Czech J. Anim. Sci., 2018, 63(12):507-517 | DOI: 10.17221/120/2017-CJAS

Pedigree structure of American bison (Bison bison) populationOriginal Paper

Ewa Skotarczak1, Piotr Æwiertnia2,3, Tomasz Szwaczkowski*,4
1 Department of Mathematical and Statistical Methods, Poznan University of Life Sciences, Poznan, Poland
2 Zoological Garden in Poznan, Poznan, Poland
3 Plock Zoological Garden, Plock, Poland
4 Department of Genetics and Animal Breeding, Poznan University of Life Sciences, Poznan, Poland

An effective realization of breeding programs in zoos is strongly determined by completeness of animal pedigree information. The knowledge of pedigree structure allows to maintain optimal genetic variability of a given population. The aim of this study was to estimate the parameters describing the pedigree structure of American bison housed in zoos in the context of further management of the population. Finally, 4269 American bison were analysed (1883 males, 2217 females, and 169 with unknown sex). The registered animals were born between years 1874 and 2013. The following pedigree parameters were estimated: number of fully traced generations, number of complete generations equivalent, index of pedigree completeness, individual inbreeding coefficients, increase of inbreeding for each individual, effective population size, and genetic diversity. The maximum number of fully traced generations was 3 (the mean value is 0.693). The mean inbreeding coefficient for the population studied was 3.26%, whereas individual increase in inbreeding ranged from 0 to 25.12%. Although the pedigree parameters (including the inbreeding level) in the American bison obtained in the present study seem to be acceptable (from the perspective of other wild animal populations), they can be over/underestimated due to incomplete pedigree.

Keywords: relatedness coefficient; captive breeding; genetic diversity; inbreeding

Published: December 31, 2018  Show citation

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Skotarczak E, Æwiertnia P, Szwaczkowski T. Pedigree structure of American bison (Bison bison) population. Czech J. Anim. Sci. 2018;63(12):507-517. doi: 10.17221/120/2017-CJAS.
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    References

    1. Armstrong E., Leizagoyen C., Martinez A.M., Gonzalez S., Delgado J.V., Postiglioni A. (2011): Genetic structure analysis of a highly inbred captive population of the African antelope Addax nasomaculatus. Conservation and management implications. Zoo Biology, 30, 399-411. Go to original source... Go to PubMed...
    2. Berger J., Cunningham C. (1994): Bison: Mating and Conservation in Small Populations. Columbia University Press, New York, USA.
    3. Boichard D., Maignel L., Vender E. (1997): The value of using probabilities of gene origin to measure genetic variability in a population. Genetics Selection Evolution, 29, 5-23. Go to original source...
    4. Caballero A., Toro M.A. (2000): Interrelations between effective population size and other pedigree tools for the management of conserved populations. Genetical Research, 75, 331-343. Go to original source... Go to PubMed...
    5. Cervantes I., Goyache F., Molina A., Valera M., Gutierrez J.P. (2011): Estimation of effective population size from the rate of coancestry in pedigreed populations. Journal of Animal Breeding and Genetics, 128, 56-63. Go to original source... Go to PubMed...
    6. Colleau J.J. (2002): An indirect approach to the extensive calculation of relationship coefficients. Genetics Selection Evolution, 34, 409-421. Go to original source... Go to PubMed...
    7. Franklin I.R. (1980): Evolutionary change in small populations. In: Soule M.E. and Wilcox B.A. (eds): Conservation Biology: An Evolutionary-Ecological Perspective. Sinauer Associates Inc., Sunderland, USA, 135-140.
    8. Freese C.H., Aune K.E., Boyd D.P., Derr J.N., Forrest S.C., Gates C.C., Goga P.J.P., Grassel S.M., Halbert N.D., Kunkel K., Redford K.H. (2007): Second chance for the plains bison. Biological Conservation, 136, 175-184. Go to original source...
    9. Gates C.C., Freese C.H., Gogan P.J.P., Kotzman M. (2010): American Bison: Status Survey and Conservation Guidelines 2010. IUCN, Gland, Switzerland.
    10. Gonzalez-Recio O., Lopez de Maturana E., Gutierrez J.P. (2007): Inbreeding depression on female fertility and calving easy in Spanish dairy cattle. Journal of Dairy Science, 90, 5744-5752. Go to original source... Go to PubMed...
    11. Goyache F., Gutierrez J.P., Fernandez I., Gomez E. Alvarez I., Diez J., Royo L.J. (2003): Using pedigree information to monitor genetic variability of endangered populations: the Xalda sheep breed of Asturias as an example. Journal of Animal Breeding and Genetics, 120, 95-103. Go to original source...
    12. Graczyk M., Andres K., Kapkowska E., Szwaczkowski T. (2015a): Pedigree analysis of the Zatorska goose population. Czech Journal of Animal Science, 60, 513-520. Go to original source...
    13. Graczyk M., Cwiertnia P., Borowska A., Barczak E., Szwaczkowski T. (2015b): Inbreeding and offspring sex ratio in the pygmy hippopotamus (Cheoropsis liberiensis) population kept in zoological gardens. Folia Biologica (Kraków), 63, 35-42. Go to original source... Go to PubMed...
    14. Gutierrez J.P., Goyache F. (2005): A note on ENDOG: a computer program for analyzing pedigree information. Journal of Animal Breeding and Genetics, 122, 172-176. Go to original source... Go to PubMed...
    15. Gutierrez J.P., Altarriba J., Diaz C., Quintanilla R., Canon J., Piedrafita J. (2003): Genetic analysis of eight Spanish beef cattle breeds. Genetics Selection Evolution, 35, 43-63. Go to original source... Go to PubMed...
    16. Gutierrez J.P., Cervantes I., Goyache F. (2009): Improving the estimation of realized effective population sizes in farm animals. Journal of Animal Breeding and Genetics, 126, 327-332. Go to original source... Go to PubMed...
    17. Halbert N.D. (2003): The utilization of genetic markers to resolve modern management issues in historic bison populations: implications for species conservation. PhD Dissertation: Texas A&M University.
    18. Halbert N.D., Ward T.J., Schnabel R.D., Taylor J.F., Derr J.N. (2005): Conservation genomics: Disequlibrium mapping of domestic cattle chromosomal segments in North American bison populations. Molecular Ecology, 14, 2343-2362. Go to original source... Go to PubMed...
    19. Hazuchova E., Kadlecik O., Pavlik I., Kasarda R., Zitny J. (2012): The assessment of genetic diversity and analysis of pedigree completeness in purebred Slovak Spotted cattle. Acta Agriculturae Slovenica, Suppl. 3, 131-135. Go to original source...
    20. Heck H. (1968): The Bison. A. Ziemsen Verlag. Wittenberg, Lutherstadt, Germany. (in German)
    21. Hedrick P.W. (2009): Conservation genetics and North American bison (Bison bison). Journal of Heredity, 100, 411-420. Go to original source... Go to PubMed...
    22. Isenberg A.C. (2000): The Destruction of the Bison: An Environmental History 1750-1920. Cambridge University Press, Cambridge, UK. Go to original source...
    23. Krupa E., Zakova E., Krupova Z. (2015): Evaluation of inbreeding and genetic variability of five pig breeds in Czech Republic. Asian-Australasian Journal of Animal Sciences, 28, 25-36. Go to original source... Go to PubMed...
    24. Lacy R.C. (1995): Clarification of genetic terms and their use in the management of captive populations. Zoo Biology, 14, 565-577. Go to original source...
    25. MacCluer J., Boyce B., Dyke L., Weitzkamp D., Pfenning A., Parsons C. (1983): Inbreeding and pedigree structure in Standardbred horses. Journal of Heredity, 74, 394-399. Go to original source...
    26. Maignel L., Boichard D., Verrier E. (1996): Genetic variability of French dairy breeds estimated from pedigree information. Interbull Bulletin, 14, 49-54.
    27. Malhado C.H.M., Ferraz P.C., Ramos A.A., Carneiro P.L.S., Aragao E.S., Barbosa A.C.B., Carrillo J.A. (2013): Inbreeding, average relatedness coefficient and effective population size in Jaffarabadi buffaloes raised in Brasil. Buffalo Bulletin, 32, 641-645.
    28. Meagher M.M. (1973): The Bison of Yellowstone National Park. National Park Service Scientific Monograph, No. 1. Government Printing Office, USA. Go to original source...
    29. Olech W. (1998): The inbreeding of European bison (Bison bonasus L.) population and its influence on viability. In: Proc. 49th EAAP Meeting, Warsaw, Poland, 59.
    30. Olech W., Perzanowski K. (2002): A genetic background for reintroduction program of the European bison (Bison bonasus) in the Carpathians. Biological Conservation, 108, 221-228. Go to original source...
    31. Oliveira R.R., Brasil L.H.A., Delgado J.V., Peguezuelos J., Leon J.M., Guedes D.G.P., Arandas J.K.G., Ribeiro M.N. (2016): Genetic diversity and population structure of the Spanish Murciano-Granadina goat breed according to pedigree data. Small Ruminant Research, 144, 170-175. Go to original source...
    32. Ranglack D.H., Dobson L.K., du Toit J.T., Derr J. (2015): Genetic analysis of the Henry Mountains bison herd. PLoS ONE, 10, e0144239. Go to original source... Go to PubMed...
    33. Sargolzaei M., Iwasaki H., Colleau J.J. (2006): CFC 1.0: A software package for pedigree analysis and monitoring genetic diversity. Niigata University, Niigata, Japan.
    34. Shull A.M., Tipton A.R. (1987): Effective population size of bison on the Wichita Mountains Wildlife Refuge. Conservation Biology, 1, 35-41. Go to original source...
    35. Sternicki T., Szablewski P., Szwaczkowski T. (2003): Inbreeding effects on lifetime in David's deer (Elaphurus davidianus, Milne Edwards 1866) population. Journal of Applied Genetics, 44, 175-183. Go to PubMed...
    36. Wolc A., Nitka M., Szablewski P., Szwaczkowski T. (2008): Inbreeding rate in captive bred Przewalski horses. Folia Zoologica, 57, 300-307.

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