Electrophysiological membrane characteristics of the salt tolerant Plantago maritima and the salt sensitive Plantago media

Membrane potential, electrical conductance and plasmamembrane permeability for Na⁺, K⁺ and Cl⁻ of root cells of the salt tolerant Plantago marítima and the salt sensitive P. media were compared. Plants were grown with (25mol m⁻³) or without NaCl. No differences were found in the membrane potentials...

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Bibliographic Details
Published in:Plant and soil 1990-04, Vol.123 (2), p.233-238
Main Authors: Maathuis, F.J.M. (Groningen Univ., Haren (Netherlands). Vakgroep Plantenfysiologie), Prins, H.B.A
Format: Article
Language:English
Subjects:
Absorption. Translocation of ions and substances. Permeability
Agronomy. Soil science and plant productions
Biological and medical sciences
CELL MEMBRANES
Depolarization
Economic plant physiology
Fundamental and applied biological sciences. Psychology
Ions
MEMBRANAS CELULARES
MEMBRANE CELLULAIRE
Membrane potential
Nutrition. Photosynthesis. Respiration. Metabolism
PERMEABILIDAD
PERMEABILITE
PERMEABILITY
Plant growth
Plant physiology and development
Plant roots
PLANTAGO
Plants
RACINE
RAICES
ROOTS
Salinity
SALT TOLERANCE
Sodium
TOLERANCE AU SEL
TOLERANCIA A LA SAL
Water and solutes. Absorption, translocation and permeability
Xylem
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Summary:Membrane potential, electrical conductance and plasmamembrane permeability for Na⁺, K⁺ and Cl⁻ of root cells of the salt tolerant Plantago marítima and the salt sensitive P. media were compared. Plants were grown with (25mol m⁻³) or without NaCl. No differences were found in the membrane potentials between the species when measured in growth medium, either plus or minus NaCl. When plants were grown in 25 mol m⁻³ NaCl membrane potentials in both species were slightly more positive. Na and K ions both caused depolarization of the membrane potential. These were not equal for the two species, depolarization caused by K⁺ ions was about 3.5 times greater than that caused by Na⁺ ions.Membrane permeability for both ions seemed less in the salt tolerant species. Passive Na⁺ permeability, i.e.in the presence of the uncoupler CCCP, was about 25% of the K⁺ permeability in P. media, and 60% in P.marítima. From comparison of permeabilities under 'active' and 'passive' conditions and the related ion concentrations in the root cells it was concluded that in both species active, i.e. against the electrochemical gradient, Na⁺ efflux pumping must exist at the cortex medium boundary.
ISSN:0032-079X
1573-5036
DOI:10.1007/BF00011274