| Abstract: | In a recent publication (Kutschera, 1996), it was reported thatthe cell walls of growing rye coleoptiles exhibit irreversible(plastic) extensibility in a rheological extension test. Basicallysimilar measurements with cell walls of maize coleoptiles hadpreviously shown that the apparent plastic extensibility determinedin this material is in reality due to the slowly reversible(viscoelastic) extensibility of the walls. A recent reinvestigationof this discrepancy showed that rye coleoptile walls also behaveas a perfectly viscoelastic material if precautions are takento prevent measuring artefacts. Similar results were obtainedwith cell walls from the growing zone of various other seedlingorgans (maize mesocotyl, maize root, cucumber hypocotyl). Itis concluded that plastic extensibility has not yet been convincinglydemonstrated by rheological tests that determine the intrinsicmaterial properties of cell walls. Reported changes in mechanicalmaterial properties of cell walls produced by growth-controllingfactors such as auxin or light may generally be attributed tochanges in viscoelasticity which are not directly related tothe chemo-rheological processes controlling wall extension ofgrowing cells. Key words: Cell wall extensibility, extension growth, plastic cell wall extensibility, viscoelastic cell wall extensibility |
