Phytoextractability of Cd from Soil by Some Oilseed Species as Affected by Sewage Sludge and Farmyard Manure

Abstract

A pot experiment was conducted on cadmium (Cd)–enriched (0, 40, 80, 120, 160 mg Cd kg−1 soil, using CdCl2), untreated (Unamended), 3% sewage sludge–treated (SS-amended), and 3% farmyard manure–treated (FYM-amended) soils to evaluate the phytoextractibility of Cd by three oilseed crop species (viz., Brassica juncea, Brassica napus, and Eruca sativa). Visual observation showed that at or above 40 ppm Cd, some light chlorotic symptoms, resembling iron (Fe) chlorosis, appeared after 2 to 3 weeks of germination. The extent of chlorosis followed the order Eruca sativa > Brassica napus > Brassica juncea, and for amendment treatments Unamended > SS-amended > FYM-amended soils. Both the amendments resulted in an increased biomass production in comparison to the Unamended soil, with the effect being more pronounced for FYM. The dry-matter yield of different plant parts followed the order FYM-amended > SS-amended > Unamended soils. For plant species, it followed the order Brassica juncea > Brassica napus > Eruca sativa. The Cd concentration in different plant parts followed the order leaf > stem > seed in all the three species. Amongst the species, the concentration followed the order Brassica napus > Brassica juncea > Eruca sativa, and for amendment treatments SS-amended > Unamended > FYM-amended soils. The mean Cd uptake by different plant species followed the order Brassica juncea > Brassica napus > Eruca sativa, and for amendment treatments SS-amended soil > Unamended soil > FYM-amended soil. The amounts of exchangeable, carbonate bound, Fe-Mn oxide bound, and organic-matter-bound fractions of Cd in the postharvest soil samples increased with the addition of Cd in soil. However, the residual fraction did not change much. At comparable levels of Cd additions, application of sewage sludge as well as FYM resulted in decreases in the exchangeable and Fe-Mn oxide–bound fractions and an increase in the organic-matter-bound fraction. The beneficial effect of sewage sludge and FYM on biomass production was attributed to (i) improvement in the physicochemical and biological environment of the growth medium, (ii) additional supply of essential nutrients, and (iii) possible decrease in toxic effect of added Cd through organo-metallic complexation reactions.