Remediation of Artificially Hydrocarbon Polluted Vadose Zone Soil in Glass Column through Percolation with Solution of Nutrient, Nutrient-Surfactant or Surfactant
Remediation of hydrocarbon polluted vadose zone (HPVZ) through percolation with solution of nutrient, nutrient-surfactant, or surfactant in glass columns was investigated in this study using standard methods. Percolated liquids from the columns and soils retrieved at the end of the experiment were...
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Joint Coordination Centre of the World Bank assisted National Agricultural Research Programme (NARP)
2020-07-01
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Series: | Journal of Applied Sciences and Environmental Management |
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Online Access: | https://www.ajol.info/index.php/jasem/article/view/197675 |
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author | P.L. Peekate J.L. Konne T.K.S. Abam |
author_facet | P.L. Peekate J.L. Konne T.K.S. Abam |
author_sort | P.L. Peekate |
collection | DOAJ |
description |
Remediation of hydrocarbon polluted vadose zone (HPVZ) through percolation with solution of nutrient, nutrient-surfactant, or surfactant in glass columns was investigated in this study using standard methods. Percolated liquids from the columns and soils retrieved at the end of the experiment were analyzed for nitrate, phosphate, sulphate, total-petroleum hydrocarbon, and selected microbial groups. Results obtained showed that there were nitrate, phosphate, and sulphate in the percolated liquids. Cumulative hydrocarbon in the percolated liquids was 5.35 – 7.59 % of cumulative hydrocarbon start-up concentration in the columns. Cumulative hydrocarbon attenuation across soil layers in column flooded with solution of nutrients (column NT), nutrient-surfactant (column NTS), and surfactant (column SF) were 89.29, 95.27, and 66.92 % respectively. There was more phosphate reduction in column NTS, and more sulphate reduction in column NT. Hydrocarbon-utilizing fungi in columns NT and NTS
increased from 3.5 Log10 CFU.g-1 to between 4.0 – 5.0 Log10 CFU.g-1, whereas a decrease was observed for column SF. Hydrocarbon-utilizing bacteria in all the columns increased from between 1.0 – 2.5 Log10 CFU.g-1 to between 2.0 - 3.5 Log10 CFU.g-1. Emergence of hydrocarbon utilization among anaerobic bacteria population was also observed in all the columns. It is concludedthat percolation with nutrient-surfactant solution will be more effective in remediation of HPVZ, and that consequential migration of nutrients alongside hydrocarbons into groundwater can
aid in enhancing biodegradation of the infiltrated hydrocarbons.
Keywords: Biodegradation; petroleum hydrocarbons; vadose zone; inorganic nutrients; surfactant
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language | English |
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publishDate | 2020-07-01 |
publisher | Joint Coordination Centre of the World Bank assisted National Agricultural Research Programme (NARP) |
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series | Journal of Applied Sciences and Environmental Management |
spelling | doaj.art-a79c3b02370c45f5a84d0886006e2a682024-04-02T19:49:15ZengJoint Coordination Centre of the World Bank assisted National Agricultural Research Programme (NARP)Journal of Applied Sciences and Environmental Management2659-15022659-14992020-07-0124610.4314/jasem.v24i6.9Remediation of Artificially Hydrocarbon Polluted Vadose Zone Soil in Glass Column through Percolation with Solution of Nutrient, Nutrient-Surfactant or SurfactantP.L. PeekateJ.L. KonneT.K.S. Abam Remediation of hydrocarbon polluted vadose zone (HPVZ) through percolation with solution of nutrient, nutrient-surfactant, or surfactant in glass columns was investigated in this study using standard methods. Percolated liquids from the columns and soils retrieved at the end of the experiment were analyzed for nitrate, phosphate, sulphate, total-petroleum hydrocarbon, and selected microbial groups. Results obtained showed that there were nitrate, phosphate, and sulphate in the percolated liquids. Cumulative hydrocarbon in the percolated liquids was 5.35 – 7.59 % of cumulative hydrocarbon start-up concentration in the columns. Cumulative hydrocarbon attenuation across soil layers in column flooded with solution of nutrients (column NT), nutrient-surfactant (column NTS), and surfactant (column SF) were 89.29, 95.27, and 66.92 % respectively. There was more phosphate reduction in column NTS, and more sulphate reduction in column NT. Hydrocarbon-utilizing fungi in columns NT and NTS increased from 3.5 Log10 CFU.g-1 to between 4.0 – 5.0 Log10 CFU.g-1, whereas a decrease was observed for column SF. Hydrocarbon-utilizing bacteria in all the columns increased from between 1.0 – 2.5 Log10 CFU.g-1 to between 2.0 - 3.5 Log10 CFU.g-1. Emergence of hydrocarbon utilization among anaerobic bacteria population was also observed in all the columns. It is concludedthat percolation with nutrient-surfactant solution will be more effective in remediation of HPVZ, and that consequential migration of nutrients alongside hydrocarbons into groundwater can aid in enhancing biodegradation of the infiltrated hydrocarbons. Keywords: Biodegradation; petroleum hydrocarbons; vadose zone; inorganic nutrients; surfactant https://www.ajol.info/index.php/jasem/article/view/197675Biodegradation; petroleum hydrocarbons; vadose zone; inorganic nutrients; surfactant |
spellingShingle | P.L. Peekate J.L. Konne T.K.S. Abam Remediation of Artificially Hydrocarbon Polluted Vadose Zone Soil in Glass Column through Percolation with Solution of Nutrient, Nutrient-Surfactant or Surfactant Journal of Applied Sciences and Environmental Management Biodegradation; petroleum hydrocarbons; vadose zone; inorganic nutrients; surfactant |
title | Remediation of Artificially Hydrocarbon Polluted Vadose Zone Soil in Glass Column through Percolation with Solution of Nutrient, Nutrient-Surfactant or Surfactant |
title_full | Remediation of Artificially Hydrocarbon Polluted Vadose Zone Soil in Glass Column through Percolation with Solution of Nutrient, Nutrient-Surfactant or Surfactant |
title_fullStr | Remediation of Artificially Hydrocarbon Polluted Vadose Zone Soil in Glass Column through Percolation with Solution of Nutrient, Nutrient-Surfactant or Surfactant |
title_full_unstemmed | Remediation of Artificially Hydrocarbon Polluted Vadose Zone Soil in Glass Column through Percolation with Solution of Nutrient, Nutrient-Surfactant or Surfactant |
title_short | Remediation of Artificially Hydrocarbon Polluted Vadose Zone Soil in Glass Column through Percolation with Solution of Nutrient, Nutrient-Surfactant or Surfactant |
title_sort | remediation of artificially hydrocarbon polluted vadose zone soil in glass column through percolation with solution of nutrient nutrient surfactant or surfactant |
topic | Biodegradation; petroleum hydrocarbons; vadose zone; inorganic nutrients; surfactant |
url | https://www.ajol.info/index.php/jasem/article/view/197675 |
work_keys_str_mv | AT plpeekate remediationofartificiallyhydrocarbonpollutedvadosezonesoilinglasscolumnthroughpercolationwithsolutionofnutrientnutrientsurfactantorsurfactant AT jlkonne remediationofartificiallyhydrocarbonpollutedvadosezonesoilinglasscolumnthroughpercolationwithsolutionofnutrientnutrientsurfactantorsurfactant AT tksabam remediationofartificiallyhydrocarbonpollutedvadosezonesoilinglasscolumnthroughpercolationwithsolutionofnutrientnutrientsurfactantorsurfactant |