Vulture restaurants and their role in reducing diclofenac exposure in Asian vultures

MARTIN GILBERT; RICHARD T. WATSON; SHAKEEL AHMED; MUHAMMAD ASIM; JEFF A. JOHNSON

doi:10.1017/S0959270906000621

Abstract

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The provision of supplementary food at vulture restaurants is a well-established tool in the conservation of vulture species. Among their many applications, vulture restaurants are used to provide a safe food source in areas where carcasses are commonly baited with poisons. Rapid and extensive declines of vultures in the Indian subcontinent have been attributed to the toxic effects of diclofenac, a pharmaceutical used in the treatment of livestock, to which vultures are exposed while feeding on the carcasses of treated animals. A vulture restaurant was established at the Oriental White-backed Vulture Gyps bengalensis colony at Toawala, in Punjab province Pakistan, to test the effectiveness of the technique in modifying ranging behaviour and mortality at the colony. Six male vultures were fitted with satellite transmitters to describe variation in movement and home-range during periods when safe food was alternately available and withheld at the vulture restaurant. There was considerable variation in individual home-range size (minimum convex polygons, MCP, of 1,824 km2 to 68,930 km2), with birds occupying smaller home-ranges centred closer to the restaurant being more successful in locating the reliable source of food. Fixes showed that 3 of the tagged vultures fed at the vulture restaurant and the home-range of each bird declined following their initial visit, with a 23–59% reduction in MCP. Mean daily mortality during provisioning was 0.072 birds per day (8 birds in 111 days), compared with 0.387 birds per day (41 birds in 106 days) during non-provisioning control periods. Vultures tended to occupy greater home-ranges, cover greater distances each day and spend proportionately more time in the air during the late brooding and post-breeding seasons. Attendance at the vulture restaurant also declined during this period with fewer birds visiting less often and no tagged vultures visiting the vulture restaurant at all. These findings indicate that vulture restaurants can reduce, but not eliminate, vulture mortality through diclofenac exposure and represent a valuable interim measure in slowing vulture population decline locally until diclofenac can be withdrawn from veterinary use.

Crossref Citations

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Oro, Daniel Margalida, Antoni Carrete, Martina Heredia, Rafael Donázar, José Antonio and Hector, Andy 2008. Testing the Goodness of Supplementary Feeding to Enhance Population Viability in an Endangered Vulture. PLoS ONE, Vol. 3, Issue. 12, p. e4084.

Hernández, Mauro and Margalida, Antoni 2009. Poison-related mortality effects in the endangered Egyptian vulture (Neophron percnopterus) population in Spain. European Journal of Wildlife Research, Vol. 55, Issue. 4, p. 415.

Deygout, C. Gault, A. Sarrazin, F. and Bessa-Gomes, C. 2009. Modeling the impact of feeding stations on vulture scavenging service efficiency. Ecological Modelling, Vol. 220, Issue. 15, p. 1826.

Cortés‐Avizanda, A. Carrete, M. Serrano, D. and Donázar, J. A. 2009. Carcasses increase the probability of predation of ground‐nesting birds: a caveat regarding the conservation value of vulture restaurants. Animal Conservation, Vol. 12, Issue. 1, p. 85.

Halsey, Lewis G. Portugal, Steven J. Smith, Jennifer. A. Murn, Campbell P. and Wilson, Rory P. 2009. Recording raptor behavior on the wing via accelerometry. Journal of Field Ornithology, Vol. 80, Issue. 2, p. 171.

ACHARYA, RAJU CUTHBERT, RICHARD BARAL, HEM SAGAR and SHAH, KARAN BAHADUR 2009. Rapid population declines of Himalayan Griffon Gyps himalayensis in Upper Mustang, Nepal. Bird Conservation International, Vol. 19, Issue. 1, p. 99.

Cortés-Avizanda, Ainara Carrete, Martina and Donázar, José Antonio 2010. Managing supplementary feeding for avian scavengers: Guidelines for optimal design using ecological criteria. Biological Conservation, Vol. 143, Issue. 7, p. 1707.

Margalida, Antoni Donázar, José A. Carrete, Martina and Sánchez‐Zapata, José A. 2010. Sanitary versus environmental policies: fitting together two pieces of the puzzle of European vulture conservation. Journal of Applied Ecology, Vol. 47, Issue. 4, p. 931.

Margalida, Antoni 2010. Supplementary feeding during the chick-rearing period is ineffective in increasing the breeding success in the bearded vulture (Gypaetus barbatus). European Journal of Wildlife Research, Vol. 56, Issue. 4, p. 673.

Lacher, Thomas Bickham, "Jr Gascon, Claude Green, Rhys Moore, Robin and Mora, Miguel 2010. Wildlife Toxicology. p. 111.

Moreno‐Opo, Rubén Margalida, Antoni Arredondo, Ángel Guil, Francisco Martín, Manuel Higuero, Rafael Soria, Carlos and Guzmán, José 2010. Factors influencing the presence of the cinereous vulture Aegypius monachus at carcasses: food preferences and implications for the management of supplementary feeding sites. Wildlife Biology, Vol. 16, Issue. 1, p. 25.

Robb, Gillian N. McDonald, Robbie A. Inger, Richard Reynolds, S. James Newton, Jason McGill, Rona A. R. Chamberlain, Dan E. Harrison, Timothy J. E. and Bearhop, Stuart 2011. Using Stable-Isotope Analysis as a Technique for Determining Consumption of Supplementary Foods by Individual Birds. The Condor, Vol. 113, Issue. 3, p. 475.

Dupont, H. Mihoub, J.B. Becu, N. and Sarrazin, F. 2011. Modelling interactions between scavenger behaviour and farming practices: Impacts on scavenger population and ecosystem service efficiency. Ecological Modelling, Vol. 222, Issue. 4, p. 982.

Oaks, J. Lindsay and Watson, Richard T. 2011. Wildlife Ecotoxicology. Vol. 3, Issue. , p. 413.

Dermody, Brian J. Tanner, Colby J. Jackson, Andrew L. and DeSalle, Robert 2011. The Evolutionary Pathway to Obligate Scavenging in Gyps Vultures. PLoS ONE, Vol. 6, Issue. 9, p. e24635.

Saini, Mohini Taggart, Mark A. Knopp, Dietmar Upreti, Suchitra Swarup, Devendra Das, Asit Gupta, Praveen K. Niessner, Reinhard Prakash, Vibhu Mateo, Rafael and Cuthbert, Richard J. 2012. Detecting diclofenac in livestock carcasses in India with an ELISA: A tool to prevent widespread vulture poisoning. Environmental Pollution, Vol. 160, Issue. , p. 11.

Moreno-Opo, Rubén Margalida, Antoni García, Francisco Arredondo, Ángel Rodríguez, Carlos and González, Luis Mariano 2012. Linking sanitary and ecological requirements in the management of avian scavengers: effectiveness of fencing against mammals in supplementary feeding sites. Biodiversity and Conservation, Vol. 21, Issue. 7, p. 1673.

MARTIN, GRAHAM R. PORTUGAL, STEVEN J. and MURN, CAMPBELL P. 2012. Visual fields, foraging and collision vulnerability in Gyps vultures. Ibis, Vol. 154, Issue. 3, p. 626.

Duriez, Olivier Herman, Sophie and Sarrazin, François 2012. Intra-specific competition in foraging Griffon Vultures Gyps fulvus: 2. The influence of supplementary feeding management. Bird Study, Vol. 59, Issue. 2, p. 193.

Kendall, Corinne J. 2013. Alternative strategies in avian scavengers: how subordinate species foil the despotic distribution. Behavioral Ecology and Sociobiology, Vol. 67, Issue. 3, p. 383.

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Vulture restaurants and their role in reducing diclofenac exposure in Asian vultures

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