Influence of dissolved organic matter on methylmercury transformation during aerobic composting of municipal sewage sludge under different C/N ratios.

J Environ Sci (China)

School of Environment and Health, Jianghan University, Wuhan 430056, China; Department of Chemistry and Biochemistry & Southeast Environmental Research Center, Florida International University, Miami, FL 33199, USA.

Published: September 2022

AI Article Synopsis

  • * At C/N ratios of 20 and 26, mercury was primarily found as organo-chelated Hg, while at a C/N ratio of 30, it was mainly in the form of mercuric sulfide; the composition of dissolved organic matter (DOM) also varied significantly across these ratios.
  • * The study found that a C/N ratio of 30 resulted in the least production of methylmercury and the best compost quality, suggesting it

Article Abstract

Current knowledge about the transformation of total mercury and methylmercury (MeHg) in aerobic composting process is limited. In this study, the composition and transformation of mercury and dissovled organic matter (DOM) in aerobic composting process of municipal sewage sludge were were comprehensively characterized, and the differences among the three C/N ratio (20, 26 and 30) were investigated. The main form of mercury in C/N 20 and 26 was organo-chelated Hg (F3, 46%-60%); while the main form of mercury in C/N 30 was mercuric sulfide (F5, 64%-70%). The main component of DOM in C/N 20 and 26 were tyrosine-like substance (C1, 53%-76%) while the main fractions in C/N 30 were tyrosine-like substance (C1, 28%-37%) and fulvic-like substance (C2, 17%-39%). The mercury and DOM varied significantly during the 9 days composting process. Compared to C/N 20 and 26, C/N 30 produced the less MeHg after aerobic composting process, with values of 658% (C/N 20), 1400% (C/N 26) and 139% (C/N 30) of the initial, respectively. Meanwhile, C/N 30 produced the best compost showed greater degree of DOM molecular condensation and humification. Hg fraction had been altered by DOM, as indicated by a significant correlation between mercury species and DOM components. Notably, C/N 30 should be used as an appropriate C/N ratio to control the methylation processes of mercury and degration of DOM.

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Source
http://dx.doi.org/10.1016/j.jes.2022.06.035DOI Listing

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