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Tytuł artykułu

Determination of potential glacial refugia and possible migration routes of Campylocentrum (Vandeae, Orchidaceae) species through the Darien Gap

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The possible glacial refugia of four Campylocentrum species reported from the Darién Gap are estimated based on the ecological niche modeling. The potential migration routes of the studied species are presented. The current ranges of all species designated based on the available floristic data are compared with their potential habitats distribution.
Opis fizyczny
  • Department of Plant Taxonomy and Nature Conservation, University of Gdansk, Wita Stwosza 59, 80-308 Gdansk-Oliwa, Poland
  • 1. Kanning M. Darién Gap. In: McColl RW, editor. Encyclopedia of world geography. New York, NY: Infobase Publishing; 2005. p. 234–235.
  • 2. Williams LO, Allen PH, Dressler RL. Orchids of Panama: a facsimile reprint of “The Orchidaceae”, “Flora of Panama”. Saint Louis, MO:Missouri Botanical Garden; 1980. (Monographs in systematic botany;vol 4).
  • 3. Cárdenas-López D. Inventario florístico en el Cerro del Cuchillo, Tapón del Darién Colombiano. Caldasia. 2003;25(1):101–117.
  • 4. Bentham G. Notes on Orchidaceae. J Linn Soc Bot. 1881;18:281–361.
  • 5. Dressler RL. Campylocentrum. In: Hammel BE, Grayum MH, Herrera C, Zamora Villalobos N, editors. Manual de plantas de CostaRica. Saint Louis, MO: Missouri Botanical Garden; 2003. p. 38–41.(Monographs in systematic botany; vol 3).
  • 6. Dressler RL. Field guide to the orchids of Costa Rica and Panama. New York, NY: Cornell University Press; 1993.
  • 7. Bogarín D, Pupulin F. The genus Campylocentrum (Orchidaceae: Angraecinae) in Costa Rica: some critical questions and a few answers. In: Pridgeon AM, Suarez JP, editors. Proceedings of the second scientificconference on Andean orchids. Loja: Universidad Técnica Particular de Loja; 2009. p. 32–45.
  • 8. Bogarín D, Pupulin F. The genus Campylocentrum (Orchidaceae: Angraecinae) in Costa Rica: a Revision. Harv Pap Bot. 2010;15(2):353–414.
  • 9. Clark PU, Dyke AS, Shakun JD, Carlson AE, Clark J, Wohlfarth B, et al. The last glacial maximum. Science. 2009;325(5941):710–714.
  • 10. Pearson RG, Raxworthy CJ, Nakamura M, Townsend Peterson A. Predicting species distributions from small numbers of occurrence records: a test case using cryptic geckos inMadagascar. J Biogeogr. 2006;34(1):102–117.
  • 11. Elith J, Phillips SJ, Hastie T, Dudík M, Chee YE, Yates CJ. A statistical explanation of MaxEnt for ecologists: Statistical explanationof MaxEnt. Divers Distrib. 2011;17(1):43–57.
  • 12. Phillips SJ, Dudík M, Schapire RE. A maximum entropy approach to species distribution modeling. In: ICML ‘04: Proceedingsof the twenty-first international conference on machine learning.New York, NY: ACM Press; 2004. p. 655–662.
  • 13. Phillips SJ, Anderson RP, Schapire RE. Maximum entropy modeling of species geographic distributions. Ecol Model. 2006;190(3–4):231–259.
  • 14. Hijmans RJ, Cameron SE, Parra JL, Jones PG, Jarvis A. Very high resolution interpolated climate surfaces for global land areas. Int JClim. 2005;25(15):1965–1978.
  • 15. Urbina-Cardona JN, Loyola RD. Applying niche-based models to predict endangered-hylid potential distributions: are neotropicalprotected areas effective enough. Trop Conserv Sci. 2008;1(4):417–445.
  • 16. Braconnot P, Otto-Bliesner B, Harrison S, Joussaume S, Peterchmitt J-Y, Abe-Ouchi A, et al. Results of PMIP2 coupled simulations ofthe mid-holocene and last glacial maximum. Part 1: experimentsand large-scale features. Clim Past. 2007;3(2):261–277.
  • 17. Olson JS, Allison LJ, Watts JA. Carbon in live vegetation of major world ecosystems. Report DOE/NBB-0037. Washington, DC: United States Department of Energy; 1983.
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