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Wind-evoked anemotropism affects the morphology and mechanical properties of Arabidopsis

Wind-evoked anemotropism affects the morphology and mechanical properties of Arabidopsis
Wind-evoked anemotropism affects the morphology and mechanical properties of Arabidopsis
Plants are known to exhibit a thigmomorphogenetic response to mechanical stimuli by altering their morphology and mechanical properties. Wind is widely perceived as mechanical stress and in many experiments its influence is simulated by applying mechanical perturbations. However, it is known that wind-induced effects on plants can differ and at times occur even in the opposite direction compared with those induced by mechanical perturbations. In the present study, the long-term response of Arabidopsis thaliana to a constant unidirectional wind was investigated. We found that exposure to wind resulted in a positive anemotropic response and in significant alterations to Arabidopsis morphology, mechanical properties, and anatomical tissue organization that were associated with the plant's strategy of acclimation to a windy environment. Overall, the observed response of Arabidopsis to wind differs significantly from previously reported responses of Arabidopsis to mechanical perturbations. The presented results suggest that the response of Arabidopsis is sensitive to the type of mechanical stimulus applied, and that it is not always straightforward to simulate one type of perturbation by another.
Anemotropic response, Arabidopsis thaliana, biomechanics, mechanical properties, morphology, stem anatomy, thigmomorphogenesis, wind
0022-0957
1906-1918
Zhdanov, Oleksandr
7531d5ee-a833-417e-8d9b-5c7cdfa98856
Blatt, Michael R.
29e21e10-05c1-45bb-a628-83b80d91c236
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
Zare-Behtash, Hossein
74be9b97-cb09-49c6-9f75-7ec58c0dd16c
Busse, Angela
0430b320-341b-4c73-9cb5-f35632d562a4

Zhdanov, Oleksandr, Blatt, Michael R., Zare-Behtash, Hossein and Busse, Angela (2020) Wind-evoked anemotropism affects the morphology and mechanical properties of Arabidopsis. Journal of Experimental Botany, 72 (5), 1906-1918. (doi:10.1093/jxb/eraa541).

Record type: Article

Abstract

Plants are known to exhibit a thigmomorphogenetic response to mechanical stimuli by altering their morphology and mechanical properties. Wind is widely perceived as mechanical stress and in many experiments its influence is simulated by applying mechanical perturbations. However, it is known that wind-induced effects on plants can differ and at times occur even in the opposite direction compared with those induced by mechanical perturbations. In the present study, the long-term response of Arabidopsis thaliana to a constant unidirectional wind was investigated. We found that exposure to wind resulted in a positive anemotropic response and in significant alterations to Arabidopsis morphology, mechanical properties, and anatomical tissue organization that were associated with the plant's strategy of acclimation to a windy environment. Overall, the observed response of Arabidopsis to wind differs significantly from previously reported responses of Arabidopsis to mechanical perturbations. The presented results suggest that the response of Arabidopsis is sensitive to the type of mechanical stimulus applied, and that it is not always straightforward to simulate one type of perturbation by another.

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More information

Accepted/In Press date: 12 November 2020
Published date: 18 November 2020
Keywords: Anemotropic response, Arabidopsis thaliana, biomechanics, mechanical properties, morphology, stem anatomy, thigmomorphogenesis, wind

Identifiers

Local EPrints ID: 492768
URI: http://eprints.soton.ac.uk/id/eprint/492768
DOI: doi:10.1093/jxb/eraa541
ISSN: 0022-0957
PURE UUID: 69160fcd-cb64-4a2e-8f65-4dd5cc635b08
ORCID for Hossein Zare-Behtash: ORCID iD orcid.org/0000-0002-4769-4076

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Date deposited: 13 Aug 2024 16:59
Last modified: 14 Aug 2024 02:10

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Contributors

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

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