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Options and legal requirements for national and regional animal genetic resource collections

Published online by Cambridge University Press:  02 November 2010

H.D. Blackburn*
Affiliation:
Agricultural Research Service – United States Department of Agriculture, Fort Collins, CO, USA
P.J. Boettcher
Affiliation:
Animal Production and Health Division, Food and Agriculture Organization of the United Nations, Rome, Italy
*
Correspondence to: H.D. Blackburn, Agricultural Research Service – United States Department of Agriculture, 1111 S. Mason Street, Fort. Collins, CO 80521, USA. email: [email protected]
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Summary

The contraction of animal genetic resources on a global scale has motivated countries to establish gene banks as a mechanism to conserve national resources. Gene banks should establish a set of policies that ensure they are complying with national laws. The two primary areas of consideration are how gene banks interact with the owners of the livestock from which they are collecting samples and the relevant national or international health standards. With respect to dealing with livestock breeders for the purpose of germplasm acquisition, private property rights are the most common legal issue that will come into consideration while building collections and distributing stored material. National animal health standards may determine which animals may or may not be collected and to what extent the germplasm can be used. Internationally, the country's overall health status will determine the type of testing necessary before, during and after collection to ensure the movement of germplasm across international boundaries and through the normal protocols of animal germplasm transfer. Policy-makers will need to evaluate if the current structure of the World Organization for Animal Health (OIE) regulations will allow the development of bilateral backup collections or if waivers should be given to facilitate the genetic security afforded through gene banking.

Résumé

La réduction des ressources zoogénétiques à l'échelle mondiale a poussé les pays à créer des banques de gènes en tant que mécanisme de conservation des ressources nationales. Les banques de gènes devraient établir un ensemble de politiques garantissant leur conformité aux lois nationales. Les deux domaines principaux à prendre en considération sont les façons dont les banques de gènes interagissent avec les propriétaires des animaux d'élevage fournissant les échantillons et les normes sanitaires pertinentes au niveau national ou international. Pour ce qui concerne la gestion des sélectionneurs aux fins de l'acquisition du matériel génétique, les droits relatifs à la propriété privée représentent la question juridique la plus courante à prendre en considération lors de la création des collections et de la distribution du matériel stocké. Les normes nationales relatives à la santé animale pourraient décider des animaux pouvant ou ne pouvant pas être collectés et le niveau auquel le matériel génétique peut être utilisé. Au plan international, l'état sanitaire général du pays déterminera le type de contrôle nécessaire avant, pendant et après la collecte pour garantir la circulation du matériel génétique à travers les frontières internationales et selon les protocoles courants du transfert de matériel génétique. Les décideurs devront évaluer si la structure courante des règlements de l'OIE permet le développement de collections bilatérales de réserve ou s'il faut prévoir des dérogations afin de faciliter la sécurité génétique obtenue par le biais de la mise en place des banques de gènes.

Resumen

La contracción de los recursos zoogenéticos a escala mundial ha llevado a los países a crear bancos de germoplasma como mecanismo para conservar los recursos nacionales. Los bancos de germoplasma deben establecer un conjunto de políticas que garanticen que se están cumpliendo las leyes nacionales. Las dos principales áreas para tener en cuenta son la forma en que los bancos de germoplasma interactúan con los propietarios del ganado del que se toman las muestras y las normas sanitarias nacionales o internacionales pertinentes. Con respecto al tratamiento de los ganaderos con el propósito de adquirir germoplasma, los derechos de propiedad privada son la cuestión jurídica más común que se tendrá en cuenta, además de la creación y difusión de colecciones del material genético almacenado. En base a las normas nacionales de sanidad animal se puede determinar de qué animales se puede o no se puede obtener muestras y en qué medida se puede utilizar el germoplasma. A nivel internacional, el estado sanitario general del país va a determinar previamente el tipo de pruebas necesarias, durante y después de la obtención para asegurar el movimiento del germoplasma de un país a otro, y por medio de los protocolos normales para la transferencia de germoplasma animal. Los responsables del desarrollo de políticas tendrán que evaluar si la actual estructura de las normas de la OIE permitirán desarrollar colecciones de apoyo bilaterales o si la renuncia se debe dar para facilitar la seguridad genética que ofrecen a través de bancos de germoplasma.

Type
Research Article
Copyright
Copyright © Food and Agriculture Organization of the United Nations 2010

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References

Blackburn, H.D. 2007. Integrating policies for the management of animal genetic resources with demand for livestock products and environmental sustainability. Anim. Genet. Res. Inf., 41: 5364.CrossRefGoogle Scholar
Blackburn, H.D. 2009. Genebank development for the conservation of livestock genetic resources in the United States of America. Livestock Sci., 120: 196203.CrossRefGoogle Scholar
Boettcher, P.J. & Akin, O. 2010. State of ex-situ conservation – overview over regional and national collection. Anim. Genet., 41: 7384Google Scholar
Boettcher, P.J., Stella, A., Pizzi, F. & Gandini, G. 2005. The combined use of embryos and semen for cryogenic conservation of mammalian livestock genetic resources. Genet. Selection Evol., 37: 657675.CrossRefGoogle ScholarPubMed
Canadian Food Inspection Agency. 2010. Module 10 – Artificial Insemination (available at http://inspection.gc.ca) (accessed 4/2010).Google Scholar
Danchin-Burge, C. & Hiemstra, S. 2003. Cryopreservation of domestic animal species in France and the Netherlands experiences, similarities and differences. In Planchenault, D., ed. Workshop on cryopreservation of animal genetic resources in Europe. pp. 1529, Paris, France, ISBN 2-908447-25-8.Google Scholar
ELBARN. 2009. Results of the ELBARN Questionnaire. Save Foundation, Konstanz, Germany (available at www.elbarn.net).Google Scholar
FAO. 2005. The legal framework for the management of animal genetic resources, by A. Ingrassia, D. Manzella & E. Martynuik, for the Development Law Service, FAO Legal Office. FAO Legislative study. No. 89. Rome (available at www.fao.org/docrep/009/a0276e/a0276e00.htm) .Google Scholar
FAO. 2007a. The state of the world's animal genetics resources for food and agriculture. Rome, Italy (available at ftp://ftp.fao.org/docrep/fao/010/a1250e/a1250e.pdf)Google Scholar
FAO. 2007b. Global plan of action for animal genetics resources and the Interlaken Declaration. Rome, Italy.Google Scholar
Givens, M.D., Heath, A.M., Carson, R.L., Brock, K.V., Edens, M.S., Wenzel, J.G. & Stringfellow, D.A. 2003. Analytical sensitivity of assays used for detection of bovine viral diarrhea virus in semen samples from the Southeastern United States. Vet. Microbiol., 96: 145155.CrossRefGoogle ScholarPubMed
Gollin, D. & Evanson, R. 2003. Valuing animal genetic resources: lessons from plant genetic resources. Ecol. Econ., 45: 353363.CrossRefGoogle Scholar
Grout, B.W. & Morris, G.J. 2009. Contaminated liquid nitrogen vapour as a risk factor in pathogen transfer. Theriogenology, 71: 10791082.CrossRefGoogle ScholarPubMed
Kirkland, P.D., Poynting, A.J., Gu, X. & Davis, R.J. 2009. Infertility and venereal disease in cattle inseminated with semen containing bovine herpes virus type 5. Vet. Rec., 165: 111113.CrossRefGoogle Scholar
National Research Council (NRC). 1993a. Managing global genetic resources: agricultural crop issues and policies. Washington, DC, National Academy Press.Google Scholar
National Research Council (NRC). 1993b. Managing global genetic resources: livestock. Washington, DC, National Academy Press.Google Scholar
Neeteson, A.M. 2010. Striking the balance. J. Anim. Breed. Genet., 127: 8586.CrossRefGoogle ScholarPubMed
OIE. 1986. Diseases transmissible by semen and embryo transfer. In Hare, W.C.D. ed. Paris, France, OIE.Google Scholar
Republic of South Africa. 2002. Government Gazette. Vol. 443.Google Scholar
Ser-Od, T. & Dugdill, B. 2006. Mongolia milk production, processing, consumption and outlook to 2010. Ministry of Food and Agriculture, Ulaanbaatar, Mongolia (available at www.mongolia-dairy.mn).Google Scholar
Steinfeld, H., Gerber, P., Wassenaar, T., Castel, V., Rosales, M. & de Haan, C. 2006. Livestock's long shadow. Rome, FAO, p. 390.Google Scholar