Add to ORKGClethrionomys gapperi were captured in microhabitats with greater densities of overall cover than at noncapture or random sites within the study area. Variables describing cover density and distance from free water were selected in a discriminant function analysis to differentiate between vole capture and noncapture sites. Vole capture sites had greater amounts of cover within 4 dm above ground surface and were further from standing water than noncapture sites. The preferential use by C. gapperi of microhabitats with greater densities of cover is in agreement with laboratory and field assessments of habitat use reported in the literature
The crash phase of vole populations with cyclic dynamics regularly leads to vast areas of uninhabite...
Resources that an individual selects contrasted against what is available can provide valuable infor...
Spatial relationships and microhabitat selection were studied in syntopic populations of small mamma...
Some rodents specialize in their use of habitats while others occur in a variety of habitats. Althou...
I examined populations of the southern red-backed vole ( Clethrionomys gappen) and deer mouse (Perom...
Several factors influence microhabitat selection by rodents: predation risk, food distribution, vege...
Competing species and predators can alter the habitat use of animals but both factors are rarely sim...
Microhabitat choice by white-footed mice (Peromyscus leucopus) and red-backed voles (Clethrionomys g...
We assessed the habitat use patterns of the Amargosa vole Microtus californicus scirpensis, an endan...
Home range is shaped by an individual’s interactions with the environment and conspecifics, and both...
Includes bibliographical references (pages [94]-101)Responses of small mammals living on or near agr...
Graduation date: 1986During summer and fall of 1981 to 1983, mark-recapture was\ud conducted in ripa...
The competitive interactions among four species of voles, Clethrionomys gapperi, Microtus oregoni, M...
Similarities between golden mice (Ochrotomys nuttalli) and white-footed mice (Peromyscus leucopus) h...
A laboratory system to study microtine rodents has been developed that avoids many of the intrinsic ...
The crash phase of vole populations with cyclic dynamics regularly leads to vast areas of uninhabite...
Resources that an individual selects contrasted against what is available can provide valuable infor...
Spatial relationships and microhabitat selection were studied in syntopic populations of small mamma...
Some rodents specialize in their use of habitats while others occur in a variety of habitats. Althou...
I examined populations of the southern red-backed vole ( Clethrionomys gappen) and deer mouse (Perom...
Several factors influence microhabitat selection by rodents: predation risk, food distribution, vege...
Competing species and predators can alter the habitat use of animals but both factors are rarely sim...
Microhabitat choice by white-footed mice (Peromyscus leucopus) and red-backed voles (Clethrionomys g...
We assessed the habitat use patterns of the Amargosa vole Microtus californicus scirpensis, an endan...
Home range is shaped by an individual’s interactions with the environment and conspecifics, and both...
Includes bibliographical references (pages [94]-101)Responses of small mammals living on or near agr...
Graduation date: 1986During summer and fall of 1981 to 1983, mark-recapture was\ud conducted in ripa...
The competitive interactions among four species of voles, Clethrionomys gapperi, Microtus oregoni, M...
Similarities between golden mice (Ochrotomys nuttalli) and white-footed mice (Peromyscus leucopus) h...
A laboratory system to study microtine rodents has been developed that avoids many of the intrinsic ...
The crash phase of vole populations with cyclic dynamics regularly leads to vast areas of uninhabite...
Resources that an individual selects contrasted against what is available can provide valuable infor...
Spatial relationships and microhabitat selection were studied in syntopic populations of small mamma...