Md. Cramer et Cha. Titus, Elevated root zone dissolved inorganic carbon can ameliorate aluminium toxicity in tomato seedlings, NEW PHYTOL, 152(1), 2001, pp. 29-39
The potential amelioration of Al (Al) toxicity by elevated dissolved inorga
nic carbon (DIC = CO2 + HCO3-) in the root medium was investigated in both
NH4+ and NO3--fed Lycopersicon esculentum (tomato) plants.
Hydroponically grown L. esculentum seedlings were intermittently supplied w
ith 50 muM AlCL3 and the nutrient solutions aerated with either 360 or 5000
ppm CO2 Relative growth rate (RGR), nitrogen uptake, root respiration and
root incorporation of Dl(14)C and subsequent partitioning were measured.
Al reduced the RGR of plants grown with 360 ppm root-zone CO2. At elevated
root-zone CO2, Al had no significant effect on the RGR of NO3--fed plants w
hereas the RGR of the NH4+-fed plants was increased by 21 %. Al decreased t
he respiratory quotient (Rq) by 15% at 360 ppm CO2, but had no influence at
2000 ppm CO2 Exudation of organic C-14, especially of [C-14]-organic acids
derived from root incorporation of Dl(14)C, was increased by Al.
It is concluded that elevated DIC partially ameliorated Al toxicity by prov
iding anaplerotic carbon for organic acid synthesis.