24 research outputs found

    Understanding, quantifying and mapping the use of poison by commercial farmers in Namibia - Implications for scavengers' conservation and ecosystem health

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    Effective nature conservation in human-dominated landscapes requires a deep understanding of human behaviors, perceptions and values. Human-wildlife conflicts represent relatively well-studied, global-scale conservation challenges. In Africa, vulture populations are collapsing as they fall victim to poison used by livestock farmers to kill predators, but our understanding of the prevalence of this practice is still very poor. We gathered data on the prevalence of poison use in Namibia by means of questionnaires completed by commercial farmers. The data were collected and analyzed with ad-hoc quantitative methods. We quantified prevalence of poison use, determined factors associated with this practice and derived a map of its prevalence. We found that 20% of commercial farmers in Namibia used poison; farmers that owned high numbers of small stock and on large farms, and those who had suffered high livestock losses to predators, were most likely to admit to using poison. We pinpoint areas of high prevalence of reported poison use, which are largely concentrated in the south of the country. Furthermore, we report a generally positive perception of commercial farmers towards vultures, which may indicate future potential to implement bottom-up approaches for vulture conservation. Overall, the findings have important implications for prioritizing efforts to effectively tackle the African vulture crisis and preserve healthy ecosystems for the wellbeing of humans and wildlife. (C) 2016 Elsevier Ltd. All rights reserved.Peer reviewe

    Unearthing poison use and consequent anecdotal vulture mortalities in Namibia's commercial farmland - implications for conservation

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    Across Africa, the illegal use of poison is triggering a continent-wide scavenger crisis, with vultures suffering the most severe negative consequences. Vultures may die as indirect victims of the conflict between livestock farmers and predators, or they may be directly targeted by poachers with the aim to reduce the role of vultures as sentinels that alert authorities of poaching events. In this study, we provide novel information on vulture mortalities across the commercial farmlands of Namibia. We show that estimated mortalities of vultures due to anthropogenic causes amount to over 800 individuals over the period 2000-2015, which underscores the magnitude of the problem. The highest numbers of vulture deaths were reported from the southern half of the country, with the exception of the areas just south of Etosha National Park, and poisoning was the greatest cause of reported deaths. Aldicarb or carbofuran were the most commonly used poisons, but strychnine is still used by about one farmer out of 10. Poison is typically used by means of distributing poisoned baits in the landscape. Furthermore, willingness to use poison in the future was highest for farmers who own large properties with high livestock numbers, particularly sheep and goats, farmers who purportedly suffered high livestock losses to predators and who have a negative perception towards predators. We discuss the implications of these results and the possible urgent actions that should be implemented in order to address this devastating practice before it will impact vulture populations to irreversible levels.Peer reviewe

    Hotspots in the grid: Avian sensitivity and vulnerability to collision risk from energy infrastructure interactions in Europe and North Africa

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    Wind turbines and power lines can cause bird mortality due to collision or electrocution. The biodiversity impacts of energy infrastructure (EI) can be minimised through effective landscape-scale planning and mitigation. The identification of high-vulnerability areas is urgently needed to assess potential cumulative impacts of EI while supporting the transition to zero carbon energy. We collected GPS location data from 1,454 birds from 27 species susceptible to collision within Europe and North Africa and identified areas where tracked birds are most at risk of colliding with existing EI. Sensitivity to EI development was estimated for wind turbines and power lines by calculating the proportion of GPS flight locations at heights where birds were at risk of collision and accounting for species' specific susceptibility to collision. We mapped the maximum collision sensitivity value obtained across all species, in each 5 × 5 km grid cell, across Europe and North Africa. Vulnerability to collision was obtained by overlaying the sensitivity surfaces with density of wind turbines and transmission power lines. Results: Exposure to risk varied across the 27 species, with some species flying consistently at heights where they risk collision. For areas with sufficient tracking data within Europe and North Africa, 13.6% of the area was classified as high sensitivity to wind turbines and 9.4% was classified as high sensitivity to transmission power lines. Sensitive areas were concentrated within important migratory corridors and along coastlines. Hotspots of vulnerability to collision with wind turbines and transmission power lines (2018 data) were scattered across the study region with highest concentrations occurring in central Europe, near the strait of Gibraltar and the Bosporus in Turkey. Synthesis and applications. We identify the areas of Europe and North Africa that are most sensitive for the specific populations of birds for which sufficient GPS tracking data at high spatial resolution were available. We also map vulnerability hotspots where mitigation at existing EI should be prioritised to reduce collision risks. As tracking data availability improves our method could be applied to more species and areas to help reduce bird-EI conflicts

    Thoracic X-Strap Harness. Design and Method 3

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    First record of Eurasian Griffon Vulture Gyps fulvus from the Balkans migrating to South Sudan revealed by GPS tracking

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    Adult Griffon Vultures Gyps fulvus are mostly resident but the juveniles and immatures are mostly nomadic and migratory. Significant numbers of young vultures from Eurasia migrate every autumn to the Middle East and Africa but little is known about their migration routes and wintering grounds. We tracked one juvenile Griffon Vulture on its south migration from Bulgaria to South Sudan. This is the first confirmed occurrence of the species in South Sudan. The overall travelled distance on migration was 5727km with a migration speed of 136km/d. In the wintering grounds in Sudan and South Sudan this bird inhabited mostly arid savannah and desert habitats up to 600m altitude. The overall wintering home range (MCP) was 47 781km2 .Keywords: dispersal, satellite telemetry, wintering, home rang

    A literature review of occurrence of Egyptian Vulture (Neophron percnopterus) resident in Africa

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    The Egyptian Vulture Neophron percnopterus is a globally endangered species that is experiencing rapid population declines throughout most of its range. Conservation of Egyptian Vultures in Africa is globally important because it holds a resident population of 1 000 – 2 000 breeding pairs, harbours a significant but unknown number of Eurasian migrants during the boreal winter, and many non-adult Egyptian Vultures reared in Eurasia dwell in Africa until they mature. Africa comprises approximately half of the area of the global range of the species. Once considered common and widespread in many parts of Africa, Egyptian Vulture is now one of the vulture species that is most threatened with extinction. Egyptian Vulture is considered extinct as a breeding species in Southern Africa, and continuous population declines have been reported from most of its African range, resulting in a population reduction of perhaps 75%. Despite these declines, there is an apparent lack of systematic observations, and its current status in many African countries is unknown. Furthermore, little is known about the magnitude of the various threats and their impact on resident and wintering Egyptian Vultures. Data-deficiency hinders conservation efforts across the continent. We conducted an extensive review of published and unpublished information on the resident Egyptian Vulture populations in Africa, in an attempt to systemize the available knowledge of the species’ historic and current occurrence on a country-by country basis and identify the threats it faces. Information was found from 39 countries; no records of Egyptian Vultures were found in 16 other countries. In 12 countries where Egyptian Vultures have been observed, breeding has never been confirmed, and observations most likely refer to vagrants or wintering individuals. The Horn of Africa appears to be a relative stronghold, but there too, losses almost certainly have occurred. Poisoning, electrocution and direct killing for belief-based practices are considered the main mortality factors, and are hampering the species’ recovery. The review highlights the dire status of Egyptian Vultures in Africa, and calls for the urgent implementation of various large-scale conservation measures that will combat threats, secure the survival of the species on the continent, and make Africa safer for migrants coming from Eurasia

    Breeding performance and population trend of the Egyptian Vulture Neophron percnopterus in Bulgaria: conservation implications

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    The Egyptian Vulture (Neophron percnopterus) has been classified as ‘Endangered’ due to rapid population declines across its range. Thus, exhaustive studies on its demography may serve as an important stepping stones for successful conservation programs. Breeding performance is one of the main components of the demography of a raptor population. Evaluating reproductive rates is easier than other demographic parameters, while remaining a very useful metric to identify factors driving raptor population trends. Here we present the breeding performance of the species’ population in Bulgaria as a result of a long-term monitoring (2005–2016). The studied population shows high breeding performance, based on a breeding success (1.11 ± 0.13 fledglings / laying pairs), productivity (0.88 ± 0.1 fledglings / occupied territories) and fledgling success (1.2 ± 0.1 fledglings / successful pairs), all among the highest recorded in Europe. Pairs breeding in territories with high occupancy rate produced 88% of the fledglings
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