Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment

Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment

The contribution of non-point source pollution (NPS) to the contamination of surface water is an issue of growing concern. Non-point source (NPS) pollutants are of various types and altered by several site-specific factors making them difficult to control due to complex uncertainties involve in thei...

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Main Authors: Abdulkareem, Jabir Haruna, Sulaiman, Wan Nor Azmin, Pradhan, Biswajeet, Jamil, Nor Rohaizah
Format: Article
Language:English
Published: Springer 2018
Online Access:http://psasir.upm.edu.my/id/eprint/74855/1/Long%E2%80%91term%20hydrologic.pdf
http://psasir.upm.edu.my/id/eprint/74855/
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Institution: Universiti Putra Malaysia
Language: English
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spelling my.upm.eprints.748552020-10-17T20:17:27Z http://psasir.upm.edu.my/id/eprint/74855/ Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment Abdulkareem, Jabir Haruna Sulaiman, Wan Nor Azmin Pradhan, Biswajeet Jamil, Nor Rohaizah The contribution of non-point source pollution (NPS) to the contamination of surface water is an issue of growing concern. Non-point source (NPS) pollutants are of various types and altered by several site-specific factors making them difficult to control due to complex uncertainties involve in their behavior. Kelantan River basin, Malaysia is a tropical catchment receiving heavy monsoon rainfall coupled with intense land use/land cover (LULC) changes making the area consistently flood prone thereby deteriorating the surface water quality in the area. This study was conducted to determine the spatio-temporal variation of NPS pollutant loads among different LULC changes and to establish a NPS pollutant loads relationships among LULC conditions and sub-basins in each catchment. Four pollutants parameters such as total suspended solids (TSS), total phosphorus (TP), total nitrogen (TN) and ammonia nitrogen (AN) were chosen with their corresponding event mean concentration values (EMC). Soil map and LULC change maps corresponding to 1984, 2002 and 2013 were used for the calculation of runoff and NPS pollutant loads using numeric integration in a GIS environment. Analysis of Variance (ANOVA) was conducted for the comparison of NPS pollutant loads among the three LULC conditions used and the sub-basins in each catchment. The results showed that the spatio-temporal variation of pollutant loads in almost all the catchments increased with changes in LULC condition as one moves from 1984 to 2013, with 2013 LULC condition found as the dominant in almost all cases. NPS pollutant loads among different LULC changes also increased with changes in LULC condition from 1984 to 2013. While urbanization was found to be the dominant LULC change with the highest pollutant load in all the catchments. Results from ANOVA reveals that statistically most significant (p < 0.05) pollutant loads were obtained from 2013 LULC conditions, while statistically least significant (p < 0.05) pollutant loads were obtained under 1984 LULC condition. This reveals the clear effect of LULC changes on NPS pollution. The findings of this study may be useful to water resource planners in controlling water pollution for future planning. Springer 2018-05 Article PeerReviewed text en http://psasir.upm.edu.my/id/eprint/74855/1/Long%E2%80%91term%20hydrologic.pdf Abdulkareem, Jabir Haruna and Sulaiman, Wan Nor Azmin and Pradhan, Biswajeet and Jamil, Nor Rohaizah (2018) Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment. Earth Systems and Environment, 2 (1). 67 - 84. ISSN 2509-9426; ESSN: 2509-9434 10.1007/s41748-018-0042-1
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description The contribution of non-point source pollution (NPS) to the contamination of surface water is an issue of growing concern. Non-point source (NPS) pollutants are of various types and altered by several site-specific factors making them difficult to control due to complex uncertainties involve in their behavior. Kelantan River basin, Malaysia is a tropical catchment receiving heavy monsoon rainfall coupled with intense land use/land cover (LULC) changes making the area consistently flood prone thereby deteriorating the surface water quality in the area. This study was conducted to determine the spatio-temporal variation of NPS pollutant loads among different LULC changes and to establish a NPS pollutant loads relationships among LULC conditions and sub-basins in each catchment. Four pollutants parameters such as total suspended solids (TSS), total phosphorus (TP), total nitrogen (TN) and ammonia nitrogen (AN) were chosen with their corresponding event mean concentration values (EMC). Soil map and LULC change maps corresponding to 1984, 2002 and 2013 were used for the calculation of runoff and NPS pollutant loads using numeric integration in a GIS environment. Analysis of Variance (ANOVA) was conducted for the comparison of NPS pollutant loads among the three LULC conditions used and the sub-basins in each catchment. The results showed that the spatio-temporal variation of pollutant loads in almost all the catchments increased with changes in LULC condition as one moves from 1984 to 2013, with 2013 LULC condition found as the dominant in almost all cases. NPS pollutant loads among different LULC changes also increased with changes in LULC condition from 1984 to 2013. While urbanization was found to be the dominant LULC change with the highest pollutant load in all the catchments. Results from ANOVA reveals that statistically most significant (p < 0.05) pollutant loads were obtained from 2013 LULC conditions, while statistically least significant (p < 0.05) pollutant loads were obtained under 1984 LULC condition. This reveals the clear effect of LULC changes on NPS pollution. The findings of this study may be useful to water resource planners in controlling water pollution for future planning.
format Article
author Abdulkareem, Jabir Haruna
Sulaiman, Wan Nor Azmin
Pradhan, Biswajeet
Jamil, Nor Rohaizah
spellingShingle Abdulkareem, Jabir Haruna
Sulaiman, Wan Nor Azmin
Pradhan, Biswajeet
Jamil, Nor Rohaizah
Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment
author_facet Abdulkareem, Jabir Haruna
Sulaiman, Wan Nor Azmin
Pradhan, Biswajeet
Jamil, Nor Rohaizah
author_sort Abdulkareem, Jabir Haruna
title Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment
title_short Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment
title_full Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment
title_fullStr Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment
title_full_unstemmed Long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (LULC) changes in a tropical complex catchment
title_sort long‑term hydrologic impact assessment of non‑point source pollution measured through land use/land cover (lulc) changes in a tropical complex catchment
publisher Springer
publishDate 2018
url http://psasir.upm.edu.my/id/eprint/74855/1/Long%E2%80%91term%20hydrologic.pdf
http://psasir.upm.edu.my/id/eprint/74855/
_version_ 1681490802041159680

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