Molecular divergence in the Galapagos Islands—Baja California species pair,Gossypium klotzschianum andG. davidsonii (Malvaceae) (original) (raw)
References
Clayton, J. W., Tretiak, D. N., 1972: Amine-citrate buffers for pH control in starch gel electrophoresis. — J. Fish. Res. Board Canada29: 1169–1172. Google Scholar
Cox, A., 1983: Ages of the Galapagos Islands. — InBowman, R. I., Berson, M., Leviton, A. E., (Eds.): Patterns of evolution in Galapagos organisms, pp. 11–23. — San Francisco: Amer. Ass. Adv. Science. Google Scholar
Crawford, D. J., 1983: Phylogenetic and systematic inferences from electrophoretic studies. — InTanksley, S. D., Orton, T. J., (Eds.): Isozymes in plant genetics and breeding, A, pp. 257–287. — Amsterdam: Elsevier. Google Scholar
, 1985: Electrophoretic data and plant speciation. — Syst. Bot.10: 405–416. Google Scholar
, 1982: Allozyme variation in_Coreopsis nuecensoides_ and_C. nuecensis_ (Compositae), a progenitor-derivative species pair. — Evolution36: 379–386. Google Scholar
, 1987: Allozyme divergence and the evolution of_Dendroseris_ (Compositae: Lactuceae) on the Juan Fernandez Islands. — Syst. Bot.12: 435–443. Google Scholar
, 1985: Allozyme variation within and between_Lasthenia minor_ and its derivative species,L. maritima (Asteraceae). — Amer. J. Bot.72: 1177–1184. Google Scholar
Doebley, J., Renfroe, W., Blanton, A., 1987: Restriction site variation in the_Zea_ chloroplast genome. — Genetics117: 139–147. Google Scholar
Doyle, J. J., Doyle, J. L., 1987: A rapid DNA isolation procedure for small quantities of fresh leaf tissue. — Phytochem. Bull.19: 11–15. Google Scholar
Feinberg, A. P., Vogelstein, B., 1983: A technique for radiolabelling DNA restriction endonuclease fragments to high specific activity. — Anal. Biochem.132: 6–13. Google Scholar
, 1984: Addendum: “a technique for radiolabelling DNA restriction endonuclease fragments to high specific activity”. — Anal. Biochem.137: 266–267. Google Scholar
Fryxell, P. A., 1979: The natural history of the cotton tribe. — College Station: Texas A & M University Press. Google Scholar
, 1987: New or noteworthy species of flowering plants from the Sierra Madre del Sur of Guerrero and Michoacan, Mexico. — Aliso11: 539–561. Google Scholar
Galau, G. A., Wilkins, T. A., 1989: Alloplasmic male sterility in AD allotetraploid_Gossypium hirsutum_ upon replacement of its resident A cytoplasm with that of D species_G. harknessii_. — Theor. Appl. Genet.78: 23–30. Google Scholar
Gottlieb, L. D., 1973: Genetic differentiation, sympatric speciation and the origin of a diploid species of_Stephanomeria_. — Amer. J. Bot.60: 545–553. Google Scholar
, 1974: Genetic confirmation of the origin of_Clarkia lingulata_. — Evolution28: 244–250. Google Scholar
, 1981: Electrophoretic evidence and plant populations. — Prog. Phytochem.7: 1–46. Google Scholar
, 1985: Morphological and electrophoretic divergence between_Layia discoidea_ and_L. glandulosa_. — Syst. Bot.10: 484–495. Google Scholar
Helenurm, K., Ganders, F. R., 1985: Adaptive radiation and genetic differentiation in Hawaiian_Bidens_. — Evolution39: 753–765. Google Scholar
Hutchinson, J. B., Silow, R. A., Stephens, S. G., 1947: The evolution of_Gossypium_. — London: Oxford University Press. Google Scholar
Ledig, F. T., Conkle, M. T., 1983: Gene diversity and genetic structure in a narrow endemic, torrey pine (Pinus torreyana Parry exCarr.). — Evolution37: 79–85. Google Scholar
Lee, J. A., 1981: Genetics of D3 complementary lethality in_Gossypium hirsutum_ and_G. barbadense_. — J. Heredity72: 299–300. Google Scholar
, 1986: An early example of a viable hybrid from a cross of_Gossypium barbadense_ L. and_G. davidsonii_ Kell. — J. Heredity77: 56–57. Google Scholar
Loveless, M. D., Hamrick, J. L., 1984: Ecological determinants of genetic structure in plant populations. — Ann. Rev. Ecol. Syst.15: 65–95. Google Scholar
Lowrey, T., Crawford, D. J., 1985: Allozyme divergence and evolution in_Tetramolopium_ (Compositae: Astereae) on the Hawaiian Islands. — Syst. Bot.10: 64–72. Google Scholar
Nei, M., 1978: Estimation of average heterozygosity and genetic distance from a small number of individuals. — Genetics89: 583–590. Google Scholar
, 1987: Molecular evolutionary genetics. — New York: Columbia University Press. Google Scholar
, 1979: Mathematical model for studying genetic variation in terms of restriction endonucleases. — Proc. Natl. Acad. Sci. U.S.A.76: 5269–5273. Google Scholar
Palmer, J. D., 1985: Evolution of chloroplast and mitochondrial DNA in plants and algae. — InMacIntyre, R. J., (Ed.): Molecular evolutionary genetics, pp. 131–240. — New York: Plenum Press. Google Scholar
, 1987: Chloroplast DNA evolution and biosystematic uses of chloroplast DNA variation. — Amer. Naturalist130: S 6-S 29. Google Scholar
, 1986: Conservation of chloroplast genome structure among vascular plants. — Curr. Genetic.10: 823–833. Google Scholar
, 1982: Chloroplast DNA evolution and phylogenetic relationships in_Lycopersicon_. — Proc. Natl. Acad. Sci. U.S.A.79: 5006–5010. Google Scholar
, 1985: Chloroplast DNA variation and evolution in_Pisum:_ patterns of change and phylogenetic analysis. — Genetics109: 195–213. Google Scholar
Phillips, L. L., 1966: The cytology and phylogenetics of the diploid species of_Gossypium_. — Amer. J. Bot.53: 328–335. Google Scholar
, 1977: Interspecific incompatibility in_Gossypium._ 4. Temperature conditioned lethality in hybrids of_G. klotzschianum_. — Amer. J. Bot.64: 914–915. Google Scholar
, 1967: Variation in the diploid_Gossypium_ species of Baja California. — Madroño19: 137–147. Google Scholar
Porter, D. M., 1983: Vascular plants of the Galapagos: origins and dispersal. — InBowman, R. I., Berson, M., Leviton, A. E., (Eds.): Patterns of evolution in Galapagos organisms, pp. 33–96. — San Francisco: Amer. Ass. Adv. Science. Google Scholar
, 1984a: Relationships of the Galapagos flora. — Biol. J. Linn. Soc.21: 243–251. Google Scholar
, 1984b: Endemism and evolution in terrestrial plants. — InPerry, R., (Ed.): Key environments, Galapagos, pp. 85–99. — Oxford: Pergamon Press. Google Scholar
Poulik, M. D., 1957: Starch gel electrophoresis in a discontinuous system of buffers. — Nature180: 1477–1479. Google Scholar
Prager, E. M., Fowler, D. P., Wilson, A. C., 1976: Rates of evolution in conifers (Pinaceae). — Evolution30: 637–649. Google Scholar
Ranker, T. A., Schnabel, A. F., 1986: Allozymic and morphological evidence for a progenitor-derivative species pair in_Camassia_ (Liliaceae). — Syst. Bot.11: 433–445. Google Scholar
Rick, C. M., 1983: Genetic variation and evolution of Galapagos tomatoes. — InBowman, R. I., Berson, M., Leviton, A. E., (Eds.): Patterns of evolution in Galapagos organisms, pp. 97–106. — San Francisco: Amer. Ass. Adv. Science. Google Scholar
, 1975: Allozymes of Galapagos tomatoes: polymorphism, geographic distribution, and affinities. — Evolution29: 443–457. Google Scholar
Schaffer, H. E., Sederoff, R. R., 1981: Improved estimation of DNA fragment lengths from agarose gels. — Anal. Biochem.115: 113–122. Google Scholar
Simkin, T., 1984: Geology of Galapagos. — Biol. J. Linn. Soc.21: 61–75. Google Scholar
Stephens, S. G., 1949: The cytogenetics of speciation in_Gossypium._ 1. Selective elimination of the donor parent genotype in interspecific backcrosses. — Genetics34: 627–637. Google Scholar
, 1950: The internal mechanism of speciation in_Gossypium_. — Bot. Rev.16: 115–149. Google Scholar
, 1958: Salt water tolerance of seeds of_Gossypium_ species as a possible factor in seed dispersal. — Amer. Naturalist92: 83–92. Google Scholar
, 1966: Problems on the origin, dispersal, and establishment of the Galapagos cottons. — InBowman, R. I., (Ed.): The Galapagos, pp. 201–208. — Berkeley: University of California Press. Google Scholar
Stuessy, T. F., Foland, K. A., Sutter, J. F., Sanders, R. W., Silva, O., 1984: Botanical and geological significance of potassium-argon dates from the Juan Fernandez Islands. — Science225: 49–51. Google Scholar
Suiter, K. A., 1988: Genetics of allozyme variation in_Gossypium arboreum_ L. and_Gossypium herbaceum_ L. (Malvaceae). — Theor. Appl. Genet.75: 259–271. Google Scholar
Sytsma, K. J., Gottlieb, L. D., 1986: Chloroplast DNA evolution and phylogenetic relationships in_Clarkia_ sect.Peripetasma (Onagraceae). — Evolution40: 1248–1261. Google Scholar
Weeden, N. F., Wendel, J. F., 1989: Genetics of plant isozymes. — InSoltis, D. E., Soltis, P. S., (Eds.): Isozymes in plant biology, pp. 46–72. — Portland, Oregon: Dioscorides Press. Google Scholar
Wendel, J. F., Weeden, N. F., 1989: Visualization and interpretation of plant isozymes. — InSoltis, D. E., Soltis, P. S., (Eds.): Isozymes in plant biology, pp. 5–45. — Portland, Oregon: Dioscorides press. Google Scholar
Zurawski, G., Clegg, M. T., 1987: Evolution of higher-plant chloroplast DNA-encoded genes: implications for structure-function and phylogenetic studies. — Ann. Rev. Pl. Physiol.38: 391–419. Google Scholar
, 1984: The nature of nucleotide sequence divergence between barley and maize chloroplast DNA. — Genetics106: 735–749. Google Scholar