Dietary niche differentiation among three species of invasive rodents (Rattus rattus, R. exulans, Mus musculus)

Shiels, Aaron B.; Flores, Caitlin A.; Khamsing, Arthur; Krushelnycky, Paul D.; Mosher, Stephen M.; Drake, Donald R.

doi:10.1007/s10530-012-0348-0

Cited by 98 publications

(101 citation statements)

References 55 publications

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“…Sympatry of related species is, therefore, expected to drive character displacement such as body size differences, as is seen in other species (Dayan and Simberloff 1998). For example, R. exulans and R. rattus successfully niche partition when living sympatrically, but population sizes appear to be are smaller than when similar niche partitioning occurs between the morphologically more different R. rattus and Mus musculus, where population sizes remain relatively high, indicating R. rattus and Mus musculus can niche partition more successfully than R. rattus and R. exulans can (Shiels et al 2012). There is some tentative evidence from the archaeological record of dramatic changes in size (primarily body size) for individual Rattus species in the absence of competition (Armitage et al 1984;Armitage 1994 due to lack of interspecific competition (Armitage 1994).…”

Section: Shape Versus Sizementioning

confidence: 95%

Dental Shape Variation and Phylogenetic Signal in the Rattini Tribe Species of Mainland Southeast Asia

et al. 2018

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The Rattini tribe comprises some of the most specious genera in the mammalian kingdom. Many of these species are also highly morphologically conserved. As a result, identifying Rattini tribe animals, particularly those of the Rattus genus, to species level is extremely difficult. Problems with identification of conservative morphologies, particularly of the skeleton, have led to difficulties in understanding the fossil remains and as a result the systematics of this group. Here, we apply geometric morphometrics to the first lower molar of 14 species of the Rattini tribe. We find that the morphological data present a strong phylogenetic signal. However, within Rattus, this signal is rather complex and possibly hints at rapid evolutionary shape and size changes. In modern species, it is possible to identify specimens to species level with a good degree of confidence. We find that using both size and shape together affords further confidence with identification. However, we caution against the over-reliance on size in environments with unknown species composition and climate, particularly in archaeological contexts. This approach should prove to be a useful tool for identifying fossil and sub-fossil remains, particularly where biomolecular markers are absent in circumstances of poor preservation.

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Section: Shape Versus Sizementioning

confidence: 95%

Dental Shape Variation and Phylogenetic Signal in the Rattini Tribe Species of Mainland Southeast Asia

et al. 2018

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“…In mammals, examples of niche differentiation in closely related groups might include differences in dietary and/or locomotor specialization (Hutchinson 1959;Shiels et al 2013). Competition can also result in size segregation, and in extreme cases, this phenomenon could result in traits that are evenly dispersed from each other (Rosenzweig 1966).…”

Section: Introductionmentioning

confidence: 99%

A Novel Multiscale Assessment of Community Assembly across Time, Space, and Functional Niche

Meachen

Roberts²

2014

The American Naturalist

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A basic ecological tenet is that organisms in a community occupy different niches and have different traits, but how consistently competition, selection, and phylogenetic effects structure communities remains uncertain. Are all communities created equal? We examine how mammalian carnivoran communities are assembled with regard to mass, diet, and locomotion. Here, we use a multivariate nearest-neighbor framework to examine multiple North American localities spanning 3 million years to determine whether community assembly is consistent through time and four modern localities around the world to assess the effects of habitat. Additionally, we examined how trait patterns differ among families and how familylevel evolutionary effects affect them. We found some broadly consistent patterns, although differences are more pronounced than similarities. Diet is more affected by evolutionary constraints than by time or place. Locomotion is most affected by habitat, and the ability to partition niches is related to habitat heterogeneity. Mass is influenced by family, but also by habitat and the mass-selective extinction events at the end-Pleistocene. These findings indicate that assembly patterns are not largely determined by within-community interactions but instead show that each community is a product of its independent variables.

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“…We believe the small differences observed might be explained simply by the foraging behaviour of each rat species. The ship rat is arboreal with a diet mostly made of fruits and plant items (Shiels et al 2014), on the other hand, the Pacific rat is a ground forager that consumes more invertebrates and fewer plants than the ship rat (Shiels et al 2013). Our dietary analysis reveals the same pattern and accurately describes the differences in the diet of the two species; for example, feather remains were found in ship rats only, whereas earthworms were more abundant in Pacific rat guts.…”

Section: Introduced Rats' Impact On Native Skinksmentioning

confidence: 65%

“…In 1990, Newman and McFadden (1990) analysed the stomachs of 134 Pacific rats on offshore islands in New Zealand: only three of them contained skink remains. More recently in Hawaiian forests, a diet study on R. rattus, R. exulans and M. musculus conducted by Shiels et al (2013) revealed the complete absence of any skink remains in the stomachs analysed (n = 12-95 individuals per species). Our result can be explained by the high skink species richness and abundance in the archipelago (Bauer & Sadlier 2000) combined with the likely improved estimation of predation rates in our study due to caecum content analysis.…”

Section: Introduced Rats' Impact On Native Skinksmentioning

confidence: 99%

Invasive rodents, an overlooked threat for skinks in a tropical island hotspot of biodiversity

Thibault¹,

Brescia²,

Jourdan³

et al. 2017

NZ J Ecol

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Squamata are one of the most threatened groups among island vertebrates, facing high pressure from exotic species. However, the contribution of small terrestrial reptiles in invasive rodents' diet remains poorly investigated, partly because of the lack of tools for accurately identifying chewed prey fragments in gut contents. The New Caledonia archipelago (South Pacific) hosts an exceptional terrestrial squamata fauna (105 species, 91.6% endemic) that are faced with many invasive species (rodents, feral cats, feral pigs, ants) and strong human pressures. Our study aimed to evaluate the frequency of occurrence of endemic skink remains by gut content analysis of two species of invasive rodents. Four rodent trapping sessions were implemented at two ultramafic sites and for two distinct habitats (closed canopy forest and open shrubland habitat). A total of 284 rats were trapped from two species (the ship rat Rattus rattus and the Pacific rat R. exulans) over 1200 trap nights. Combined analysis of stomach and caecum contents provided far more information than traditional stomach analysis alone. Analyses showed that 15.9% of rat samples included remains of at least 12 different skink species out of the 23 present. Six species are classified as threatened by the IUCN, the most endangered being Marmorosphax taom (CR) and Kanakysaurus viviparus (EN). This study provides new prospects for the assessment of invasive rodent impacts and new insights into the respective impacts of two sympatric invasive rodent species on native skinks.

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Dietary niche differentiation among three species of invasive rodents (Rattus rattus, R. exulans, Mus musculus)

Cited by 98 publications

References 55 publications

Dental Shape Variation and Phylogenetic Signal in the Rattini Tribe Species of Mainland Southeast Asia

Dental Shape Variation and Phylogenetic Signal in the Rattini Tribe Species of Mainland Southeast Asia

A Novel Multiscale Assessment of Community Assembly across Time, Space, and Functional Niche

Invasive rodents, an overlooked threat for skinks in a tropical island hotspot of biodiversity

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