A szárazföldi növények evolúciója és rendszertana Vezérfonal egy nem is olyan könnyű tárgy tanulásához Podani, János a szárazföldi növények evolúciója és rendszertana: Vezérfonal egy nem is olyan könnyű tárgy tanulásához
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Ballard, J. W. O.. „Combining data in phylogenetic analysis”. 334. Trends Ecol. Evol.. . . 1996. . 11. . Ballard, H. E. és Sytsma, K. J.. „Evolution and biogeography of the woody Hawaiian violets (Viola, Vio-laceae): Arctic origins, herbaceous ancestry and bird dispersal”. 1521-1532. Evolution. . . 2000. . 54. 5. Barbacka, M. és Bóka, K.. „The stomatal ontogeny and structure of the Liassic pteridosperm Sagenopteris (Caytoniales) from Hungary”. 149-157. Int. J. Plant Sci.. . . 2000. . 161. . Barker, N. P., Clark, L. G., és Davis, J. I.. „Phylogeny and subfamilial classification of the grasses (Poaceae)”. 373-457. Ann. Mo. Bot. Gard.. . . 2001. . 88. 3. Barthélemy, J. P. és McMorris, F. R.. „The median procedure for n-trees”. 329-334. J. Classif.. . . 1986. . 3. . Barthélemy, J. P. és Monjardet, B.. „The median procedure in cluster analysis and social choice theory”. 235-268. Math. Social Sci.. . . 1981. . 1. . Bateman, R. M.. „Nonfloral homoplasy and evolutionary scenarios in living and fossil land plants”. 91-130. Sanderson and Hufford. . . 1996. . . . Bateman, R. M., Crane, P. R., és DiMichele, W. A.. „Early evolution of land plants: Phylogeny, physiology, and ecology ofthe primary terrestrial radiation”. 263-292. Annu. Rev. Ecol. Syst.. . . 1998. . 29. . Beardsley, P. M. és Olmstead, R. G.. „Redefining Phrymaceae: The placement of Mimulus, tribe Mimuleae and Phryma”. 1093-1102. Amer. J. Bot.. . . 2002. . 89. . Beckert, S., Muhle, H., és Pruchner, D.. „The mitochondrial nad2 gene as a novel marker locus for phylogenetic analysis of early land plants: A comparative analysis in mosses”. 117-126. Mol. Phylogenet. Evol.. . . 2001. . 18. 1. [] Bell, P. R. és Hemsley, A. R.. Green Plants. Their Origin and Diversity. . Cambridge Univ. Press. Cambridge . 2000. . . Bennett, J. R. és Mathews, S.. „Phylogeny of the parasitic plant family Orobanchaceae inferred from phytochrome A”. 1039-1051. Amer. J. Bot.. . . 2006. . 93. . Birky, C. W. Jr.. „Uniparental inheritance of mitochondrial and chloroplast genes: Mechanisms and evolution”. 11331-11338. Proc. Natl. Acad. Sci. USA. . . 1995. . 92. . [] Borhidi, A.. A zárvatermők fejlődéstörténeti rendszertana. . Nemzeti Tankönyvkiadó. Budapest . 1995. . . Bowe , L. M., Coat, G., és Pamphilis, C. W. de. „Phylogeny of seed plants based on all three genomic compartments: Extant gymnosperms are monophyletic and Gnetales' closest relatives are conifers”. 4092-4097. P. Natl. Acad. Sci. USA. . . 2000. . 97. . [] Bower, F. O.. The Origin of a Land Flora. . Macmillan. London . 1908. . . [] Bower, F. O.. Primitive Land Plants. . Macmillan. London . 1935. . . Boyce, C. K., Hotton, C., Fogel, M., Cody, G. D., és Hazen, R. M.. „Comparative geochemistry suggests Prototaxites was a gigantic fungus [Abstract]”. 587. Geological Society of America Meeting, Abstracts with Programs. . . 2003. . 34. 7. Bremer, B., Bremer, K., és Heidari, N.. „Phylogenetics of asterids based on 3 coding and 3 non-coding chloroplast DNA markers and the utility of non-coding DNA at higher taxonomic levels”. 274-301. Mol. Phylogenet. Evol.. . . 2002. . 24. . Bremer, K.. „Summary of green plant phylogeny and classification”. 369-385. Cladistics. . . 1985. . 1. . Bremer, K.. „Combinable component consensus”. 369-372. Cladistics. . . 1990. . 6. . Bremer, K.. „Early Cretaceous lineages of monocot flowering plants”. 4707-4711. P. Natl. Acad. Sci. USA. . . 2000. . 97. . Bremer, K., Backlund, A., és Sennblad, B.. „A phylogenetic analysis of 100+ genera and 50+ families of euasterids based on morphological and molecular data with notes on possible higher level. morphological syn apomorphies”. 137-169. Picim Syst. Evol.. . . 2001. . 229. . Bremer, B., Bremer, K., és Heidari, N.. „Phylogenetics of asterids based on 3 coding and 3 non-coding chloroplast DNA markers and the utility of non-coding DNA at higher taxonomic levels”. 274-301. Mol. Phylogenet. Evol.. . . 2002. . 24. 2. Bremer, K., Chase, M. W., és Stevens, P. F.. „An ordinal classification for the families of flowering plants”. 531-553. Ann. Mo. Bot. Gard.. . . 1998. . 85. . Bremer, K., Humphries, C. J., Mishler, B. D., és Churchill, S. P.. „On cladistic relationships in green plants”. 339-349. Taxon. . . 1987. . 36. . Briggs, B. G.. „What is significant - The Wollemi pine or the southern rushes?”. 72-80. Ann. Mo. Bot. Gard.. . . 2000. . 87. . Brooks , D. R.. „Hennig's parasitological method: a proposed solution”. 229-249. Syst. Zool.. . . 1981. . 30. . Brown, W. M., Prager, E. M., Wang, A., és Wilson, A. C.. „Mitochondrial DNA sequences of primates: Tempo and mode of evolution”. 225-239. J. Mol. Evol.. . . 1982. . 18. . Brunsfeld, S. J., Soltis, P. E., Soltis, D. E., Gadek, P. A., és Quinn, C. J.. „Phylogenetic relationships among the genera of Taxodiaceae and Cupressaceae: evidence from rbcL sequences”. 253-262. Syst. Bot.. . . 1994. . 19. . Bryant, H. N.. „Comments on the phylogenetic definition of taxon names and conventions regarding the naming of crown clades”. 124-130. Syst. Biol.. . . 1994. . 43. . Caddick, L. R., Wilkin, P., és Rudall, P. J.. „Yams reclassified: a recircumscription of Dioscoreaceae and Dioscoreales”. 103-114. Taxon. . . 2002. . 51. . Camin, J. H. és Sokal, R. R.. „A method for deducing branching sequences in phylogeny”. 311-326. Evolution. . . 1965. . 19. . Cantino, P. D.. „Evidence for a polyphyletic origin ofthe Labiatae”. 361-379. Annals Missouri Bot. Gard.. . . 1992. . 79. . Cavalli-Sforza, L. L. és Edwards, A. W. F.. „Phylogenetic analysis: models and estimation procedures”. 550-570. Evolution. . . 1967. . 32. . Cavalli-Sforza, L. L., Piazza, A., Menozzi, P., és Mountain, J. L.. „Reconstruction of human evolution: bringing together genetic, archaeological and linguistic data”. 6002-6006. Proc. Natl. Acad. Sci. USA. . . 1988. . 85. . Chapman, R. L. és Waters, D. A.. „Green algae and land plants - An answer at last?”. 237-240. J. Phycol.. . . 2002. . 38. . Chase, M. W., Duval, M. R., Hills, H. G., Conran, J. G., és Cox, A. V.. „Molecular phylogenetics of Lilianae”. 109-137. Monocotyledons: Systematics and Evolution. Royal Botanic Garden. Kew . 1995. . . . Rudall, P. J.. Crib, P. J.. Cutler, D. F.. Chaw, S. M., Parkinson, C. L., és Cheng, Y. C.. „Seed plant phylogeny inferred from all three plant genomes: Monophyly of extant gymnosperms and origin of Gnetales from conifers”. 4086-4091. P. Natl. Acad. Sci. USA. . . 2000. . 97. . Chaw, S. M., Zharkikh, A., és Sung, H. M.. „Molecular phylogeny of extant gymnosperms and seed plant evolution: Analysis of nuclear 18S rRNA sequences”. 56-68. Mol. Biol. Evol.. . . 1997. . 14. . Cheng, Y. C., Nicolson, R. G., és Tripp, K.. „Phylogeny of Taxaceae and Cephalotaxaceae genera inferred from chloroplast matK gene and nuclear rDNA ITS region”. 353-365. Mol. Phylogenet. Evol.. . . 2000. . 14. . Colless, D. H. . „Congruence between morphometric and allozyme data for Menidia species: a reappraisal”. 288-299. Syst. Zool.. . . 1980. . 29. . Conran, J. G., Wood, C. M., és Martin, P. G.. „Generic relationships within and between the gymnosperm families Podocarpaceae and Phyllocladaceae based on an analysis of the chloroplast gene rbcL”. 715-724. Aust. J. Bot.. . . 2000. . 48. . Cracraft, J. és Helm-Bychowski, K.. „Parsimony and phylogenetic inference using DNA sequences: Some methodological strategies”. 184-220. Miyamoto and Cracraft. . . 1991. . . . Crane, P. R.. „The fossil history ofthe Gnetales”. 550-557 Suppl.. Int. J. Plant Sci.. . . 1996. . 157. . Craven, L. A.. „Malesian and Australian Tournefortia transferred to Heliotropium and notes on delimitation of Boraginaceae”. 375-381. Blumea. . . 2005. . 50. . Crepet, W. L.. „Botany - The abominable mystery”. 1653-1654. Science. . . 1998. . 282. 5394. Crepet, W. L.. „Progress in understanding angiosperm history, success, and relationships: Darwin's abominably "perplexing phenomenon"”. 12939-12941. P. Natl. Acad. Sci. USA. . . 2000. . 97. . Crisci, J. V. és Stuessy , T. F.. „Determining primitive character states for phylogenetic reconstruction”. 112-135. Syst. Bot.. . . 1980. . 5. . [] Cronquist, A.. An Integrated System of Classification of Flowering Plants. . Columbia Univ. Press. New York . 1981. . . Culley, T. M., Weller, S. G., és Sakai, A. K.. „Evolution of wind pollination in angiosperms”. 491-491. Trends Ecol. Evol.. . . 2002. . 17. 10. Dahlgren, R.. „General aspects of angiosperm evolution and macrosystematics”. 119-149. Nordic J. Bot.. . . 1983. . 3. . [] Dahlgren, R. M. T., Clifford, H. T., és Yeo, P. F.. The Families of the Monocotyledons: Structure, Evolution, and Taxonomy. . Springer. New York . 1985. . . [] Danert, S.. Urania Növényvilág. I-III. . Gondolat. Budapest . 1980. . . [] Darwin, C.. A fajok eredete a természetes kiválasztás útján vagy a létért való küzdelemben előnyhöz jutott fajtákfennmaradása. . Akadémiai Kiadó. Budapest . 1955. . . Davis, C. C., Latvis, M., Nickrent, D. L., Wurdack, K. J., és Baum, D. A.. „Floral gigantism in Rafflesiaceae”. . Science Express, published online . . . 2007. . 11. . Day, W. H. E.. „Computationally difficult parsimony problems in phylogenetic systematics”. 429-438. J. Theor. Biol.. . . 1983. . 103. . Day, W. H. E.. „Consensus methods as tools for data analysis”. 317-324. Classification and Related Methods of Data Analysis. North-Holland. Amsterdam . 1988. . . . Bock, H. H.. [] Dawkins, R.. A vak órásmester. . Akadémiai Kiadó - Mezőgazda Kiadó. Budapest . 1994. . . [] Dawkins, R.. Az ős meséje. Zarándoklat az élet hajnalához. . Partvonal. Budapest . 2006. . . De Franceschi, D. és Vozenin-Serra, C.. „Ginkgo biloba L. origin. Phylogenetical approach”. 583-592. Cr. Acad. Sci. III- Vie. . . 2000. . 323. . Degens, P. O.. „Hierarchical cluster methods as maximum likelihood estimators”. 249-253. . . . 1983. . . . Felsenstein, J.. dePamphilis, C. W., Young, N. D., és Wolfe, A. D.. „Evolution of plastid gene rps2 in a lineage of hemiparasitic and holoparasitic plants: Many losses of photosynthesis and complex patterns of rate vartation”. 7367-7372. P. Natl. Acad. Sci. USA. . . 1997. . 94. 14. De Queiroz, K. és Gauthier, J.. „Phylogeny as a central principle in taxonomy: phylogenetic definitions of taxon names”. 307-322. Syst. Zool.. . . 1990. . 39. . [] Diószegi, S. és Fazekas, M.. Magyar Füvészkönyv. . Nyomtatta Czáky György. Debreczenbenn . 1807. . . Donoghue, M. J. és Doyle, J. A.. „Seed plant phylogeny: Demise of the anthophyte hypothesis?”. R106-R109. Curr. Biol.. . . 2000. . 10. . Doolittle, W. F.. „Uprooting the tree of life”. 90-95. Sci. Am.. . . 2000. . 282. 2. Doyle, J. A.. „Seed plant phylogeny and the relationships of Gnetales”. S3-S39 Suppl. S.. Int. J. Plant. Sci.. . . 1996. . 157. . Doyle, J. A.. „Phylogeny ofvascular plants”. 567-599. Annu. Rev. Ecol. Syst.. . . 1998a. . 29. . Doyle, J. A.. „Molecules, morphology, fossils, and the relationship of angiosperms and Gnetales”. 448-462. Mol. Phylogenet. Evol.. . . 1998b. . 9. . Doyle, J. A.. „Paleobotany, relationships, and geographic history of Winteraceae”. 303-316. Ann. Mo. Bot. Gard.. . . 2000. . 87. . Doyle, J. A. és Endress, P. K.. „Morphological phylogenetic analysis of basal angiosperms: Comparison and combination with molecular data”. S121-S153 Suppl.. Int. J. Plant. Sci.. . . 2000. . 161. . Doyle, J. A., Donoghue, M. J., és Zimmer, E. A.. „Integration of morphological and ribosomal-RNA data on the origin of angiosperms”. 419-450. Ann. Mo. Bot. Gard.. . . 1994. . 81. . Duncan, T., Phillips, R. B., és Wagner, W. H.. „A comparison of branching diagrams derived by various phenetic and cladistic methods”. 264-293. Syst. Bot.. . . 1980. . 5. . [] Duncan, T. és Stuessy, T. F.. Cladistics: Perspectives on the Reconstruction of Evolutionary History. . Columbia University Press. New York . 1984. . . [] Duncan, T. és Stuessy, T. F.. Cladistic Theory and Methodology. . Van Nostrand Reinhold. New York . 1985. . . [] Dunn, G. és Everitt, B. S.. An Introduction to Mathematical Taxonomy. . Cambridge Univ. Press. Cambridge . 1982. . . Edwards, D. és Axe, L.. „Novel conducting tissues in Lower Devonian piants”. 383-399. Bot. J. Linn. Soc.. . . 2000. . 134. 1-2. Edwards, D., Duckett, J. G., és Richardson, J. B.. „Hepatic characters in the earliest land piants”. 635-636. Nature. . . 1995. . 374. 6523. Endress, P. K.. „Structure and function of female and bisexual organ complexes in Gnetales”. S113-S125 Suppl.. Int. J. Plant. Sci.. . . 1996. . 157. . Endress, P. K.. „Evoiution of floral symmetry”. 86-91. Curr. Opin. Plant Biol.. . . 2001. . 4. . Endress, P. K.. „Origins of flower morphology”. 105-115. J. Exp. Zool.. . . 2001a. . 291. . Endress, P. K.. „The flowers in extant basal angiosperms and inferences on ancestral flowers”. 1111-1140. Int. J. Plant Sci.. . . 2001b. . 162. 5. Endress, M. E. és Bruyns, P. V.. „A revised classification ofthe Apocynaceae s.l.”. 1-56. Bot. Rev.. . . 2000. . 66. . Endress, P. K. és Igersheim, A.. „Reproductive structures of the basal angiosperm Amborella trichopoda (Amborellaceae)”. 5237-5248 Suppl.. Int. J. Plant Sci.. . . 2000. . 161. . [] Engloner, A., Penksza, K., és Szerdahelyi, T.. A hajtásos növények ismerete. . Nemzeti Tankönyvkiadó. Budapest . 2001. . . [] Ereshefsky, M.. The Poverty of the Linnaean Hierarchy. . Cambridge Univ. Press. Cambridge . 2000. . . Estabrook, G. F.. „Cladistic methodology: a discussion of the theoretical basis for the induction of evolutionary history”. 427-456. Ann. Rev. Ecol. Syst.. . . 1972. . 3. . Estabrook, G. F., Johnson, C. S., Jr., és McMorris, F. R.. „A mathematical foundation for the analysis of character compatibility”. 181-187. Math. Biosci.. . . 1976. . 23. . Faith, D. P.. „Distance methods and the approximation of most-parsimonious trees”. 312-325. Syst. Zool.. . . 1985. . 34. . Farris, J. S.. „The meaning of relationship and taxonomic procedure”. 44-51. Syst. Zool.. . . 1967. . 16. . Farris, J. S.. „A successive approximations approach to character weighting”. 374-385. Syst. Zool.. . . 1969. . 18. . Farris, J. S.. „Methods for computing Wagner trees”. 83-92. Syst. Zool.. . . 1970. . 19. . Farris, J. S.. „Estimating phylogenetic trees from distance matrices”. 645-668. Am. Nat.. . . 1972. . 106. . Farris, J. S.. „On comparing the shapes oftaxonomic trees”. 50-54. Syst. Zool.. . . 1973. . 22. . Farris, J. S.. „Formal definitions of paraphyly and polyphyly”. 548-554. Syst. Zool.. . . 1974. . 23. . Farris, J. S.. „Phylogenetic analysis under Dollo's Law”. 77-88. Syst. Zool.. . . 1977. . 26. . Farris, J. S.. „The retention index and the rescaled consistency index”. 417-419. Cladistics. . . 1989. . 5. . Felsenstein, J.. „The number of evolutionary trees”. 27-33. Syst. Zool.. . . 1978. . 27. . Felsenstein, J.. „Evolutionary trees from DNA sequences: a maximum likelihood approach”. 368-376. Mol. Evol.. . . 1981. . 17. . [] Felsenstein, J.. Numerical Taxonomy. . Springer. Berlin . 1983. . . Felsenstein, J.. „Confidence limits on phylogenies: An approach using the bootstrap”. 783-791. Evolution. . . 1985. . 39. . [] Felsenstein, J.. PHYLIP. Phylogeny Inference Package. . University of Washington. Seattle . 1993. . . Ferguson, D. M.. „Phylogenetic analysis and relationships in Hydrophyllaceae based on ndhF sequence data”. 253-268. Syst. Bot.. . . 1998. . 23. . Fiala, K. L. és Sokal, R. R.. „Factors determining the accuracy of cladogram estimation: Evaluation using computer simulation”. 609-622. Evolution. . . 1985. . 39. . Finden , C. R. és Gordon, A. D.. „Obtaining common pruned trees”. 255-276. J. Classif.. . . 1985. . 2. . Fisher, D. C.. „Stratigraphic parsimony”. 124-129. Maddison and Maddison. . . 1992. . . . Fitch, W. M.. „Toward defining the course of evolution: Minimum change for a specific tree topology”. 406-416. Syst. Zool.. . . 1971. . 29. . Fitch, W. M.. „A non-sequential method for constructing a hierarchical classification”. 30-37. J. Mol. Evol.. . . 1982. . 18. . Fitch, W. M.. „Cladistics and other methods: problems, pitfalls and potentials”. 221-252. Duncan and Stuessy. . . 1984. . . . Fitch, W. M. és Margoliash, E.. „Construction of phylogenetic trees”. 279-284. Science. . . 1967. . 155. . Floyd, S. K. és Friedman, W. E.. „Developmental evolution of endosperm in basal angiosperms: evidence from Amborella (Amborellaceae), Nuphar (Nymphaeaceae), and Illicium (Illiciaceae)”. 153-169. Plant Syst. Evol.. . . 2001. . . 228. [] Forey, P. L., Humphries, C. J., Kitching, I. J. , Scotland, R. W., és Siebert , D. J.. Cladistics. A Practical Course in Systematics. . Clarendon. Oxford. . 1992. . . Friedl, T.. „Inferring taxonomic positions and testing genus level assignments in coccoid green lichen algae - a phylogenetic analysis of 18s ribosomal-rna sequences from Dictyochloropsis reticulata and from members of the genus Myrmecia (Chlorophyta, Trebouxiophyceae)”. 632-639. J. Phycol.. . . 1995. . 31. 4. Friedman, W. E.. „Developmental and evolutionary hypotheses for the origin of double fertilization and endosperm”. 559-567. Cr. Acad. Sci III-VIE. . . 2001. . . 324. Friedman, W. E. és Carmichael, J. S.. „Double fertilization in Gnetales: Implications for understanding reproductive diversification among seed plants”. S77-594 Suppl.. Int. J. Plant Sci.. . . 1996. . . 157. Friedman, W. E. és Floyd, S. K.. „Perspective: The origin of flowering plants and their reproductive biology - A tale oftwo phylogenies”. 217-231. Evolution. . . 2001. . 55. . Friis, E. M., Pedersen, K. R., és Crane, P. R.. „Fossil evidence of water lilies (Nymphaeales) in the Early Cretaceous”. 357-360. Nature. . . 2001. . 410. 6826. Frohlich, M. W.. „MADS about Gnetales”. 8811-8813. P. Natl. Acad. Sci. USA. . . 1999. . 96. 16. Frohlich, M. W. és Parker, D. S.. „The mostly male theory of flower evolutionary origins: from genes to fossils”. 155-170. Syst. Bot.. . . 2000. . 25. . [] Funk, V. A. és Brooks, D. R.. Advances in Cladistics: Proceedings of the first meeting of the Willi Hennig Society. . New York Botanical Garden. Bronx, New York . 1981. . . Gadek, P. A., Alpers, D. L., és Heslewood, M. M.. „Relationships within Cupressaceae sensu lato: A combined morphological and molecular approach”. 1044-1057. Am. J. Bot.. . . 2000. . 87. . [] Galácz, A.. Élő kövületek. . Gondolat. Budapest . 1983. . . Gandolfo , M. A., Nixon, K. C., és Crepet, W. L.. „Oldest known fossils of monocotyledons”. 532-533. Nature. . . 1998. . 394. 6693. Garbary, D. J., Renzaglia, K. S., és Duckett, J. G.. „The phylogeny ofland plants: a cladistic analysis based on male gametogenesis”. 237-269. Plant Syst. Evol.. . . 1993. . . 188. [] Gaussen, H., Leroy, J.-F., és Ozenda, P.. Précis de Botanique. 2.. Végétaux Supérieurs. . Masson. Paris . 1982. . . Gingerich, P. D.. „Paleontology, phylogeny and classification: An example from the mammalian fossil record”. 451-464. Syst. Zool.. . . 1979. . 28. . Goffinet, B., Cox, C. J., és Shaw, A. J. . „The bryophyta (mosses): Systematic and evolutionary inferences from an rps4 gene (cpDNA) phylogeny”. 191-208. Ann. Bot. London. . . 2001. . 87. 2. Goodman, M.. „Decoding the pattern of protein evolution”. 105-164. Prog. Biophys. Mol. Biol.. . . 1981. . 37. . Gosliner, T. M. és Ghiselin, M. T.. „Parallel evolution in opistobranch gastropods and its implications for phylogenetic methodology”. 255-274. Syst. Zool.. . . 1984. . 33. . [] Gould , S. J.. A panda hüvelykujja. . Európa. Budapest . 1990. . . Goremykin, V., Bobrova, V., és Pahnke, J.. „Noncoding sequences from the slowly evolving chloroplast inverted repeat in addition to rbcL data do not support Gnetalean affinities of angiosperms”. 383-396. . Mol. Biol. Evol.. . . 1996. . 13. . Gottschling, M., Hilger, H. H., és Wolf, M.. „Secondary structure of the ITS1 transcript and its application in a reconstruction ofthe phylogeny of Boraginales”. 629-636. Plant Biology. . . 2001. . 3. 6. Graham, L. K. E. és Wilcox, L. W.. „The origin of alternation of generations in land plants: a focus on matrotrophy and hexose transport”. 757-766. Philos. T Roy. Soc. B. . . 2000. . 355. 1398. Graham, R. L. és Foulds, L. R.. „Unlikelihood that minimal phylogenies for a realistic biological study can be constructed in reasonable computational time”. 133-142. Math. Biosci.. . . 1982. . 60. . Graham, S. A., Hall, J., Sytsma, K., és Shi, S. H.. „Phylogenetic analysis of the Lythraceae based on four gene regions and morphology”. 995-1017. Internat. J. Plant Sci.. . . 2005. . 166. . Graham, S. W. és Olmstead, R. G.. „Utility of 17 chloroplast genes for inferring the phylogeny of the basal angiosperms”. 1712-1730. Am. J. Bot.. . . 2000. . 87. . Grayer , R. J., Chase, M. W., és Simmonds, M. S. J.. „A comparison between chemical and molecular characters for the determination of phylogenetic relationships among plant families: An appreciation of Hegnauer's "Chemotaxonomie der Pflanzen"”. 369-393. Biochem. Syst. Ecol.. . . 1999. . 27. . Grayum, M. H.. „A summary of evidence and arguments supporting the removal of Acorus from Araceae”. 723-729. Taxon. . . 1987. . 36. . [] Greuter, W.. International code of botanical nomenclature. . Koeltz Scientific Books. Königstein, Germany . 2000. . . Gugerli, F., Sperisen, C., és Buchler, U.. „The evolutionary split of Pinaceae from other conifers: Evidence from an intron loss and a multigene phylogeny”. 167-175. Mol. Phylogenet. Evol.. . . 2001. . 21. . Hansen , A., Hansmann, S., és Samigullin, T.. „Gnetum and the angiosperms: Molecular evidence that their shared morphological characters are convergent, rather than homologous”. 1006-1009. Mol. Biol. Evol.. . . 1999. . 16. . Harrington, M. G., Edwards, K. J., Johnson, S. A., Chase, M. W., és Gadek, P. A.. „Phylogenetic inference in Sapindaceae sensu lato using plastid matK and rbcL DNA sequences”. 366-382. Syst. Bot.. . . 2005. . 30. . [] Harvey, P. H. és Pagel, M. D.. The Comparative Method in Evolutionary Biology. . Oxford Univ. Press. Oxford . 1990. . . Haston, E., Richardson, J. E., Stevens, P. F., Chase, M. W., és Harris, D. J.. „A linear sequence of Angiosperm Phylogeny Group II families”. 7-12. Taxon. . . 2007. . 56. . Hendy, M. D. és Penny, D.. „Branch and bound algorithms to determine minimal evolutionary trees”. 277-290. Math. Biosci.. . . 1982. . 59. . Hendy, M. D., Little, C. H. C., és Penny, D.. „Comparing trees with pendant vertices labelled”. 1054-1065. SIAM J. Appl. Math.. . . 1984. . 44. . Yüklə 2,58 Mb. Dostları ilə paylaş:
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