The variation in wheat (Triticum aestivum L.) grain cadmium (Cd) concentrat
ions between different cultivars was investigated along with a preliminary
ranking of soil properties in terms of their importance in controlling whea
t grain Cd concentrations. Results indicate that there is considerable vari
ation in Cd concentrations in New Zealand wheat grain samples. The mean Cd
concentration for wheat in this study is 54 mug kg(-1) fresh weight (FW). T
en percent of the grain samples examined in this study are non-compliant wi
th the maximum permissible concentration (MPC) for Cd in wheat grain. Howev
er almost 50% of non-compliant samples were found at a single site, and at
a number of sites no samples exceeded MPC. There was a 4-fold range in the
abilities of different wheat cultivars to accumulate Cd in grain. There was
also seasonal variation in Cd uptake for wheat cultivars grown at the same
site. Extractable soil Cd using a weak salt reagent yielded the highest co
rrelation with grain Cd concentrations in spring wheat across all soils, wh
ereas no significant relationships were found for winter wheat. There were
no significant simple correlations between major soil properties and wheat
grain Cd concentrations for either winter or spring wheat. For winter wheat
, a multiple regression model with terms for total zinc (Zn) and CaCl2-extr
actable Cd yielded the highest correlation with winter wheat Cd concentrati
ons (r(2) = 0.59 P < 0.05). Low Cd accumulating wheat cultivars can be sele
cted for use at sites where the Cd concentration in grain exceeds the MPC.
Future work is required to determine which soil properties are important in
controlling wheat grain Cd concentrations.