Metabolic inhibition of root water flow in red‐osier dogwood (Cornus stolonifera) seedlings
Author:
Publisher
Oxford University Press (OUP)
Subject
Plant Science,Physiology
Link
http://academic.oup.com/jxb/article-pdf/52/357/739/18026736/520739.pdf
Reference37 articles.
1. Blatt MR. 1987. Electrical characteristics of stomatal guard cells: the contribution of ATP‐dependent electrogenic transport revealed by current‐voltage and difference‐current‐voltage analysis. Journal of Membrane Biology98,257–274.
2. Buwalda F, Thomson CJ, Barrett‐Lennard EG, Gibbs J, Greenway H. 1988. Hypoxia induces membrane depolarization and potassium loss from wheat roots but does not increase their permeability to sorbitol. Journal of Experimental Botany39,1169–1183.
3. Carvajal M, Cooke DT, Clarkson DT. 1996. Responses of wheat plants to nutrient deprivation may involve the regulation of water‐channel function. Planta199,372–381.
4. Chrispeels MJ, Daniels MJ, Weig A. 1997. Aquaporins and water transport across the tonoplast. Advances in Botanical Research25,419–432.
5. Clarkson DT, Carvajal M, Henzler T, Waterhouse RN, Smyth AJ, Cooke DT, Steudle E. 2000. Root hydraulic conductance: diurnal aquaporin expression and the effects of nutrient stress. Journal of Experimental Botany51,61–70.
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