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      Human-Related Factors Regulate the Spatial Ecology of Domestic Cats in Sensitive Areas for Conservation

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          Abstract

          Background

          Domestic cats ranging freely in natural areas are a conservation concern due to competition, predation, disease transmission or hybridization with wildcats. In order to improve our ability to design effective control policies, we investigate the factors affecting their numbers and space use in natural areas of continental Europe.

          Methodology/Principal Findings

          We describe the patterns of cat presence, abundance and space use and analyse the associated environmental and human constraints in a well-preserved Mediterranean natural area with small scattered local farms. We failed in detecting cats in areas away from human settlements (trapping effort above 4000 trap-nights), while we captured 30 individuals near inhabited farms. We identified 130 cats, all of them in farms still in use by people (30% of 128 farms). All cats were free-ranging and very wary of people. The main factor explaining the presence of cats was the presence of people, while the number of cats per farm was mostly affected by the occasional food provisioning with human refuse and the presence of people. The home ranges of eight radio tagged cats were centred at inhabited farms. Males went furthest away from the farms during the mating season (3.8 km on average, maximum 6.3 km), using inhabited farms as stepping-stones in their mating displacements (2.2 km of maximum inter-farm distance moved). In their daily movements, cats notably avoided entering in areas with high fox density.

          Conclusions

          The presence, abundance and space use of cats were heavily dependent on human settlements. Any strategy aiming at reducing their impact in areas of conservation concern should aim at the presence of settlements and their spatial spread and avoid any access to human refuse. The movements of domestic cats would be limited in areas with large patches of natural vegetation providing good conditions for other carnivore mammals such as red foxes.

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          Most cited references76

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          Detecting hybridization between wild species and their domesticated relatives.

          The widespread occurrence of free-ranging domestic or feral carnivores (dogs, cats) or ungulates (pigs, goats), and massive releases of captive-reproduced game stocks (galliforms, waterfowl) is raising fear that introgressive hybridization with wild populations might disrupt local adaptations, leading to population decline and loss of biodiversity. Detecting introgression through hybridization is problematic if the parental populations cannot be sampled (unlike in classical stable hybrid zones), or if hybridization is sporadic. However, the use of hypervariable DNA markers (microsatellites) and new statistical methods (Bayesian models), have dramatically improved the assessment of cryptic population structure, admixture analyses and individual assignment testing. In this paper, I summarize results of projects aimed to identify occurrence and extent of introgressive hybridization in European populations of wolves (Canis lupus), wildcats (Felis silvestris), rock partridges and red-legged partridges (Alectoris graeca and Alectoris rufa), using genetic methods. Results indicate that introgressive hybridization can be locally pervasive, and that conservation plans should be implemented to preserve the integrity of the gene pools of wild populations. Population genetic methods can be fruitfully used to identify introgressed individuals and hybridizing populations, providing data which allow evaluating risks of outbreeding depression. The diffusion in the wild of invasive feral animals, and massive restocking with captive-reproduced game species, should be carefully controlled to avoid loss of genetic diversity and disruption of local adaptations.
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            Genetic diversity and introgression in the Scottish wildcat.

            This paper describes a genetic analysis of wild-living cats in Scotland. Samples from 230 wild-living Scottish cats (including 13 museum skins) and 74 house cats from England and Scotland were surveyed for nine microsatellite loci. Pelage characteristics of the wild-living cats were recorded, and the cats were then grouped into five separate categories depending on the degree to which they conformed to the characteristics attributed to Felis silvestris Schreber, 1775. Allele frequency differences between the morphological groups are greater than those among the three house cat samples. Analysis of genetic distances suggests that more of the differences between individuals can be explained by pelage than geographical proximity, and that pelage and geographical location are not confounded. Ordination of the genetic distances suggests two main groups of wild-living cats, with intermediates, and one group is genetically very similar to the house cats, while the other group contains all cats taxonomically identified as wildcat based on morphology. A genetic mixture analysis gives similar results to the ordination, but also suggests that the genotypes of a substantial number of cats in the wildcat group are drawn from a gene pool with genotypes in approximately equilibrium proportions. We argue that this is evidence that these cats do not have very recent domestic ancestry. However, from the morphological data it is highly likely that this gene pool also contains a contribution from earlier introgression of domestic cat genes.
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              Do domestic cats impose an unsustainable harvest on urban bird populations?

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                Author and article information

                Contributors
                Role: Editor
                Journal
                PLoS One
                plos
                plosone
                PLoS ONE
                Public Library of Science (San Francisco, USA )
                1932-6203
                2011
                17 October 2011
                : 6
                : 10
                : e25970
                Affiliations
                [1 ]Departamento de Biologia Animal, Faculdade de Ciências de Lisboa, Centro de Biologia Ambiental, Universidade de Lisboa, Lisboa, Portugal
                [2 ]Department of Conservation Biology, Estación Biológica de Doñana Consejo Superior de Investigaciones Científicas (CSIC), Seville, Spain
                [3 ]Departamento de Biologia and Centre for Environmental and Marine Studies (CESAM), Universidade de Aveiro Campus Universitário de Santiago, Aveiro, Portugal
                Institut Pluridisciplinaire Hubert Curien, France
                Author notes

                Performed the experiments: JPF IL. Analyzed the data: JPF ER. Contributed reagents/materials/analysis tools: JPF MSR ER. Wrote the paper: JPF MSR ER.

                Article
                PONE-D-10-04604
                10.1371/journal.pone.0025970
                3197152
                22043298
                b29890ba-00b4-46da-b8df-e192cc0167dd
                Ferreira et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
                History
                : 13 November 2010
                : 14 September 2011
                Page count
                Pages: 10
                Categories
                Research Article
                Biology
                Ecology
                Community Ecology
                Community Structure
                Species Interactions
                Ecological Environments
                Terrestrial Environments
                Ecological Metrics
                Population Size
                Relative Abundance Distribution
                Species Diversity
                Environmental Protection
                Spatial and Landscape Ecology
                Zoology
                Animal Behavior
                Mammalogy

                Uncategorized
                Uncategorized

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