Tensioning the helix: A mechanism for force generation in twining plants

Sandrine Isnard, Alexander R. Cobb, N. Michele Holbrook, Maciej Zwieniecki, Jacques Dumais

Producción científica: Contribución a una revistaArtículorevisión exhaustiva

47 Citas (Scopus)

Resumen

Twining plants use their helical stems to clasp supports and to generate a squeezing force, providing stability against gravity. To elucidate the mechanism that allows force generation, we measured the squeezing forces exerted by the twiner Dioscorea bulbifera while following its growth using time-lapse photography. We show that the development of the squeezing force is accompanied by stiffening of the stem and the expansion of stipules at the leaf base. We use a simple thin rod model to show that despite their small size and sparse distribution, stipules impose a stem deformation sufficient to account for the measured squeezing force. We further demonstrate that tensioning of the stem helix, although counter-intuitive, is the most effective mechanism for generating large squeezing forces in twining plants. Our observations and model point to a general mechanism for the generation of the twining force: a modest radial stem expansion during primary growth, or the growth of lateral structures such as leaf bases, causes a delayed stem tensioning that creates the squeezing forces necessary for twining plants to ascend their supports. Our study thus provides the long-sought answer to the question of how twining plants ascend smooth supports without the use of adhesive or hook-like structures.

Idioma originalInglés
Páginas (desde-hasta)2643-2650
Número de páginas8
PublicaciónProceedings of the Royal Society B: Biological Sciences
Volumen276
N.º1667
DOI
EstadoPublicada - 22 jul. 2009

Huella

Profundice en los temas de investigación de 'Tensioning the helix: A mechanism for force generation in twining plants'. En conjunto forman una huella única.

Citar esto