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Annals of Botany 87: 485-493, 2001
© 2001 Annals of Botany Company

Vegetative Reproduction as Related to Biomechanics, Morphology and Anatomy of Four Cholla Cactus Species in the Sonoran Desert

Edward G. Bobich and Park S. Nobel+

Department of Organismic Biology, Ecology and Evolution, University of California, Los Angeles, California, 90095-1606, USA

Received: 9 July 2000 ; Returned for revision: 30 November 2000 . Accepted: 14 December 2000

Vegetative reproduction via the rooting of detached stem segments (joints) is well recognized for certain cylindropuntias (chollas). This mode of reproduction was characterized in the field for Opuntia acanthocarpa, O. bigelovii, O. echinocarpa and O. ramosissima in the northwestern Sonoran Desert and the southern Mojave Desert and related to the following: (1) morphology of terminal joints and their junctions; (2) the biomechanics and anatomy of terminal joint junctions; and (3) the rooting of detached terminal joints. Species that typically reproduce vegetatively were hypothesized to possess mechanically weak terminal joint junctions and terminal joints with high rooting abilities. In general, resistance to failure of terminal joint junctions depended on the diameter of the junction, with larger diameters providing greater resistance to mechanical failure. Junction strength also depended on the presence or absence of fibres and the amount of parenchyma cells per cross-sectional area. Rooting ability appeared to depend on joint diameter, which determines the amount of stored carbohydrates and water. Of the four species, only O. bigelovii showed evidence of vegetative reproduction in the field and was also the only species that had both relatively weak junctions and joints with a high rooting ability. Furthermore, joints of O. bigelovii had the most spines per tubercle area, which increases the chance that their spines will catch on a passing vertebrate, allowing for greater joint dispersal. Copyright 2001 Annals of Botany Company

Biomechanics, Cactaceae, Cholla, libriform fibres, Opuntia, vascular tracheids, vessel elements


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