Cadmium Solubility and Phytoavailability in Sludge-Treated Soil: Effects of Soil Organic Carbon

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Cadmium Solubility and Phytoavailability in Sludge-Treated Soil: Effects of Soil Organic Carbon

Hae-nam Hyun

Department of Agricultural Chemistry, Cheju National University, Cheju, Cheju-Do, Republic of Korea;

A. C. Chang^*, D. R. Parker and A. L. Page

Department of Soil and Environmental Sciences, University of California, Riverside, California.

^{^*} Corresponding author (acchang{at}citrus.ucr.edu).

ABSTRACT

Slow mineralization of organic matter in sewage sludge-treatedsoil could release metals into more labile forms, which wouldthen be more available for plant absorption. We examined theeffect of soil organic matter decomposition on the phytoavailabilityof Cd in soils which, prior to this experiment, received 0 (control),22.5, 45, 90, 180 Mg ha^–1 yr^–1 of sewage sludgefor 6 yr. At the commencement of the experiment, one-half ofthe experimental plots continued to receive sewage sludge application`atthe prescribed rates. Sewage sludge application in the otherhalf of the plots was terminated. All treated soils were croppedto Swiss chard (Beta vulgaris) twice each year for 10 yr andthe soil was sampled after each crop harvest. When sewage sludgeapplications were teenated, the soluble Cd concentrations ofthe sludge-treated soil were higher than those in the controlsoils and did not decline significantly over the next 10 yr.With continuous sludge applications, the soluble Cd concentrationof sludge-treated soils increased with each incremental additionof sludge for the same 10 yr. In soils receiving continuoussewage sludge inputs, the organic C content continued to risewith sludge inputs. After the termination of sludge application,organic C content of the sludge-treated soils decreased by approximately40% over the 10-yr study. There was no indication that the solubleCd concentration or the phytoavailability of Cd in the sludge-treatedsoils increased as the organic C in these soils declined overthe 10 yr following termination of sewage sludge application.

NOTES

Joint Contribution from Department of Soil and EnvironmentalSciences, University of California, Riverside, CA and Departmentof Agricultural Chemistry, Cheju National University, Cheju,Cheju-Do, Republic of Korea.

Received for publication August 14, 1996.

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