Surface and Groundwater Pollution: the Invisible, Creeping Threat to Human Health

Surface and Groundwater Pollution: the Invisible, Creeping Threat to Human Health

This study reports pollution source apportionment of surface waters and human health risk assessment based on 18 physicochemical and traces elements from 24 water quality monitoring sites for surface and groundwater around the two trans-boundary rivers of Pakistan: The Ravi and Sutlej. The principal...

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Main Authors: Shah Hammad Ahmed, Sheraz Muhammad, Khan Afed Ullah, Khan Fayaz Ahmad, Shah Liaqat Ali, Khan Jehanzeb, Khan Ashfaq, Khan Zahoor
Format: Article
Language:English
Published: Sciendo 2020-06-01
Series:Civil and Environmental Engineering
Subjects:
hazard index (hi)
hazard quotient (hq)
human health
risk assessment
surface and groundwater
Online Access:https://doi.org/10.2478/cee-2020-0016
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spelling doaj-e2338464f72348ba803b5637975eda642021-09-06T19:22:01ZengSciendoCivil and Environmental Engineering1336-58352199-65122020-06-0116115716910.2478/cee-2020-0016cee-2020-0016Surface and Groundwater Pollution: the Invisible, Creeping Threat to Human HealthShah Hammad Ahmed0Sheraz Muhammad1Khan Afed Ullah2Khan Fayaz Ahmad3Shah Liaqat Ali4Khan Jehanzeb5Khan Ashfaq6Khan Zahoor7Department of Civil Engineering, University of Engineering and Technology Peshawar (Bannu Campus), 25000, Bannu, Pakistan.Department of Civil Engineering, University of Engineering and Technology Peshawar (Bannu Campus), 25000, Bannu, Pakistan.Department of Civil Engineering, University of Engineering and Technology Peshawar (Bannu Campus), 25000, Bannu, Pakistan.Department of Civil Engineering, University of Engineering and Technology Peshawar (Bannu Campus), 25000, Bannu, Pakistan.Department of Civil Engineering, University of Engineering and Technology Peshawar (Bannu Campus), 25000, Bannu, Pakistan.Higher Education Department, Khyber Pakhtunkhwa Peshawar, 25000, Pakistan.Department of Civil Engineering, University of Engineering and Technology Peshawar (Bannu Campus), 25000, Bannu, Pakistan.Department of Civil Engineering, University of Engineering and Technology Peshawar (Bannu Campus), 25000, Bannu, Pakistan.This study reports pollution source apportionment of surface waters and human health risk assessment based on 18 physicochemical and traces elements from 24 water quality monitoring sites for surface and groundwater around the two trans-boundary rivers of Pakistan: The Ravi and Sutlej. The principal component analysis identified 6 principal components (76.98 % cumulative variance) which are mainly caused by untreated industrial effluents, intense agricultural activities, and irrigation tailwater discharges. For all dissolved trace elements in surface waters, health hazard indices (HI) and hazard quotients (HQ) through ingestion and dermal contact are < 1 except As and Cr through ingestion only (for both adults and children). For adults and children, the HQingestion and HI values for As, Mn, Cu (for children only) and As, Fe, Mn (for children only) are > 1, indicating that As, Mn, Fe, and Cu are the most important pollutants causing chronic risks among the selected trace elements in both shallow and deep groundwater respectively. HQingestion, HQdermal, and HI values are higher for children than that of adults which shows the high susceptibility of children to these dissolved trace elements. The carcinogenic indices for the entire surface water elements exceed 10−6 through dermal and ingestion pathways suggesting carcinogenic health risk to the surrounding community. Hence, to protect human health, wastewater treatment plants and best management practices should be practiced to control point source and nonpoint source pollution respectively in the understudied area.https://doi.org/10.2478/cee-2020-0016hazard index (hi)hazard quotient (hq)human healthrisk assessmentsurface and groundwater
collection DOAJ
language English
format Article
sources DOAJ
author Shah Hammad Ahmed
Sheraz Muhammad
Khan Afed Ullah
Khan Fayaz Ahmad
Shah Liaqat Ali
Khan Jehanzeb
Khan Ashfaq
Khan Zahoor
spellingShingle Shah Hammad Ahmed
Sheraz Muhammad
Khan Afed Ullah
Khan Fayaz Ahmad
Shah Liaqat Ali
Khan Jehanzeb
Khan Ashfaq
Khan Zahoor
Surface and Groundwater Pollution: the Invisible, Creeping Threat to Human Health
Civil and Environmental Engineering
hazard index (hi)
hazard quotient (hq)
human health
risk assessment
surface and groundwater
author_facet Shah Hammad Ahmed
Sheraz Muhammad
Khan Afed Ullah
Khan Fayaz Ahmad
Shah Liaqat Ali
Khan Jehanzeb
Khan Ashfaq
Khan Zahoor
author_sort Shah Hammad Ahmed
title Surface and Groundwater Pollution: the Invisible, Creeping Threat to Human Health
title_short Surface and Groundwater Pollution: the Invisible, Creeping Threat to Human Health
title_full Surface and Groundwater Pollution: the Invisible, Creeping Threat to Human Health
title_fullStr Surface and Groundwater Pollution: the Invisible, Creeping Threat to Human Health
title_full_unstemmed Surface and Groundwater Pollution: the Invisible, Creeping Threat to Human Health
title_sort surface and groundwater pollution: the invisible, creeping threat to human health
publisher Sciendo
series Civil and Environmental Engineering
issn 1336-5835
2199-6512
publishDate 2020-06-01
description This study reports pollution source apportionment of surface waters and human health risk assessment based on 18 physicochemical and traces elements from 24 water quality monitoring sites for surface and groundwater around the two trans-boundary rivers of Pakistan: The Ravi and Sutlej. The principal component analysis identified 6 principal components (76.98 % cumulative variance) which are mainly caused by untreated industrial effluents, intense agricultural activities, and irrigation tailwater discharges. For all dissolved trace elements in surface waters, health hazard indices (HI) and hazard quotients (HQ) through ingestion and dermal contact are < 1 except As and Cr through ingestion only (for both adults and children). For adults and children, the HQingestion and HI values for As, Mn, Cu (for children only) and As, Fe, Mn (for children only) are > 1, indicating that As, Mn, Fe, and Cu are the most important pollutants causing chronic risks among the selected trace elements in both shallow and deep groundwater respectively. HQingestion, HQdermal, and HI values are higher for children than that of adults which shows the high susceptibility of children to these dissolved trace elements. The carcinogenic indices for the entire surface water elements exceed 10−6 through dermal and ingestion pathways suggesting carcinogenic health risk to the surrounding community. Hence, to protect human health, wastewater treatment plants and best management practices should be practiced to control point source and nonpoint source pollution respectively in the understudied area.
topic hazard index (hi)
hazard quotient (hq)
human health
risk assessment
surface and groundwater
url https://doi.org/10.2478/cee-2020-0016
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