Measurement of a growth-induced water potential gradient in tall fescue leaves

PIERRE MARTRE; MARIE-BEATRICE BOGEAT-TRIBOULOT; JEAN-LOUIS DURAND

doi:10.1046/j.1469-8137.1999.00405.x

Abstract

Spatial distribution of cell turgor pressure, cell osmotic pressure and relative elemental growth rate were measured in growing tall fescue leaves (Festuca arundinacea). Cell turgor pressure (measured with a pressure probe) was c. 0.55 MPa in expanding cells but increased steeply (+0.3 MPa) in cells where elongation had stopped. However, cell osmotic pressure (measured with a picolitre osmometer) was almost constant at 0.85 MPa throughout the leaf. The water potential difference between the growth zone and the mature zone (0.3 MPa) was interpreted as a growth-induced water potential gradient. This and further implications for the mechanism of growth control are discussed.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Proseus, Timothy E. Zhu, Guo‐Li and Boyer, John S. 2000. Turgor, temperature and the growth of plant cells: using Chara corallina as a model system. Journal of Experimental Botany, Vol. 51, Issue. 350, p. 1481.

Hsiao, Theodore C. and Xu, Liu‐Kang 2000. Sensitivity of growth of roots versus leaves to water stress: biophysical analysis and relation to water transport. Journal of Experimental Botany, Vol. 51, Issue. 350, p. 1595.

Martre, P. Cochard, H. and Durand, J.‐L. 2001. Hydraulic architecture and water flow in growing grass tillers (Festuca arundinacea Schreb.). Plant, Cell & Environment, Vol. 24, Issue. 1, p. 65.

Boyer, John S. 2001. Growth‐induced water potentials originate from wall yielding during growth. Journal of Experimental Botany, Vol. 52, Issue. 360, p. 1483.

Fricke, Wieland and Peters, Winfried S. 2002. The Biophysics of Leaf Growth in Salt-Stressed Barley. A Study at the Cell Level. Plant Physiology, Vol. 129, Issue. 1, p. 374.

Martre, Pierre Morillon, Raphaël Barrieu, François North, Gretchen B. Nobel, Park S. and Chrispeels, Maarten J. 2002. Plasma Membrane Aquaporins Play a Significant Role during Recovery from Water Deficit. Plant Physiology, Vol. 130, Issue. 4, p. 2101.

Tang, An‐Ching and Boyer, John S. 2002. Growth‐induced water potentials and the growth of maize leaves. Journal of Experimental Botany, Vol. 53, Issue. 368, p. 489.

Boyer, John S. and Silk, Wendy K. 2004. Hydraulics of plant growth. Functional Plant Biology, Vol. 31, Issue. 8, p. 761.

BOUCHABKÉ, OUMAYA TARDIEU, FRANÇOIS and SIMONNEAU, THIERRY 2006. Leaf growth and turgor in growing cells of maize (Zea mays L.) respond to evaporative demand under moderate irrigation but not in water‐saturated soil. Plant, Cell & Environment, Vol. 29, Issue. 6, p. 1138.

BOUCHABKE, OUMAYA TARDIEU, FRANCOIS and SIMONNEAU, THIERRY 2006. Leaf growth and turgor in growing cells of maize (Zea mays L.) respond to evaporative demand under moderate irrigation but not in water-saturated soil. Plant, Cell and Environment, Vol. 0, Issue. 0, p. 060324075433002.

Fricke, Wieland and Chaumont, François 2007. The Expanding Cell. Vol. 6, Issue. , p. 7.

Tang, An-Ching and Boyer, John S. 2008. Xylem tension affects growth-induced water potential and daily elongation of maize leaves. Journal of Experimental Botany, Vol. 59, Issue. 4, p. 753.

VOLKOV, VADIM BOSCARI, ALEXANDRE CLÉMENT, MATHILDE MILLER, ANTHONY J. AMTMANN, ANNA and FRICKE, WIELAND 2009. Electrophysiological characterization of pathways for K+ uptake into growing and non‐growing leaf cells of barley. Plant, Cell & Environment, Vol. 32, Issue. 12, p. 1778.

Walter, Achim Silk, Wendy K. and Schurr, Ulrich 2009. Environmental Effects on Spatial and Temporal Patterns of Leaf and Root Growth. Annual Review of Plant Biology, Vol. 60, Issue. 1, p. 279.

Caldeira, Cecilio F. Bosio, Mickael Parent, Boris Jeanguenin, Linda Chaumont, François and Tardieu, François 2014. A Hydraulic Model Is Compatible with Rapid Changes in Leaf Elongation under Fluctuating Evaporative Demand and Soil Water Status . Plant Physiology, Vol. 164, Issue. 4, p. 1718.

Touati, Mostefa Knipfer, Thorsten Visnovitz, Tamás Kameli, Abdelkrim and Fricke, Wieland 2015. Limitation of Cell Elongation in Barley (Hordeum vulgareL.) Leaves Through Mechanical and Tissue-Hydraulic Properties. Plant and Cell Physiology, Vol. 56, Issue. 7, p. 1364.

Fricke, Wieland 2017. Water transport and energy. Plant, Cell & Environment, Vol. 40, Issue. 6, p. 977.

Boyer, John S. 2017. Progress in Botany Vol. 79. Vol. 79, Issue. , p. 1.

Fricke, Wieland and Knipfer, Thorsten 2017. Plant Aquaporins. p. 107.

Baca Cabrera, Juan C. Hirl, Regina T. Zhu, Jianjun Schäufele, Rudi and Schnyder, Hans 2020. Atmospheric CO2 and VPD alter the diel oscillation of leaf elongation in perennial ryegrass: compensation of hydraulic limitation by stored‐growth. New Phytologist, Vol. 227, Issue. 6, p. 1776.

Download full list

Article contents

Measurement of a growth-induced water potential gradient in tall fescue leaves

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Measurement of a growth-induced water potential gradient in tall fescue leaves

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests