphology can be difficult to test empirically. Studies that have examined this question tend to rely on generalizations of a species...

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Main Authors:	Forbes-Harper, J., Crawford, H., Dundas, S., Warburton, N., Adams, P., Bateman, Bill, Calver, M., Fleming, P.
Format:	Journal Article
Published:	Wiley-Blackwell 2017
Online Access:	http://hdl.handle.net/20.500.11937/54374

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author	Forbes-Harper, J. Crawford, H. Dundas, S. Warburton, N. Adams, P. Bateman, Bill Calver, M. Fleming, P.
author_facet	Forbes-Harper, J. Crawford, H. Dundas, S. Warburton, N. Adams, P. Bateman, Bill Calver, M. Fleming, P.
author_sort	Forbes-Harper, J.
building	Curtin Institutional Repository
collection	Online Access
description	Bite force is often used as a predictive indicator of an animal's feeding ecology, although the premise that there is a direct link between diet and cranial morphology can be difficult to test empirically. Studies that have examined this question tend to rely on generalizations of a species' diet, and age and sex differences are rarely considered. Red foxes (Vulpes vulpes) are introduced predators in Australia, allowing large sample size collection through culling for comparison of skull morphology (size, morphometry, weight), demographics (age, sex) and diet (stomach contents). Over half (57%) of the 540 animals we sampled were juveniles (<1 year old; dispersing from their natal sites) and most variation in skull morphometry was driven by age; adults had significantly more robust skulls than juveniles, with greater estimated bite force. Sexual dimorphism (body mass and body length) was reflected in longer, heavier skulls of males. We also recorded significant sex and age differences in diet. Sheep carrion comprised 47-65% of diet volume; however, adult females ate less sheep but had more mice and invertebrates in their diet than males or juveniles of both sexes. This dietary separation for adult females does not appear to be directly due to estimated bite force constraints, but probably rather prey availability, which may reflect feeding behaviour and space use patterns. Juveniles (both sexes) showed as much consumption of sheep carrion as adult males, despite their lower estimated bite force than adults. This is the first study that directly compares ontogenetic and sex differences in the diet of a carnivore together with their cranial morphology and estimated bite force, and highlights limitations of inferring diet partitioning from skull morphology alone.
first_indexed	2025-11-14T09:58:35Z
format	Journal Article
id	curtin-20.500.11937-54374
institution	Curtin University Malaysia
institution_category	Local University
last_indexed	2025-11-14T09:58:35Z
publishDate	2017
publisher	Wiley-Blackwell
recordtype	eprints
repository_type	Digital Repository
spelling	curtin-20.500.11937-543742017-11-24T01:53:49Z Diet and bite force in red foxes: Ontogenetic and sex differences in an invasive carnivore Forbes-Harper, J. Crawford, H. Dundas, S. Warburton, N. Adams, P. Bateman, Bill Calver, M. Fleming, P. Bite force is often used as a predictive indicator of an animal's feeding ecology, although the premise that there is a direct link between diet and cranial morphology can be difficult to test empirically. Studies that have examined this question tend to rely on generalizations of a species' diet, and age and sex differences are rarely considered. Red foxes (Vulpes vulpes) are introduced predators in Australia, allowing large sample size collection through culling for comparison of skull morphology (size, morphometry, weight), demographics (age, sex) and diet (stomach contents). Over half (57%) of the 540 animals we sampled were juveniles (<1 year old; dispersing from their natal sites) and most variation in skull morphometry was driven by age; adults had significantly more robust skulls than juveniles, with greater estimated bite force. Sexual dimorphism (body mass and body length) was reflected in longer, heavier skulls of males. We also recorded significant sex and age differences in diet. Sheep carrion comprised 47-65% of diet volume; however, adult females ate less sheep but had more mice and invertebrates in their diet than males or juveniles of both sexes. This dietary separation for adult females does not appear to be directly due to estimated bite force constraints, but probably rather prey availability, which may reflect feeding behaviour and space use patterns. Juveniles (both sexes) showed as much consumption of sheep carrion as adult males, despite their lower estimated bite force than adults. This is the first study that directly compares ontogenetic and sex differences in the diet of a carnivore together with their cranial morphology and estimated bite force, and highlights limitations of inferring diet partitioning from skull morphology alone. 2017 Journal Article http://hdl.handle.net/20.500.11937/54374 10.1111/jzo.12463 Wiley-Blackwell restricted
spellingShingle	Forbes-Harper, J. Crawford, H. Dundas, S. Warburton, N. Adams, P. Bateman, Bill Calver, M. Fleming, P. Diet and bite force in red foxes: Ontogenetic and sex differences in an invasive carnivore
title	Diet and bite force in red foxes: Ontogenetic and sex differences in an invasive carnivore
title_full	Diet and bite force in red foxes: Ontogenetic and sex differences in an invasive carnivore
title_fullStr	Diet and bite force in red foxes: Ontogenetic and sex differences in an invasive carnivore
title_full_unstemmed	Diet and bite force in red foxes: Ontogenetic and sex differences in an invasive carnivore
title_short	Diet and bite force in red foxes: Ontogenetic and sex differences in an invasive carnivore
title_sort	diet and bite force in red foxes: ontogenetic and sex differences in an invasive carnivore
url	http://hdl.handle.net/20.500.11937/54374

Diet and bite force in red foxes: Ontogenetic and sex differences in an invasive carnivore

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