Your search keyword '"APODEMUS sylvaticus"' showing total 7 results

1. Scent, rather than fur pattern, determines predation of mice: an in‐the‐wild experiment with plasticine mouse models.

Author

Bocz, R., Batáry, P., and Purger, J. J.

Subjects

*PREDATION, *LABORATORY mice, *FUR, *APODEMUS, *WOOD, *CITIES & towns, *PREDATORY animals, *MICE

Abstract

Wood mouse Apodemus sylvaticus and striped field mouse A. agrarius are the most abundant mouse species in Central Europe coexisting in several habitats not only such as in forests but also in rural and urban areas. Their basic colours are similar, but the striped field mouse has a pronounced black stripe on its back. The biological function of this phenotypic difference is unexplored; therefore, our goal was to study the impact of fur pattern as well as the scent on the survival of these species. In our study, we used plasticine models mimicking wood mouse and striped field mouse. For imitating mouse scent, cotton pads saturated with mouse urine were placed under the models. In spring 2016, 200 plasticine mice divided into four types (non‐striped with scent, non‐striped without scent, striped with scent, striped without scent) were placed randomly in four sampling sites in the mid‐sized city, Pécs, Hungary. During 4 weeks of exposure, we recorded predation on 71 plasticine models. Birds (51%) and large mammals (25%) were the most common predators, and in 24% of the cases, the models disappeared. Considering predation only by large mammals, we found that the daily survival rate of both striped and non‐striped models with scent decreased in comparison to models without scent. Thus, large mammalian predators could discover plasticine models sooner than avian predators, which suggests a strong impact of scent. Despite the high rate of bird predation, we did not detect an effect of fur pattern suggesting that it may not be related to survival but might have other functional roles. With the dummy mouse experiment, we showed that fur pattern may play a minor role in mice detection by predators, thus further studies are needed to discover its ecological function. [ABSTRACT FROM AUTHOR]

Published

2022

2. Factors affecting woodland rodent growth.

Author

Brouard, M. J., Knowles, S. C. L., Dressen, S., Coulson, T., and Malo, A. F.

Subjects

*RODENTS, *APODEMUS, *FORESTS & forestry, *BODY size, *ACQUISITION of data, *MURIDAE

Abstract

Very little information exists on the growth rates of woodland rodents and the drivers of body size dynamics that are observed in British populations. In this study, we use mark–recapture data collected on two species living in sympatry, wood mice (Apodemus sylvaticus) and bank voles (Myodes glareolus). A third species of rodent, the yellow‐necked mouse (Apodemus flavicollis) was also caught occasionally. We found the density of this third species negatively impacted the growth rate of both wood mice and bank voles. No impact of conspecific population density on growth for either species was found. Previous studies have suggested high conspecific population density can impact growth for some individuals of the population, but our populations may have not reached the densities required to elucidate these effects during the study. [ABSTRACT FROM AUTHOR]

Published

2020

3. Effects of predation risk on the body mass regulation of growing wood mice.

Author

Monarca, R. I., Speakman, J. R., Mathias, M. L., and Bennett, Nigel

Subjects

*PREDATION, *HIGH-fat diet, *MICE, *ANIMALS, *BODY size, *SOCIAL impact, *LOW-fat diet, *CARDIOVASCULAR fitness

Abstract

Body mass in wild animals has been suggested to be regulated by the opposing fitness consequences of variation in body size (and fat storage) for starvation and predation risk. Many studies of adult mammals and birds have broadly confirmed the predictions of this model. However, relatively few studies have addressed the potential role of such trade‐offs during early phases of development when animals are growing. Similarly, studies of the impact of high‐fat diets on wild small mammals generally show a resistance to weight gain. But whether growing animals are similarly resistant is unclear. In this study, weaned wood mice (Apodemus sylvaticus) were exposed to a high risk of predation, simulated by the broadcasting of owl calls, for 66 days during which body mass and energy intake were monitored. We hypothesized that if the risk of predation plays a role in regulating body mass during this phase then animals growing under predation risk would grow less. We found female (but not male) mice exposed to the predation risk treatment had lower growth rates and ended the experiment lighter; however, variations in energy intake and resting metabolic rate did not explain the observed differences. Feeding on high‐fat diet resulted in individuals with higher body mass. Females reached their adult size earlier than males and were more responsive to the predation risk treatment when feeding on high‐fat diet. Our data suggest males body mass to have fitness consequences on social dominance and reproductive success not accounted for in the simple starvation‐predation trade‐off model. [ABSTRACT FROM AUTHOR]

Published

2020

4. Spatial genetic structuring in a vagile species, the European wood mouse.

Author

Booth, W., Montgomery, W. I., and Prodöhl, P. A.

Subjects

*APODEMUS sylvaticus, *POPULATION genetics, *ANIMAL populations, *MICROSATELLITE repeats, *GENETIC polymorphisms

Abstract

We examined the genetic structure of natural populations of the European wood mouse Apodemus sylvaticus at the microgeographic (<3 km) and macrogeographic (>30 km) scales. Ecological and behavioural studies indicate that this species exhibits considerable dispersal relative to its home-range size. Thus, there is potential for high gene flow over larger geographic areas. As levels of population genetic structure are related to gene flow, we hypothesized that population genetic structuring at the microgeographic level should be negligible, increasing only with geographic distance. To test this, four sites were sampled within a microgeographic scale with two additional samples at the macrogeographic level. Individuals ( n=415) were screened and analysed for seven polymorphic microsatellite loci. Contrary to our hypothesis, significant levels of population structuring were detected at both scales. Comparing genetic differentiation with geographic distance suggests increasing genetic isolation with distance. However, this distance effect was non-significant being confounded by surprisingly high levels of differentiation among microgeographic samples. We attribute this pattern of genetic differentiation to the effect of habitat fragmentation, splitting large populations into components with small effective population sizes resulting in enhanced genetic drift. Our results indicate that it is incorrect to assume genetic homogeneity among populations even where there is no evidence of physical barriers and dispersal can occur freely. In the case of A. sylvaticus, it is not clear whether dispersal does not occur across habitat barriers or behavioural dispersal occurs without consequent gene flow. [ABSTRACT FROM AUTHOR]

Published

2009

5. Surviving north of the natural range: the importance of density independence in determining population size.

Author

Unnsteinsdottir, E. R. and Hersteinsson, P.

Subjects

*PEROMYSCUS leucopus, *ANIMAL populations, *POPULATION density, *ANIMAL species, *HABITATS

Abstract

The relative importance of density-dependent and -independent processes in determining population density has been predicted to vary according to whether the population concerned is located near the centre or the periphery of the species' range. Thus, density-independent processes should be more pronounced near the periphery. The long-tailed wood mouse Apodemus sylvaticus in Iceland is at the northern and western edge of its geographical range. We estimated the autumn population density in an open habitat in south-western Iceland in 9 years out of 10 during 1996–2005 in order to monitor the annual maximum population size. Furthermore, we estimated population density and survival at c. 5-week intervals from September 2001 to October 2003 and from September 2004 to November 2005 in order to reveal the causes of variation in maximum population size. The estimated autumn population density was low, ranging from 2.7 to 8.9 mice ha−1 while spring densities ranged from 0.4 to 0.8 mice ha−1. Apparent monthly survival probabilities ranged from 0.4 to 0.7 per month in autumn and 0.7 to 0.9 in winter. Our results suggest that low temperature in early winter (October–December) is the major determinant of population density in the following autumn, explaining 74% of the variation in autumn population density. No significant correlation was found between either the NAO index or the NAO winter index and variation in wood mouse population density in autumn. Differential mortality in early winter results in variation in spring population size. This study shows clear evidence of density-independent control of a mammal population at the edge of its geographical range as opposed to the mostly density-dependent control previously recorded near its centre of distribution. [ABSTRACT FROM AUTHOR]

Published

2009

6. Polyandry by wood mice in natural populations.

Author

Booth, W., Montgomery, W. I., and Prodöhl, P. A.

Subjects

*POLYANDRY, *APODEMUS sylvaticus, *HABITATS, *MULTIPLE paternity in animals, *ANIMAL paternity, *GENETICS

Abstract

Multiple paternity was investigated for the first time in natural populations of the wood mouse Apodemus sylvaticus. Thirteen females and their respective litters sampled within distinct habitats, seasons and years were screened for eight microsatellite loci. Allelic variation was compared with a dataset comprising 307 adult mice collected from the same source populations as pregnant females. Multiple paternity was unambiguously identified in seven litters (53.8%). In each case, a minimum of two or three male parents were involved. Populations of A. sylvaticus inhabiting the northern latitudes of the species range are characterized by annual cycles of abundance during which numbers can fluctuate by several orders of magnitude. Hence, the discovery of multiple paternity within litters sampled between May and July (high and low densities, respectively) in all years suggests that polyandry maximizes genetic diversity of the litter and, hence, survival of some of the offspring through such cycles. The results indicate that polyandry is a common mode of reproduction within wild populations of A. sylvaticus. [ABSTRACT FROM AUTHOR]

Published

2007

7. Erratum.

Subjects

*ZOOLOGY, *PERIODICALS, *CLETHRIONOMYS glareolus, *APODEMUS sylvaticus

Abstract

Journal of Zoology, Volume 258, Part 4, December 2002 (pages 459–468) ‘Effects of seed masting of bilberry, oak and spruce on sympatric populations of bank vole (Clethrionomys glareolus) and wood mouse (Apodemus sylvaticus) in southern Norway’, by Vidar Selås, Erik Framstad and Tor K. Spidsø [ABSTRACT FROM AUTHOR]

Published

2003