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Game Birds (game + bird)

Distribution by Scientific Domains
Life Sciences80%

Selected Abstracts

Novel polymorphic microsatellites for the red-legged partridge (Alectoris rufa) and cross-species amplification in Alectoris graeca

MOLECULAR ECOLOGY RESOURCES, Issue 2 2005
E. G. GONZALEZ
Abstract The red-legged partridge, Alectoris rufa, is an endemic species of the southwestern Mediterranean, and the most popular game bird in the Iberian Peninsula. A total of 27 microsatellite loci was isolated from an enriched genomic library of A. rufa. Six perfect GT microsatellites were characterized and optimized in 45 individuals of A. rufa. All loci revealed high levels of polymorphism with a number of alleles that ranged from three to 13. Observed heterozygosity ranged from 0.2 to 0.6. Cross-species amplification showed that all loci were also polymorphic in rock partridge, Alectoris graeca. The new markers will be useful in determining hybridization between both species of Alectoris. [source]

Bayesian hierarchical generalized linear models for a geographical subset of recovery data

ENVIRONMETRICS, Issue 2 2002
Daniela Cocchi
Abstract The aim of this work is to check whether modifications in the length of the hunting seasons had an effect on the chance of reproduction of different species of ringed birds. We start from a national data set of ringing-recovered data on three species of game birds. Only data on birds recovered as juveniles are used. Data on recoveries are organized in a 4-way contingency table. Several generalized linear models are proposed for the counts of recovered birds. Bayesian hierarchical modeling is particularly suitable for this kind of data, for which an over-dispersion parameter can be introduced at the second level of the hierarchy. Maximum Likelihood and Bayesian solutions are computed for the different models: the Bayesian framework, in particular under an individual modeling of over-dispersion, exhibits the best fit in terms of Bayesian p -value. The results show that the modification in the length of the hunting seasons does not produce equal benefits for the three species considered. Copyright © 2002 John Wiley & Sons, Ltd. [source]

Pastoralist's livestock and settlements influence game bird diversity and abundance in a savanna ecosystem of southern Kenya

AFRICAN JOURNAL OF ECOLOGY, Issue 1 2009
Dana L. Morris
Abstract We investigated the vegetation structure and density of game birds along a successional gradient created by varying intensity of human settlement in a pastoral community in Shompole group ranch in southern Kenya. We examined four habitat types including heavily-grazed grass in currently occupied settlements, short grass in seasonal settlements, patches of bushed woodland in settlement sites that had been abandoned up to 30 years ago, and tall grass in a wildlife sanctuary. Vegetation biomass was the highest in the sanctuary where livestock are excluded and the lowest in the vicinity of currently occupied settlements. Abundance of doves (Oena spp. and Streptopelia spp.) was best associated with moderate grazing and per cent green grass, which provide good foraging opportunities. Francolin and spurfowl (Francolinus spp.) were positively associated with vegetation biomass. Quail (Coturnix spp.) were positively associated with tree cover. These data reflect the importance of maintaining a balance of wildlife and livestock grazing with patches of ungrazed grasslands and bushed woodlands in providing a mosaic of habitats that support a diverse population of game birds. The results have wide application for an integrated management approach to livestock, wildlife and game bird management in the savannas. Résumé Nous avons étudié la structure de la végétation et la densité du gibier à plume le long d'un gradient créé par la variation de l'intensité des installations humaines, dans une communauté pastorale dans un ranch de Shompole, dans le sud du Kenya. Nous avons examiné quatre types d'habitats: l'herbe fortement broutée dans les installations qui sont actuellement occupées, l'herbe courte des installations saisonnières, les îlots de broussailles dans les anciennes installations abandonnées parfois depuis 30 ans et les hautes herbes d'un sanctuaire de la faune. La biomasse de la végétation était la plus grande dans le sanctuaire d'où le bétail était exclu et la plus basse dans le voisinage des installations encore occupées. L'abondance des tourterelles (Oena spp. et Streptopelia spp.) était plutôt liée à un broutage modéré et à un pourcentage d'herbe verte qui donnent de bonnes possibilités de se nourrir. Les francolins (Francolinus spp.) étaient positivement liés à la biomasse de la végétation. Les cailles (Coturnix spp.) étaient positivement liées à la couverture arborée. Ces données reflètent l'importance de conserver un équilibre entre les pâturages de la faune sauvage et du bétail et des îlots non pâturés et des broussailles, pour créer une mosaïque d'habitats qui accueillent une population variée de gibier à plume. Les résultats peuvent largement trouver une application dans les approches intégrées de gestion du bétail, de la faune sauvage et du gibier à plume en savane. [source]

What happens to translocated game birds that ,disappear'?

ANIMAL CONSERVATION, Issue 5 2009
M. J. Dickens
Abstract The ultimate goal of most translocation efforts is to create a self-sustaining wild population of a species deliberately moved from one part of their range to another. As follow-up of a translocation attempt is often difficult, causes for failure are relatively unknown. Dispersal away from the release site is one potential source of failure because it decreases the likelihood of the released population establishing itself post-translocation. In this study, we used chukar Alectoris chukar as a surrogate for translocated game birds in order to conduct a large-scale experimental study. We observed that these desert-adapted birds demonstrate a strong fidelity for specific water sources. We also report the propensity for the translocated individuals to either disperse and return to their original water source site or remain at the release site. During two field seasons, we observed opposing behaviors such that the proportion of individuals returning to the capture site, versus those remaining at the release site, shifted between years. We analyzed this change between the years as well as within the years to assess the potential underlying causes such as translocated distance, differences in rainfall between seasons and water source type. We concluded that homing behavior was strong in this non-migratory bird species and that strength of this homing behavior varied, potentially due to conditions surrounding the limiting resource, water availability. The large-scale, original data presented here may help to explain why some releases result in a successfully established population while other releases result in widely dispersed individuals. [source]