The Effects of Mechanical Stress and Spectral Shading on the Growth and Allocation of Ten Genotypes of a Stoloniferous Plant

doi:10.1093/aob/mcl230

AOBPreview published online on November 3, 2006
Annals of Botany, doi:10.1093/aob/mcl230

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Annals of Botany 0: mcl230-10, 2006
© 2006 Annals of Botany Company

The Effects of Mechanical Stress and Spectral Shading on the Growth and Allocation of Ten Genotypes of a Stoloniferous Plant

Yun Liu¹^,2, Feike Schieving¹, Josef F. Stuefer³ and Niels P. R. Anten¹^,*

¹ Section Plant Ecology and Biodiversity, Institute of Environmental Biology, Utrecht University, PO Box 800.84, 3508 TB, Utrecht, The Netherlands
² College of Resources and Environment; The Key Laboratory of Eco-environments in Three Gorges Reservoir Region (Ministry of Education) Southwest University, Chongqing 400716, China
³ Department of Ecology, Radboud University Nijmegen, Toernooiveld 1, 6525ED Nijmegen, The Netherlands

^* For correspondence. E-mail N.Anten{at}bio.uu.nl

Received: 20 June 2006 Returned for revision: 3 August 2006 Accepted: 7 September 2006

BACKGROUND AND AIMS: Because plants protect each other from wind, stand density affectsboth the light climate and the amount of mechanical stress experiencedby plants. But the potential interactive effects of mechanicalstress and canopy shading on plant growth have rarely been investigatedand never in stoloniferous plants which, due to their creepinggrowth form, can be expected to respond differently to thesefactors than erect plants.

METHODS: Plants of ten genotypes of the stoloniferous species Potentillareptans were subjected to two levels of mechanical stress (0or 40 daily flexures) and two levels of spectral shading (15% of daylight with a red:far red ratio of 0.3 vs. 50 % daylightand a red:far red ratio of 1.2).

KEY RESULTS: Mechanically stressed plants produced more leaves with shortermore flexible petioles, more roots, and more but less massivestolons. Responses to spectral shading were mostly in the oppositedirection to thigmomorphogenesis, including the production ofthinner, taller petioles made of more rigid tissue. The degreeof thigmomorphogenesis was either independent of light climateor stimulated by spectral shading. At the genotypic level therewere no clear correlations between responses to shade and mechanicalstress.

CONCLUSIONS: These results suggest that in stoloniferous plants mechanicalstress results in clones with a more compact, shorter shootstructure and more roots. This response does not appear to besuppressed by canopy shading, which suggests that wind shielding(reduced mechanical stress) by neighbours in dense vegetationserves as a cue that induces shade avoidance responses suchas increased petiole elongation.

Key words: Allometry, biomechanics, clonal plants, phenotypic plasticity, Potentilla reptans, thigmomorphogenesis, shade avoidance, Young's modulus

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