Anatomical Significance of the Hygrochastic Movement in Anastatica hierochuntica

doi:10.1093/aob/mcj011

AOBPreview published online on November 15, 2005
Annals of Botany, doi:10.1093/aob/mcj011

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© The Author 2005. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org
Received March 19, 2005
Revised July 4, 2005
Accepted October 4, 2005

Article

Anatomical Significance of the Hygrochastic Movement in Anastatica hierochuntica

AHMAD K. HEGAZY ¹ ^*, H. N. BARAKAT ¹, and H. F. KABIEL ¹

¹ Botany Department, Faculty of Science, Cairo University, Giza 12613, Egypt

^* To whom correspondence should be addressed.
AHMAD K. HEGAZY, E-mail: akhegazy2202{at}hotmail.com

Abstract

• Background and Aims Unlike the dispersal mechanisms ofmany desert plants, the whole dead skeleton of Anastatica hierochunticais involved in seed dispersal and preservation. This processdepends on the hygrochastic nature of the lignified conductingtissue that bends when dry and straightens under wet conditions.An anatomical interpretation of this mechanical movement wasinvestigated.

• Methods An anatomical study of the stemwas conducted on the juvenile plants raised under differentwater treatments and on the branch-orders of adult A. hierochunticasize-classes.

• Key Results In the juvenile stem of A.hierochuntica, the area of cortex, conducting tissue and pithincreased with water availability. However, the hydraulic conductancedecreased, resulting in a better withdrawal of water in water-stressedplants. The anatomical investigation of the hygrochastic mechanismrevealed an asymmetric distribution of the cortical tissues,with the conducting tissues of the stem of juvenile and adultplants being larger in the lower side. The hydraulic conductancewas better in the basal and middle branch-orders than the terminalones, permitting better conductance of water to the subsequentbranch-orders.

• Conclusions The lignified conducting tissueof the whole stem, having a hygrochastic nature, controls themovement of the branches. The greater amount of conducting tissueassociated with a higher density of wide xylem vessels was observedin the lower side of the stem as compared with the upper side.Consequently, the conducting tissue in the lower side of thestem was suggested to be more effective in the opening processof the curled dry branches through better and more rapid conductanceof water. Alternatively, due to the few narrow xylem vesselsin the upper side of the stem, it was likely that the conductingtissue in the upper side is more effective in the closing processby providing more rapid drying. The mechanical rise of waterand the related hygrochastic efficiency were maximized in thebasal and middle branch-orders that are mostly involved in themechanical movement.

Keywords: Anatomy, hygrochasy, seed dispersal, hydraulic conductance, Anastatica hierochuntica.

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