Cadmium availability in Oxisols and its transfer and toxicity to lettuce, rice and bean crops

Cadmium (Cd) is potentially toxic element to plants, animals and humans. Cd is particularly dangerous due to its relatively high mobility in soils and transfer to plants. Moreover, plants growing in contaminated soils can accumulate Cd in edible tissues in large quantities without any visible signs. Cd has received considerable attention in view of its association with a number of human health problems. Due to increasing concern about the intake of Cd in foods, the risks of its potential entry in the food chain need to be carefully considered. The objective of this study was to evaluate the availability of Cd in soil, the uptake by plants and to estimate the daily intake of Cd from lettuce, rice and bean plants grown in Brazilian tropical soils. The experiment was carried out under greenhouse conditions in Piracicaba, state of São Paulo, Brazil. Lettuce, rice and bean plants were cultivated in pots filled with 3 dm3 of two Oxisols (Typic Hapludox and Rhodic Hapludox) using a randomized block design in a factorial scheme (5 x 2) with three replicates. The treatments consisted of: 0.0; 0.5; 1.3; 3.0 and 6.0 mg dm-3 rates of Cd (as CdCl2), based on the guideline established by the Environmental Agency of the State of Sao Paulo CETESB. Considering all the experiments it was found that the external loading of Cd linearly increased the concentration of Cd in both soils. DTPA, Mehlich-1 e CaCl2 were effective in predicting soil Cd availability. The Cd distributions in both soils were strongly associated with exchangeable and organic matter fractions, which are characterized by instable chemical bonds. The application Cd rates decreased the plant biomass. However, the crops did not display any other symptoms of Cd toxicity or of deficiency in other nutrients which might be caused by the presence of Cd in the soil. Loadings of Cd to soil linearly or quadratically increased the concentration and accumulation of Cd in different parts of the plants. The concentration and accumulation of P, Cu, Fe, Ni, Mn, Pb and Zn in the root, shoot, leaves and grain were influenced differentially by Cd treatments. Cadmium distribution in different parts of the plants varied depending on the crop: lettuce = leaves > root > stem, rice = root > shoot > grains, and bean = shoot > root > pod > grain. Cadmium concentration in bean remained below the threshold for human consumption established by Brazilian legislation. However, lettuce and rice Cd concentration in edible parts exceeded the acceptable limit when the soil Cd concentration is above the quality reference value proposed by CETESB. Daily intakes of Cd from lettuce and bean plants grown in both Oxisols are within the provisional tolerable daily intake (PTDI) of Cd determined by the Food and Agriculture Organization of the United Nations FAO/WHO. However, the daily intake of Cd from rice for adults is above the PTDI. Consequently, the consumption of this food can pose risks to human health. (AU)