Conserving species relies upon acquiring an understanding of their use of habitat,yet our understanding of the use of habitat by co-existing species of different guilds at microgeographic scales remains poor.In partic...Conserving species relies upon acquiring an understanding of their use of habitat,yet our understanding of the use of habitat by co-existing species of different guilds at microgeographic scales remains poor.In particular,the use of habitat by woodland species is of conservation concern because of widespread declines in woodland biodiversity.Woodland bird declines have been ascribed,in part,to high deer densities because their browsing reduces the availability of nesting sites and food.We quantify the microgeographic use of habitat by Roe Deer(Capreolus capreolus)and of Great Tits(Parus major),Blue Tits(Cyanistes caeruleus)and Pied Flycatchers(Ficedula hypoleuca)in a heterogenous woodland landscape.We examined the use of habitat at microgeographic scales by the deer and the three bird species in relation to whether the local habitat was flat or wet or had a path,fence or wall within a 25-m radius of 206 randomly selected locations.We first examined if the occupancy rates of nestboxes in those locations were correlated with the number of Roe Deer lays and second,examined if the use of habitat by the Roe Deer and the bird species were associated with each of the habitat features that we quantified.We begin by showing that the use of habitat by Roe Deer is incongruent with the use of habitat by Great Tits,Blue Tits and Pied Flycatchers during the breeding season.Also,whilst all three bird species showed no,or weak,habitat preferences,the Roe Deer preferred daytime lay sites that were in flat areas of wet woodland close to paths,whilst there were no significant effects of the presence of fences and walls.These findings show that the Roe Deer and the three bird species differ in the use of habitat within a heterogenous woodland landscape,meaning that their use of habitat did not overlap at microgeographic scales.Meanwhile,the deer showed preferences for flat areas of wet woodland,whilst none of the bird species exhibited such preferences,and we discuss the implications of our findings for the management of woodlands.展开更多
To counteract the negative effects of forest fragmentation on wildlife, it is crucial to maintain functional ecological networks. We identified the ecological networks for 2 mammals with very different degrees of fore...To counteract the negative effects of forest fragmentation on wildlife, it is crucial to maintain functional ecological networks. We identified the ecological networks for 2 mammals with very different degrees of forest specialization, the European badger Meles metes and the Roe deer Capreolus capreolus, by differentiati ng 4 agroforestry eleme nts as either no des or conn ectivity elements, and by defining the distanee that provides the functional connectivity between fragments. Species occurrenee data were collected in a wide agroecosystem in northern Italy. To test the role of hedgerows, traditional poplar cultivations, short rotation coppices, and reforestations as ecological network elements for the 2 species we applied the method of simulated species perceptions of the Iandscape (SSPL), comparing the ability of different SSPLs to explain the observed species distribution. All analyses were repeated considering different seenarios of species movement ability through the matrix. Model outputs seem to show that the specialist and highly mobile Roe deer has the same movement ability throughout the matrix (2 km) as the European badger, a smaller, but generalist species. The ecological network identified for the European badger was widespread throughout the area and was composed of woodlands, poplar cultivations and hedgerows as nodes and short rotation coppices as connectivity elements. Conversely, the ecological network of the Roe deer was mostly limited to the main forest areas and was composed of woodlands, poplar cultivations and ref o restat i ons as no des and short rotation coppices and hedgerows as conn ectivity elements. The degree of forest specialization strongly affects both species perception of habitat and movement ability throughout the matrix, regardless of species size. This has important implications for species conservation.展开更多
There is a growing interest on the potential interplay between weather,habitat,and interspecific competition on population dynamics of wild herbivores.Favorable environmental conditions may buffer the negative effects...There is a growing interest on the potential interplay between weather,habitat,and interspecific competition on population dynamics of wild herbivores.Favorable environmental conditions may buffer the negative effects of competition;conversely,competition may be expected to be stronger under harsh environmental conditions.We investigated relationships between competitor abundance,weather,and habitat cover on density and local distribution of a medium-sized herbivore,the roe deer Capreolus capreolus,as well as its spatial overlap with fallow deer Dama dama in a Mediterranean protected area.Over 11 years(2007–2017),roe deer density was not affected by spring–summer rainfall in the previous year and decreased with increasing density of fallow deer in the previous year.Hence,over the considered temporal scale,results supported a major role of competition over weather in influencing population trends of roe deer.At a finer spatial scale,roe deer occupancy was negatively affected by local abundance of fallow deer,especially in“poorer”habitats.We found a slight support for a positive effect of fallow deer density on interspecific spatial overlap.Moreover,fine-scale spatial overlap between deer species increased with decreasing rainfall in spring–summer.Fallow deer were introduced to our study area in historical times and their role as superior competitors over roe deer has been found also in other study areas.We suggest a potential role of harsh weather conditions during the growing season of vegetation(i.e.scarce rainfall)in triggering the potential for ecological overlap,emphasizing the negative effects of interspecific competition.展开更多
文摘Conserving species relies upon acquiring an understanding of their use of habitat,yet our understanding of the use of habitat by co-existing species of different guilds at microgeographic scales remains poor.In particular,the use of habitat by woodland species is of conservation concern because of widespread declines in woodland biodiversity.Woodland bird declines have been ascribed,in part,to high deer densities because their browsing reduces the availability of nesting sites and food.We quantify the microgeographic use of habitat by Roe Deer(Capreolus capreolus)and of Great Tits(Parus major),Blue Tits(Cyanistes caeruleus)and Pied Flycatchers(Ficedula hypoleuca)in a heterogenous woodland landscape.We examined the use of habitat at microgeographic scales by the deer and the three bird species in relation to whether the local habitat was flat or wet or had a path,fence or wall within a 25-m radius of 206 randomly selected locations.We first examined if the occupancy rates of nestboxes in those locations were correlated with the number of Roe Deer lays and second,examined if the use of habitat by the Roe Deer and the bird species were associated with each of the habitat features that we quantified.We begin by showing that the use of habitat by Roe Deer is incongruent with the use of habitat by Great Tits,Blue Tits and Pied Flycatchers during the breeding season.Also,whilst all three bird species showed no,or weak,habitat preferences,the Roe Deer preferred daytime lay sites that were in flat areas of wet woodland close to paths,whilst there were no significant effects of the presence of fences and walls.These findings show that the Roe Deer and the three bird species differ in the use of habitat within a heterogenous woodland landscape,meaning that their use of habitat did not overlap at microgeographic scales.Meanwhile,the deer showed preferences for flat areas of wet woodland,whilst none of the bird species exhibited such preferences,and we discuss the implications of our findings for the management of woodlands.
文摘To counteract the negative effects of forest fragmentation on wildlife, it is crucial to maintain functional ecological networks. We identified the ecological networks for 2 mammals with very different degrees of forest specialization, the European badger Meles metes and the Roe deer Capreolus capreolus, by differentiati ng 4 agroforestry eleme nts as either no des or conn ectivity elements, and by defining the distanee that provides the functional connectivity between fragments. Species occurrenee data were collected in a wide agroecosystem in northern Italy. To test the role of hedgerows, traditional poplar cultivations, short rotation coppices, and reforestations as ecological network elements for the 2 species we applied the method of simulated species perceptions of the Iandscape (SSPL), comparing the ability of different SSPLs to explain the observed species distribution. All analyses were repeated considering different seenarios of species movement ability through the matrix. Model outputs seem to show that the specialist and highly mobile Roe deer has the same movement ability throughout the matrix (2 km) as the European badger, a smaller, but generalist species. The ecological network identified for the European badger was widespread throughout the area and was composed of woodlands, poplar cultivations and hedgerows as nodes and short rotation coppices as connectivity elements. Conversely, the ecological network of the Roe deer was mostly limited to the main forest areas and was composed of woodlands, poplar cultivations and ref o restat i ons as no des and short rotation coppices and hedgerows as conn ectivity elements. The degree of forest specialization strongly affects both species perception of habitat and movement ability throughout the matrix, regardless of species size. This has important implications for species conservation.
文摘There is a growing interest on the potential interplay between weather,habitat,and interspecific competition on population dynamics of wild herbivores.Favorable environmental conditions may buffer the negative effects of competition;conversely,competition may be expected to be stronger under harsh environmental conditions.We investigated relationships between competitor abundance,weather,and habitat cover on density and local distribution of a medium-sized herbivore,the roe deer Capreolus capreolus,as well as its spatial overlap with fallow deer Dama dama in a Mediterranean protected area.Over 11 years(2007–2017),roe deer density was not affected by spring–summer rainfall in the previous year and decreased with increasing density of fallow deer in the previous year.Hence,over the considered temporal scale,results supported a major role of competition over weather in influencing population trends of roe deer.At a finer spatial scale,roe deer occupancy was negatively affected by local abundance of fallow deer,especially in“poorer”habitats.We found a slight support for a positive effect of fallow deer density on interspecific spatial overlap.Moreover,fine-scale spatial overlap between deer species increased with decreasing rainfall in spring–summer.Fallow deer were introduced to our study area in historical times and their role as superior competitors over roe deer has been found also in other study areas.We suggest a potential role of harsh weather conditions during the growing season of vegetation(i.e.scarce rainfall)in triggering the potential for ecological overlap,emphasizing the negative effects of interspecific competition.