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Referencias del artículo

BODNAR, Josefina. Estudios evolutivos-del desarrollo en tallos fósiles de Corystospermaceae (Corystospermales, Spermatopsida). Rev. Mus. Argent. Cienc. Nat. [online]. 2012, vol.14, n.1, pp. 143-166. ISSN 1853-0400.

    1. Ade-Ademilua, O.E. 2006. Plastochron index- an indicator of plant strucure and function: a case study using Pisum sativum L. Tesis Doctoral, Faculty of Science, Rhodes University, 183 pp. Inédito. [ Links ]

    2. Alberch, P. 1980. Ontogenesis and morphological diversification. Amer. Zool. 20 (4): 653-667. [ Links ]

    3. Alberch, P., S. J. Gould, G. F. Oster & D. B. Wake. 1979. Size and shape in ontogeny and phylogeny. Paleobiology 5 (3): 296-317. [ Links ]

    4. Aloni, R. 1987. Differentiation of vascular tissues. Annu. Rev. Plant. Physiol. 38: 179-204. [ Links ]

    5. Allona, I., M. Quinn, E. Shoop, K. Swope, ,S. S. St Cyr, J. Carlis, J. Riedl, E. Retzel, M. M. Campbell & R. Sederoff. 1998. Analysis of xylem formation in pine by cDNA sequencing. Proc. Natl. Acad. Sci. USA 95 (16): 9693-9698. [ Links ]

    6. Archangelsky, S. & D.W. Brett. 1961. Studies on Triassic fossil plants from Argentina. 1. Rhexoxylon from the Ischigualasto Formation. Phil. Trans. R. Soc. London B 706: 1-19. [ Links ]

    7. Artabe, A. E. & M. Brea. 2003. A New Approach to Corystospermales based on petrified stems from the Triassic of Argentina. Alcheringa 27 (3): 209-229. [ Links ]

    8. Artabe, A. E. & M. Brea. 2007. Réplica al trabajo de Axsmith et al. (2007) publicado en Ameghiniana 44: 223-230: "The 'New Approach to Corystospermales' and the Antarctic Fossil Record: A Critique". Ameghiniana 44 (4): 739-746. [ Links ]

    9. Artabe, A. E. & A. B. Zamuner. 2007. Elchaxylon, a new corystosperm based on permineralized stems of the Late Triassic of Argentina. Alcheringa 31 (1): 85-96. [ Links ]

    10. Artabe, A. E., M. Brea & A. B. Zamuner. 1999. Rhexoxylon brunoi n. sp., a new Triassic Corystosperm from the Paramillo Uspallata, Mendoza, Argentina. Rev. Palaeobot. Palynol. 105 (1-2): 63-74. [ Links ]

    11. Baima, S., F. Nobili, G. Sessa, S. Lucchetti, I. Ruberti & G. Morelli. 1995. The expression of the Athb-8 homeobox gene is restricted to provascular cells in Arabidopsis thaliana. Development 121 (12): 4171- 4182. [ Links ]

    12. Baima, S., M. Tomassi, A. Matteucci, M. M. Altamura, I. Ruberti, & G. Morelli. 2000. Role of the ATHB-8 gene in xylem formation. En: Savidge, R., J. Barnett, & R. Napier (eds.), Cambium: The Biology of Wood Formation, Oxford, pp. 445-455, BIOS Scientific Publishers LTD. [ Links ]

    13. Baima, S., M. Possenti, A. Matteucci, E. Wisman, M. M. Altamura, I. Ruberti, & G. Morelli. 2001. The Arabidopsis ATHB-8 HD-ZIP protein acts as a differentiation-promoting transcription factor of the vascular meristems. Plant Physiol. 126 (2): 643-655. [ Links ]

    14. Bancroft, N. 1913. Rhexoxylon africanum, a new Medullosean stem. Trans. Linn. Soc. London, Ser. 2 (Bot.) 8: 87-103. [ Links ]

    15. Bateman, R. M. 1994. Evolutionary-developmental change in the growth architecture of fossil rhizomorphic lycopsids: scenarios constructed on cladistic foundations. Biol. Rev. 69: 527-597. [ Links ]

    16. Bateman, R. M. & W. A. DiMichele. 1994. Saltational evolution of form in vascular plants: a neoGold-schmidtian synthesis. En: Ingram, D. S. & A. Hudson (eds.), Shape and form in plants and fungi, pp. 63-100. The Linnean Society of London Academic Press, Londres. [ Links ]

    17. Bateman, R. M. & W. A. DiMichele. 2002. Generating and filtering major phenotypic novelties: neoGold-schmidtian saltation revisited. En: Cronk, Q. C. B., R. M. Bateman & J. A. Hawkins, (eds.), Developmental genetics and plant evolution, pp. 109-159, Taylor & Francis, Londres. [ Links ]

    18. Bateson, W. 1894. Materials for the study of variation: treated with especial regard to discontinuity in the origin of species. Macmillan, Londres, 598 pp. [ Links ]

    19. Baum, D. A. & M. J. Donoghue, 2002 Transference of function, heterotopy an the evolution of plant development. En: Cronk, Q. C. B., R. M. Bateman & J. A. Hawkins, (eds) Developmental genetics and plant evolution, pp. 52-69, Taylor & Francis, Londres. [ Links ]

    20. Becker, A., K. -U. Winter, B. Meyer, H. Saedler & G.Theißen, 2000. MADS-Box Gene Diversity in Seed Plants 300 Million Years Ago. Mol. Biol. Evol. 17:1425-1434. [ Links ]

    21. Bennett, M. J., A. Marchant, H. G. Green, S. T. May, S. P. Ward, P. A.Millner, A. R. Walker, B. Schulz & K. A. Feldmann. 1996. Arabidopsis AUX1 gene: a permease-like regulator of root gravitropism. Science 273 (5277): 948-950. [ Links ]

    22. Bodnar, J. 2008. Rhexoxylon cortaderitaense (Menéndez) comb. nov., a species of permineralized stems newly assigned to the Corystospermaceae, from the Triassic of Argentina. Alcheringa 32 (2): 171-190. [ Links ]

    23. Bodnar, J. 2010. La Paleoflora Triásica de la Formación Cortaderita en la quebrada homónima, cuenca de Barreal - Calingasta, provincia de San Juan, Argentina. Tesis Doctoral Nº 1083. Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, vii+283 pp. Inédito. [ Links ]

    23. Bodnar, J. & E. P. Coturel. en prensa. El origen y diversificación del crecimiento cambial atípico en plantas fósiles: procesos del desarrollo involucrados. Boletín de la Sociedad Argentina de Botánica 47 (1-2). [ Links ]

    24. Bonke, M., S. Thitamadee, A. P. Mähönen, M. -T. Hauser & Y. Helariutta. 2003. APL regulates vascular tissue identity in Arabidopsis. Nature 426 (6963): 181-186. [ Links ]

    25. Bonner, J. T. (ed.) 1982. Evolution and Development. Springer-Verlag, Berlín, 356 pp. [ Links ]

    26. Boyce, K. C. & A. H. Knoll. 2002. Evolution of developmental potential and the multiple independent origins of leaves in Paleozoic vascular plants. Paleobiology 28 (1): 70-100. [ Links ]

    27. Carlquist, S. 1962. A theory of paedomorphosis in dicotyledonous woods. Phytomorphology 12 (1): 30-45. [ Links ]

    28. Carlquist, S. 2007. Successive cambia revisited: ontogeny, histology, diversity, and functional significance. Jour. Torrey Bot. Soc. 134 (2): 301-332. [ Links ]

    29. Chaffey, N. 1999. Cambium: old challenges-new opportunities. Trees 13 (3): 138-151. [ Links ]

    30. Chrysler, M. A. 1937. Persistent juveniles among the cycads. Bot. Gaz. 98 (4): 696-710. [ Links ]

    31. Cope, E. D. 1887. The Origin of the Fittest. Macmillan, New York, 467 pp. [ Links ]

    32. Cronk, Q. C. B. 2001. Plant evolution and development in a post-genomic context. Nature Rev. Gen. 2: 607-619. [ Links ]

    33. Cumbie, B. G. 1963. The vascular cambium and xylem development in Hibiscus lasiocarpus. Amer. Jour. Bot. 50 (9): 944-951. [ Links ]

    34. de Beer, G. R. 1930. Embryology and evolution. Clarendon Press, Oxford, 116 pp. [ Links ]

    35. de Beer, G. R. 1940. Embryos and ancestors. Clarendon Press, Oxford, 128 pp. [ Links ]

    36. de Beer, G. R. 1951. Embryos and ancestors, revised edition. Clarendon Press, Oxford, 157 pp. [ Links ]

    37. de Beer, G. R. 1958. Embryos and ancestors, third edition. Clarendon Press, Oxford, 116 pp. [ Links ]

    38. de Renzi, M. 1995. Plantas: Un caso especial de evolución y morfogénesis. Coloquios de Paleontología, Editorial Complutense, Madrid 47: 201-218. [ Links ]

    39. Del Fueyo, G., E. Taylor, T. Taylor & N.R. Cúneo. 1995. Triassic wood from the Gordon Valley, Central Transantarctic Mountains, Antarctica. IAWA J. 16 (2): 111-126. [ Links ]

    40. Dengler, N. 2001. Regulation of Vascular Development. J. Plant Growth Regul. 20 (1): 1-13. [ Links ]

    41. Dengler, N. & J. Kang. 2001 Vascular patterning and leaf shape. Curr. Opin. Plant Biol. 4 (1): 50-56. [ Links ]

    42. DiMichele, W. A., J. I. Davis, & R. G. Olmstead. 1989. Origins of heterospory and the seed habit: the role of heterochrony. Taxon 3 (1): 1-11. [ Links ]

    43. Emery, J. F., S. K. Floyd, J. Alvarez, Y. Eshed, N. P. Hawker, A. Bizhaki, S. F. Baum, , & J. L. Bowman. 2003.  Radial patterning of Arabidopsis shoots by class IIIHD-ZIP and KANADI genes. Curr. Biol. 13 (20): 1768-1774. [ Links ]

    44. Erickson, R. O. & F. J. Michelini.1957. The plastochron index. Amer. J. Bot. 44 (4): 297-305. [ Links ]

    45. Fahn, A. 1990. Plant anatomy. Pergamon Press, Oxford, 588 pp. [ Links ]

    46. Fahn, A. & Y. Schori. 1967. The organization of the secondary conducting tissue in some species of the Chenopodiaceae. Phytomorphology 17 (1-4): 147-154. [ Links ]

    47. Fink, W. L. 1988. Phylogenetic analysis and the detection of ontogenetic patterns. En: McKinney, M. L., (ed.), Heterochrony in evolution, pp. 71-91, Plenum Publishing Corporation, New York. [ Links ]

    48. Floyd, S. K. & J. L. Bowman. 2007. The ancestral developmental tool kit of land plants. Int. J. Plant Sci. 168 (1): 1-35. [ Links ]

    49. Friedman, W. E., R. C. Moore & M. D. Purugganan. 2004. The evolution of plant development. Amer. J. Bot. 91 (10): 1726-1741. [ Links ]

    50. Galweiler, L., C. Guan, A. Müller, E. Wisman, K. Mendgen, A.Yephremov & K. Palme. 1998. Regulation of polar auxin transport by AtPIN1 in Arabidopsis vascular tissue. Science 282 (5397): 2226-2230. [ Links ]

    51. Garstang, W. 1928. The morphology of the Tunicata and its bearing on the phylogeny of the Chordata. Q. J. Microsc. Sci. 72: 51-54. [ Links ]

    52. Giard, A. 1887. La castration parasitaire et son influence sur les caractères extérieurs du sexe male chezles crustacés décapodes. Bull. Sci. Departement du Nord 18: 1-28. [ Links ]

    53. Gould, S. J. 1977. Ontogeny and phylogeny. MA: Belknap Press of Harvard University Press, Cambridge, 520 pp. [ Links ]

    54. Gould, S. J. 1992. Heterochrony. En: Fox, E. & Lloyd, E. (eds), Keywords in evolutionary biology, pp. 158- 167, MA: Harvard University Press. Cambridge. [ Links ]

    55. Guerrant, E. O. 1982. Neotenic evolution of Delphinium nudicaule (Ranunculaceae): a hummingbird-pollinated larkspur. Evolution 36 (4): 699-712. [ Links ]

    56. Guilfoyle, T. J., G.Hagen, T. Ulmasov, & J. Murfett,.1998a. How does auxin turn on genes? Plant Physiol. 118 (2): 341-347. [ Links ]

    57. Guilfoyle, T. J., T. Ulmasov, & G. Hagen. 1998b. The ARF family of transcription factors and their role in plant hormone-responsive transcription. Cell Mol. Life Sci. 54 (7): 619-627. [ Links ]

    58. Haeckel, E. 1866. Generelle Morphologie der Organismen, Vols. 1-2. Georg Reimer Verlag, Berlin, 1036 pp., 186 pl. [ Links ]

    59. Hall, B. K. 1992. Evolutionary developmental biology. Chapman and Hall, Londres, 275 pp. [ Links ]

    60. Hall, B. K 1999. Evolutionary developmental biology, 2nd edition Kluwer Academia Publishers, Dordrecht, 512 pp. [ Links ]

    61. Hardtke, C. S. & T. Berleth. 1998. The Arabidopsis gene MONOPTEROS encodes a transcription factor mediating embryo axis formation and vascular development. EMBO J. 17 (5): 1405-1411 [ Links ]

    62. Harrison, C. J., Q. C. B. Cronk & A. Hudson. 2002. An overview of seed plant leaf evolution. En: Cronk, Q. C. B., R. M. Bateman & J. A. Hawkins (eds.), Developmental genetics and plant evolution, pp. 395-403, Taylor & Francis, Londres. [ Links ]

    63. Henschel, K., R. Kofuji, M. Hasebe, H. Saedler, T. Münster & G. Theißen 2002. Two ancient classes of MIKC-type MADS-box genes are present in the moss Physcomitrella patens. Mol. Biol. Evol. 19 (6): 801-814. [ Links ]

    64. Herbst, R. & A. I. Lutz. 1988. Rhexoxylon brasiliensis n. sp. (Corystospermaceae, Pteridospermales) from the Upper Triassic Caturrita Formation, Brazil, with comments on biology and environment. Med. Rijks Geolo. Dienst 42: 21-28. [ Links ]

    65. Herbst, R. & A. I. Lutz. 1995. Tranquiloxylon petriellai nov. gen. et sp. (Pteridospermales) from the Upper Triassic Laguna Colorada Formation, Santa Cruz province, Argentina. Ameghiniana 32 (3): 231-236. [ Links ]

    66. Hilton, J. & R. M. Bateman. 2006. Pteridosperms are the backbone of seed-plant phylogeny. J. Torrey Bot. Soc. 133 (1): 119-168. [ Links ]

    67. Hull, A. K, R. Vij & J. L. Celenza. 2000. Arabidopsis cytochrome P450s that catalyze the first step of tryptophan-dependent indole-3-acetic acid biosynthesis. Proc. Natl. Acad. Sci. USA. 97(5): 2379-2384. [ Links ]

    68. Iltis, H. H. 1983. From Teosinte to Maize: The Catastrophic Sexual Transmutation. Science 222 (4626): 886-894. [ Links ]

    69. Inoue, T., M. Higuchi, Y. Hashimoto, M. Seki, M. Kobayashi, T. Kato, S. Tabata, K. Shinozaki & T. Kakimoto. 2001. Identification of CRE1 as a cytokinin receptor from Arabidopsis. Nature 409 (6823): 1060-1063 [ Links ]

    70. Jang, J. C., S. Fujioka, M. Tasaka, H. Seto, S. Takatsuto, A. Ishii, M. Aida, S.Yoshida, & J. Sheen. 2000. A critical role of sterols in embryonic patterning and meristem programming revealed by the fackel mutants of Arabidopsis thaliana. Genes Dev. 14 (12): 1485-1497 [ Links ]

    71. Kampny, C. & E. Harris. 1998. Heterochrony in plants. Annual Meeting of the Botanical Society of America (Baltimore), Abstract Index, http://www.ou.edu/cas/botany-micro/bsa-abst/title.shtml. [ Links ]

    72. Keibel, F. 1895. Normentafeln zur Entwickelungsgeschichte der Wirbeltiere. Anat. Anz. 11: 225-234. [ Links ]

    73. Kellogg, E. A. 2002. Are macroevolution and micro-evolution qualitatively different? Evidence from Poaceae and other families. En: Cronk, Q. C. B., R. M. Bateman & J. A. Hawkins, (eds.), Developmental genetics and plant evolution, pp. 70-84, Taylor & Francis, Londres. [ Links ]

    74. Kenrick, P. & P. R. Crane. 1997. The origin and early diversification of land plants. Smithsonian Institution Press, Washington DC, 441 pp. [ Links ]

    75. Kirchoff, B. K. & A. Fahn. 1984. Initiation and structure of the secondary vascular system in Phytolacca dioica L. (Phytolaccaceae). Can. J. Bot. 62 (12): 2580-2586. [ Links ]

    76. Klingenberg, C. P. 1998. Heterochrony and allometry: the analysis of evolutionary change in ontogeny. Biol. Rev. 73 (1): 79-23. [ Links ]

    77. Ko, J. -H., J. Yang, S. Oh, S. Park & K. -H. Han. 2004. Genomics of wood formation. En: Kumar, S. y Fladung, M. (eds.), Molecular genetics and breeding of forest trees, pp. 113-140, Haworth's Food Products Press, New York. [ Links ]

    78. Larson, P. 1994. The Vascular Cambium. Development and Structure. Springer Series in Wood Science, Berlín, 720 pp. [ Links ]

    79. Lev-Yadun S. & R. Aloni, 1990. Vascular differentiation in branch junctions of trees: circular patterns and functional significance. Trees Structure and Function 4 (1): 49-54. [ Links ]

    80. Li, P. & M. O. Johnston. 2000. Heterochrony in plant evolutionary studies through the twentieth century. Bot. Rev. 66 (1): 57-88. [ Links ]

    81. Lintilhac, P. M. & T. B. Vesecky. 1981. Mechanical-stress and cell-wall orientation in plants. 2. The application of controlled directional stress to growing plants with a discussion on the nature of the wound reaction. Amer. J. Bot. 68 (9): 1222-1230. [ Links ]

    82. Little, C. H. A. & R. P. Pharis. 1995. Hormonal control of radial and longitudinal growth in the tree stem. En: Gartner, B. L. (ed.), Plant stems: physiology and functional morphology, pp. 281-319, Academic Press, San Diego. [ Links ]

    83. Little, C. H. A. & B. Sundberg. 1991. Tracheid production in response to indole-3-acetic acid varies with internode age in Pinus sylvestris stems. Trees 5 (2): 101-106 [ Links ]

    84. Little, C. H. A., J. E. MacDonald, & O. Olsson. 2002. Involvement of indole-3-acetic acid in fascicular and interfascicular cambial growth and interfascicular extraxylary fiber differentiation in Arabidopsis thaliana inflorescence stems. Int. J. Plant Sci. 163 (4): 519-529. [ Links ]

    85. Lomax, T. L, G. K. Muday & P. H. Rubery. 1995. Auxin transport. En: Davies, P. J. (ed.), Plant Hormones: Physiology, Biochemistry and Molecular Biology, Ed 2, pp. 509-530, Kluwer Academic Publishers, Dordrecht. [ Links ]

    86. Mahonen, A. P., M. Bonke, L. Kauppinen, M. Riikonen, P. N. Benfey & Y. Helariutta. 2000. A novel two-component hybrid molecule regulates vascular morpho-genesis of the Arabidopsis root. Genes Dev. 14 (23): 2938-2943. [ Links ]

    87. McConnell, J. R., J. Emery, Y. Eshed, N. Bao, J. Bowman & M. K .Barton, 2001. Role of PHABULOSA and PHAVOLUTA in determining radial patterning in shoots. Nature 411 (6838): 709-713. [ Links ]

    88. McGinnis, W. 1994. A Century of Homeosis, a Decade of Homeoboxes. Genetics 137 (3): 607-611. [ Links ]

    89. McKinney, M. L. 1988. Heterochrony in evolution. Plenum, Nueva York, 348 pp. [ Links ]

    90. McKinney, M. L. 1999. Heterochrony: beyond words. Paleobiology 25 (2): 149-153. [ Links ]

    91. McNamara, K. J. 1982. Heterochrony and Phylogenetic Trends. Paleobiology 8 (2): 130-142. [ Links ]

    92. McNamara, K. J. 1986. A guide to the nomenclature of heterochrony. J. Paleont. 60 (1): 4-13. [ Links ]

    93. McNamara, K. J. 1995. Evolutionary change and heterochrony. John Wiley & Sons Press, Nueva York, 298 pp. [ Links ]

    94. McNamara, K. J. (ed.) 1997. Shapes of time: the evolution of growth and development. Johns Hopkins University Press, Baltimore, 306 pp. [ Links ]

    95. Meyen, S. V. 1987. Fundamentals of Palaeobotany. Chapman and Hall, Londres, 432 pp. [ Links ]

    96. Meyer-Berthaud, B., E. L. Taylor & T. N. Taylor. 1992. Reconstructing the Gondwana seed fern Dicroidium: evidence from the Triassic of Antarctica. Geobios 25 (3): 341-344. [ Links ]

    97. Meyer-Berthaud, B., E. L. Taylor & T. N. Taylor. 1993. Petrified stems bearing Dicroidium leaves from the Triassic of Antarctica. Palaeontology 36 (2): 337-356. [ Links ]

    98. Mosbrugger, V. 1995. Heterochrony and the evolution of land plants. En: McNamara, K. J. (ed.), Evolutionary change and heterochrony, pp. 93-105, John Wiley & Sons, Chichester. [ Links ]

    99. Motose, H., M. Sugiyama & H. Fukuda. 2004. A proteoglycan mediates inductive interaction during plant vascular development. Nature 429 (6994): 873-878. [ Links ]

    100. Mouradov, A., T. Glassick, B. Hamdorf, L. Murphy, B. Fowler, S. Marla & R. D. Teasdale. 1998. NEEDLY, a Pinus radiata ortholog of FLORICAULA/LEAFY genes, expressed in both reproductive and vegetative meristems. Proc. Natl. Acad. Sci. USA 95 (11): 6537-6542. [ Links ]

    101. Müller, F. 1864. Für Darwin. Wilhelm Engelmann, Leipzig, 91 pp. [ Links ]

    102. Münster, T., J. Pahnke, A, Di Rosa, J. T. Kim, W. Martin, H. Saedler, & G. Theißen. 1997. Floral homeotic genes were recruited from homologous MADS-box genes preexisting in the common ancestor of ferns and seed plants. Proc. Natl. Acad. Sci. USA 94 (6): 2415-2420. [ Links ]

    103. Niklas, K. J. 1994. Plant allometry: the scaling of form and process. University of Chicago Press, Chicago, 412 pp. [ Links ]

    104. Niklas, K. J. 1997. The Evolutionary Biology of Plants. University of Chicago Press, Chicago, 449 pp. [ Links ]

    105. Olson, M. E. 2007. Wood ontogeny as a model for studying heterochrony, with an example of paedomorphosis in Moringa (Moringaceae). Syst. Bio. Div. 5 (2): 145-158. [ Links ]

    106. Olson, M. E. & J. A. Rosell. 2006. Using heterochrony to detect modularity in the evolution of stem diversity in the plant family Moringaceae. Evolution 60 (4): 724-734. [ Links ]

    107. Oppel, A. 1891. Vergleichung des Entwicklungsgrades der Organe zu verschiedenen Entwicklungszeiten bei Wirbeltieren. Fischer, Jena, 181 pp. [ Links ]

    108. Otsuga, D., B. Deguzman, M. Prigge, G. Drews & S. Clark. 2001. REVOLUTA regulates meristem initiation at lateral positions. Plant J. 25 (3): 223-236. [ Links ]

    109. Palme, K. & L. Gälweiler. 1999 PIN-pointing the molecular basis of auxin transport. Curr. Opin. Plant Biol. 2 (5): 375-381. [ Links ]

    110. Petriella, B. T. 1978. La recostrucción de Dicroidium (Pteridospermopsida, Corystospermaceae). Obra Cent. Mus. La Plata 5: 107-110. [ Links ]

    111. Raff, R. A. 1996. The shape of life. University of Chicago Press, Chicago, 544 pp. [ Links ]

    112. Raff, E. C. & R. A. Raff. 2000. Dissociability, modularity, evolvability. Evol. Dev. 2 (5): 235-237. [ Links ]

    113. Raff, R. A. & G. A. Wray. 1989. Heterochrony: developmental mechanisms and evolutionary results. J. Evo. Biol. 2 (6): 409-434. [ Links ]

    114. Rajput, K. S. & K. S. Rao. 2003. Cambial variant and xylem structure in the stem of Cocculus hirsutus (Menispermaceae). IAWA J. 24 (4): 411-420. [ Links ]

    115. Ratcliffe, O. J., J. L. Riechmann & J. Z. Zhang 2000. INTERFASCICULAR FIBERLESS1 is the same gene as REVOLUTA. Plant Cell 12 (3): 315-317. [ Links ]

    116. Reilly, S. M., E. O. Wiley & D. J. Meinhardt. 1997. An integrative approach to heterochrony: the distinction between interspecific and intraspecific phenomena. Biol. J. Linn. Soc. 60 (1): 119-143. [ Links ]

    117. Remane, A. 1952. Die Grundlagen des natürlichen Systems, der vergleichenden Anatomie und der Phylogenetik. Akademische Verlagsgesellschaft, Leipzig, 400 pp. [ Links ]

    118. Retallack, G. J. & D. L. Dilcher. 1988. Reconstructions of selected seed ferns. Ann. Missouri Bot. Gard. 75 (3): 1010-1057. [ Links ]

    119. Ronse de Craene, L. P. R., P. S. Soltis & D. E. Soltis. 2003. Evolution of floral structures in basal angiosperms. Int. J. Plant Sci. 164 (5): S329-S363. [ Links ]

    120. Rothwell, G. W. 1982. New interpretations of the earliest conifers. Rev. Palaeobot. Palynol. 37 (1-2): 7-28. [ Links ]

    121. Rothwell, G. W. 1987. The role of development in plant phylogeny: a paleobotanical perspective. Rev. Palaeobot. Palynol. 50 (1-2): 97-114. [ Links ]

    122. Rothwell, G. W. & S. Lev-Yadun. 2005. Evidence of polar auxin flow in 375 million-year-old fossil wood. Amer. J. Bot. 92 (6): 903-906. [ Links ]

    123. Rothwell, G. W., H. Sanders, S. E. Wyatt & S. Lev-Yadun. 2008. A fossil record for growth regulation: the role of auxin in wood evolution. Ann. Miss. Bot. Garden 95 (1): 121-134. [ Links ]

    124. Russell, E. S. 1916. Form and function. John Murray Ltd, Londres, 383 pp. [ Links ]

    125. Sachs, T. 1981. The control of the patterned differentiation of vascular tissues. Adv. Bot. Res. 9: 152-262. [ Links ]

    126. Sachs, T. 2000. Integrating cellular and organismic aspects of vascular differentiation. Plant Cell Physiol. 41 (6): 649-656 [ Links ]

    127. Sanders, H., G. W. Rothwell, & S. Wyatt. 2007. Paleontological context for the developmental mechanisms of evolution. Int. J. Plant Sci. 168 (5): 719-728. [ Links ]

    128. Sattler, R. 1978. Introduction. En: Sattler, R. (ed.), Theoretical plant morphology, Acta Biotheoretica, Vol. 27, Supplement: Folia Biotheoretica No.7, pp. 5-20, Leiden University Press, The Hague. [ Links ]

    129. Savidge, R. A. 1996. Xylogenesis, genetic and environmental regulation—a review. IAWA J. 17 (1-4): 269-310. [ Links ]

    130. Savidge, R. A. 2000. Intrinsic Regulation of Cambial Growth. J. Plant Growth Reg. 20: 52-77 [ Links ]

    131. Savidge, R. A. & P. F. Wareing. 1981. Plant growth regulators and the differentiation of vascular elements. En: Barnett, J. R. (ed.), Xylem cell development, pp. 192-235. Tunbridge Wells, Castle House, Londres. [ Links ]

    132. Savidge, R. A., J. K. Heald & P. F. Wareing. 1982. Non-uniform distribution and seasonal variation of endogenous indol 3-ylacetic acid in the cambial region of Pinus contorta Dougl. Planta 155 (1):89-92. [ Links ]

    133. Savidge, R. A., P. V. Udagama-Randeniya, Y. Xu, V. Leinhos, & H. Förster. 1998. Coniferyl alcohol oxidase: a new enzyme spatiotemporally associated with lignifying tissues. En: Lewis, N. G. & S. Sarkanen (eds.). Lignin and lignan biosynthesis, ACS Symp. Ser. 697, pp. 109-130, American Chemistry Society, Washington DC. [ Links ]

    134. Sessa, G., C. Steindler, G. Morelli & I. Ruberti. 1998. The Arabidopsis Athb-8, -9 and -14 genes are members of a small gene family coding for highly related HD-ZIP proteins. Plant Mol. Biol. 38: 609-622. [ Links ]

    135. Sewertzoff, A. N. 1927. Über die Beziehung zwischen der Ontogenese und der Phylogenese der Tiere. Jen. Z. Naturwiss. 63: 51-180. [ Links ]

    136. Shepard, K. A. & M. D. Purugganan. 2002. The genetics of plant morphological evolution. Curr. Op. Plant Biol. 5 (1): 49-55. [ Links ]

    137. Smith, K. K. 2001. Heterochrony revisited: the evolution of developmental sequences. Biol. J. Linn. Soc. 73 (2): 169-186. [ Links ]

    138. Smith, K. K. 2002. Sequence heterochrony and the evolution of development. J. Morph. 252 (1): 82-97. [ Links ]

    140. Smith, K. K. 2003. Time's arrow: heterochrony and the evolution of development. Int. J. Dev. Biol. 47 (7-8): 613-621. [ Links ]

    141. Stein, W. E. 1993. Modeling the evolution of stelar architecture in vascular plants. Int. J. Plant Sci. 154 (2): 229-263. [ Links ]

    142. Steinmann, T., N. Geldner, M. Grebe, S. Mangold, C. L. Jackson, S. Paris, L. Galweiler, K. Palme & G. Jurgens. 1999. Coordinated polar localization of auxin efflux carrier PIN1 by GNOM ARF GEF. Science 286 (5438): 316-318. [ Links ]

    143. Stewart, W. R. & G. W. Rothwell, 1993. Paleobotany and the evolution of plants. Cambridge University Press, Cambridge, 521 pp. [ Links ]

    144. Sundberg, S., C. Uggla & H.Tuominen. 2000. Cambial growth and auxin gradients. En: Savidge, R. A., Barnett, J. R. & R. Napier (eds.), Cell and Molecular Biology of Wood Formation, pp. 169-188, BIOS Sci, Oxford. [ Links ]

    145. Svensson, M. 2000. Evolution of a Family of Plant Genes with Regulatory Functions in Development; Studies on Picea abies and Lycopodium annotinum. Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 573, Acta Universitatis Upsaliensis, Uppsala, 46 pp. Inédito. [ Links ]

    146. Takei, K., N. Ueda, ,K. Aoki, T. Kuromori, T. Hirayama, K. Shinozaki, T.Yamaya. & H. Sakakibara. 2004. AtIPT3 is a key determinant of nitratedependent cytokinin biosynthesis in Arabidopsis. Plant Cell Physiol. 45 (8): 1053-1062. [ Links ]

    147. Takhtajan, A. L. 1969. Flowering Plants. Origin and Dispersal. Trans, by C. Jeffrey, Oliver & Boyd, Edinburgo, 310 pp. [ Links ]

    148. Takhtajan, A. L. 1972. Patterns of ontogenetic alteration in the evolution of higher plants. Phytomorphology 22 (2): 164-171. [ Links ]

    149. Takhtajan, A. L. 1991. Evolutionary trends in flowering plants. Columbia University Press, Nueva York, 241 pp. [ Links ]

    150. Talbert, P. B., H. T. Adler, D. W. Parks & L.Comai. 1995. The REVOLUTA gene is necessary for apical meristem development and for limiting cell divisions in the leaves and stems of Arabidopsis thaliana. Development 121 (9): 2723-2735. [ Links ]

    151. Taylor, E. L. 1992. The occurrence of a Rhexoxylon-like stem in Antarctica. Cour. Forsch. Senck. 147: 183-189. [ Links ]

    152. Taylor, T. N. & E. L. Taylor. 1993. The Biology and Evolution of Fossil Plants. Prentice Hall, Englewood Cliffs, Nueva Jersey, 981 pp. [ Links ]

    153. Taylor, E. L, T. N. Taylor, H. Kerp & E.J. Hermsen. 2006. Mesozoic seed ferns: Old paradigms, new discoveries. J. Torrey Bot. Soc. 133 (1): 62-82. [ Links ]

    154. Taylor, T. N., E. L. Taylor & M. Krings. 2009. Paleobotany, The Biology and Evolution of Fossil Plants, Second Edition, Academic Press, Amsterdam, 1230 pp. [ Links ]

    155. Theologis, A. 1989. Auxin-regulated gene expression in plants. Biotechnology 12: 229-243. [ Links ]

    156. Thomas, H. H. 1933. On some Pteridospermous plants from the Mesozoic rocks of South Africa. Phil. Trans. Roy. Soc. London B 222: 193-254. [ Links ]

    157. Uggla, C., E. J. Mellerowicz, & B. Sundberg. 1998. Indole-3-acetic acid controls cambial growth in Scots pine by positional signaling. Plant Physiol. 117 (1): 113-122. [ Links ]

    158. Walker, L. & M. Estelle, 1998. Molecular mechanisms of auxin action. Curr. Opin. Plant. Biol. 1 (5): 434- 439. [ Links ]

    159. Weigel, D. & Ε. Μ. Meyerowitz. 1993. Activation of floral homeotic genes in Arabidopsis. Science 261 (5129): 1723-1726. [ Links ]

    160. Wiltshire, R. J. E., I. C. Murfet & J. B. Reid. 1994. The genetic control of heterochrony: Evidence from developmental mutants of Pisum sativum L. J. Evol. Biol. 7 (4): 447-65. [ Links ]

    161. Worsdell, W. C. 1901. Contributions to the Comparative Anatomy of the Cycadaceae. Trans. Linn. Soc. Lond., Ser. 2 (6): 109-121. [ Links ]

    162. Worsdell, W. C. 1906. The structure and origin of the Cycadaceae. Ann. Bot. 20 (78): 129-155. [ Links ]

    163. Ye, Z. -H. 2002. Vascular tissue differentiation and pattern formation in plants. Ann. Rev. Plant Biol. 53: 183-202. [ Links ]

    164. Zamski, E. & A. Azenkot. 1981. Sugar beet Vasculature. I. Cambial Development and the Three-Dimensional Structure of the Vascular System. Bot. Gaz. 142 (3): 334-343. [ Links ]

    165. Zamuner, A. B. 1991. Estudio de una tafoflora de la localidad tipo de la Formación Ischigualasto (Neotrías), Provincia de San Juan. Tesis Doctoral Nº 583, Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, 97 pp., 25 láms. Inédito. [ Links ]

    166. Zamuner, A. B., A. M. Zavattieri, A. E. Artabe & E. M. Morel. 2001. Paleobotánica. En: Artabe, A .E., E. M. Morel & A. B. Zamuner (eds.), El Sistema Triásico de Argentina. Fundación Museo de La Plata "Francisco Pascasio Moreno", pp. 143-184, La Plata. [ Links ]

    167. Zelditch, M. 2001. Beyond heterochrony: the evolution of development. Wiley-Liss, Nueva York, 392 pp. [ Links ]

    168. Zelditch, M. L. & W. M. Fink. 1996. Heterochrony and heterotopy: stability and innovation in the evolution of form. Paleobiology 22 (2): 241-254. [ Links ]

    169. Zhao, C., J. C. Craig, H. Earl Petzold, A. W. Dickerman & E. P. Beers. 2005. The Xylem and Phloem Transcriptomes from Secondary Tissues of the Arabidopsis Root-Hypocotyl. Plant Physiol. 138 (2): 803-818. [ Links ]

    170. Zhong, R. & Z. -H. Ye. 1999. IFL1, a gene regulating interfascicular fiber differentiation in Arabidopsis, encodes a homeodomain-leucine zipper protein. Plant Cell 11 (11): 2139-2152. [ Links ]

    171. Zhong, R. & Z. -H. Ye. 2001. Alteration of auxin polar transport in the Arabidopsis ifl1 mutants. Plant Physiol. 126 (2): 549-563. [ Links ]

    172. Zhong, R., J. J. Taylor & Z. -H. Ye. 1997. Disruption of interfascicular fiber differentiation in an Arabidopsis mutant. Plant Cell 9 (12): 2159-2170. [ Links ]

    173. Zimmermann, W. 1959. Die Phylogenie der Pflanzen 2nd edition. Fischer, Stuttgart, 777 pp. [ Links ]