Biomechanical study of the effect of a controlled bending on tomato stem elongation: local strain sensing and spatial integration of the signal

doi:10.1093/jexbot/51.352.1825

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Journal of Experimental Botany, Vol. 51, No. 352, pp. 1825-1842, November 1, 2000
© 2000 Oxford University Press

Original Papers

Biomechanical study of the effect of a controlled bending on tomato stem elongation: local strain sensing and spatial integration of the signal

C. Coutand¹ and B. Moulia²^,3

¹ INRA, Unité associée Bioclimatologie-PIAF, 234 av. du Brézet, 63039 Clermont-Ferrand cedex 02, France
² INRA, Unité d'Ecophysiologie des Plantes Fourragères, 86600 Lusignan, France

In a previous paper it has been demonstrated that tomato stems,submitted to a controlled basal bending, had a reduced terminalprimary elongation, indicating mechanosensing and intra plantsignalling. The ‘intensity’ of the growth response,as measured by the time to recover an elongation rate similarto the control, varied hugely between plants. However, no relationwas found between the intensity of this response and the mechanicalvariables characterizing the global mechanical state of thestem. In this paper, a local analysis of mechanical state ofeach bent stem is performed in the context of beam theory. Thespatial distributions of local variables all along the stem(curvature, bending moment, strains and stresses) are established.The validity of hypotheses underlying the mechanical analysisis demonstrated. To investigate the relationships between themechanical stimulus and the growth response, a novel biomechanicalanalysis based on spatial integration of the mechanical stimulusis presented. It revealed that the mechanosensing is local andscattered through the stem and that the variability of the growthresponse is only explained by the integrals of the longitudinalstrain field.

Key words: Biomechanics, mecanoperception, strain, thigmo-morphogenesis, tomato stem.

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