115-3 Lead Sorption and Dessorption in Oxisols from Paraná-Brazil.

See more from this Division: SSSA Division: Soil Mineralogy
See more from this Session: Soil Mineralogy: I (Includes Student Competition)

Monday, November 16, 2015: 3:15 PM
Minneapolis Convention Center, 103 A

Antonio C. S. Costa1, Frederico Prestes Gomes2, Dimas A.M. Zaia3, Ivan Granemann Souza Junior4 and João Paulo Trevisan Bau3, (1)Agronomy, State University of Maringa, Maringa, PR, BRAZIL
(2)Agronomy, State University of Maringá, Maringá, Brazil
(3)Chemistry, State University of Londrina, Londrina, Brazil
(4)Agronomy, State University of Maringa, Maringa, Brazil
Abstract:
This work aimed to evaluate the sorption and desorption of lead in Oxisols of Paraná. Initially were selected six Paraná State Oxisols where samples of your horizon A and Bw were collected. In these soils were carried out physical, chemical and mineralogical and these data correlated with the values of sorption and desorption of lead. In the lead sorption process in soil were obtained remaining and adsorbed amounts of lead, maximum lead adsorption capacity (CMAPb), binding energy (EL), distribution coefficient (Kd), Gibbs free energy (ΔG0) and adsorption envelope. In the desorption process, the effects of pH on the adsorption of lead sequential desorption with CaCl2 and Mehlich-1 which is an acid extractant (pH = 1.5). Lead adsorbed has formed outer sphere complex-CEE and inner sphere complex with the surfaces of soil particles. The values of CMAPb, EL, Kd and DG0, varied from  (5555 to 934 mg kg-1), (0,047 to 0,9 L mg-1), (16,9 to 2876,1 L kg-1), (-9536 to -847 J mol-1), respectively. The values of desorption with CaCl2 0,01M varied from 1,4 to 70% and with Mehlich-1 varied from 14 to 97%. Through the Pearson linear correlation was observed that the primary responsibility for the highest sorption of lead in soil were the chemical properties (pH, SB, CTC, V%, P e C) and mineralogical (Mgh, Hm e Fet). Based on the correlation data it was observed that the primary responsibility for a lower desorption of lead with CaCl2 are chemical (pH, CTC, P, C, SB and V%) and mineralogical (Mgh, Hm, Fet and Feo). Already percentage desorbed with Mehlich-1 showed the opposite correlation obtained for CaCl2 and showed a negative correlation the relation Fd / Ft, indicating a smaller percentage of lead desorption in weathered soils.

See more from this Division: SSSA Division: Soil Mineralogy
See more from this Session: Soil Mineralogy: I (Includes Student Competition)