Carbon mineralization in mine tailing ponds amended with pig slurries and marble wastes

Authors : Raul ZORNOZA, Angel Faz CANO, Dora M CARMONA, Jose A ACOSTA, Silvia MARTÍNEZMARTÍNEZ, Sebla KABAS
Pages : 104-109
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Publication Date : 2012-06-01
Article Type : Research Paper
Abstract :Effective application of organic residues to reclaim soils requires the optimization of the waste management to minimize CO 2 emissions and optimize soil C sequestration efficiency. In this study, the short-term effects of pig slurry amendment alone and together with marble waste on organic matter mineralization in two tailing ponds from Cartagena-La Unión Mining District insert ignore into journalissuearticles values(SE Spain); were investigated in a field remediation experiment. The treatments were: marble waste insert ignore into journalissuearticles values(MW);, pig slurry insert ignore into journalissuearticles values(PS);, marble waste + pig slurry insert ignore into journalissuearticles values(MW+PS);, and control. Soil carbon mineralization was determined using a static chamber method with alkali absorption during 70 days. Soil respiration rates in all plots were higher the first days of the experiment owing to higher soil moisture and higher mean air temperature. MW plots followed the same pattern than control plots, with similar respiration rates. The addition of pig slurry caused a significant increase in the respiration rates, although in MW+PS plots, respiration rates were lower than in PS plots. The cumulative quantities of C-CO 2 evolved from the pig slurry mineralization were fitted to a first-order kinetic model explaining 90% of the data. This model implies the presence of only one mineralisable pool insert ignore into journalissuearticles values(C 0 );. The values of the index C 0 *constant rate/added C were similar for PS plots in both tailing ponds, but lower in the MW+PS treatment, suggesting that the application of marble reduces the degradability of the organic compounds present in the pig slurry. Thus, the application of marble wastes contributes to slow down the loss of organic matter by mineralization.
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