Phenotypic Plasticity of Grass Root Anatomy in Response to Light Intensity and Nutrient Supply

doi:10.1006/anbo.2001.1551

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Annals of Botany 88: 1071-1078, 2001
© 2001 Annals of Botany Company

Phenotypic Plasticity of Grass Root Anatomy in Response to Light Intensity and Nutrient Supply

Stefan Wahl, Peter Ryser⁺ and Peter J. Edwards

Geobotanisches Institut ETH Zürich, Gladbachstr. 114, 8044, Zürich, Switzerland

Received: 19 April 2001 ; Accepted: 2 September 2001

The phenotypic plasticity of axial root anatomy was investigatedin response to the availability of above- and below-ground resourcesusing eight grass species of the genera Bromus and Poa. In a7-week garden experiment nutrients were varied by a factor offive and light treatments of 100, 30 and 5·5% daylightwere applied. Both nutrients and light influenced root structure.The effect of nutrients was largely explained by plant size,but this was not the case for light. Shading to 30% daylightled to a higher proportion of stele, larger stelar cells andlarger xylem vessels. This can be understood either as an increasedneed for high transport capacity in the shade, where leaf areais larger but root mass lower than in full daylight, or as anincreased resistance against desiccation, which is more of ahazard in open sites. Under 5·5% daylight, tissue massdensity was reduced due to a lower proportion of stele, thoughxylem characteristics were not influenced when a correctionfor the effect of root cross-sectional area was applied. Thisresponse may be interpreted as a mechanism to maintain rootfunction with a lower investment in biomass when growth is limitedby low irradiance. The results show that the response of a plantto resource limitation is not restricted to those organs responsiblefor the acquisition of that resource. Furthermore, the qualitativeresponse to shading depends on the absolute level of irradiance.For this reason, care is needed when comparing the results ofshading experiments conducted under different irradiances. Copyright2001 Annals of Botany Company

Bromus, hydraulic conductivity, light, nutrients, phenotypic plasticity, Poa, Poaceae, root anatomy, stele

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