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References

  • Alves ES, Angyalossy-Alfonso V. 2000. Ecological trends in the wood anatomy of some Brazilian species. 1. Growth rings and vessels. IAWA Journal 21: 330.
  • Baas P. 1976. Some functional and adaptive aspects of vessel member morphology. In: Baas P, Bolton AJ, Catling DM, eds. Wood structure in biological and technological research. Leiden botanical series 3. Leiden, Germany: Leiden University Press, 157181.
  • Baas P, Werker E, Fahn A. 1983. Some ecological trends in vessel characters. IAWA Bulletin 4: 141159.
  • Bailey IW. 1910. Reversionary characters of traumatic oak woods. Botanical Gazette 50: 374380.
  • Bailey IW, Tupper WW. 1918. Size variation in tracheary cells: I. A comparison between the secondary xylems of vascular cryptogams, gymnosperms and angiosperms. Proceedings of the American Academy of Arts and Sciences, USA 54: 147204.
  • Blomberg SP, Garland T Jr. 2002. Tempo and mode in evolution: phylogenetic inertia, adaptation and comparative methods. Journal of Evolutionary Biology 15: 899910.
  • Bryant H. 1995. The threefold parallelism of Agassiz and Haeckel, and polarity determination in phylogenetic systematics. Biology and Philosophy 10: 197217.
  • Carlquist S. 1966. Wood anatomy of Compositae: a summary, with comments on factors controlling wood evolution. Aliso 6: 2544.
  • Carlquist S. 1975. Ecological strategies of xylem evolution. Berkeley, CA, USA: University of California Press.
  • Carlquist S. 1980. Further concepts in ecological wood anatomy, with comments on recent work in wood anatomy and evolution. Aliso 9: 499553.
  • Carlquist S. 1985. Vasicentric tracheids as a drought survival mechanism in the woody flora of southern California and similar regions: review of vasicentric tracheids. Aliso 11: 3768.
  • Carlquist S. 1996. Wood anatomy of primitive angiosperms: new perspectives and syntheses. In: Taylor SW, Hickey LJ, eds. Flowering plant origin, evolution, and phylogeny. New York, NY, USA: Chapman and Hall, 6890.
  • Carlquist S. 2001. Comparative wood anatomy, 2nd edn. Berlin, Germany: Springer Verlag.
  • Christman MA, Sperry JS. 2010. Single-vessel flow measurements indicate scalariform perforation plates confer higher flow resistance than previously estimated. Plant, Cell & Environment 33: 431443.
  • Crisp MD, Cook LG. 2012. Phylogenetic niche conservatism: what are the underlying evolutionary and ecological causes? New Phytologist 196: 681694.
  • Crivellaro A, McCulloh K, Jones A, Lachenbruch B. 2012. Anatomy and mechanical and hydraulic needs of woody climbers contrasted with subshrubs on the island of Cyprus. IAWA Journal 33: 355373.
  • De Beer G. 1930. Embryology and evolution. Oxford, UK: Clarendon.
  • Eldredge N, Cracraft J. 1980. Phylogenetic patterns and the evolutionary process. New York, NY, USA: Columbia University Press.
  • Falcon-Lang H, Wheeler E, Baas P, Herendeen PS. 2012. A diverse charcoalified assemblage of Cretaceous (Santonian) angiosperm woods from Upatoi Creek, Georgia, USA. Part 1: wood types with scalariform perforation plates. Review of Palaeobotany and Palynology 184: 4973.
  • Feild TS, Brodribb TJ. 2013. Hydraulic tuning of vein cell microstructure in the evolution of angiosperm venation networks. New Phytologist 199: 720726.
  • Feild TS, Wilson JP. 2012. Evolutionary voyage of angiosperm vessel structure-function and its significance for early angiosperm success. International Journal of Plant Sciences 173: 596609.
  • Frost FH. 1930. Specialization in secondary xylem of dicotyledons II. Evolution of end wall of vessel segment. Botanical Gazette 90: 198212.
  • Gould SJ. 2002. The structure of evolutionary theory. Cambridge, MA, USA: Belknap Press of Harvard University Press.
  • Kitching IJ, Forey PL, Humphries CJ, Williams DM. 1998. Cladistics, 2nd edn. Oxford, UK: Oxford University Press.
  • Lens F, Luteyn JL, Smets E, Jansen S. 2004. Ecological trends in wood anatomy of Vaccinioideae (Ericaceae s.l.). Flora 199: 309319.
  • Lovejoy AO. 1936. The great chain of being. Cambridge, MA, USA: Harvard University Press.
  • Mabee PM. 1989. An empirical rejection of the ontogenetic polarity criterion. Cladistics 5: 409416.
  • McDougall WB, Penfound WT. 1928. Ecological anatomy of some deciduous forest plants. Ecology 9: 349353.
  • Nardini A, Jansen S. 2013. Hydraulic engineering of the angiosperm leaf: do the Baileyan trends in perforation plate evolution account for the origin of high vein density? New Phytologist 199: 627629.
  • O'Hara RJ. 1992. Telling the tree: narrative representation and the study of evolutionary history. Biology and Philosophy 7: 135160.
  • Olson ME. 2005. Typology, homology, and homoplasy in comparative wood anatomy. IAWA Journal 26: 507523.
  • Olson ME. 2012a. Linear trends in botanical systematics and the major trends of xylem evolution. Botanical Review 78: 154183.
  • Olson ME. 2012b. The developmental renaissance in adaptationism. Trends in Ecology & Evolution 27: 278287.
  • Rosell JA, Olson ME, Aguirre-Hernández R, Carlquist S. 2007. Logistic regression in comparative wood anatomy: tracheid types, wood anatomical terminology, and new inferences from the Carlquist and Hoekman southern Californian data set. Botanical Journal of the Linnean Society 154: 331351.
  • Russell ES. 1916. Form and function. London, UK: John Murray.
  • Shanahan T. 2004. The evolution of Darwinism. Cambridge, UK: Cambridge University Press.
  • Sperry JS. 2003. Evolution of water transport and xylem structure. International Journal of Plant Sciences 164: S115S127.
  • Sperry JS, Hacke UG, Feild TS, Sano Y, Sikkema EH. 2007. Hydraulic consequences of vessel evolution in angiosperms. International Journal of Plant Sciences 168: 11271139.
  • Stevens PF 2001 onwards. Angiosperm phylogeny website, version 12. [WWW document] URL http://www.mobot.org/MOBOT/research/APweb/ [accessed 3 September 2013].
  • Takahashi K, Suzuki M. 2003. Dicotyledonous fossil wood flora and early evolution of wood characters in the Cretaceous of Hokkaido, Japan. IAWA Journal 24: 269309.
  • Webber IE. 1936. The woods of sclerophyllus and desert shrubs of California. American Journal of Botany 23: 181188.
  • Wheeler EA, Baas P. 1991. A survey of the fossil record for dicotyledonous wood and its significance for evolutionary and ecological wood anatomy. IAWA Bulletin n.s. 12: 271332.
  • Wheeler EA, Lehman TM. 2009. New late Cretaceous and Paleocene dicot woods of Big Bend National Park, Texas and a review of Cretaceous wood characteristics. IAWA Journal 30: 293318.
  • Zimmermann MH. 1983. Xylem structure and the ascent of sap. Berlin & Heidelberg, Germany: Springer.