Spatial ecology and population trends of the scavengers (Aves: Falconiformes) in Azerbaijan

Arzu F. Mammadov; Tahir A. Karimov; Alex V. Matsyura; Dashgin Sh. Ganbarov

doi:10.5281/zenodo.15584970

Vol 11 (2025), Articles

Vol 11 (2025)

Spatial ecology and population trends of the scavengers (Aves: Falconiformes) in Azerbaijan

Articles

https://doi.org/10.5281/zenodo.15584970

Published June 5, 2025

Arzu F. Mammadov⁺⁻
Tahir A. Karimov⁺⁻
Alex V. Matsyura⁺⁻
Dashgin Sh. Ganbarov⁺⁻

Arzu F. Mammadov

Institute of Bioresources, Nakhchivan Branch of Azerbaijan National Academy of Sciences; Nakhchivan State University

Tahir A. Karimov

Institute of Zoology, Azerbaijan National Academy of Sciences

Alex V. Matsyura

Altai State University

https://orcid.org/0000-0001-9553-001X

Dashgin Sh. Ganbarov

Nakhchivan State University

https://orcid.org/0000-0002-9818-5554

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Keywords

Avian scavengers
nesting places
factor
number
spatial ecology
population trends
Azerbaijan

How to Cite

Mammadov, A. F., Karimov, T. A., Matsyura, A. V., & Ganbarov, D. S. (2025). Spatial ecology and population trends of the scavengers (Aves: Falconiformes) in Azerbaijan. Acta Biologica Sibirica, 11, 699-713. https://doi.org/10.5281/zenodo.15584970

Abstract

Avian scavengers in Azerbaijan, including the Griffon Vulture (Gyps fulvus), Black Vulture (Aegypius monachus), Egyptian Vulture (Neophron percnopterus), and Bearded Vulture (Gypaetus barbatus), are experiencing significant population declines, with a 15.3% reduction in breeding pairs documented between 2012 and 2024. This study presents the first comprehensive assessment of their nesting ecology, population trends, and anthropogenic threats across Azerbaijan’s three major mountain regions: the Greater Caucasus, Lesser Caucasus, and Talysh Mountains. Systematic surveys of 33 nesting sites revealed distinct spatial and elevational segregation, with 60.6% of nests located in the Lesser Caucasus, 36.3% in the Greater Caucasus, and 3.0% in the Talysh Mountains. Species exhibited pronounced stratification by elevation: Bearded Vultures nested exclusively above 2000 m, Griffon and Egyptian Vultures occupied mid-elevation zones (500–1800 m), and Black Vultures were restricted to lowland forests (<500 m). The primary drivers of decline were linked to anthropogenic factors, including a 28.5% reduction in livestock populations, which diminished carrion availability, and a 15.7% expansion of agricultural lands, which reduced foraging habitats. Direct threats such as nest destruction, poaching, and incidental capture for commercial use further exacerbated declines, particularly for Black Vultures in the Talysh Mountains, where only a single breeding cluster remains. Breakpoint analysis identified critical years of accelerated decline: 2018 for Griffon Vultures and 2015 for Black Vultures, coinciding with regional reductions in wild ungulate populations and increased human disturbance. Comparative analysis with global datasets revealed parallels to declines observed in Mediterranean and South Asian vulture populations, though Azerbaijan’s unique socioecological context, including post-Soviet land-use changes and its role as a migratory corridor, demands tailored conservation strategies. We propose urgent interventions, including supplemental feeding programs, habitat protection in the Lesser Caucasus, and mitigation of power line collisions, informed by successful case studies from Europe. These findings underscore Azerbaijan’s importance as a critical stronghold for vulture conservation in the Caucasus and highlight the need for transboundary cooperation to safeguard these keystone scavengers.

https://doi.org/10.5281/zenodo.15584970

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References

Abuladze A (1998) The bearded vulture Gypaetus barbatus in Caucasia. In: Chancellor RD, Meyburg B-U, Ferrero JJ (Eds) Holarctic Birds of Prey. ADENEX – WWGBP, 177–182.

Bogliani G, Viterbi R, Nicolino M (2011) Habitat Use by a Reintroduced Population of Bearded Vultures (Gypaetus barbatus) in the Italian Alps. Journal of Raptor Research 45: 56–62. https://doi.org/10.3356/JRR-09-69.1

Buechley ER, McGrady MJ, Çoban E, Şekercioğlu ÇH (2018) Satellite tracking a wide-ranging endangered vulture species to target conservation actions in the Middle East and East Africa. Biodivers Conserv 27: 2293–2310. https://doi.org/10.1007/s10531-018- 1538-6

Conservation Leadership Programme (2024) Conservation of threatened birds in Azerbaijan: Final project report. Available from: https://www.conservationleadershipprogramme.org/wp-content/uploads/2024/12/Conservation-of-Threatened-Birds-in-Azerbaijan_PROJECT-REPORT_Final.pdf

Convention on Biological Diversity (2014) Fifth National Report to the Convention on Biological Diversity: Azerbaijan. Available from: https://cbd.int/doc/world/az/az-nr-05-en.pdf

Cuthbert R, Green RE, Ranade S, Saravanan S, Pain DJ, Prakash V, Cunningham AA (2011) Rapid population declines of Egyptian Vulture (Neophron percnopterus) and Red-headed Vulture (Sarcogyps calvus) in India. Animal Conservation 9(3): 349–354. https://doi.org/10.1111/j.1469-1795.2006.00041.x

Delgado-González A, Cortés-Avizanda A, Serrano D, Arrondo E, Duriez O, Margalida A, Carrete M, Oliva-Vidal P, Sourp E, Morales-Reyes Z, García-Barón I, de la Riva M, Sánchez-Zapata JA, Donázar JA (2022) Apex scavengers from different European populations converge at threatened savannah landscapes. Scientific Reports 12: 2500. https://doi.org/10.1038/s41598-022-06436-9

Department of National Parks and Wildlife Conservation Nepal (2023) Vulture Conservation Action Plan (2023–2027). Available from: https://dnpwc.gov.np/media/publication/Vulture_Conservation_Action_Plan_2023-2027.pdf

Dimitriou KG, Kotsonas EG, Bakaloudis DE, Vlachos CG, Holloway GJ, Yosef R (2021) Population Viability and Conservation Strategies for the Eurasian Black Vulture (Aegypius monachus) in Southeast Europe. Animals 11(1): 124. https://doi.org/10.3390/ani11010124

Donázar JA, Palacios CJ, Gangoso L, Ceballos O, González MJ, Hiraldo F (2002) Conservation status and limiting factors in the endangered population of Egyptian vulture (Neophron percnopterus) in the Canary Islands. Biological Conservation 107(1): 89–97. https://doi.org/10.1016/S0006-3207(02)00049-6

Donázar JA, Margalida A, Carrete M, Sánchez-Zapata JA (2009) Too sanitary for vultures. Science 326 (5953): 664–664. https://doi.org/10.1126/science.326_664a

Fauna Focus (n.d.) Bearded Vulture (Gypaetus barbatus). Retrieved from: https://faunafocus.com/species/bearded-vulture/

Foster-Turley P, Sultanov E, Bunyatova S, Safarov E (2020) The Biodiversity Analysis (for Azerbaijan, 2020). Report number: Azerbaijan FAA 119 2020-01-28 - Cloudburst 508Affiliation: United States Agency for International Development (USAID). https://doi.org/10.13140/RG.2.2.15081.11360

Gomo G, Rød-Eriksen L, Andreassen H, Mattisson J, Odden M, Devineau O, Eide N (2020) Scavenger community structure along an environmental gradient from boreal forest to alpine tundra in Scandinavia. Ecology and Evolution 10(23): 12860–12869. https://doi.org/10.1002/ece3.6834

Hernández M, Margalida A (2009) Poison-related mortality effects in the endangered Egyptian vulture (Neophron percnopterus) population in Spain. European Journal of Wildlife Research 55: 415–423. https://doi.org/10.1007/s10344-009-0255-6

Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES) (2024) Azerbaijan National Ecosystem Assessment: Summary for Policymakers. Avail able from: https://files.ipbes.net/ipbes-web-prod-public-files/webform/impact_tracking_database/76826/AZERBAIJAN-NEA-SPM-2024-2.pdf

Ismayilov S, Karimov T (2022) The status of vultures (Neophron percnopterus, Gypaetus barbatus, Gyps fulvus, Aegypius monachus) in Azerbaijan. Ukrainian Journal of Ecology 12(3): 122–128. http://dx.doi.org/10.15421/2019_791

Karimov T, Matsyura AV (2020) The ecological role of Accipitridae vultures in terrestrial landscapes of Azerbaijan. Ukrainian Journal of Ecology 10: 90–94. https://doi.org/10.15421/2020_14

Karimov T, Ahmadli L, Rajabova S, Mammadov A (2025) The “Sanitary” Role of the Necrophagous Birds in the Ecosystems. BIO Web of Conferences 151: 01013. http://dx.doi. org/10.1051/bioconf/202515101013

Karyakin IV, Knizhov KI, Nikolenko EG, Pulikova GI, Kaptyonkina AG (2022) Egyptian Vulture in the Karatau Mountains and Adjacent Territories, Kazakhstan. Raptors Con- servation 44: 96–187. https://doi.org/10.19074/1814-8654-2022-44-96-187

Katzner T, Gavashelishvili A, Sklyarenko S, Mcgrady M, Shergalin J, Bildstein K (2004) Population and Conservation Status of Griffon Vultures in the former Soviet Union. In: Chancellor RD, Meyburg B-U (Eds) Raptors Worldwide. World Working Group for Birds of prey and owls, Berlin, Germany, 235–240.

Margalida A, Benitez R, Sánchez-Zapata J, Ávila E (2012) Long-term relationship between diet breadth and breeding success in a declining population of Egyptian Vultures Neophron percnopterus. Ibis 154: 184–188. https://doi.org/10.1111/j.1474-919X.2011.01189.x

Margalida A, Colomer MÀ, Oro D (2014) Man-induced activities modify demographic parameters in a long-lived species: Effects of poisoning and health policies. Ecological Applications 24(3): 436–446. https://doi.org/10.1890/13-0414.1

Multi-species Action Plan to Conserve African-Eurasian Vultures (2017) CMS Technical Series No.35/Raptors MOU Technical Publication No.5. Coordinating Unit of the Rap- tors MOU Action Plan, Technical Series.

Ogada DL, Keesing F, Virani MZ (2016) Dropping dead: Causes and consequences of vulture population declines worldwide. Annals of the New York Academy of Sciences 1249(1): 57–71. https://doi.org/10.1111/j.1749-6632.2011.06293.x

Patrikeev M (2004) The birds of Azerbaijan. Pensoft Series Faunistica. Volume 38. Pensoft Publishers, Sofia, Bulgaria, 312–315.

Prakash V, Bishwakarma MC, Chaudhary A, Cuthbert R, Dave R, Kulkarni M, Kumar S, Paudel K, Ranade S, Shringarpure R, Green RE (2012) The population decline of Gyps vultures in India and Nepal has slowed since veterinary use of diclofenac was banned. PLoS ONE 7(11): e49118. https://doi.org/10.1371/journal.pone.0049118

Saenz F, Rojas-Soto O, Perez-Torres J, Martínez-Meyer E, Sheppard J (2020) Effects of climate change and human influence in the distribution and range overlap between two widely distributed avian scavengers. Bird Conservation International 31: 1–19. https://doi.org/10.1017/S0959270920000271

Santangeli A, Lambertucci S, Margalida A, Carucci T, Botha A, Whitehouse-tedd K, Cancellario T (2024) The global contribution of vultures towards ecosystem services and sustainability: An experts’ perspective. iScience 27: 109925. https://doi.org/10.1016/j.isci.2024.109925

Terraube J, Andevski J, Loercher F, Tavares J (2022) Population estimates for the five European vulture species across the Mediterranean: 2022 update. The Vulture Conservation Foundation, Koninklijke Burger’s zoo b.v. Antoon van Hooffplein 1, 6816 SH Arnhem. Netherlands.

Walker M, Uribasterra M, Asher V, Getz W, Ryan S, Ponciano J, Blackburn J (2021) Factors influencing scavenger guilds and scavenging efficiency in Southwestern Montana. Scientific Reports 11: 4254. https://doi.org/10.1038/s41598-021-83426-3

Yousefi M, Mohammadi S, Kafash A (2023) Modeling global habitat suitability and environmental predictor of distribution of a Near Threatened avian scavenger at a high spatial resolution. Frontiers in Ecology and Evolution 11: 1112962. https://doi.org/10.3389/fevo.2023.1112962

Vultures (2024) Record numbers of Cinereous Vulture and Griffon Vulture pairs in Bulgaria since conservation efforts began. Retrieved from: https://4vultures.org/blog/record-numbers-of-cinereous-vulture-and-griffon-vulture-pair-in-bulgaria-since-conservation-efforts-began/