Abstract
Models and experimental studies of the rhizosphere of rice plants growing in anaerobic soil show that two major processes lead to considerable acidification (1–2 pH units) of the rhizosphere over a wide range of root and soil conditions. One is generation of H+ in the oxidation of ferrous iron by O2 released from the roots. The other is release of H+ from roots to balance excess intake of cations over anions, N being taken up chiefly as NH4 +. CO2 exchange between the roots and soil has a much smaller effect. The zone of root-influence extends a few mm from the root surface. There are substantial differences along the root length and with time. The acidification and oxidation cause increased sorption of NH4 + ions on soil solids, thereby impeding the movement of N to absorbing root surfaces. But they also cause solubilization and enhanced uptake of soil phosphate.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ahmad A R and Nye P H 1990 J. Soil Sci. 44, 395–409.
Armstrong W, Justin S H F W, Beckett P M, Lythe S 1991 Aquatic Bot. 39: 57–73.
Bedford B L, Bouldin D R and Beliveau B D 1991 J. Ecol. 79, 943–959.
IRRI 1991 Program Report for 1990. pp 203–205. International Rice Research Institute, Los Baños, Philippines.
Kirk G J D 1993 In Systems Approaches for Agricultural Development. Eds F W T Penning de Vries, P S Teng and K Metselaar. pp 221–232. Kluwer Academic Publishers, Dordrecht, The Netherlands.
Kirk G J D, Ahmad A R and Nye P H 1990 J. Soil Sci. 44, 411–431.
Nye P H 1986 In Advances in Plant Nutrition Vol. 2. Eds. P.B. Tinker & A. Läuchli. pp 129–153. Praeger, New York.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Kirk, G.J.D., Begg, C.B.M. & Solivas, J.L. The chemistry of the lowland rice rhizosphere. Plant Soil 155, 83–86 (1993). https://doi.org/10.1007/BF00024989
Issue Date:
DOI: https://doi.org/10.1007/BF00024989