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Supporting conservation of livestock biodiversity through multidisciplinary studies: a case study of the Yakutian cattle in Siberia, the far east of Russia

Published online by Cambridge University Press:  18 June 2012

M.-H. Li
Affiliation:
Biotechnology and Food Research, MTT Agrifood Research Finland, FI-31600 Jokioinen, Finland
A. Osva
Affiliation:
Lic.Sci, Free Artist, Pohjoiskaari 6 A 23, FI-00200 Helsinki, Finland
J. Kantanen*
Affiliation:
Biotechnology and Food Research, MTT Agrifood Research Finland, FI-31600 Jokioinen, Finland
*
Correspondence to: Juha Kantanen, ET-Building, Biotechnology and Food Research, MTT Agrifood Research Finland, FI-31600 Jokioinen, Finland. email: [email protected]
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Summary

The Society for Conservation Biology has highlighted the vital importance of social sciences in animal conservation. For farm animals, their close association with humans over many centuries makes it more sensible and necessary to incorporate social sciences and humanity studies into the conservation efforts. In this review, we report a multidisciplinary study for the conservation of a unique native cattle population, the Yakutian cattle, which are the last remnants of the Turano-Mongolian Bos taurus cattle from Siberia, the far east of Russia. These cattle, which are well adapted to the severe climate and environmental conditions in the northeast Siberian territory, are gaining popularity as a hardy, adapted and useful genetic resource, particularly when man is facing the challenge of global climate change. However, the population is categorized by the FAO as “rare and endangered”. Our multidisciplinary collaborative study has proved to be successful through animal genetics, anthropology, geography, history, sociology and bio-art, and could be applied also in developing conservation programmes for other livestock, wild animals or plants.

Résumé

La Société pour la biologie de la conservation a mis l'accent sur l'importance capitale des sciences sociales dans la conservation des animaux. Pour les animaux d'élevage, en raison des relations étroites entretenues pendant plusieurs siècles avec les êtres humains, il est encore plus logique et nécessaire d'intégrer les sciences humaines et sociales au sein des initiatives concernant leur conservation. Nous présentons dans ce rapport une étude multidisciplinaire sur la conservation d'une population unique de bovins locaux, les Yakut, qui sont les derniers descendants des bovins Bos taurus du type Turano-Mongolian de la Sibérie, l'Extrême-Orient russe. Ces bovins, qui sont bien adaptés aux conditions climatiques et environnementales rigides du territoire nord-oriental de la Sibérie, sont de plus en plus appréciés en tant que ressources génétiques résistantes, adaptées et utiles, surtout lorsqu'on est confronté au défi du changement climatique mondial. Cependant, la FAO a classé cette population comme «rare et menacée d'extinction». Notre étude multidisciplinaire et participative s'est avérée précieuse dans les domaines de la génétique animale, de l'anthropologie, de la géographie, de l'histoire, de la sociologie et du bio-art. Elle pourrait être également appliquée à l'élaboration des programmes de conservation pour d'autres animaux d'élevage, pour les animaux sauvages et pour les plantes.

Resumen

La sociedad para la Conservación biológica ha destacado la vital importancia de las ciencias sociales en la conservación animal. La estrecha vinculación con el ser humano de los animales de granja, a lo largo de muchos siglos, hace que sea mucho más razonable y necesaria la incorporación de las ciencias sociales y los estudios de la humanidad en los esfuerzos llevados a cabo en materia de conservación. En esta revisión, se presenta un estudio multidisciplinario para la conservación de una población única de ganado bovino autóctono, el Yakutian, que representa los últimos restos del bovino Turano-Mongolian Bos taurus de Siberia, en el Lejano Oriente de Rusia. Estos animales, bien adaptados a climas y condiciones medioambientales extremas del territorio del noroeste de Siberia, están ganando popularidad como recurso genético resistente, adaptado y útil, sobre todo en la medida en que el hombre se enfrenta al reto del cambio climático en todo el mundo. Sin embargo, la población está clasificada por la FAO como “poco común y en peligro de extinción”. Nuestro estudio de colaboración multidisciplinaria ha demostrado tener éxito por medio de la combinación de la genética animal, la antropología, la geografía, la historia, la sociología y el bio-arte, y podría aplicarse también en el desarrollo de programas de conservación para otro tipo de ganado, para animales salvajes y para plantas silvestres.

Type
Research Article
Copyright
Copyright © Food and Agriculture Organization of the United Nations 2012

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References

Bannikova, L.V. & Zubareva, L.A. 1995. The genetic divergence of certain indigenous and commercial breeds of Eurasian cattle (Bos taurus). Russ. J. Genet., 31: 971982.Google ScholarPubMed
Barker, J.S.F. 2001. Conservation and management of genetic diversity: a domestic animal perspective. Can. J. Forest. Res., 31: 588595.CrossRefGoogle Scholar
Berkes, F. 2004. Rethinking community-based conservation. Conserv. Biol., 18: 621630.CrossRefGoogle Scholar
Caro, T. 2007. The Pleistocene re-wilding gambit. Trends. Ecol. Evol., 22: 281283.CrossRefGoogle ScholarPubMed
Chan, K.M.A., Pringle, R.M., Ranganathan, J., Boggs, C.L., Chan, Y.L., Ehrlich, P.R., Haff, P.K., Heller, N.E., Al-Khafaji, K. & Macmynowski, D.P. 2007. When agendas collide: human welfare and biological conservation. Conserv Biol 21: 5968.CrossRefGoogle ScholarPubMed
Dmitriev, N.G. & Ernst, L.K. 1989. Animal genetics resources of the USSR. Rome, Food and Agriculture Organization of the United Nations.Google Scholar
FAO (Food and Agriculture Organization of the United Nations). 2007. The state of the world's animal genetic resources for food and agriculture. Rome, FAO.Google Scholar
Felius, M. 1995. Cattle breeds-an encyclopedia. Doetinchem, The Netherlands, Misset.Google Scholar
Forsyth, J. 1992. A history of the people of Siberia, Russia's North Asian colony. Cambridge, UK, Cambridge University Press, pp. 15811990.Google Scholar
Granberg, L., Kantanen, J. & Soini, K.. eds 2009. Sakha Ynaga – Cattle of the Yakuts. Helsinki, Finnish Academy of Science and Letters.Google Scholar
Granberg, L., Partanen, U. & Soini, K. 2006. Social transition in the eyes of Yakutian cattle. In Ahmed, Allam, ed. Proc. Int. Conf. on World Sustainable Development outlook 2006: Global and Local Resources in Achieving Sustainable Development, pp. 3242. Geneva, Switzerland, Inderscience Enterprises Limited.Google Scholar
Hall, S.G. & Ruane, J. 1993. Livestock breeds and their conservation: a global overview. Conserv. Biol 7: 815825.CrossRefGoogle Scholar
Hodges, J. 2002. Conservation of farm animal biodiversity: history and prospects. Anim. Genet. Resour. Info. 32: 112.CrossRefGoogle Scholar
International Union for the Conservation of Nature and Natural Resources. 1980. World conservation strategy: living resource conservation and sustainable development. Switzerland, Gland.Google Scholar
Jacobson, S.K., Mcduff, M.D. & Monroe, M.C. 2006. Conservation education and outreach techniques. Oxford, UK, Oxford University Press.CrossRefGoogle Scholar
Jacobson, S.K., Mcduff, M.D. & Monroe, M.C. 2007. Promoting conservationn through the arts: outreach for the hearts and minds. Conserv. Biol. 21: 710.CrossRefGoogle Scholar
Joensuu, P. 2007a. Yakutian cattle inspired Anu Osva to paint cattle portraits. Maaseudun Tulevaisuus (“The Rural Future” in English), the 27 April 2007 (in Finnish).Google Scholar
Joensuu, P. 2007b. Yakutian cattle lives in extreme conditions. Maaseudun Tulevaisuus (“The Rural Future” in English), the 27 April 2007 (in Finnish).Google Scholar
Jordan, B.B. & Jordan-Bychkov, T.G. 2001. Siberian village: land and life in the Sakha Republic. Minneapolis, USA, University of Minnesota Press.Google Scholar
Kantanen, J. 2010. The origin and genetic diversity of native Yakutian cattle as revealed by DNA-marker analysis. In Stammler, F. & Takakura, H., eds. Good to eat, good to live with: nomads and animals in northern Eurasia and Africa, pp. 195201. Sendai, Japan, Tohoku University.Google Scholar
Kantanen, J., Ammosov, I., Li, M.H., Osva, A. & Popov, R. 2009a. A cow of the permafrost. In Granberg, L., Kantanen, J. & Soini, K., eds. Sakha Ynaga – cattle of the Yakuts, pp. 1944. Helsinki, Finland, Finnish Academy of Science and Letters.Google Scholar
Kantanen, J., Edwards, C.J., Bradley, D.G., Viinalass, H., Thessler, S., Ivanova, Z., Kiselyova, T., Cinkulov, M., Popov, R., Stojanović, S., Ammosov, I. & Vilkki, J. 2009b. Maternal and paternal genealogy of Eurasian taurine cattle (Bos taurus). Heredity 103: 404415.CrossRefGoogle ScholarPubMed
Kushnir, A.V. & Terletskiy, A.V. 1997. Head structure of Holstein black white cattle with respect to stress-resistance in the dynamics of lactation periods. In Mathematics Int. Conf. – DNA technologies, pp. 3739. Kyiv, Ukraine, Agrarna Nauka.Google Scholar
Leete, A. 2005. Religious revival as reaction to the hegemonization of power in Siberia in the 1920s to 1940s. Asian Folk. Stud. 64: 233245.Google Scholar
Li, M.H. & Kantanen, J. 2010. Genetic structure of Eurasian cattle (Bos taurus) based on microsatellites: clarification for their breed classification. Anim. Genet. 41: 150158.CrossRefGoogle ScholarPubMed
Li, M.H., Nogovitsina, E., Ivanova, Z., Erhardt, G., Vilkki, J., Popov, R., Ammosov, I., Kiselyova, T. & Kantanen, J. 2005. Genetic contribution of indigenous Yakutian cattle to two hybrid populations, revealed by microsatellite variation. Asian-Austral. J. Anim. Sci. 18: 613619.CrossRefGoogle Scholar
Li, M.H., Tapio, I., Vilkki, J., Ivanova, Z., Kiselyova, T., Marzanov, N., Cinkulov, M., Stojanović, S., Ammosov, I., Popov, R. & Kantanen, J. 2007. Genetic structure of cattle populations (Bos taurus) in northern Eurasia and the neighboring Near Eastern regions: implications for breeding strategies and conservation. Mol. Ecol. 16: 38393853.CrossRefGoogle ScholarPubMed
Mascia, M.B., Brosius, J.P., Dobson, T.A., Forbes, B.C., Horowitz, L., McKean, M.A. & Turner, N.J. 2003. Conservation and the social sciences. Conserv. Biol. 17: 649650.CrossRefGoogle Scholar
Murdock, G.P. 1967. Ethnographic Atlas: a summary. Ethnology 6: 109236.CrossRefGoogle Scholar
Oldenbroek, K. ed. 2007. Utilization and conservation of farm animal genetic resources. The Netherlands, Wageningen Academic Publishers.CrossRefGoogle Scholar
Patterson, D.L. & Silversides, F.G. 2003. Farm animal genetic resource conservation – why and how? Brighton, Canada, Canadian Farm Animal Genetic Resources Foundation.Google Scholar
Ovaska, U. & Soini, K. 2011. The conservation values of Yakutian cattle. Anim. Genet. Resour. Info. 49: 97106.CrossRefGoogle Scholar
Partanen, U. & Kantanen, J. 2009. How a cattle breed became the object of conservation? In Granberg, L., Kantanen, J. & Soini, K.., eds. Sakha Ynaga – cattle of the Yakuts, pp. 147168., Helsinki, Finland, Finnish Academy of Science and Letters.Google Scholar
Popov, V.A. 1996. On some results of bison acclimatization (Bison bonasus L.) in Gory Altai. Sibirsky Ekologicheskiy Zhurnal 2: 137141.Google Scholar
Puzyrev, V.P., Stepanov, V.A., Golubenko, M.V., Puzyrev, K.V., Maksimova, N.R., Khar'kov, V.N., Spiridonova, M.G. & Nogovitsyna, A.N. 2003. Mt DNA and Y-chromosome lineages in the Yakut population. J. Russ. Genet. 39: 816822.CrossRefGoogle Scholar
Scherf, B.D. 2000. World watch list for domestic animal diversity, 3rd edn.Rome, Food and Agriculture Organization of the United Nations.Google Scholar
Shumny, V.K., Kushnir, A.V. & Tikhonov, V.N. 1994. Some results on and prospects for the work on the gene pool of wild and aboriginal animals of Siberia. Sibirsky Ekologicheskiy Zhurnal 1: 7585.Google Scholar
Tapio, I., Tapio, M., Li, M.H., Popov, R., Ivanova, Z. & Kantanen, J. 2010. Estimation of relatedness among non-pedigreed Yakutian cryo-bank bulls using molecular data: implications for conservation and breed management. Genet. Sel. Evol. 42: 28.CrossRefGoogle ScholarPubMed
Terborgh, J. & van Schaik, C. 2002. Why the world needs park In Terborg, J., van Schaik, C., Davenport, L. & Rao, M.., eds. Making parks work: strategies for preserving tropical nature, pp. 314. Washington, DC, Island Press.Google Scholar
Ukhanov, S.V., Berendiaeva, Z.I., Kovalenko, V.P.G.F. & Istomin, A.A. 1990. Genetic characteristics of the Yakut aboriginal cattle and its hybrids. Genetika 26: 525530.Google ScholarPubMed
Western, D. & Wright, M.A. eds 1994. Natural connection: perspectives in community-based conservation. Washington, DC, Island Press.Google Scholar