Landfill use: A potential source of toxicant to aquatic life

Regardless of the beneficial aspect of landfill use, its environmental impact becomes subject of concern to sustainability and development. Landfilling among other things lead to generation of leachate. Therefore this study was undertaken with a view to analyzing the detailed physicalchemical compon...

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Main Authors: Uche, Emenike Chijioke, Fauziah, Shahul Hamid, Agamuthu, Pariatamby
Format: Conference or Workshop Item
Language:English
Published: 2011
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Online Access:http://eprints.um.edu.my/12886/1/3.Landfill_use__a_potential_source_of_toxicant_to_aquatic_li.pdf
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spelling my.um.eprints.128862019-12-06T06:26:05Z http://eprints.um.edu.my/12886/ Landfill use: A potential source of toxicant to aquatic life Uche, Emenike Chijioke Fauziah, Shahul Hamid Agamuthu, Pariatamby Q Science (General) Regardless of the beneficial aspect of landfill use, its environmental impact becomes subject of concern to sustainability and development. Landfilling among other things lead to generation of leachate. Therefore this study was undertaken with a view to analyzing the detailed physicalchemical components of leachate from closed sanitary landfill and its associated impact on fish (Clarias batrachus). Whole effluent toxicity (WET) approach was used to evaluate the toxicological effect of leachate on fish. Five different concentrations of the leachate (3.13 – 5.63 % v/v) as observed during the range finding test were applied definitively to obtain the effluent’s lethal concentration (LC50) on the named fish. BOD5, COD, heavy metals and other components which included aromatic hydrocarbons were analyzed via standard methods (APHA, EPA, and AOAC). About 880 mg/L of ammonical nitrogen was a reflection of the leachate’s stench ammoniac odour. The BOD5 and COD analysis were recorded at 3,500 mg/L and 10, 234 mg/L respectively, whereas, benzene, toluene and ethyl benzene concentrations were 0.22 mg/L, 1.2 mg/L and 0.86 mg/L respectively, and above allowable/permissible discharge limit according to EPA standards. The acute toxicity test via static use of the leachate revealed an LC50 of 5.88% on C.batrachus as calculated using Finney’s probit analysis from EPA. The study concluded that fish mortality observed in the research can be attributed to the physical-chemical constituents of the landfill leachate. Therefore it can be inferred that despite the use of landfills as waste management option, yet its negative impact on the immediate environment need to be investigated more. 2011-10 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.um.edu.my/12886/1/3.Landfill_use__a_potential_source_of_toxicant_to_aquatic_li.pdf Uche, Emenike Chijioke and Fauziah, Shahul Hamid and Agamuthu, Pariatamby (2011) Landfill use: A potential source of toxicant to aquatic life. In: International Solid Waste Association Congress 2011, 17 Oct 2011, Daegu, Korea.
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
language English
topic Q Science (General)
spellingShingle Q Science (General)
Uche, Emenike Chijioke
Fauziah, Shahul Hamid
Agamuthu, Pariatamby
Landfill use: A potential source of toxicant to aquatic life
description Regardless of the beneficial aspect of landfill use, its environmental impact becomes subject of concern to sustainability and development. Landfilling among other things lead to generation of leachate. Therefore this study was undertaken with a view to analyzing the detailed physicalchemical components of leachate from closed sanitary landfill and its associated impact on fish (Clarias batrachus). Whole effluent toxicity (WET) approach was used to evaluate the toxicological effect of leachate on fish. Five different concentrations of the leachate (3.13 – 5.63 % v/v) as observed during the range finding test were applied definitively to obtain the effluent’s lethal concentration (LC50) on the named fish. BOD5, COD, heavy metals and other components which included aromatic hydrocarbons were analyzed via standard methods (APHA, EPA, and AOAC). About 880 mg/L of ammonical nitrogen was a reflection of the leachate’s stench ammoniac odour. The BOD5 and COD analysis were recorded at 3,500 mg/L and 10, 234 mg/L respectively, whereas, benzene, toluene and ethyl benzene concentrations were 0.22 mg/L, 1.2 mg/L and 0.86 mg/L respectively, and above allowable/permissible discharge limit according to EPA standards. The acute toxicity test via static use of the leachate revealed an LC50 of 5.88% on C.batrachus as calculated using Finney’s probit analysis from EPA. The study concluded that fish mortality observed in the research can be attributed to the physical-chemical constituents of the landfill leachate. Therefore it can be inferred that despite the use of landfills as waste management option, yet its negative impact on the immediate environment need to be investigated more.
format Conference or Workshop Item
author Uche, Emenike Chijioke
Fauziah, Shahul Hamid
Agamuthu, Pariatamby
author_facet Uche, Emenike Chijioke
Fauziah, Shahul Hamid
Agamuthu, Pariatamby
author_sort Uche, Emenike Chijioke
title Landfill use: A potential source of toxicant to aquatic life
title_short Landfill use: A potential source of toxicant to aquatic life
title_full Landfill use: A potential source of toxicant to aquatic life
title_fullStr Landfill use: A potential source of toxicant to aquatic life
title_full_unstemmed Landfill use: A potential source of toxicant to aquatic life
title_sort landfill use: a potential source of toxicant to aquatic life
publishDate 2011
url http://eprints.um.edu.my/12886/1/3.Landfill_use__a_potential_source_of_toxicant_to_aquatic_li.pdf
http://eprints.um.edu.my/12886/
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