Temporal and spatial pattern of embolism induced by pressure collar techniques in twigs of Picea abies

doi:10.1093/jxb/erl077

JXB Advance Access published online on August 1, 2006
Journal of Experimental Botany, doi:10.1093/jxb/erl077

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© The Author [2006]. Published by Oxford University Press [on behalf of the Society for Experimental Biology]. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org
Received March 23, 2006
Accepted June 8, 2006

RESEARCH PAPER

Temporal and spatial pattern of embolism induced by pressure collar techniques in twigs of Picea abies

Stefan Mayr ¹ ^*, Barbara Rothart ¹, and Marion Wolfschwenger ¹

¹ Institut für Botanik, University Innsbruck, Sternwartestr. 15, A-6020 Innsbruck, Austria

^* To whom correspondence should be addressed.
Stefan Mayr, E-mail: stefan.mayr{at}uibk.ac.at

Abstract

The pressure collar technique enables the induction of embolismin plant xylem. This artificial cavitation is based on air seedingprocesses which occur when specific pressure gradients betweenthe air and water phase of the xylem are exceeded. Standardpressure collars and a new point injection technique, whichbuilds up a local potential gradient, were used to study thetime and spatial pattern of this process. On twigs of Norwayspruce (Picea abies), the cross-sectional and axial pattern,and the time-course of embolism formation were analysed viaconductivity and ultrasonic measurements as well as stainingexperiments. Furthermore, the release of air from the twig surfacewas studied by immersing twig sections in water. In cross-sections,embolized areas induced by the point injection technique weresmaller compared with the standard collar and restricted toa circle sector. Embolism propagated from the pressure collartowards the nearest distal and proximal nodes but not further.A release of air was also observed predominantly at the internodeattached to the pressure collar. Embolism rates increased withinminutes and reached $~$ 80% loss of conductivity after 10 min treatmentwith the standard collar. The size of air entry points and embolismrates correlated significantly. Embolism formation in wood thereforedepends not only on vulnerability thresholds but also on theextent of air-water interfaces within the xylem and on the timeof exposure to pressure gradients. These aspects and the propagationof pressure within samples are crucial for pressure collar experiments.In addition, wood architecture influences the extent and patternof embolism caused by air seeding processes.

Keywords: Air entry point; air seeding; air-water interface; cavitation; conifers; embolism; pressure collar; xylem.

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