The chemistry of the lowland rice rhizosphere

The chemistry of the lowland rice rhizosphere

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...

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Veröffentlicht in:Plant and soil 1993-10, Vol.155 (1), p.83-86
Hauptverfasser: Kirk, G.J.D. (International Rice Research Inst., Manila (Philippines)), Begg, C.B.M, Solivas, J.L
Format: Artikel
Sprache:eng
Schlagworte:
ABSORCION DE SUSTANCIAS NUTRITIVAS
ABSORPTION DE SUBSTANCES NUTRITIVES
Acid soils
Acidification
ANION
ANIONES
ANIONS
CATION
CATIONES
CATIONS
ECHANGE D'ION
FER
Flooded soils
HIERRO
INTERCAMBIO IONICO
ION EXCHANGE
IRON
NUTRIENT UPTAKE
ORYZA
Oxidation
Plant roots
Rhizosphere
Rice
Rice soils
Soil acidification
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Zusammenfassung: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.
ISSN:0032-079X
1573-5036
DOI:10.1007/BF00024989