Study of a Small Mammal Population in Bowling Green, Kentucky

Cambron, Richard

01 August 1986

The small mammal population of a restricted study area was live-trapped on the University farm at Western Kentucky University from November 1984 through November 1985. A total of 1800 trap-nights yielded 81 different individuals representing five species. Members of the genera Peromyscus and Microtus were the dominant individuals representing over 90% of the total. Also caught were Mus musculus and Blarina brevicauda. The members of the two major genera were examined for population size and dynamics. In addition, a statistical analysis was carried out on the randomness of the location of the home ranges. This analysis gave evidence that the Peromyseus population was centered primarily in the ecotone between field and forest while Microtus was centered exclusively in the field habitat. In addition, the absence or near absence of Microtus for part of the year allowed the Peromyscus population to expand into the field for a short time. Finally, the year long study revealed a characteristic population cycle for each major species due to a combination of reproductive rates, feeding habits and decimation by predation.

Mice

Voles

Shrews

Animals

Rodents

Animal Sciences

Biology

Life Sciences

Other Animal Sciences

Survival and reproductive success of inbred and non-inbred prairie voles (microtus ochrogaster) under captive and semi-natural conditions

Williams, Kathryn Lynn.

January 2008

Thesis (M.S.)--Miami University, Dept. of Zoology, 2008. / Title from first page of PDF document. Includes bibliographical references (p. 34-38).

Nephropathia epidemica and Puumala virus occurrence in relation to bank vole (Clethrionomys glareolus) dynamics and environmental factors in northern Sweden /

Olsson, Gert E.,

January 2003

Diss. (sammanfattning). Umeå : Sveriges lantbruksuniv., 2003. / Härtill 4 uppsatser.

Temporal and spatial variation in predation on roe deer fawns /

Nordström, Jonas,

January 2010

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv., 2010. / Härtill 5 uppsatser.

Ultrasonic vocalization in prairie voles (Microtus ochrogaster) : evidence for begging behavior in infant mammals? /

Lea, Brian N.

January 2006

Thesis (M.S.)--University of North Carolina at Wilmington, 2006. / Includes bibliographical references (leaves: 31-35)

Vliv bionomických faktorů a kooperativnosti na rozlišování sourozenců u tří druhů hrabošů a na dobu separace nutnou k jeho vymizení / The influence of life history and cooperativeness on sibling discrimination in three species of voles and time of separation necessary for its disappearance

BRIXOVÁ, Lenka

January 2011

This thesis is composed of two parts. In the first one, sibling discrimination in juveniles of three vole species (Microtus arvalis, M.guentheri, and M.brandti) was compared in order to assess which of the hypotheses proposed for the occurrence of kin discrimination best fits the observed differences in vole behaviour. The second part uses the same three vole species to assess which of them has the most developed capacity to remember its siblings after a period of time spent in separation and whether this capacity can be explained by some of the proposed hypotheses.

The Vasopressin 1B Receptor: Sequencing and Localization in the Prairie Vole

Peloquin, Matthew James

03 June 2013

No description available.

Biology

Neurobiology

Molecular Biology

Endocrinology

Behavioral Sciences

Vasopressin

Voles

Localization

Vasopressin Receptor

AVPR1b

AVPR1a

neuropeptides

Estrogen Receptor Beta mRNA: Localization in the Prairie Vole (Microtus ochrogaster)

Koenig, Ashley S.

January 2013

No description available.

Biology

Estrogen receptors

Estrogen receptor beta

Microtus ochrogaster

prairie voles

sociosexual behavior

Interactions between gray-sided voles (Clethrionomys rufocanus) and vegetation in the Fennoscandian tundra

Dahlgren, Jonas

January 2006

<p>I have, in this thesis, studied the interactions between gray-sided voles (Clethrionomys rufocanus) and tundra vegetation, on islands in, and mainland sites close to the lake Iešjávri, in northern Norway. As isolated islands are virtually free of predation, I have been able to compare plant-herbivore interactions in the presence and absence of predators. I transplanted vegetation from an island with predators and voles, to predator-free islands with and with out voles. The results reveal the existence of a terrestrial trophic cascade as voles had a severe impact on the transplanted vegetation on the predator-free islands, but only minor effects on the mainland where predators are present. Moreover, this study shows that plant defence was only a successful strategy when predators were present. Voles reduced the abundance of all available plants during winter on the predator-free islands. The results imply that cascading effects of predation are most important for well-defended plants with grazing-sensitive morphology as these plants escape herbivore impacts in the presence of predators but are vulnerable in their absence</p><p>I studied the recovery of intensively grazed vegetation by building exclosures on islands that have been heavily grazed by voles for almost a decade.This study shows that the collective biomass of vascular plants recovered completely on three years, when voles were excluded. Although most species that are dominating the ungrazed vegetation recovered rapidly in the exclosures, the vegetation did not simply return to its ungrazed state. Herbaceous plants increased and there were pronounced differences in response among evergreen dwarf-shrub species. The semi-prostrate and tannin rich crowberry (Empetrum nigrum), showed the strongest recovery of all species, while the erect lingonberry (Vaccinium vitis-idaea) only showed weak signs of recovery. Thus, growth form determined the potential of plants to recover, whereas the trade-off between defensive investments and capacity to recover was weak or absent.</p><p>I studied the interaction between gray-sided voles and their main winter food plant, bilberry (Vaccinium myrtillus) on islands in and mainland sites close to the lake Iešjávri. I compared the abundance, population structure and palatability of bilberry ramets between vole-free islands, islands with voles but no predators and mainland sites with both voles and predators. Voles decreased the abundance of bilberry on the mainland, but the effect was much stronger on predator-free islands. Bilberry was fairly tolerant to grazing as it partially compensated for the lost tissue by producing more new ramets. Moreover, a cafeteria experiment showed that voles preferred the ramets from predator-free islands, which is inconsistent with conjectures emphasizing inducible plant defenses. The vole-bilberry interaction lacks features of delayed density dependence that could explain the vole cycles. I conducted a clipping and fertilization experiment to further investigate the effects of herbivory on palatability of bilberry shoots. Fertilization decreased the concentration of condensed tannins in shoots of bilberry and voles preferred fertilized and clipped shoots. I found no indication of induced defense that could reduce the palatability of bilberry twigs in response to herbivory.</p><p>The relationships between gray-sided vole densities, levels of invertebrate herbivory and chemical quality of leaves of Northern willow (Salix glauca) were studied on islands and mainland sites with contrasting vole densities. I found a positive correlation between level of invertebrate herbivory and vole density. The number of leaves per shoot, leaf size and leaf nitrogen content were also positively correlated with vole densities, while leaf C/N ratios were negatively correlated with vole densities. The positive correlation between vole densities and level of invertebrate herbivory is probably due to a facilitative effect of voles on invertebrate herbivores, mediated through changes in plant chemistry.</p>

gray-sided voles

tundra vegetation

trophic cascades

plant-herbivore interactions

bilberry

plant communities

herbivory

plant resistance

Terrestrial ecology

Terrestisk ekologi

Interactions between gray-sided voles (Clethrionomys rufocanus) and vegetation in the Fennoscandian tundra

Dahlgren, Jonas

January 2006

I have, in this thesis, studied the interactions between gray-sided voles (Clethrionomys rufocanus) and tundra vegetation, on islands in, and mainland sites close to the lake Iešjávri, in northern Norway. As isolated islands are virtually free of predation, I have been able to compare plant-herbivore interactions in the presence and absence of predators. I transplanted vegetation from an island with predators and voles, to predator-free islands with and with out voles. The results reveal the existence of a terrestrial trophic cascade as voles had a severe impact on the transplanted vegetation on the predator-free islands, but only minor effects on the mainland where predators are present. Moreover, this study shows that plant defence was only a successful strategy when predators were present. Voles reduced the abundance of all available plants during winter on the predator-free islands. The results imply that cascading effects of predation are most important for well-defended plants with grazing-sensitive morphology as these plants escape herbivore impacts in the presence of predators but are vulnerable in their absence I studied the recovery of intensively grazed vegetation by building exclosures on islands that have been heavily grazed by voles for almost a decade.This study shows that the collective biomass of vascular plants recovered completely on three years, when voles were excluded. Although most species that are dominating the ungrazed vegetation recovered rapidly in the exclosures, the vegetation did not simply return to its ungrazed state. Herbaceous plants increased and there were pronounced differences in response among evergreen dwarf-shrub species. The semi-prostrate and tannin rich crowberry (Empetrum nigrum), showed the strongest recovery of all species, while the erect lingonberry (Vaccinium vitis-idaea) only showed weak signs of recovery. Thus, growth form determined the potential of plants to recover, whereas the trade-off between defensive investments and capacity to recover was weak or absent. I studied the interaction between gray-sided voles and their main winter food plant, bilberry (Vaccinium myrtillus) on islands in and mainland sites close to the lake Iešjávri. I compared the abundance, population structure and palatability of bilberry ramets between vole-free islands, islands with voles but no predators and mainland sites with both voles and predators. Voles decreased the abundance of bilberry on the mainland, but the effect was much stronger on predator-free islands. Bilberry was fairly tolerant to grazing as it partially compensated for the lost tissue by producing more new ramets. Moreover, a cafeteria experiment showed that voles preferred the ramets from predator-free islands, which is inconsistent with conjectures emphasizing inducible plant defenses. The vole-bilberry interaction lacks features of delayed density dependence that could explain the vole cycles. I conducted a clipping and fertilization experiment to further investigate the effects of herbivory on palatability of bilberry shoots. Fertilization decreased the concentration of condensed tannins in shoots of bilberry and voles preferred fertilized and clipped shoots. I found no indication of induced defense that could reduce the palatability of bilberry twigs in response to herbivory. The relationships between gray-sided vole densities, levels of invertebrate herbivory and chemical quality of leaves of Northern willow (Salix glauca) were studied on islands and mainland sites with contrasting vole densities. I found a positive correlation between level of invertebrate herbivory and vole density. The number of leaves per shoot, leaf size and leaf nitrogen content were also positively correlated with vole densities, while leaf C/N ratios were negatively correlated with vole densities. The positive correlation between vole densities and level of invertebrate herbivory is probably due to a facilitative effect of voles on invertebrate herbivores, mediated through changes in plant chemistry.

gray-sided voles

tundra vegetation

trophic cascades

plant-herbivore interactions

bilberry

plant communities

herbivory

plant resistance

Terrestrial ecology

Terrestisk ekologi