Effect of Swine Manure Amendment on Pb2+, Cu2+, Zn2+, and Ni2+ Competitive Sorption onto Agricultural Soil

Aims/Objectives: An agricultural tropical soil treated and untreated with swine manure was evaluated to Pb2+, Cu2+, Zn2+, and Ni2+ competitive sorption dynamics.
Study Design: Metal ion mobility patterns were evaluated by sorption-desorption reactions with the mineral and organic matter soil phases.

Place and Duration of Study: Agronomic Institute of Parana (IAPAR) at Londrina city, Parana State, Southern Brazil, in an experiment conducted since June 2008.
Methodology: Soybean and corn were growing up in the experimental area in summer and winter, respectively. Swine manure (SM) was applied twice a year, and the amount was calculated according each crop necessity. Experiments were in batch, varying the metal ion concentration
from 1.0 to 10 meq L−1. After equilibrium, the solid phase was analyzed by EDXRF and liquid phase by ICP-OES. Metal ion mobility was evaluated by applying the dual-mode Langmuir- Freundlich mathematical model, in addition to rate removal and Gibb’s free energy determination.
Results: Sorption capacity increased after the SM amendment, and the retention sequence Pb2+>Cu2+>Zn2+>Ni2+ was observed. The sorption capacity increased in 30%, 45%, 176%, and 231% for Pb2+, Cu2+, Zn2+, and Ni2+, respectively. The relative intensity of the fluorescence emission lines showed metal ion sorption increased after the amendment, keeping the same sequence observed for the adjustable parameters from the fitting by dual-mode Langmuir- Freundlich model.

Conclusion: The possibility of a controlled release of micronutrients, considering low-affinity sorption sites, brings an excellent look to the swine manure amendment.