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ARTs in wild felid conservation programmes in Poland and in the world

no doubt that implementation of advanced wild cat conservation programmes is essential. Wild felid conservation involves application of in situ methods, when a given species occurs in the natural habitat, or ex situ methods in centres with a conservation mandate ( e.g . reserves or zoos) by taking advantage of the latest advances in biotechnology, cryobiology, and bioinformatics. Besides raising and breeding animals in captivity, ex situ methods include preservation of their genetic material, usually in cell banks. Projects aimed at conservation of the

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Conservation Approaches For Autochthonous Woody Plants in Flanders

landbouw (EOGFL) en tot wijziging en instelling van een aantal verordeningen. Belgian Law Gazette, 19 May: 27184-27199. ANONYMOUS (2003d): Environmental Policy Plan of the Flemish Government, BD (2004): Bosdecreet 13 juni 1990 B.S.28.09.1990, BEHM, A., A. BECKERS, H. DORFLINGER, A. FRANKE, J. KLEINSCHMIT, G. H. MELCHIOR, H.-J. MUHS, H. P. SCHMITT, B. R. STEPHAN, U. TABEL, H. WEISGERBER and H. WIDMAIER (1997): Concept for the Conservation of Forest Genetic Resources

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Genetic conservation in Parkia biglobosa (Fabaceae: Mimosoideae) - what do we know?

. ISBN 0 85199 148 3. 363 p Eyog Matig O, Gaoué OG, Dossou B (2002) Réseau « Espèces Ligneuses Alimen­taires ». Compte rendu de la première réunion du Réseau tenue 11-13 décembre 2000 au CNSF Ouagadougou, Burkina Faso. Institut International des Ressources Phytogénétiques, 235 p Fahr J (2008) Diversity Patterns and Taxonomy of West African Bat Assemblages: Effects of Spatial Scale and Habitat Structure. Ulm University: Ph.D. disserta­tion, 315 p FAO, DFSC, IPGRI (2001) Forest genetic resources conservation and manage

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Validation of microsatellite loci for Balfourodendron riedelianum through analysis of Mendelian inheritance, genetic linkage, and genotypic linkage disequilibrium

Version 1.2. A computer program to calculate F-statistics. Heredity 86:485–486. Inglis PW, Pappas M de CR, Grattapaglia D (2016) Protocolo de extração de DNA e RNA de alta qualidade para espécies ricas em compostos secundários. Comunicado Técnico 5p. IUCN (2015) International Union for Conservation of Nature - Red List of Threatened Species. Version 2015-4. Available at: . Accessed in April 2016. Manoel RO, Freitas MLM, Tambarussi EV, Cambuim J, Moraes MLT

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Genetic structure and diversity of Polylepis australis (Rosaceae) tree populations from central Argentina: Implications for forest conservation

allow and D. A. B riscoe (2002): Introduction to conservation genetics. Cambridge, University Press. H amrick , J. L., J. O. G odt and S. L. S herman (1992): Factors influencing levels of genetic diversity in woody plant species. New Forests 6 : 95–124. H ensen , I. (2002): Impacts of anthropogenic activity on the vegetation of Polylepis woodlands in the region of Cochabamba, Bolivia. Ecotropica 8 : 183–203. H euertz , M., J. F. H ausman , I. T svetkov , N. F rascaria -L acoste and X. V ekemans (2001): Assessment of genetic structure within

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Primer Note: Microsatellite-AFLP development for Araucaria araucana (Mol.) K. Koch, an endangered conifer of Chilean and Argentinean native forests

microsatellite markers from Hibiscus rosa-sinensis (Malvaceae) and crossspecies amplifications. Conservation Genetics DOI: 10.1007/s10592-008-9659-1. B lum , H., H. B eier and H. J. G ross (1986): Improved silver staining of plant proteins, RNA and DNA in polyacrylamide gels. Electrophoresis 8 : 93–99. IUCN. (1996): World list of threatened trees. International Union for the Conservation of Nature, Gland, Switzerland. . M oreno A. C., P. M archelli , G. G. V endramin and L. A. G allo (2011): Cross

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Genetic Diversity of the Relict Plant Taiwania cryptomerioides Hayata (Cupressaceae) in Mainland China

: 1091-1097. CHANG, J. L. (2005): The genetic diversity of Taiwania cryptomerioides Hayata. Master degree thesis. Taiwan: National Sun Yat-sen University. CHUNG, Y. L. and N. H. CHANG (1990): Technical report for important tree seeds in Taiwan. Taiwan Forestry Research Institute, Taipei. CLARKE, G. M. and A. G. YOUNG (2000): Introduction: genetics, demography and the conservation of fragmented populations, pp. 1-6. In: Genetics, demography and viability of fragmented populations, edited by A. G. YOUNG and G. M. CLARKE

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Phylogeography and genetic variability of the Arnica montana chemotypes in NW Iberian Peninsula

: Evolutionary perspectives on the origins and conservation European biodiversity, edited by S. WEISS & N. FERRAND, Academic Publishers, Dordrecht Kluwe. GONZÁLEZ DE PAZ, M. L. (2012): Flora y vegetación de La Cabrera Baja (León): valoración del estado de conservación. Ph. D. thesis, Universidad de León, Spain. HUANG, S., Y. C. CHIANG, B. A. SCHAAL, C. H. CHOU and T. Y. CHIANG (2001): Organelle DNA phylogeography of Cycas taitungensis, a relict species in Taiwan. Molecular Ecology 10: 2669-2681. IUCN (2014): Arnica montana. In

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Gene dispersal via seeds and pollen and their effects on genetic structure in the facultative-apomictic Neotropical tree Aspidosperma polyneuron

. Molecular Ecology 13:937–954. Available at Baldauf C, Ciampi-Guillardi M, Aguirra TJ, Correa CE, Santos FAM, Souza AP, Sebbenn AM (2014) Genetic diversity, spatial genetic structure and realized seed and pollen dispersal of Himatanthus drasticus (Apocynaceae) in the Brazilian savanna. Conservation Genetics 15:1073–1083. Available at . Bittencourt JM, Sebbenn AM (2007) Patterns of pollen and seed dispersal in a small fragmented population of a wind pollinated

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Genetic variation in silvicultural traits and carbon stock content in a provenance-progeny test of Genipa americana L. (Rubiaceae)

dioecious tropical tree Genipa americana L. Forestry Research and Engi­neering: International Journal 1:2-12. Murcia C (1995) Edge effects in /fragmented forests: implications for conserva­tion. Trends in Ecological and Evolution 10(1):58-62. Oliveira AO, Bonjorno II, Alves PF, Moraes MA, Freitas MLM, Moraes MLT, Polizeli MLTM (2009) Variação genética para compostos bioquímicos em sementes de duas populações naturais de Genipa americana L.: 1

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