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Effect of Monorhamnolipid Contribution on Anaerobic-Natural Attenuation of Explosives in Contaminated Soils Publisher



Amin MM1, 2 ; Khanahmad H3 ; Teimouri F4, 5 ; Sadani M6 ; Karami MA7 ; Hatamzadeh M8
Authors
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Authors Affiliations
  1. 1. Environment Research Center, Research Institute for Primordial Prevention of Noncommunicable Disease, Isfahan Univ. of Medical Sciences, Isfahan, Iran
  2. 2. Dept. of Environmental Health Engineering, School of Health, Isfahan Univ. of Medical Sciences, Isfahan, Iran
  3. 3. Dept. of Genetics, School of Medicine, Isfahan Univ. of Medical Sciences, Isfahan, Iran
  4. 4. Environment Research Center, Isfahan Univ. of Medical Sciences, Isfahan, Iran
  5. 5. Dept. of Environmental Health Engineering, Student Research Committee, School of Health, Isfahan Univ. of Medical Sciences, Isfahan, Iran
  6. 6. Dept. of Environmental Health Engineering, School of Health, Shahid Beheshti Univ. of Medical Sciences, Tehran, Iran
  7. 7. Environment Research Center, Dept. of Environmental Health Engineering, Isfahan Univ. of Medical Sciences, Student Research Committee, School of Health, Isfahan, Iran
  8. 8. Environment Research Center, Dept. of Environmental Health Engineering, School of Health, Isfahan Univ. of Medical Sciences, Isfahan, Iran

Source: Journal of Environmental Engineering (United States) Published:2017


Abstract

At least 90% of the research on bioremediation has been based on the use of materials in cometabolism and/or as electron donors. The main purpose of this study was to evaluate biodegradation rates of explosives in soil in terms of economics and feasibility. Two lab-scale bioreactors were operated in this study, and results showed biodegradation rates of 2,4,6-trinitrotoluene (TNT) and pentaerythritol tetranitrate (PETN) at 84 and 67% after 60 days compared with rates of 46 and 29% without the monorhamnolipid contribution. Chemical oxygen demand (COD) was monitored during bioremediation and showed that reduction in COD concentration was directly proportional to desorption of intermediates from the soil matrix and their degradation, along with degradation of the parent compounds. Results also showed that the anaerobic condition for nitroaromatic bioreduction as the sole source of nitrogen was time consuming. The monorhamnolipid overcomes this challenge via enhanced biodegradation efficiency of nitroaromatics. Furthermore, application of the monorhamnolipid as in situ explosive bioremediation is feasible, suitable, environmentally friendly, and economical, especially in hot and wet areas with extensive contamination. © 2017 American Society of Civil Engineers.
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