Acid soils, which represent a large fraction of arable soils in the world,
frequently have an excess of available aluminum (AP) and manganese (Mn). In
such problem soils, plant genotypes with a higher degree of tolerance to l
ow pH and or an excess of these minerals are recommended. In previous works
cereal triticale demonstrated considerable tolerance both for Al and Mn ex
cess, but with a large variability among cultivars (cvs.). This article ext
ends the evaluation to other cvs. and discusses the contribution of changes
in mineral uptake and translocation to the growth inhibition in cases of M
n excess. Plants of nine cvs. of triticale and one of wheat were submitted
to a range of Mn concentrations from 2.5 to 50 mg 1(-1) and growth evaluate
d through dried biomass, both in the vegetative stage after 1 month of grow
th and after the filling of the grain. Mineral analysis that included nitro
gen (N), potassium (K), phosphorus (P), calcium (Ca), magnesium (Mg), iron
(Fe), zinc (Zn), and Mn was conducted on the dried plant material. From the
growth inhibition we concluded that the cvs. Juanilho, Borba, TTE 9201 and
BH 1146(wheat) are more tolerant and that the cvs. Arabian, Beagle, TTE 91
01, and TTE 9203 are more sensitive. The capacity to reduce the Mn uptake a
nd therefore to avoid very high tissue concentrations in the leaf could be
a strategy contributing to a higher tolerance in TTE 9201 and wheat BI-I 11
46. Significant decreases in Ca and Mg and increases in Zn were observed. A
lso a good correlation between the Mg:Mn ratio and the relative growth envo
lving all the cvs. was observed.