Title of article
Growth and functional responses of different cultivars of Lotus corniculatus to aluminum and low pH stress
Author/Authors
Jan Pavlovkin، نويسنده , , Peter Pal’ove-Balang، نويسنده , , Luk?? Kolarovi?، نويسنده , , Veronika Zelinov?، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
9
From page
1479
To page
1487
Abstract
Aluminum toxicity is an important stress factor in acid soils. Growth, respiration and permeability properties of root cells were studied in five cultivars of Lotus corniculatus subjected to aluminum (Al) or low pH stress. The cultivars showed significant differences in root elongation under stress conditions, which correlated with changes in membrane potential (EM) of root cortical cells. A pH drop from 5.5 to 4.0 resulted in significant membrane depolarization and root growth inhibition. The strongest inhibition was observed in cv. São Gabriel (33.6%) and least in cv. UFRGS (25.8%). Application of an extremely high Al concentration (2 mM) stopped the root growth in cv. INIA Draco, while inhibition in cv. UFRGS reached only 75%.
The EM values of cortical cells of Lotus roots varied between −115 and −144 mV. Treatment with 250 μM of AlCl3 (pH 4) resulted in rapid membrane depolarization. The extent of the membrane depolarization ranged between 51 mV (cv. UFGRS) and 16 mV (cv. INIA Draco). The membrane depolarization was followed by a loss of K+ from Al-treated roots (2 mM Al) and resulted in a decrease of the diffusion potential (ED). The total amount of K+ in Al-treated roots dropped from 31.4 to 16.8 μmol g−1 FW in sensitive cv. INIA Draco, or from 26.1 to 22.7 μmol g−1 FW in tolerant cv. UFGRS. The rate of root respiration under control conditions as well as under Al treatment was higher in cv. INIA Draco than in cv. UFRGS. Al-induced inhibition of root respiration was 21–34% of the control.
Keywords
Membrane potential , respiration , root growth , Low pH , Aluminum stress
Journal title
Journal of Plant Physiology
Serial Year
2009
Journal title
Journal of Plant Physiology
Record number
1281690
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