References
Cosgrove DJ, Cleland RE (1983) Osmotic properties of pea internodes in relation to growth and auxin action. Plant Physiol 72: 332–338
Diamond JM, Bossert WH (1967) Standing-gradient osmotic flow. A mechanism for coupling of water and solute transport in epithelia. J Gen Physiol 50: 2061–2083
Hill AE, Hill BS (1973) The electrogenic chloride pump of theLimonium salt gland. J Membr Biol 12: 129–144
House CR, Findlay N (1966) Mechanism of fluid exudation from isolated maize roots. Nature 211: 649–650
Kuzmanoff KM, Evans ML (1981) Kinetics of adaptation to osmotic stress in lentil (Lens culinaris Med.) roots. Plant Physiol 68: 244–247
Katou K, Furumoto M (1986 a) A mechanism of respiration-dependent water uptake in higher plants. Protoplasma 130: 80–82
(1986 b) A mechanism of respiration-dependent water uptake enhanced by auxin. Protoplasma 133: 174–185
,Taura T, Furumoto M (1987) A model for water transport in the stele of plant roots. Protoplasma 140: 123–132
Taura T,Iwaikawa Y,Furumoto M,Katou K (1987) Transport of water and solutes in plant roots: a theoretical model for root exudation (in Japanese). Pro 52th Ann Meet Bot Soc Japan (Tsukuba), pp 289
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Katou, K., Furumoto, M. Movement of solute and water in the cell wall apoplast as a fundamental process for respiration-dependent water transport in higher plants. Protoplasma 144, 62–63 (1988). https://doi.org/10.1007/BF01320281
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01320281