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A new perspective on mechanical characterisation of Arabidopsis stems through vibration tests

A new perspective on mechanical characterisation of Arabidopsis stems through vibration tests
A new perspective on mechanical characterisation of Arabidopsis stems through vibration tests
The mechanical properties of plants are important for understanding plant biomechanics and for breeding new plants that can survive in challenging environments. Thus, accurate and reliable methods are required for the determination of mechanical properties such as stiffness and Young's modulus of elasticity. Much attention has been paid to the application of static methods to plants, while dynamic methods have received considerably less attention. In the present study, a dynamic forced vibration method for mechanical characterisation of Arabidopsis inflorescence stems was developed and validated against the conventional three-point bending test. Compared to dynamic tests based on free vibration, the current method allows to determine simultaneously more than one natural frequency, thus increasing the overall accuracy of the results. In addition, this method can be applied to the top parts of the stems that are more flexible, and where application of the three-point bending test is often limited. To demonstrate one of the potential applications of this method, it was applied to evaluate the influence of turgor pressure on the mechanical properties of Arabidopsis stems. Overall, the new dynamic testing approach has been shown to provide reliable data for the local mechanical properties along the Arabidopsis inflorescence stem.
Arabidopsis, Dynamic testing, Mechanical properties, Modulus of elasticity, Multiple resonant frequency, Vibration
1751-6161
Zhdanov, Oleksandr
7531d5ee-a833-417e-8d9b-5c7cdfa98856
Blatt, Michael R.
29e21e10-05c1-45bb-a628-83b80d91c236
Cammarano, Andrea
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Zare-Behtash, Hossein
74be9b97-cb09-49c6-9f75-7ec58c0dd16c
Busse, Angela
0430b320-341b-4c73-9cb5-f35632d562a4
Zhdanov, Oleksandr
7531d5ee-a833-417e-8d9b-5c7cdfa98856
Blatt, Michael R.
29e21e10-05c1-45bb-a628-83b80d91c236
Cammarano, Andrea
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Zare-Behtash, Hossein
74be9b97-cb09-49c6-9f75-7ec58c0dd16c
Busse, Angela
0430b320-341b-4c73-9cb5-f35632d562a4

Zhdanov, Oleksandr, Blatt, Michael R., Cammarano, Andrea, Zare-Behtash, Hossein and Busse, Angela (2020) A new perspective on mechanical characterisation of Arabidopsis stems through vibration tests. Journal of the Mechanical Behavior of Biomedical Materials, 112, [104041]. (doi:10.1016/j.jmbbm.2020.104041).

Record type: Article

Abstract

The mechanical properties of plants are important for understanding plant biomechanics and for breeding new plants that can survive in challenging environments. Thus, accurate and reliable methods are required for the determination of mechanical properties such as stiffness and Young's modulus of elasticity. Much attention has been paid to the application of static methods to plants, while dynamic methods have received considerably less attention. In the present study, a dynamic forced vibration method for mechanical characterisation of Arabidopsis inflorescence stems was developed and validated against the conventional three-point bending test. Compared to dynamic tests based on free vibration, the current method allows to determine simultaneously more than one natural frequency, thus increasing the overall accuracy of the results. In addition, this method can be applied to the top parts of the stems that are more flexible, and where application of the three-point bending test is often limited. To demonstrate one of the potential applications of this method, it was applied to evaluate the influence of turgor pressure on the mechanical properties of Arabidopsis stems. Overall, the new dynamic testing approach has been shown to provide reliable data for the local mechanical properties along the Arabidopsis inflorescence stem.

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More information

Published date: 21 August 2020
Keywords: Arabidopsis, Dynamic testing, Mechanical properties, Modulus of elasticity, Multiple resonant frequency, Vibration

Identifiers

Local EPrints ID: 493203
URI: http://eprints.soton.ac.uk/id/eprint/493203
DOI: doi:10.1016/j.jmbbm.2020.104041
ISSN: 1751-6161
PURE UUID: ed05c5c3-e8be-4606-bb55-3c59aab12c2b
ORCID for Andrea Cammarano: ORCID iD orcid.org/0000-0002-8222-8150
ORCID for Hossein Zare-Behtash: ORCID iD orcid.org/0000-0002-4769-4076

Catalogue record

Date deposited: 27 Aug 2024 17:30
Last modified: 28 Aug 2024 02:16

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Contributors

Author: Oleksandr Zhdanov
Author: Michael R. Blatt
Author: Andrea Cammarano ORCID iD
Author: Hossein Zare-Behtash ORCID iD
Author: Angela Busse

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