Patchwork planet: the resource dispersion hypothesis, society, and the ecology of life

Macdonald, David W.; Johnson, Dominic

doi:10.1111/jzo.12202

Cited by 97 publications

(127 citation statements)

References 207 publications

(310 reference statements)

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“…Because cats increased their use of carrion, a resource previously favoured by foxes, we adduce this as evidence that foxes can affect cat-resource use, although further investigation is required to understand the broader implications. For instance, if more carcasses were available to cats at fox-removal sites we might expect cat home-ranges to be smaller at fox-removal sites relative to untreated sites [35–37]. This was apparent in our study, but only when those cats ( n = 7) whose home ranges were estimated for all three seasons were analyzed.…”

Section: Discussionmentioning

confidence: 70%

Mesopredator Management: Effects of Red Fox Control on the Abundance, Diet and Use of Space by Feral Cats

Molsher¹,

Newsome

et al. 2017

PLoS ONE

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Apex predators are subject to lethal control in many parts of the world to minimize their impacts on human industries and livelihoods. Diverse communities of smaller predators—mesopredators—often remain after apex predator removal. Despite concern that these mesopredators may be 'released' in the absence of the apex predator and exert negative effects on each other and on co-occurring prey, these interactions have been little studied. Here, we investigate the potential effects of competition and intraguild predation between red foxes (Vulpes vulpes) and feral cats (Felis catus) in south-eastern Australia where the apex predator, the dingo (Canis dingo), has been extirpated by humans. We predicted that the larger fox would dominate the cat in encounters, and used a fox-removal experiment to assess whether foxes affect cat abundance, diet, home-range and habitat use. Our results provide little indication that intraguild predation occurred or that cats responded numerically to the fox removal, but suggest that the fox affects some aspects of cat resource use. In particular, where foxes were removed cats increased their consumption of invertebrates and carrion, decreased their home range size and foraged more in open habitats. Fox control takes place over large areas of Australia to protect threatened native species and agricultural interests. Our results suggest that fox control programmes could lead to changes in the way that cats interact with co-occurring prey, and that some prey may become more vulnerable to cat predation in open habitats after foxes have been removed. Moreover, with intensive and more sustained fox control it is possible that cats could respond numerically and alter their behaviour in different ways to those documented herein. Such outcomes need to be considered when estimating the indirect impacts of fox control. We conclude that novel approaches are urgently required to control invasive mesopredators at the same time, especially in areas where apex predators are absent.

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Section: Discussionmentioning

confidence: 70%

Mesopredator Management: Effects of Red Fox Control on the Abundance, Diet and Use of Space by Feral Cats

Molsher¹,

Newsome

et al. 2017

PLoS ONE

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“…Carnivorous musteloids exhibit the greatest degree of sexual dimorphism in cranial size and bite force, whereas herbivorous musteloids exhibit the lowest degree of sexual dimorphism. Following predictions of niche divergence, omnivorous and herbivorous musteloids exhibit reduced degrees of sexual dimorphism as nonvertebrate prey and plant material are more abundant and easier to obtain therefore reducing intraspecific competition (Hairston et al 1960;Noonan et al 2015;MacDonald and Johnson 2015). Because competition for terrestrial vertebrate prey is greater than for plant material, nonvertebrate prey (Hairston et al 1960;Noonan et al 2015;MacDonald and Johnson 2015), and aquatic vertebrate prey, increased sexual dimorphism is thought to reduce dietary competition between male and female carnivores under niche divergence.…”

Section: Discussionmentioning

confidence: 99%

“…It is well documented that males and females of many carnivoran species utilize different dietary resources, often in the form of prey size where males consume larger prey than females (Birks and Dunstone 1985;Funston et al 2001;McDonald 2002;Radloff and Toit 2004). This pattern is often attributed to the hypothesis that competition for vertebrate prey is likely greater than competition for plant material and nonvertebrate prey (Hairston et al 1960;Noonan et al 2015;MacDonald and Johnson 2015). This pattern is often attributed to the hypothesis that competition for vertebrate prey is likely greater than competition for plant material and nonvertebrate prey (Hairston et al 1960;Noonan et al 2015;MacDonald and Johnson 2015).…”

mentioning

confidence: 99%

“…Furthermore, across carnivorans there is a relationship between the degree of carnivory and the degree of sexual dimorphism in which more carnivorous species exhibit greater size dimorphism between males and females (Gittleman and Van Valkenburgh 1997;Noonan et al 2016). In contrast, increased sexual dimorphism to reduce intraspecific competition is not necessary in species with a lower degree of carnivory (i.e., plant material, nonvertebrate prey) because these prey items are more abundant and easier to obtain (Hairston et al 1960;Noonan et al 2015;MacDonald and Johnson 2015). Increased sexual dimorphism in obligate carnivores, therefore, reduces intraspecific dietary competition by reducing competition between males and females.…”

mentioning

confidence: 99%

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Carnivory maintains cranial dimorphism between males and females: Evidence for niche divergence in extant Musteloidea

Law

Mehta

2018

Evolution

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The evolution and maintenance of sexual dimorphism has long been attributed to sexual selection. Niche divergence, however, serves as an alternative but rarely tested selective pressure also hypothesized to drive phenotypic disparity between males and females. We reconstructed ancestral social systems and diet and used Ornstein-Uhlenbeck (OU) modeling approaches to test whether niche divergence is stronger than sexual selection in driving the evolution of sexual dimorphism in cranial size and bite force across extant Musteloidea. We found that multipeak OU models favored different dietary regimes over social behavior and that the greatest degree of cranial size and bite force dimorphism were found in terrestrial carnivores. Because competition for terrestrial vertebrate prey is greater than other dietary groups, increased cranial size and bite force dimorphism reduces dietary competition between the sexes. In contrast, neither dietary regime nor social system influenced the evolution of sexual dimorphism in cranial shape. Furthermore, we found that the evolution of sexual dimorphism in bite force is influenced by the evolution of sexual dimorphism in cranial size rather than cranial shape. Overall, our results highlight niche divergence as an important mechanism that maintains the evolution of sexual dimorphism in musteloids.

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“…However, in some species, groups form with seemingly no benefits. The resource dispersion hypothesis (Carr and Macdonald 1986;Johnson et al 2002;Macdonald and Johnson 2015) attempts to explain such scenarios by predicting that patchy, but abundant resources can result in social systems that support group living by enabling multiple individuals to share resources in an area without imposing significant costs on each other (da Silva et al 1994;Derocher and Stirling 1990;Gehrt and Fritzell 1998;Kruuk and Parish 1987;Rogers 1987).…”

Section: Introductionmentioning

confidence: 99%

The interplay between clumped resources, social aggregation, and genetic relatedness in the raccoon

et al. 2015

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The extent to which individuals within a population live in groups is often variable, as group formation is most likely to occur when the benefits of group-living outweigh the costs. The distribution of resources can underpin the likelihood of group formation by altering costs associated with individuals aggregating. By influencing the extent of groupliving, resources may also influence relatedness patterns. To address this, we examined relatedness in raccoons (Procyon lotor) by combining spatial and genetic data in an experimental framework wherein resources were manipulated. We tested for differences in patterns of genetic relatedness among 12 sites subject to three treatments: no supplemental food; supplemental food added in a dispersed, non-predictable fashion; and clumped, predictable food supplements resulting in aggregations. We measured mean relatedness for >500 raccoons using blood and hair samples genotyped at 14 nuclear microsatellites and tested for differences between sites and sexes. For two sites, we radio-tracked raccoons and calculated volume of intersection (VI) values, which measure the probability of co-occurrence between individuals' home ranges, and calculated the relationship between VI and relatedness. Telemetry data indicated that raccoons exposed to clumped food shifted their home ranges, in turn perturbing patterns of relatedness between individuals, especially among females. This was exhibited through a positive association between VI and relatedness for females at the site with dispersed food, which was not observed among males or at the site with clumped food. At the landscape level, sites differed significantly in mean relatedness, but there were no clear patterns that corresponded to treatments. Overall, our observations support expectations of the resource dispersion hypothesis, wherein individuals modify ranges to include clumped resources if the costs of tolerating other individuals are low.

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Patchwork planet: the resource dispersion hypothesis, society, and the ecology of life

Cited by 97 publications

References 207 publications

Mesopredator Management: Effects of Red Fox Control on the Abundance, Diet and Use of Space by Feral Cats

Mesopredator Management: Effects of Red Fox Control on the Abundance, Diet and Use of Space by Feral Cats

Carnivory maintains cranial dimorphism between males and females: Evidence for niche divergence in extant Musteloidea

The interplay between clumped resources, social aggregation, and genetic relatedness in the raccoon

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