Publication
Title
Micromechanical behaviour of onion epidermal tissue
Author
Abstract
Onion epidermal peels were used as a model system to study the micromechanical behaviour of plant tissue in relationship to the structural parameters of the cells in the tissue. Mechanical properties of onion epidermal tissue were measured using a miniature tensile stage mounted under a microscope. Epidermis peels were subjected to tensile tests in longitudinal and transverse direction, while the deformation of the individual cells in the tissue was monitored. Onion epidermal peels were found to produce in both directions a biphasic stress-strain curve consisting of two clearly distinguishable linear parts of different slope with a transition zone in between. Cell area was found to exert a significant negative influence on stiffness and strength of the samples, but also aspect of the cells in the tissue had a significant influence on stiffness. Samples with smaller, less elongated cells have a broader transition zone and a lower strain at maximum stress than samples with long and big cells. Analysis of the images acquired at subsequent times in the test allowed the measurement of the cell deformations. Deformations of cells were found to be larger in transverse samples as compared to longitudinal samples. The information gained provided insight into factors determining the mechanical properties of vegetative tissues and will serve as input for the development of models to describe and to predict mechanical behaviour of plant tissues. (c) 2005 Elsevier B.V. All rights reserved.
Language
English
Source (journal)
Postharvest biology and technology: an international journal. - -
Publication
2005
ISSN
0925-5214
Volume/pages
37:2(2005), p. 163-173
ISI
000231328800008
Full text (Publisher's DOI)
Full text (publisher's version - intranet only)
UAntwerpen
Faculty/Department
Publication type
Subject
External links
Web of Science
Record
Identification
Creation 24.02.2014
Last edited 17.07.2017