C. Grivas scite author profile

The extent of home ranges of griffon vultures (Gyps fulvus) was studied on Crete (Greece) during 2005–2015 by monitoring 27 individuals with very high frequency radio‐telemetry. Radio‐tagged birds were followed for an average period of 13.1 months (n = 7–22), where a total of 1615 days of fieldwork produced 4420 radiolocations (x = 163.5 radiolocations per tagged bird, n = 142–328). Overall, the mean home range and mean core area of griffon vultures were estimated at 1560 ± 140 km2 (KDE 95%) and 373 ± 36 km2 (KDE 50%) respectively with significant age‐related differences within seasons. Immature griffon vultures ranged on average about double the area ranged by adults in winter and occupied significantly larger core areas. The home range overlap in per cent and utilization distribution between adult and immature birds was also significantly less in winter than in summer. Foraging griffon vultures avoided northern slopes with unfavourable flight conditions and selected sites within rangelands with low diurnal temperature variations where overwintering livestock and suitable nesting cliffs occur. Foraging adults were restricted to the vicinity of the breeding colonies and favoured sites away from urban zones. In contrast, immature griffon vultures selected pastoral zones in marginal areas with mild winters and rugged terrain. The existence of predictable food sources in combination with suitable roosting sites and favourable flight conditions were the main factors differentiating the space‐use pattern between the two age classes. We recommend that apart from the maintenance of traditional farming practices, sites, such as large communal roosts and flight corridors or entire ‘hotspot’ activity zones of immature birds, should be taken into account in conservation planning and sensitivity mapping for the species.

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An audio–visual nest monitoring system for the study and manipulation of siblicide in bearded vultures Gypaetus barbatus on the island of Crete (Greece)

Grivas

Xirouchakis

Christodoulou

et al. 2008

J Ethol

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We describe here an automated surveillance system that was installed in a bearded vulture (Gypaetus barbatus) nest in Crete during [2003][2004][2005][2006] with the aim of studying siblicide in this species. The system caused only minimal levels of disturbance to the birds and was capable of operating autonomously for more than 1 week. It comprised (1) a nest monitoring subsystem (camera, microphone, battery with a charge controller and a transmitter together with an antenna), which was supported by a solar panel, and (2) a recording subsystem (antenna receiver, video signal controller and a remote controlled PC through a GSM modem) that compressed the audiovideo signal and provided real time monitoring. Two-egg clutches with a 7-day laying and hatching interval were recorded while hatching asynchrony was also determined through an analysis of the bioacoustic data. Food delivery rate and number of feeds to the first chick increased after the hatching of its sibling although not significantly so. Of the aggressive interactions recorded, 98% were initiated by the dominant chick and resulted in an average of 246 ± 157 peckings per day. Supplementary feeding did not produce any significant correlation between feeding rate and sibling aggression. The second chick survived 5 days and died as a result of starvation accelerated by sibling aggression. Intervention measures aimed at increasing the survival chance of the second chick should be undertaken when the latter is 1-2 days old.

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C. Grivas

Home range size, space use and resource selection of griffon vultures in an insular environment

An audio–visual nest monitoring system for the study and manipulation of siblicide in bearded vultures Gypaetus barbatus on the island of Crete (Greece)

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