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LITERATURE CITED

  • Allendorf, F. W., K. L. Knudsen, and G. M. Blake. 1982. Frequencies of null alleles at enzyme loci in natural populations of ponderosa and red pine. Genetics 100:497504.
  • Ammannati, R. 1988. Effeti dell'autoimpollinazione sulla crescita in altezza in Pinus pinea L. Monti e Boschi 3:5052.
  • Amos, W., and A. Balmford. 2001. When does conservation genetic matter? Heredity 87:257265.
  • Badal, E. 1998. El interés económico del pino piñonero para los habitantes de la Cueva de Nerja. Pp. 287300 in J. L.Sanchidrián and M. D.Simón, eds. Las culturas del Pleistoceno Superior en Andalucía. Patronato Cueva de Nerja, Málaga , Spain .
  • Barbéro, M., R. Loisel, P. Quézel, D. M. Richardson, and F. Romane. 1998. Pines of the Mediterranean basin. Pp. 153170 in D. M.Richardson, ed. Ecology and biogeography of Pinus. Cambridge Univ. Press, Cambridge , UK .
  • Bazile-Robert, E. 1981. Le pin pignon (Pinus pinea L.) dans le Würm récent de Provence. Géobios 14:395397.
  • Bellefontaine, R., M. Raggabi, and H. El Mazzoudi. 1980. Résultats préliminaires des essais de provenances de Pinus pinea L. Ann. Rech. Forest. Maroc 20:183204.
  • Bonnell, M. L., and R. K. Selander. 1974. Elephant seals: genetic variation and near extinction. Science 184:908909.
  • Boys, J., M. Cherry, and S. Dayanandan. 2005. Microsatellite analysis reveals genetically distinct populations of red pine (Pinus resinosa, Pinaceae). Am. J. Bot. 92:833841.
  • Bucci, G., M. Anzidei, A. Madaghiele, and G. G. Vendramin. 1998. Detection of haplotypic variation and natural hybridization in halepensis-complex pine species using chloroplast simple sequence repeat (SSR) markers. Mol. Ecol. 7:16331643.
  • Cole, C. T., and D. D. Biesboer. 1992. Monomorphism, reduced gene flow, and cleistogamy in rare and common species of Lespedeza (Fabaceae). Am. J. Bot. 79:567575.
  • Court-Picon, M., C. Gadbin-Henry, F. Guibal, and M. Roux. 2004. Dendrometry and morphometry of Pinus pinea L. in Lower Provence (France): adaptability and variability of provenances. For. Ecol. Manage. 194:319333.
  • David, A., C. Pike, and R. Stine. 2003. Comparison of selection methods for optimizing genetic gain and gene diversity in a red pine (Pinus resinosa Ait.) seedling seed orchard. Theor. Appl. Genet. 107:843849.
  • Dellaporta, S. L., J. Wood, and J. B. Hicks. 1983. A plant DNA minipreparation: version II. Plant Mol. Biol. Reporter 1:1921.
  • DeVerno, L. L., and A. Mosseler. 1997. Genetic variation in red pine (Pinus resinosa) revealed by RAPD and RAPD-RFLP analysis. Can. J. For. Res. 27:13161320.
  • Doyle, J. J., and J. L. Doyle. 1990. Isolation of plant DNA from fresh tissue. Focus 12:1315.
  • Echt, C. S., L. L. De Verno, M. Anzidei, and G. G. Vendramin. 1998. Chloroplast microsatellites reveal population genetic diversity in red pine, Pinus resinosa Ait. Mol. Ecol. 7:307317.
  • Fady, B. 2005. Is there really more biodiversity in Mediterranean forest ecosystems? Taxon 54:905910.
  • Fady, B., S. Fineschi, and G. G. Vendramin. 2004. Technical guidelines for genetic conservation and use of Italian stone pine (Pinus pinea). EUFORGEN, International Plant Genetic Resources Institute, Roma , Italy .
  • Fallour, D., B. Fady, and F. Lefèvre. 1997. Study on isozyme variation in Pinus pinea L.: evidence for low polymorphism. Silvae Genet. 46:201207.
  • Finlayson, C., F. Giles-Pacheco, J. Rodríguez-Vidal, D. A. Fa, J. M. Gutierrez López, A. Santiago Pérez, G. Finlayson, E. Allue, J. Baena Preysler, I. Cáceres, et al. 2006. Late survival of Neanderthals at the southernmost extreme of Europe. Nature 443:850853.
  • Fowler, D. P. 1964. Effects of inbreeding in red pine, Pinus resinosa Ait. I. Factors affecting natural selfing. Silvae Genet. 13:170177.
  • Fowler, D. P. D., and T. Lester. 1970. Genetics of red pine. Research paper WO-8, USDA Forest Service, Washington , D.C .
  • Frankham, R. 2005. Genetics and extinction. Biol. Conserv. 126:131140.
  • Geber, M. A., and L. R. Griffen. 2003. Inheritance and natural selection on functional traits. Int. J. Plant Sci. 164:S21S42.
  • Gil, L., P. Fuentes-Utrilla, A. Soto, M. T. Cervera, and C. Collada. 2004. English elm is a 2,000-year-old Roman clone. Nature 431:1053.
  • Godt, M. J. W., and J. L. Hamrick. 1997. Genetic diversity in the endangered lily Harperocallis flava and a close relative, Tofieldia racemosa. Conserv. Biol. 11:361366.
  • Godt, M. J. W., and J. L. Hamrick. 1998. Low allozyme variability in Schwalbea americana (Scrophulariaceae), an endangered plant species. J. Heredity 89:8993.
  • González-Martínez, S. C., S. Mariette, M. M. Ribeiro, C. Burban, A. Raffin, M. R. Chambel, C. A. M. Ribeiro, A. Aguiar, C. Plomion, R. Al, L. Gil, et al. 2004. Genetic resources in maritime pine (Pinus pinaster Aiton): molecular and quantitative measures of genetic variation and differentiation among maternal lineages. For. Ecol. Manage. 197:103115.
  • Hailer, F., B. Helander, A. O. Folkestad, S. A. Ganusevich, S. Garstad, P. Hauff, C. Koren, T. Nygård, V. Volke, C. Vilà, et al. 2006. Bottlenecked but long-lived: high genetic diversity retained in white-tailed eagles upon recovery from population decline. Biol. Lett. 2:316319.
  • Hamrick, J. L., M. J. W. Godt, and S. L. Sherman-Broyles. 1992. Factors influencing levels of genetic diversity in woody plant species. New Forest 6:95124.
  • Kay, K. M., J. B. Whittal, and S. A. Hodges. 2006. A survey of nuclear ribosomal internal transcribed spacer substitution rates across angiosperms: an approximate molecular clock with life history effects. BMC Evol. Biol. 6:36.
  • Keane, R. M., and M. J. Crawley. 2002. Exotic plant invasions and the enemy release hypothesis. Trends Ecol. Evol. 17:164170.
  • Ledig, F. T., and M. T. Conkle. 1983. Gene diversity and genetic structure in a narrow endemic, Torrey pine (Pinus torreyana Parry ex Carr.). Evolution 37:7985.
  • Ledig, F. T., M. T. Conkle, B. Bermejo-Velasquez, T. Eguiluz-Piedra, P. D. Hodgskiss, D. R. Johnson, W. S. Dvorak, and S. William. 1999. Evidence for an extreme bottleneck in a rare Mexican pinyon: genetic diversity, disequilibrium, and the mating-system in Pinus maximartinezii. Evolution 53:9199.
  • Lee, S.-W., Y.-M. Kim, and W.-W. Kim. 2003. Lack of allozyme and ISSR variation in the rare endemic tree species Berchemia berchemiaefolia (Rhamnaceae) in Korea. Ann. For. Sci. 60:357360.
  • Lehman, N. 1998. Conservation biology: genes are not enough. Curr. Biol. 8:R722R724.
  • Linder, C. R. 2000. Adaptive evolution of seed oils in plants: accounting for the biogeographic distribution of saturated and unsaturated fatty acids in seed oils. Am. Nat. 156:442458.
  • Lynch, M. 1996. A quantitative-genetic perspective on conservation issues. Pp. 471501 in J. C.Avise and J. L.Hamrick, eds. Conservation genetics: case histories from nature. Chapman & Hall, New York .
  • Martínez, F., and G. Montero. 2004. The Pinus pinea L. woodlands along the coast of South-western Spain: data for a new geobotanical interpretation. Plant Ecol. 175:118.
  • Morin, R., J. Beaulieu, M. Deslauriers, G. Daoust, and J. Bousquet. 2000. Low genetic diversity at allozyme loci in Juglans cinerea. Can. J. Bot. 78:12381243.
  • Mosseler, A., D. J. Innes, B. A. Roberts. 1991. Lack of allozyme variation found in disjunct Newfoundland populations of red pine (Pinus resinosa). Can. J. For. Res. 21:525528.
  • Mosseler, A., K. N. Egger, and G. A. Hughes. 1992. Low levels of genetic diversity in red pine confirmed by random amplified polymorphic DNA markers. Can. J. For. Res. 22:13321337.
  • Mutke, S., J. Gordo, and L. Gil. 2005. Cone yield characterization of a stone pine (Pinus pinea L.) clone bank. Silvae Genet. 54:189197.
  • Nasri, N., A. Khaldi, B. Fady, and S. Triki. 2005. Fatty acids from seeds of Pinus pinea L.: composition and population profiling. Phytochemistry 66:17291735.
  • Nasri, N., B. Fady, and S. Triki. 2007. Quantification of sterols and aliphatic alcohols in Mediterranean stone pine (Pinus pinea L.) populations. J. Agric. Food Chemistry 55:22512255.
  • O'Brien, S. J. 1994. A role for molecular genetics in biological conservation. Proc. Natl. Acad. Sci. USA 91:57485755.
  • O'Brien, S. J., M. E. Roelke, L. Marker, A. Newman, C. A. Winkler, D. Meltzer, L. Colly, J. F. Evermann, M. Bush, and D. E. Wildt. 1985. Genetic basis for species vulnerability in the cheetah. Science 227:14281434.
  • Peakall, R., and P. E. Smouse. 2006. GENALEX 6: genetic analysis in Excel. Population genetic software for teaching and research. Mol. Ecol. Notes 6:288295.
  • Petit, R. J., and A. Hampe. 2006. Some evolutionary consequences of being a tree. Annu. Rev. Ecol. Evol. Syst. 37:187214.
  • Petit, R. J., M.-F. Deguilloux, J. Chat, D. Grivet, P. Garnier-Géré, and G. G. Vendramin. 2005. Standardisation for microsatellite length in comparisons of genetic diversity. Mol. Ecol. 14:885890.
  • Powell, W., M. Morgante, R. McDevitt, G. G. Vendramin, and J. A. Rafalski. 1995. Polymorphic simple sequence repeat regions in chloroplast genomes: applications to the population genetics of pines. Proc. Natl. Acad. Sci. USA 99:77597763.
  • Prada, M. A., J. Gordo, J. De Miguel, S. Mutke, G. Catalán-Bachiller, S. Iglesias, and L. Gil. 1997. Las regiones de procedencia de Pinus pinea L. en España. Ministerio de Medio Ambiente, Organismo Autónomo Parques Nacionales, Madrid , Spain .
  • Provan, J., N. Soranzo, N. J. Wilson, D. B. Goldstein, and W. Powell. 1999. A low mutation rate for chloroplast microsatellites. Genetics 153:943949.
  • Quézel, P., and F. Médail. 2003. Ecologie et biogéographie des forêts du bassin méditerranéen. Elsevier, Paris , 572 p.
  • Raddi, P., L. Mittempergher, and F. Moriondo. 1979. Testing of P. pinea and P. pinaster progenies for resistance to Cronartium flaccidum. Phytopathology 69:679681.
  • Rapp, R. A., and J. F. Wendel. 2005. Epigenetics and plant evolution. New Phytol. 168:8191.
  • Reed, D. H., and R. Frankham. 2001. How closely related are molecular and quantitative measures of genetic variation? A meta-analysis. Evolution 55:10951103.
  • Richardson, D. M., R. M. Cowling, and D. C. Le Maitre. 1990. Assessing the risk of invasive success in Pinus and Banksia in South African mountain fynbos. J. Veg. Sci. 1:629642.
  • Rigolot, E. 2004. Predicting postfire mortality of Pinus halepensis Mill. and Pinus pinea L. Plant Ecol. 171:139151.
  • Schaal, B. A., and W. G. Smith. 1980. The apportionment of genetic variation within and among populations of Desmodium nudiflorum. Evolution 34:214221.
  • Scofield, D. G., S. T. Schultz. 2006. Mitosis, stature and evolution of plant mating systems: low-Φ and high-Φ plants. Proc. R. Soc. Lond. B 273:275282.
  • Simon, J.-P., Y. Bergeron, and D. Gagnon. 1986. Isozyme uniformity in populations of red pine (Pinus resinosa) in the Abitibi Region, Quebec. Can. J. For. Res. 16:11331135.
  • Slatkin, M., and D. Hudson. 1991. Pairwise comparisons of mitochondrial DNA sequences in stable and exponentially growing populations. Genetics 129:555562.
  • Soltis, D. E. 1985. Allozymic differentiation among Heuchera americana, H. parviflora, H. pubescens, and H. villosa (Saxifragaceae). Syst. Bot. 10:193198.
  • Soltis, P. S., D. E. Soltis, T. L. Tucker, and F. A. Lang. 1992. Allozyme variability is absent in the narrow endemic Bensoniella oregona (Saxifragaceae). Conserv. Biol. 6:131134.
  • Tapias, R., J. Climent, J. A. Pardos, and L. Gil. 2004. Life histories of Mediterranean pines. Plant Ecol. 171:5368.
  • Vendramin, G. G., L. Lelli, P. Rossi, and M. Morgante. 1996. A set of primers for the amplification of 20 chloroplast microsatellites in Pinaceae. Mol. Ecol. 5:111114.
  • Vendramin, G. G., B. Degen, R. J. Petit, M. Anzidei, A. Madaghiele, and B. Ziegenhagen. 1999. High level of variation at Abies alba chloroplast microsatellite loci in Europe. Mol. Ecol. 8:11171126.
  • Vendramin, G. G., M. Anzidei, A. Madaghiele, C. Sperisen, and G. Bucci. 2000. Chloroplast microsatellite analysis reveals the presence of population subdivision in Norway spruce (Picea abies K.). Genome 43:6878.
  • Walter, R., and B. K. Epperson. 2001. Geographic pattern of genetic variation in Pinus resinosa: area of greatest diversity is not the origin of postglacial populations. Mol. Ecol. 10:103111.
  • Walter, R., and B. K. Epperson. 2005. Geographic pattern of diversity in Pinus resinosa: contact zone between descendants of glacial refugia. Am. J. Bot. 92:92100.
  • Weber, D. S., B. S. Stewart, and N. Lehman. 2004. Genetic consequences of severe population bottleneck in the Guadalupe Fur Seal (Arctocephalus townsendi). J. Heredity 95:144153.
  • Willis, J. H., and H. A. Orr. 1993. Increased heritable variation following population bottlenecks: the role of dominance. Evolution 47:949957.
  • Willyard, A., J. Syring, D. S. Gernandt, A. Liston, and R. Cronn. 2006. Fossil calibration of molecular divergence infers a moderate mutation rate and recent radiations for Pinus. Mol. Biol. Evol. 24:90101.
  • Zabinski, C. 1992. Isozyme variation in eastern hemlock. Can. J. For. Res. 22:18381842.