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Liana Ecology Project
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ABSTRACT:
Stem vascular architecture in the rattan palm Calamus (Arecaceae-Calamoideae-Calaminae)
Journal Article
Tomlinson P; Fisher J; Spangler R
2001
American Journal of botany
88
797-809
Climbing stems in the rattan genus Calamus can reach lengths of well over 100 m are long-lived and yet their vascular tissue is entirely primary. Such a combination suggests that stem vasculature is efficient and resistant to hydraulic disruption. By means of an optical shuttle and video recording of sequential images we analyzed the stem of a cultivated species. The stem has vascular features that are unusual compared with those in arborescent palms and seemingly inefficient in terms of long-distance water transport. Axial bundles are discontinuous basally because leaf traces when followed downwards always end blindly below. Furthermore there is no regular distal branching of each leaf trace at its level of departure into a leaf so that neither a continuing axial bundle nor bridges to adjacent axial bundles are produced as in the standard palm construction. Instead the axial bundles in the stem periphery are connected to leaf traces and to each other by narrow and irregular transverse or oblique commissures that are not the developmental homologues of bridges. As in other palms metaxylem within a leaf trace is not continuous into the leaf so that the only connection to a leaf is via protoxylem. Within the stem protoxylem (tracheids) and metaxylem (vessels) are never contiguous unlike in other palms which suggests that water can only move from metaxylem to protoxylem and hence into the leaf across a hydraulic resistance. We suggest that this minimizes cavitation of vessels and/or may be associated with an unknown mechanism that refills embolized vessels. Also the metaxylem can be significant in stem water storage in the absence of abundant ground parenchyma. Reprinted by permission of the publisher.
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