American Journal of Botany, Vol 85, 209, Copyright © 1998 by Botanical Society of America, Inc.

ANATOMY AND MORPHOLOGY

Evolution of extreme xeromorphic characters in wood: a study of nine evolutionary lines in Cactaceae

JD Mauseth and BJ Plemons-Rodriguez

Vessels of xeric-adapted woods have been predicted to be narrower than those of mesic-adapted woods, to occur at higher densities, to occur in larger clusters, and to have a greater percentage of them in clusters. These predictions were tested by comparing wood structure of several evolutionary lines of xeric-adapted cacti to that of mesic-adapted Pereskia, which probably resembles the ancestral cacti. Although derived cacti occur in habitats with water stress ranging from mild (rain forests) to severe (open deserts with little vegetation other than cacti), as long as plants retain wood with an ordinary fibrous matrix, wood characters are remarkably uniform and not correlated with habitat aridity. However, in several evolutionary lines, novel wood types occur with characters that fulfill the predictions for xeric-adapted woods listed above. However, conductive area (fraction of wood transverse-sectional area occupied by conduits) and estimated specific conductance (conductance per square millimetre) are correlated with shoot height (the need for mechanical support from xylary fibers) rather than with habitat aridity: tall plants transport water through relatively few, wide vessels, permitting much of the wood volume to consist of fibers. Small plants with little wood use large numbers of narrow vessels rather than small numbers of wide ones, thereby achieving conductive safety.

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