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Myrothamnus flabellifolius
Marginal and laminar hydathode-like structures in the leaves of the desiccation-tolerant angiosperm Myrothamnus flabellifolius Welw.
by Drennan P. M., Goldsworthy D., Buswell A. (2009)
Research Unit for Plant Growth and Development, Department of Botany, University of KwaZulu-Natal, PO Box 375, Pietermaritzburg 3200, South Africa
Philippa M. Drennan, Debra Goldsworthy, Allison Buswell,
in Flora204(3): 210-219 – DOI10.1016/j.flora.2008.01.013 –
https://www.infona.pl/resource/bwmeta1.element.elsevier-0763b153-3675-3a95-bedc-56afc2d54e4e
Abstract
The fan-shaped leaves of the resurrection plant Myrothamnus flabellifolius Welw. fold during episodes of drought and consequent desiccation of the tissue. The leaf teeth of M. flabellifolius have several features characteristic of hydathodes. Tracheary elements from the three vein endings that converge in each leaf tooth subtend and extend into a cluster of cells significantly smaller than those of the adjacent mesophyll.
The stomata overlying this putative epithem are larger than the other stomata on the leaf surface. Crystal violet is absorbed via these stomata in non-transpiring leaves, suggesting that they are water pores. Two to four such water pores occur per hydathode and are readily distinguished in desiccated leaves.
Laminar hydathodes apparently also occur in the leaves of M. flabellifolius. Branched vein endings that terminate in short, wide tracheary elements subtend the outer edges of the abaxial leaf ridge, which otherwise lack stomata, and coincide with regions of crystal violet uptake.
Guttation could not be induced in M. flabellifolius. However, desiccated leaves readily absorb liquid water through the leaf surface. The use of Calcafluor White to trace the pathway of apoplastic water movement suggests a role for both types of hydathode in foliar water uptake during rehydration while the accumulation of Sulphorhodamine G (indicating solute retrieval from the apoplast) in the epithem of transpiring plants suggests the hydathodes may be a pathway of water loss in the desiccating leaf.
PLANT STOMATA ENCYCLOPEDIA 