Abstract
Alleviation of Al rhizotoxicity by Ca and Mg can differ among species and genotypes. Root elongation of soybean [Glycine max (L.) Merr.] line N93-S-179 and cvs. Young and Ransom exposed to varying concentrations of Al, Ca and Mg were compared in two experiments using a vertically split root system. Roots extending from a surface compartment with limed soil grew for 12 days into a subsurface compartment with nutrient solution treatments maintained at pH 4.6 with either 0 or 15 µmol L-1 Al. Calcium and Mg concentrations in treatments ranging from 0 to 20 mmol L-1. Although an adequate supply of Mg was provided in the surface soil compartment for soybean top growth, an inclusion of Mg was necessary in the subsurface solutions to promote root elongation in both the presence and absence of Al. In the absence of Al in the subsurface solution, tap root length increased by 74 % and lateral root length tripled when Mg in the solutions was increased from 0 to either 2 or 10 mmol L-1. In the presence of 15 µmol L-1 Al, additions of 2 or 10 mmol L-1 Mg increased tap root length fourfold and lateral root length by a factor of 65. This high efficacy of Mg may have masked differences in Al tolerance between genotypes N93 and Young. Magnesium was more effective than Ca in alleviating Al rhizotoxicity, and its ameliorative properties could not be accounted for by estimated electrostatic changes in root membrane potential and Al3+ activity at the root surface. The physiological mechanisms of Mg alleviation of Al injury in roots, however, are not known.
Highlights
Proposed mechanisms for alleviation of aluminum (Al) rhizotoxicity by calcium (Ca) and magnesium (Mg) additions to soil and nutrient solutions involve a reduction of Al activity at the plasma membrane or competition for binding sites in the root apoplasm (Alva et al, 1986; Kinraide & Parker, 1987; Grauer & Horst, 1992; Kinraide, 1994; 1998)
Aluminum is more effective than Ca in displacing Mg ions from binding sites in the root apoplasm and can substitute Mg at critical enzymatic and regulatory sites in the symplasm (Macdonald & Martin, 1988)
Calcium is a key second messenger involved in cell signaling cascades, which are important components of the whole cell metabolism and offer plants the possibility to adapt to changing environments (Bush, 1995; Trewawas & Malhó, 1997; Sanders et al, 1999; White & Broadley, 2003)
Summary
Proposed mechanisms for alleviation of aluminum (Al) rhizotoxicity by calcium (Ca) and magnesium (Mg) additions to soil and nutrient solutions involve a reduction of Al activity at the plasma membrane or competition for binding sites in the root apoplasm (Alva et al, 1986; Kinraide & Parker, 1987; Grauer & Horst, 1992; Kinraide, 1994; 1998). Some investigators suggest that Mg is more effective than Ca in competing with Al for binding sites (Keltjens & Dijkstra, 1991), but others postulate that it is less effective than Ca in competing with Al for exchange sites at the plasma membrane (Kinraide & Parker, 1987; Grauer & Horst, 1992). These discrepancies may be partially explained by the differential effectiveness of these cations according to the plant species evaluated. Calcium is a key second messenger involved in cell signaling cascades, which are important components of the whole cell metabolism and offer plants the possibility to adapt to changing environments (Bush, 1995; Trewawas & Malhó, 1997; Sanders et al, 1999; White & Broadley, 2003)
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