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Abstrakty
Zwackhia viridis is a crustose lichen being found in forests throughout Poland. It belongs to rare species being labelled primeval forest lichens which are associated with large forest complexes. The eastern populations of Z. viridis were examined using RAPD technique in order to check whether geographic distance affects genetic diversity of the populations under study. The analysis of seven populations of that species showed large intraspecific diversity. The greatest genetic similarity occurred between populations from the north-eastern area of the country, about 300 km away from each other. In dendrograms, only these populations have simple matching distance greater than 50%.
Czasopismo
Rocznik
Tom
Strony
253--261
Opis fizyczny
Bibliogr. 28 poz., il.
Twórcy
autor
- Department of Ecology and Environmental Protection, University of Szczecin, Wąska 13, 71–415 Szczecin, Poland
autor
- Department of Cell Biology, University of Szczecin, Wąska 13, 71–415 Szczecin, Poland
autor
- Institute of Botany, Jagiellonian University, Kopernika 27, 31–501 Kraków, Poland
autor
- Department of Ecology and Environmental Protection, University of Szczecin, Wąska 13, 71–415 Szczecin, Poland
autor
- Department of Ecology and Environmental Protection, University of Szczecin, Wąska 13, 71–415 Szczecin, Poland
Bibliografia
- 1. Buntjer J.B. 1997 ‒ Phylogenetic Computer Tools ver. 1.3. Netherlands, Wageningen University.
- 2. Buschbom J. 2007 ‒ Migration between continents: geographical structure and longdistance gene flow in Porpidia flavicunda (lichen-forming Ascomycota) ‒ Mol. Ecol. 16: 1835‒1846.
- 3. Cassie D.M., Piercey-Normore M.D. 2008 ‒ Dispersal in a sterile lichen-forming fungus, Thamnolia subuliformis (Ascomycotina: Icmadophilaceae) ‒ Botany/Botanique, 86: 751‒762.
- 4. Dyer P.S., Murtagh G.J., Crittenden P.D. 2001 ‒ Use of RAPD-PCR DNA fingerprinting and vegetative incompatibility tests to investigate genetic variation within lichen-forming fungi ‒ Symbiosis, 31: 213–229.
- 5. Ehrich D. 2006 ‒ AFLPdat: a collection of R functions for convenient handling of AFLP data ‒ Mol. Ecol. Notes, 6: 603‒604.
- 6. Felsenstein J. 2012 ‒ PHYLIP (Phylogeny Inference Package) ver. 3.67 [Internet]. Available from: http://evolution.genetics.washington.edu/phylip.html
- 7. Grube M., Depriest P.T., Gargas A., Hafellner J. 1995 ‒ DNA isolation from lichen ascomata ‒ Mycol. Res. 99: 1321‒1324.
- 8. Heibel E., Lumbsch T., Schmitt I. 1999 ‒ Genetic variation of Usnea filipendula (Parmeliaceae) populations in western Germany Investigated by RAPDs suggests reinvasion from various sources ‒ AM J. Bot. 86:753‒757.
- 9. Honegger R., Zippler U., Scherrer S., Dyer P.S. 2004 ‒ Genetic diversity in Xanthoria parietina (L.) Th. Fr. (lichen-forming ascomycete) from worldwide locations ‒ Lichenologist, 36: 381 ‒ 390.
- 10. Itten B., Honegger R. 2010 ‒ Population genetics in the homothallic liche-forming ascomycete Xanthoria parietina ‒ Lichenologist, 42: 751 ‒ 761.
- 11. Lindblom L., Ekman S. 2006 ‒ Genetic variation and population differentiation in the lichen-forming ascomycete Xanthoria parietina on the island Storfosna, central Norway ‒ Mol. Ecol. 15: 1545‒1559.
- 12. Lohtander K., Källersjö M., Tehler A. 1998 ‒ Dispersal strategies in Roccellina capensis (Arthoniales) ‒ Lichenologist, 30: 341–350.
- 13. Lumbsch H.T., Schmitt I. 1999 ‒ RAPDPCR of lichens (In: Methods in Lichenology, Eds: I. Kranner, A. Varma, R. Beckett) ‒ Springer, Berlin, pp. 421-424.
- 14. Mattsson J.E., Hansson A.Ch., Lindblom L. 2009 ‒ Genetic variation in relation to substratum preferences of Hypogymnia physodes ‒ Lichenologist, 41: 547–555.
- 15. Murtagh G.J., Dyer P.S., McClure P.C., Crittenden P.D. 1999 ‒ Use of randomly amplified polymorphic DNA markers as a tool to study variation in lichen-forming fungi ‒ Lichenologist, 31: 257‒267.
- 16. Printzen Ch., Lumbsch T., Schmitt I., Feige B.1999 ‒ A study on the genetic variability of Biatora helvola using RAPD markers ‒ Lichenologist, 31: 491‒499.
- 17. Printzen C., Ekman S. 2002 ‒ Genetic variability and its geographical distribution in the widely disjunct Cavernularia hultenii ‒ Lichenologist, 34: 101‒111.
- 18. Prinzen C., Ekman S., Tønsberg T. 2003 ‒ Phylogeography of Cavernularia hultenii: evidence of slow genetic drift in a widely disjunct lichen ‒ Mol. Ecol. 12: 1473‒1486.
- 19. Rohlf F.J. 2002 ‒ NTYS–pc. Numerical taxonomy and multivariate analysis, version 2.1. Exter Software, Setauket, New York, USA.
- 20. Ter Braak C.J.F. 1986 ‒ Canonical Correspondence Analysis: an eigenvector technique for multivariate direct analysis ‒ Ecology, 67: 1167‒1179.
- 21. Ter Braak C.J.F., Smilauer P. 2002 ‒ CANOCO Reference Manual and CanoDraw for Windows User’s Guide: Software for Canonical Community Ordination (version 4.5). Microcomputer Power, Ithaca NY, US.
- 22. Walser J.C., Holderegger R., Gugerli F., Hoebee S.E., Scheidegger C. 2005 ‒ Microsatellites reveal regional population differentiation and isolation in Lobaria pulmonaria, an epiphytic lichen ‒ Mol. Ecol. 14: 457‒467.
- 23. Werth S. 2010 ‒ Population genetics of lichenforming fungi - a review ‒ Lichenologist, 42: 499‒519.
- 24. Wieczorek A. 2006 ‒ Wstępne wyniki badań nad ekologią nadrzewnych gatunków porostów z rodzaju Opegrapha (Opegraphaceae, Ascomycota lichenisati) w Polsce [Preliminary results of the study on the ecology of epiphytic lichen species of the Opegrapha genus (Opegraphaceae, Ascomycota lichenisati) in Poland] (In: Człowiek i środowisko przyrodnicze Pomorza Zachodniego [Man and natural environment of Western Pomerania], Eds: Tarasiuk J., Kępczyński J.) – Print Group, Szczecin, pp. 221 (in Polish).
- 25. Wirth W. 1995 ‒ Die flechten Baden-Württembergs ‒ E. Ulmer Verl., Stuttgart, pp. 1006.
- 26. Zhang D.X., Hewitt G.M. 2003 ‒ Nuclear DNA analyses in genetic studies of populations: practice, problems and prospect ‒ Mol. Ecol. 12: 563‒584.
- 27. Zoller S., Lutzoni F., Scheidegger C. 1999 ‒ Genetic variation within and among populations of the threatened lichen Lobaria pulmonaria in Switzerland and implications for its conservation ‒ Mol. Ecol. 8: 2049–2059.
- 28. Yüzbasioglu E., Hahci M.G., Karabacak M., Aksoy A. 2011 ‒ RAPD and ISSR markers indicate high genetic variation within Lobathallia radiosa in Turkey ‒ Mycol. Prog. 10: 219‒228.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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