Mechanical stimulation in plants: Molecular insights, morphological adaptations, and agricultural applications in monocots

Annalene Hansen; Agnieszka Gladala-Kostarz; Rebecca Hindhaugh; John H. Doonan; Maurice Bosch

doi:10.1186/s12915-025-02157-3

Mechanical stimulation in plants: Molecular insights, morphological adaptations, and agricultural applications in monocots

Annalene Hansen, Agnieszka Gladala-Kostarz, Rebecca Hindhaugh, John H. Doonan, Maurice Bosch

Institute of Biological, Environmental & Rural Sciences (IBERS)

Durham University

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Abstract

Mechanical stimulation, including wind exposure, is a common environmental factor for plants and can significantly impact plant phenotype, development, and growth. Most responses to external mechanical stimulation are defined by the term thigmomorphogenesis. While these morphogenetic changes in growth and development may not be immediately apparent, their end-results can be substantial. Although mostly studied in dicotyledonous plants, recently monocot grasses, particularly cereal crops, have received more attention. This review summarizes current knowledge on mechanical stimulation in plants, particularly focusing on the molecular, physiological, and phenological responses in cereals, and explores practical applications to sustainably improve the resilience of agricultural crops.

Original language	English
Article number	58
Number of pages	19
Journal	BMC Biology
Volume	23
Issue number	1
DOIs	https://doi.org/10.1186/s12915-025-02157-3
Publication status	Published - 25 Feb 2025

Keywords

Thigmomorphogenesis
Cereal crop mechanobiology
Grasses
Lodging resistance
Crop resilience to mechanical stress
Cell wall remodelling

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10.1186/s12915-025-02157-3Licence: CC BY

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Transforming the UK food system for healthy people and a healthy environment programme, to establish: The Partnership for Sustainable Food Future Centre for Doctoral Training (PSFF-CDT)
Marley, C. (PI)
Biotechnology and Biological Sciences Research Council
01 Oct 2021 → 30 Sept 2027
Project: Externally funded research
BBSRC Core Strategic Programme in Resilient Crops: Grasslands Gogerddan
Armstead, I. (PI), Donnison, I. (CoI), Jones, H. (CoI), Skot, L. (CoI), Fernandez Fuentes, N. (CoI), Phillips, D. (PI), Kingston-Smith, A. (CoI) & Bosch, M. (CoI)
Biotechnology and Biological Sciences Research Council
01 Apr 2017 → 31 Mar 2020
Project: Externally funded research

Researchers at the Institute of Biological, Environmental and Rural Sciences (IBERS), Aberystwyth University, explore how wind and mechanical forces shape crop resilience
Bosch, M.
17 Mar 2025
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Cite this

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abstract = "Mechanical stimulation, including wind exposure, is a common environmental factor for plants and can significantly impact plant phenotype, development, and growth. Most responses to external mechanical stimulation are defined by the term thigmomorphogenesis. While these morphogenetic changes in growth and development may not be immediately apparent, their end-results can be substantial. Although mostly studied in dicotyledonous plants, recently monocot grasses, particularly cereal crops, have received more attention. This review summarizes current knowledge on mechanical stimulation in plants, particularly focusing on the molecular, physiological, and phenological responses in cereals, and explores practical applications to sustainably improve the resilience of agricultural crops.",

keywords = "Thigmomorphogenesis, Cereal crop mechanobiology, Grasses, Lodging resistance, Crop resilience to mechanical stress, Cell wall remodelling",

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AU - Hansen, Annalene

AU - Gladala-Kostarz, Agnieszka

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AU - Doonan, John H.

AU - Bosch, Maurice

PY - 2025/2/25

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N2 - Mechanical stimulation, including wind exposure, is a common environmental factor for plants and can significantly impact plant phenotype, development, and growth. Most responses to external mechanical stimulation are defined by the term thigmomorphogenesis. While these morphogenetic changes in growth and development may not be immediately apparent, their end-results can be substantial. Although mostly studied in dicotyledonous plants, recently monocot grasses, particularly cereal crops, have received more attention. This review summarizes current knowledge on mechanical stimulation in plants, particularly focusing on the molecular, physiological, and phenological responses in cereals, and explores practical applications to sustainably improve the resilience of agricultural crops.

AB - Mechanical stimulation, including wind exposure, is a common environmental factor for plants and can significantly impact plant phenotype, development, and growth. Most responses to external mechanical stimulation are defined by the term thigmomorphogenesis. While these morphogenetic changes in growth and development may not be immediately apparent, their end-results can be substantial. Although mostly studied in dicotyledonous plants, recently monocot grasses, particularly cereal crops, have received more attention. This review summarizes current knowledge on mechanical stimulation in plants, particularly focusing on the molecular, physiological, and phenological responses in cereals, and explores practical applications to sustainably improve the resilience of agricultural crops.

KW - Thigmomorphogenesis

KW - Cereal crop mechanobiology

KW - Grasses

KW - Lodging resistance

KW - Crop resilience to mechanical stress

KW - Cell wall remodelling

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DO - 10.1186/s12915-025-02157-3

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VL - 23

JO - BMC Biology

JF - BMC Biology

IS - 1

M1 - 58

ER -

Mechanical stimulation in plants: Molecular insights, morphological adaptations, and agricultural applications in monocots

Abstract

Keywords

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Projects

Transforming the UK food system for healthy people and a healthy environment programme, to establish: The Partnership for Sustainable Food Future Centre for Doctoral Training (PSFF-CDT)

BBSRC Core Strategic Programme in Resilient Crops: Grasslands Gogerddan

Press/Media

Researchers at the Institute of Biological, Environmental and Rural Sciences (IBERS), Aberystwyth University, explore how wind and mechanical forces shape crop resilience

Cite this