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Human-induced mortality an overlooked threat for raptors in Nepal

Published online by Cambridge University Press:  12 September 2023

Tulsi R. Subedi Open the ORCID record for Tulsi R. Subedi [Opens in a new window] ,
Juan M. Pérez-García Open the ORCID record for Juan M. Pérez-García [Opens in a new window] ,
Sandesh Gurung ,
Hem S. Baral ,
Aishwarya Bhattacharjee ,
José D. Anadón ,
Munir Z. Virani ,
Simon Thomsett  and
Ralph Buij
Tulsi R. Subedi*
Affiliation:
Himalayan Nature, PO Box 10918, Kathmandu, Nepal Nepalese Ornithological Union (NOU), Kathmandu, Nepal
Juan M. Pérez-García
Affiliation:
Ecology Area, Department of Applied Biology, University Miguel Hernández, 03202, Elche, Spain
Sandesh Gurung
Affiliation:
Nepalese Ornithological Union (NOU), Kathmandu, Nepal
Hem S. Baral
Affiliation:
Zoological Society of London – Nepal office, PO Box 5867, Kathmandu, Nepal School of Environmental Sciences, Charles Sturt University, Albury-Woodonga, NSW, Australia
Aishwarya Bhattacharjee
Affiliation:
Department of Biology, Queens College and The Graduate Center, City University of New York, New York, USA
José D. Anadón
Affiliation:
Pyrenean Institute of Ecology (IPE-CSIC), 50059 Zaragoza, Spain
Munir Z. Virani
Affiliation:
Mohamed Bin Zayed Raptor Conservation Fund, 35665 Abu Dhabi, United Arab Emirates
Simon Thomsett
Affiliation:
Kenya Bird of Prey Trust, Kilimandege Sanctuary, Naivasha, Rift Valley Province, Kenya 20117
Ralph Buij
Affiliation:
The Peregrine Fund, Boise, ID, USA
*
Corresponding author: Tulsi R. Subedi; Email: Tulsi.biologist@gmail.com
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Summary

Raptors play a unique role in ecosystem services and are regarded as effective indicators of ecosystem health. In recent years, varieties of anthropogenic factors have threatened the majority of raptor species worldwide. Nepal is considered a global hotspot for threatened and declining raptor species, but there is limited information on the direct human threats to the raptor populations living in the country. In this paper, we identify important anthropogenic threats to raptors in Nepal based on raptor mortality data collected by powerline surveys and from monitoring of GPS-tagged raptors, complete various reports, and social media. We found that powerlines, poisoning, and persecution, mainly shooting, are significant threats to raptors in Nepal that were largely overlooked previously. We report 54 electrocuted raptors affecting eight species, 310 poisoned raptors of 11 species, and five persecuted raptors of four species; among them vultures are the most affected (>88%). Based on our findings, to safeguard the future of Nepal’s raptors, we propose the retrofitting of power poles and the use of flight diverters on powerlines in the most affected areas to reduce raptor interactions with powerlines, as well as an effective conservation education programme to prevent the use of unintentional poisoning.

Keywords

collisionelectrocutionscavengerthreatsunintentional poisoningvultures
Type
Review Article
Information
Bird Conservation International , Volume 33 , 2023 , e73
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of BirdLife International

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References

Acharya, R., Cuthbert, R., Baral, H. S. and Chaudhary, A. (2010) Rapid decline of the Bearded Vulture Gypaetus barbatus in Upper Mustang, Nepal. Forktail 26:117120.Google Scholar
APLIC. (2006) Suggested practices for avian protection on power lines: the state of the art in 2006. Washington, DC, USA: Edison Electric Institute, Avian Power Line Interaction Committee/Sacramento, ACA, US: California Energy Commission.Google Scholar
Bernardino, J., Bevanger, K., Barrientos, R., Dwyer, J. F., Marques, A. T., Martins, R. C., Shaw, J. M., et al. (2018) Bird collisions with power lines: state of the art and priority areas for research. Biol. Conserv. 222: 113.CrossRefGoogle Scholar
Bevanger, K. (1998) Biological and conservation aspects of bird mortality caused by electricity power lines: a review. Biol. Conserv. 86: 6776.CrossRefGoogle Scholar
BirdLife International. (2018a) Country Profile: Nepal. Accessed online 27 September 2018 from http://www.birdlife.org.Google Scholar
BirdLife International. (2018b) IUCN Red List for Birds. Accessed online 16 February 2018 from http://www.birdlife.org.Google Scholar
Botha, A. J., Andevski, J., Bowden, C. G. R., Gudka, M., Safford, R. J., Tavares, J. and Williams, N. P. (2017) Multi-species action plan to conserve African-Eurasian vultures. CMS Raptors MOU Technical Publication No. 5. CMS Technical Series No. 33. Abu Dhabi, United Arab Emirates: Coordinating Unit of the CMS Raptors MOU.Google Scholar
Buechley, E. R., Santangeli, A., Girardello, M., Neate-Clegg, M. H. C., Oleyar, D., McClure, C. J. W. and Şekercioğlu, Ç. H. (2019) Global raptor research and conservation priorities: tropical raptors fall prey to knowledge gaps. Divers. Distrib. 25: 856869.CrossRefGoogle Scholar
Buij, R., Nikolaus, G., Whytock, R., Ingram, D. J. and Ogada, D. (2016) Trade of threatened vultures and other raptors for fetish and bushmeat in West and Central Africa. Oryx 50: 606616.CrossRefGoogle Scholar
Carpenter, J. W., Pattee, O. H., Fritts, S. H., Rattner, B. A., Wiemeyer, S. N., Royle, J. A. and Smith, M. R. (2003) Experimental lead poisoning in Turkey Vultures (Cathartes aura). J. Wildl. Dis. 39: 96104.CrossRefGoogle ScholarPubMed
Chang, C. H., Williams, S. J., Zhang, M., Levin, S. A., Wilcove, D. S. and Quan, R. C. (2019) Perceived entertainment and recreational value motivate illegal hunting in Southwest China. Biol. Conserv. 234: 100106.CrossRefGoogle Scholar
Chaudhary, I. P., Dangaura, H. L., Rana, D. R., Joshi, A. B. and Bhusal, K. P. (2019) What are the threats to vultures other than NSAIDs in Nepal. Vulture Bull. 8: 4143.Google Scholar
Dixon, A., Batbayar, N., Bold, B., Davaasuren, B., Erdenechimeg, T., Galtbalt, B., Tsolmonjav, P., et al. (2020) Variation in electrocution rate and demographic composition of Saker Falcons electrocuted at power lines in Mongolia. J. Raptor Res. 54: 136146.CrossRefGoogle Scholar
Dixon, A., Bold, B., Tsolmonjav, P., Galtbalt, B. and Batbayar, N. (2018) Efficacy of a mitigation method to reduce raptor electrocution at an electricity distribution line in Mongolia. Conserv. Evid. 15: 5053.Google Scholar
Dixon, A., Maming, R., Gunga, A., Purev-Ochir, G. and Batbayar, N. (2013a) The problem of raptor electrocution in Asia: case studies from Mongolia and China. Bird Conserv. Internatn. 23: 520529.CrossRefGoogle Scholar
Dixon, A., Purev-Ochir, G., Galtbalt, B. and Batbayar, N. (2013b) The use of power lines by breeding raptors and corvids in Mongolia: nest-site characteristics and management using artificial nests. J. Raptor Res. 47: 282291.CrossRefGoogle Scholar
Dixon, A., Rahman, M. L., Galtbalt, B., Gunga, A., Sugarsaikhan, B. and Batbayar, N. (2017) Avian electrocution rates associated with density of active small mammal holes and power-pole mitigation: implications for the conservation of Threatened raptors in Mongolia. J. Nat. Conserv. 36: 1419.CrossRefGoogle Scholar
Donázar, J. A., Cortés-Avizanda, A., Fargallo, J. A., Margalida, A., Moleón, M., Morales-Reyes, Z., Moreno-Opo, R., et al. (2016) Roles of raptors in a changing world: from flagships to providers of key ecosystem services. Ardeola 63: 181234.CrossRefGoogle Scholar
Dwyer, J. F. and Mannan, R.W. (2007) Preventing raptor electrocutions in an urban environment. J. Raptor Res. 41: 259267.CrossRefGoogle Scholar
Galligan, T., Bhusal, K. P., Paudel, K., Chapagain, D., Joshi, A. B., Chaudhary, I. P., Chaudhary, A., et al. (2020) Partial recovery of Critically Endangered Gyps vulture populations in Nepal. Bird Conserv. Internatn. 30: 87102.CrossRefGoogle Scholar
Galligan, T. H., Green, R. E., Wolter, K., Taggart, M. A., Duncan, N., Mallord, J. W., Alderson, D., et al. (2022) The non-steroidal anti-inflammatory drug nimesulide kills Gyps vultures at concentrations found in the muscle of treated cattle. Sci. Total Environ. 807: e150788.CrossRefGoogle ScholarPubMed
Guil, F., Fernandez-Olalla, M., Moreno-Opo, R., Mosqueda, I., Gomez, M. E., Aranda, A., Arredondo, A., et al. (2011) Minimizing mortality in endangered raptors due to power lines: the importance of spatial aggregation to optimize the application of mitigation measures. PLoS One 6: e28212.CrossRefGoogle ScholarPubMed
Guil, F. and Pérez-García, J. M. (2022) Bird electrocution on power lines: spatial gaps and identification of driving factors at global scales. J. Environ. Manage. 301: e113890.CrossRefGoogle ScholarPubMed
Gurung, S., Subedi, T. R., Virani, M., Buij, R., Thomsett, S., Baral, H. S. and Chaudhary, D. (2019) Prey item selection and prey delivery of Indian Spotted Eagle during chick‐rearing period in Nepal. Pp. 4249 in Proceedings of the 11th Asian Raptor Research and Conservation Network. Bali, Indonesia: Udayana University Press.Google Scholar
Harness, R. E., Gombobaatar, S. and Yosef, R. (2008) Mongolian distribution power lines and raptor electrocutions. Pp. C1-1–C1-6 in Institute of Electrical and Electronics Engineers rural electric power conference 2008. Charleston, SC, USA. doi: 10.1109/REPCON.2008.4520137.CrossRefGoogle Scholar
Harness, R. E. and Wilson, K. R. (2001) Electric-utility structures associated with raptor electrocutions in rural areas. Wildl. Soc. Bull. 29: 612623.Google Scholar
Inagaki, A., Allen, M. L., Maruyama, T., Yamazaki, K., Tochigi, K., Naganuma, T. and Koike, S. (2020) Vertebrate scavenger guild composition and utilization of carrion in an East Asian temperate forest. Ecol. Evol. 10: 12231232.CrossRefGoogle Scholar
Inskipp, C., Baral, H. S. and Inskipp, T. (2011) The state of Nepal’s birds, 2010: indicators for our changing world. Kathmandu, Nepal: Bird Conservation Nepal, Department of National Parks and Wildlife Conservation.Google Scholar
Inskipp, C., Baral, H. S., Phuyal, S., Bhatt, T., Khatiwada, M., Inskipp, T., Khatiwada, A., et al. (2016) The status of Nepal’s birds: the National Red List Series. London: UK: Zoological Society of London.Google Scholar
Janss, G. F. E. (2000) Avian mortality from power lines: a morphologic approach of a species-specific mortality. Biol. Conserv. 95: 353359.CrossRefGoogle Scholar
Juhant, M. A. and Bildstein, K. L. (2017) Raptor migration across and around the Himalayas. Pp. 98116 in Prins, H. H. T. and Namgail, T. eds. Bird migration across the Himalayas: wetland functioning amidst mountains and glaciers.; Cambridge, UK: Cambridge University Press.CrossRefGoogle Scholar
Kamp, J., Oppel, S., Ananin, A. A., Durnev, Y. A., Gashev, S. N., Hölzel, N., Mishchenko, A. L., et al. (2015) Global population collapse in a superabundant migratory bird and illegal trapping in China. Conserv. Biol. 29: 16841694.CrossRefGoogle Scholar
Karyakin, I. V. and Novikova, L. M. (2006) The Steppe Eagle and power lines in Western Kazakhstan. Does coexistence have any chance? Raptors Conserv. 6: 4857.Google Scholar
Kross, S. M., Tylianakis, J. M. and Nelson, X. J. (2012) Effects of introducing threatened falcons into vineyards on abundance of Passeriformes and bird damage to grapes. Conserv. Biol. 26: 142149.CrossRefGoogle ScholarPubMed
Lammers, W. M. and Collopy, M. W. (2007) Effectiveness of avian predator perch deterrents on electric transmission lines. J. Wildl. Manage. 71: 27522758.CrossRefGoogle Scholar
Lehman, R. N., Kennedy, P. L. and Savidge, J. A. (2007) The state of the art in raptor electrocution research: a global review. Biol. Conserv. 136: 159174.CrossRefGoogle Scholar
Levin, A. and Kurkin, G. (2013) The scope of death of eagles on power lines in Western Kazakhstan. Raptors Conserv. 27: 240244.Google Scholar
Liang, W., Cai, Y. and Yang, C. C. (2013) Extreme levels of hunting of birds in a remote village of Hainan Island, China. Bird Conserv. Internatn. 23: 4552.CrossRefGoogle Scholar
Loss, S. R., Will, T. and Marra, P. P. (2015) Direct mortality of birds from anthropogenic causes. Annu. Rev. Ecol. Evol. Syst. 46: 99120.CrossRefGoogle Scholar
Madden, K. K., Rozhon, G. C. and Dwyer, J. F. (2019) Conservation letter: raptor persecution. J. Raptor Res. 53: 230233.CrossRefGoogle Scholar
Margalida, A. (2012). Baits, budget cuts: a deadly mix. Science 338:192.CrossRefGoogle ScholarPubMed
Markandya, A., Taylor, T., Longo, A., Murty, M. N., Murty, S. and Dhavala, K. (2008) Counting the cost of vulture decline – an appraisal of the human health and other benefits of vultures in India. Ecol. Econ. 67: 194204.CrossRefGoogle Scholar
McClure, C. J. W., Westrip, J. R. S., Johnson, J. A., Schulwitz, S. E., Virani, M. Z., Davies, R., Symes, A., et al. (2018) State of the world’s raptors: distributions, threats, and conservation recommendations. Biol. Conserv. 227: 390402.CrossRefGoogle Scholar
Mehta, J. N. and Heinen, J. T. (2001) Does community-based conservation shape favorable attitudes among locals? An empirical study from Nepal. Environ. Manage. 28: 165177.CrossRefGoogle ScholarPubMed
Naidoo, V., Taggart, M. A., Duncan, N., Wolter, K., Chipangura, J., Green, R. E. and Galligan, T. H. (2018) The use of toxicokinetics and exposure studies to show that carprofen in cattle tissue could lead to secondary toxicity and death in wild vultures. Chemosphere 190: 8089.CrossRefGoogle ScholarPubMed
Nam, D. H. and Lee, D. P. (2009) Abnormal lead exposure in globally threatened Cinereous vultures (Aegypius monachus) wintering in South Korea. Ecotoxicology 18: 225229.CrossRefGoogle ScholarPubMed
Nataraj, M. B. R. and Krishnamurthy, S. V. B. (2020) Individual and combined effects of organophosphate and carbamate pesticides on the cricket frog Fejervarya limnocharis. Environ. Geochem. Health 42: 17671774.CrossRefGoogle ScholarPubMed
Oaks, J. L., Gilbert, M., Virani, M., Watson, R. T., Meteyer, C. U., Rideout, B., Shivaprasad, H. L., et al. (2004) Diclofenac residues as the cause of vulture population declines in Pakistan. Nature 427: 630633.CrossRefGoogle ScholarPubMed
O’Bryan, C. J., Allan, J. R., Suarez-Castro, A. F., Delsen, D. M., Buij, R., McClure, C. J. W., Rehbein, J. A., et al. (2022) Human impacts on the world’s raptors. Front. Ecol. Evol. 10: e624896.CrossRefGoogle Scholar
Ogada, D., Shaw, P., Beyers, R. L., Buij, R., Murn, C., Thiollay, J. M., Beale, C. M., et al. (2016) Another continental vulture crisis: Africa’s vultures collapsing toward extinction. Conserv. Lett. 9: 8997.CrossRefGoogle Scholar
Ogada, D. L. (2014) The power of poison: pesticide poisoning of Africa’s wildlife. Ann. N. Y. Acad. Sci. 1322: 120.CrossRefGoogle ScholarPubMed
Ogada, D. L., Keesing, F. and Virani, M. Z. (2012a) Dropping dead: causes and consequences of vulture population declines worldwide: worldwide decline of vultures. Ann. N. Y. Acad. Sci. 1249: 5771.CrossRefGoogle Scholar
Ogada, D. L., Torchin, M. E., Kinnaird, M. F. and Ezenwa, V. O. (2012b) Effects of vulture declines on facultative scavengers and potential implications for mammalian disease transmission: vulture declines, facultative scavengers, and disease transmission. Conserv. Biol. 26: 453460.CrossRefGoogle ScholarPubMed
Paz, A., Jareño, D., Arroyo, L., Viñuela, J., Arroyo, B., Mougeot, F., Luque‐Larena, J. J., et al. (2013) Avian predators as a biological control system of common vole (Microtus arvalis) populations in north‐western Spain: experimental set‐up and preliminary results. Pest Manag. Sci. 69: 444450.CrossRefGoogle ScholarPubMed
Peakall, D. B. and Kiff, L. F. (1988) DDE contamination in peregrines and America kestrels and its effect on reproduction. Pp. 337350 in Cade, T. J., Enderson, J. H., Thelander, C. G. and White, C. M. eds. Peregrine falcon populations: their management and recovery. Boise, ID, USA: The Peregrine Fund, Inc.Google Scholar
Pérez-García, J. M., DeVault, T., Botella, F. and Sánchez-Zapata, J. A. (2017) Using risk prediction models and species sensitivity maps for large-scale identification of infrastructure-related wildlife protection areas: the case of bird electrocution. Biol. Conserv. 210: 334342.CrossRefGoogle Scholar
Pérez-García, J. M., Morant, J., Arrondo, E., Sebastián-González, E., Lambertucci, S. A., Santangeli, A., Margalida, A., et al. (2022) Priority areas for conservation alone are not a good proxy for predicting the impact of renewable energy expansion. Proc. Natl. Acad. Sci. U.S.A. 119: e2204505119.CrossRefGoogle Scholar
Pohja-Mykrä, M., Vuorisalo, T. and Mykrä, S. (2012) Organized persecution of birds of prey in Finland: historical and population biological perspectives. Ornis Fenn. 89: 119.Google Scholar
Ponce, C., Alonso, J. C., Argandoña, G., García Fernández, A. and Carrasco, M. (2010) Carcass removal by scavengers and search accuracy affect bird mortality estimates at power lines. Anim. Conserv. 13: 603612.CrossRefGoogle Scholar
Prinsen, H. A. M., Boere, G. C., Píres, N. and Smallie, J. J. (2011) Review of the conflict between migratory birds and electricity power grids in the African-Eurasian region. CMS/AEWA Technical Series. Bonn, Germany: Convention on the Conservation of Migratory Species of Wild Animals.Google Scholar
Rebolo-Ifrán, N., Plaza, P., Pérez-García, J. M., Gamarra-Toledo, V., Santander, F. and Lambertucci, S. A. (2023) Power lines and birds: an overlooked threat in South America. Perspect. Ecol. Conserv. 21: 7184.Google Scholar
Santangeli, A., Arkumarev, V., Rust, N. and Girardello, M. (2016) Understanding, quantifying and mapping the use of poison by commercial farmers in Namibia – implications for scavengers’ conservation and ecosystem health. Biol. Conserv. 204: 205211.CrossRefGoogle Scholar
Santangeli, A., Girardello, M., Buechley, E., Botha, A., Minin, E. D. and Moilanen, A. (2019) Priority areas for conservation of Old World vultures. Conserv. Biol. 33: 10561065.CrossRefGoogle ScholarPubMed
Santangeli, A., Virani, M. Z. and Margalida, A. (2022) The hidden damage of dogs to biodiversity – dog poisoning hampers vulture conservation. Biol. Conserv. 268: e109505.CrossRefGoogle Scholar
Serrano, D., Margalida, A., Pérez-García, J. M., Juste, J., Traba, J., Valera, F., Carrete, M., et al. (2020). Renewables in Spain threaten biodiversity. Science 370: 12821283.CrossRefGoogle ScholarPubMed
Shultz, S., Baral, H. S., Charman, S., Cunningham, A. A., Das, D., Ghalsasi, G. R., Goudar, M. S., et al. (2004) Diclofenac poisoning is widespread in declining vulture populations across the Indian subcontinent. Proc. R. Soc. Lond. B. Biol. Sci. 271: S458S460.CrossRefGoogle ScholarPubMed
Snyder, N. and Snyder, H. (2000) The California condor: a saga of natural history and conservation. San Diego, CA, USA: Academic Press.Google Scholar
Subedi, T. R. (2015) East to west migration of Steppe Eagle (Aquila nipalensis) and other raptors in Nepal; abundance, timing and age class determination . NOU Research Report No. 1. Kathmandu, Nepal: Nepalese Ornithological Union.Google Scholar
Subedi, T. R., DeCandido, R., Baral, H. S., Gurung, S., Gurung, S., Puan, C. L. and Sah, S. A. M. (2017) Population structure and annual migration pattern of Steppe Eagles at Thoolakharka Watch Site, Nepal, 2012–2014. J. Raptor Res. 51: 165171.CrossRefGoogle Scholar
Subedi, T. R., Pérez‐García, J. M., Sah, S. A. M., Gurung, S., Baral, H. S., Poudyal, L. P., Lee, H., et al. (2020) Spatial and temporal movement of Bearded Vulture using GPS telemetry in the Himalaya of Nepal. Ibis 162: 563571.CrossRefGoogle Scholar
Subedi, T. R., Virani, M. Z., Gurung, S., Buij, R., Baral, H. S., Buechley, E. R, Anadón, J. D., et al. (2018) Estimation of population density of Bearded Vulture using line-transect distance sampling and identification of perceived threats in the Annapurna Himalaya Range of Nepal. J. Raptor Res. 52: 443453.CrossRefGoogle Scholar
Theile, S. (2003) Fading footsteps: the killing and trade of Snow Leopards. Cambridge, UK: TRAFFIC International. http://www.trafficj.org/publication/03_Fading_Footprint.pdf.Google Scholar
Virani, M. Z., Kendall, C., Njoroge, P. and Thomsett, S. (2011) Major declines in the abundance of vultures and other scavenging raptors in and around the Masai Mara ecosystem, Kenya. Biol. Conserv. 144: 746752.CrossRefGoogle Scholar
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