Free-roaming cats (e.g., owned, semi-feral, and feral) impact wildlife worldwide through predation, competition, and disease transmission. Baseline ecological information necessary for population management is lacking. We radiocollared free-roaming cats (feral, n ¼ 30; semi-feral, n ¼ 14; owned, n ¼ 10) in Caldwell, Texas, USA between October 2004 and November 2005 and compared population demographics among sex and ownership classification. We found ranges and movements declined across ownership classes whereas survival and fecundity increased. Our findings suggest that human interactions (e.g., feeding) may result in high, localized free-roaming cat densities, which may concentrate feral cat impacts and should be considered when evaluating population control strategies. (JOURNAL OF WILDLIFE MANAGEMENT 71(3): 915-919; 2007)
Global estimates of the number of domestic cats (Felis catus) are >400 million. Issues associated with freeroaming cats are of global importance because of animal-welfare and public-health concerns and impacts on native wildlife through predation, competition and disease transmission. In the United States, proposed control solutions for managing urban free-roaming cat populations include euthanasia and trap-neuter-return (TNR) programs. We evaluated control methods using a demographic population model for a 25-year period, with parameters estimated from an unmanaged, free-roaming cat population in Texas. We modelled euthanasia and TNR at 25%, 50% and 75% implementation rates and a 50 : 50 combination of euthanasia and TNR at 25%, 50%, 75% and 100% implementation rates for 0%, 25% and 50% maximum immigration rates. We compared final population size, total number of cats treated and treatment effort relative to population reduction. Population decreases were comparable among euthanasia, TNR and a 50 : 50 combination for all treatment rates when the immigration rate was 0%; however, they were higher for euthanasia at 25% and 50% maximum immigration rates. Euthanasia required higher treatment effort than TNR. Our results indicate that immigration must be prevented and high (>50%) treatment rates implemented to reduce free-roaming cat populations.
The extraordinary growth of human populations and development in coastal areas over the last half century has eliminated and degraded coastal habitats and threatened the persistence of associated wildlife. Moreover, human‐induced sea‐level rise (SLR) is projected to further eliminate and alter the same coastal ecosystems, especially low‐lying regions. Whereas habitat loss and wildlife population declines from development are well documented, contemporary SLR has not yet been implicated in declines of coastal faunal populations. In addition, the projection of severe synergistic impacts from the combination of development and SLR is well described, yet the scientific literature offers little empirical evidence of the influence of these forces on coastal wildlife. Analysis of aerial photographs from 1959 to 2006 provided evidence of a 64% net loss of the endangered Lower Keys marsh rabbit's (Sylvilagus palustris hefneri; LKMR) habitat, the majority due to SLR (>48%). Furthermore, there was a strong negative relationship between the proportion of development per island and the amount of new habitat formed. Islands with modest development (less than 8% of land area) saw formation of new areas of marsh vegetation suitable for rabbits, whereas islands with 8% or more of their lands developed between 1959 and 2006 saw little to no addition of LKMR habitat. Only 8% of habitat loss was directly due to conversion to impervious surfaces, indicating that the greatest threats from development were indirect, including blocking of the inland migration of habitat triggered by SLR. Our results were consistent with an ongoing squeeze of coastal ecosystems between rising seas and development as a threat to LKMR habitat, which raises concern for a wide variety of coastal species. Our results provide evidence that SLR has become a contemporary conservation concern, one that is exacerbated by development, and expected to increase in magnitude as ocean waters continue to rise.
ABSTRACT. The distance covered by foraging animals, especially those that radiate from a central area when foraging, may affect ecosystem, community, and population dynamics, and has conservation and landscape planning implications for multiple taxa, including migratory waterfowl. Migrating and wintering waterfowl make regular foraging flights between roosting and feeding areas that can greatly impact energetic resources within the foraging zone near roost sites. We reviewed published studies and gray literature for oneway foraging flight distances (FFDs) of migrating and wintering dabbling ducks and geese. Thirty reviewed studies reported FFDs and several reported values for multiple species or locations. We obtained FFD values for migration (n = 7) and winter (n = 70). We evaluated the effects of body mass, guild, i.e., dabbling duck or goose, and location, i.e., Nearctic or Palearctic, on FFDs. We used the second-order Akaike's Information Criterion for model selection. We found support for effects of location and guild on FFDs. FFDs of waterfowl wintering in the Nearctic (7.4 ± 6.7 km, mean ± SD; n = 39 values) were longer than in the Palearctic (4.2 ± 3.2 km; n = 31 values). The FFDs of geese (7.8 ± 7.2 km, mean ± SD; n = 24 values) were longer than FFDs of dabbling ducks (5.1 ± 4.4 km, mean ± SD; n = 46 values). We found mixed evidence that distance flown from the roost changed, i.e., increased or decreased, seasonally. Our results can be used to refine estimates of energetic carrying capacity around roosts and in biological and landscape planning efforts.Distances parcourues pour la recherche alimentaire par les oies et les canards hivernants : une synthèse.RÉSUMÉ. La distance parcourue par les animaux aux fins de recherche alimentaire, particulièrement chez ceux qui rayonnent à partir d'un point central, peut influencer l'écosystème, la biocénose, ainsi que les dynamiques de population. Pour beaucoup de taxons incluant les anatidés migrants, la distance parcourue a également des implications sur la conservation et la planification des paysages. Les vols réguliers des anatidés (migrants ou hivernants) entre l'espace de nourrissage et de repos, peuvent impacter lourdement les ressources énergétiques au sein de la zone de nourrissage proche des sites de repos. Nous avons examiné les études et la littérature grise concernant les distances des allés vers les sites de nourrissage (DASN) des barboteurs et des oies migrants et hivernants. Trente études examinées ont indiqué les DASN dont un certain nombre ont mentionné des valeurs pour plusieurs espèces ou lieux. Nous avons obtenu des valeurs de DASN pour la migration (n=7) et pour l'hiver (n=70). Nous avons évalué les effets de la masse corporelle, guilde, i.e., barboteur ou oie, et lieu, i.e., Néarctique ou Paléarctique, sur les DASN. Nous avons utilisé comme modèle de sélection le Critère d'Information d'Akaike de second ordre. Nous avons trouvé des effets de lieu et guilde sur les DASN. Les DASN des anatidés hivernant dans le Néarctique (7.4 ± 6.7km, moyenne...
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