Assessing the change of groundwater quality compared with land-use change and precipitation rate (Zrebar Lake's Basin)

Assessing the change of groundwater quality compared with land-use change and precipitation rate (Zrebar Lake's Basin)

Abstract Population, salinity, and increasing water consumption have caused high pressure on groundwater resources in Iran. The study reported here investigates the change of groundwater quality in Zrebar lake basin and the relationship between it with land-use change and precipitation rate from 199...

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Main Authors: Azad Sadeghi, Saman Galalizadeh, Gholamreza Zehtabian, Hassan Khosravi
Format: Article
Language:English
Published: SpringerOpen 2021-10-01
Series:Applied Water Science
Subjects:
Groundwater quality
GWQI index
Wilcox diagram
Schoeller diagram
EC
SAR
Online Access:https://doi.org/10.1007/s13201-021-01508-z
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spelling doaj-694bd28141bc413b90aa1a4f632f045d2021-10-10T11:14:49ZengSpringerOpenApplied Water Science2190-54872190-54952021-10-01111111510.1007/s13201-021-01508-zAssessing the change of groundwater quality compared with land-use change and precipitation rate (Zrebar Lake's Basin)Azad Sadeghi0Saman Galalizadeh1Gholamreza Zehtabian2Hassan Khosravi3Department of Arid and Mountainous Reclamation Region, Faculty of Natural Resources, University of TehranDepartment of Environment, University of TehranDepartment of Arid and Mountainous Reclamation Region, Faculty of Natural Resources, University of TehranDepartment of Arid and Mountainous Reclamation Region, Faculty of Natural Resources, University of TehranAbstract Population, salinity, and increasing water consumption have caused high pressure on groundwater resources in Iran. The study reported here investigates the change of groundwater quality in Zrebar lake basin and the relationship between it with land-use change and precipitation rate from 1992 to 2018. To achieve the intended goal, chemical parameters of water from wells around the lake, bicarbonate (HCO3−), sulfate (SO4), sodium absorption ratio (SAR), and electrical conductivity (EC) were analyzed. Then, four methods including interpolation in the ArcGIS environment, Wilcox and Schoeller Diagram in Aq.QA software and Ground Water Quality Index (GWQI) were used to indicate the trend of water quality from 1992 to 2018. To detect land-use changes from 1992 to 2018, three Landsat satellite images covering the study area were used to identify land uses and their changes during the period that shows a significant area of forests that has been replaced by agricultural use, the dominant cover in 2018, while the area of forest has declined sharply. In this study, the precipitation patterns over the past years were showed to assess the relationship between rainy and low rainfall years with water quality. The results showed that forest area in 1992, 2003 and 2018 was 70.6, 62.5 and 50.2 hectares, respectively, which shows a significant reduction, 22%, during this study period. On the other hand, the area of farmlands and human-made constructions has increased by 20% and 200%, respectively. This study additionally revealed that although there was a decreasing trend in the rate of rainfall and the agricultural lands have increased, the quality of water was still suitable for drinking and agriculture consumptions. Changes in groundwater quality were not justifiable by rainfall rate and land-use change because there was no significant relationship between them with all the groundwater quality parameters.https://doi.org/10.1007/s13201-021-01508-zGroundwater qualityGWQI indexWilcox diagramSchoeller diagramECSAR
collection DOAJ
language English
format Article
sources DOAJ
author Azad Sadeghi
Saman Galalizadeh
Gholamreza Zehtabian
Hassan Khosravi
spellingShingle Azad Sadeghi
Saman Galalizadeh
Gholamreza Zehtabian
Hassan Khosravi
Assessing the change of groundwater quality compared with land-use change and precipitation rate (Zrebar Lake's Basin)
Applied Water Science
Groundwater quality
GWQI index
Wilcox diagram
Schoeller diagram
EC
SAR
author_facet Azad Sadeghi
Saman Galalizadeh
Gholamreza Zehtabian
Hassan Khosravi
author_sort Azad Sadeghi
title Assessing the change of groundwater quality compared with land-use change and precipitation rate (Zrebar Lake's Basin)
title_short Assessing the change of groundwater quality compared with land-use change and precipitation rate (Zrebar Lake's Basin)
title_full Assessing the change of groundwater quality compared with land-use change and precipitation rate (Zrebar Lake's Basin)
title_fullStr Assessing the change of groundwater quality compared with land-use change and precipitation rate (Zrebar Lake's Basin)
title_full_unstemmed Assessing the change of groundwater quality compared with land-use change and precipitation rate (Zrebar Lake's Basin)
title_sort assessing the change of groundwater quality compared with land-use change and precipitation rate (zrebar lake's basin)
publisher SpringerOpen
series Applied Water Science
issn 2190-5487
2190-5495
publishDate 2021-10-01
description Abstract Population, salinity, and increasing water consumption have caused high pressure on groundwater resources in Iran. The study reported here investigates the change of groundwater quality in Zrebar lake basin and the relationship between it with land-use change and precipitation rate from 1992 to 2018. To achieve the intended goal, chemical parameters of water from wells around the lake, bicarbonate (HCO3−), sulfate (SO4), sodium absorption ratio (SAR), and electrical conductivity (EC) were analyzed. Then, four methods including interpolation in the ArcGIS environment, Wilcox and Schoeller Diagram in Aq.QA software and Ground Water Quality Index (GWQI) were used to indicate the trend of water quality from 1992 to 2018. To detect land-use changes from 1992 to 2018, three Landsat satellite images covering the study area were used to identify land uses and their changes during the period that shows a significant area of forests that has been replaced by agricultural use, the dominant cover in 2018, while the area of forest has declined sharply. In this study, the precipitation patterns over the past years were showed to assess the relationship between rainy and low rainfall years with water quality. The results showed that forest area in 1992, 2003 and 2018 was 70.6, 62.5 and 50.2 hectares, respectively, which shows a significant reduction, 22%, during this study period. On the other hand, the area of farmlands and human-made constructions has increased by 20% and 200%, respectively. This study additionally revealed that although there was a decreasing trend in the rate of rainfall and the agricultural lands have increased, the quality of water was still suitable for drinking and agriculture consumptions. Changes in groundwater quality were not justifiable by rainfall rate and land-use change because there was no significant relationship between them with all the groundwater quality parameters.
topic Groundwater quality
GWQI index
Wilcox diagram
Schoeller diagram
EC
SAR
url https://doi.org/10.1007/s13201-021-01508-z
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AT gholamrezazehtabian assessingthechangeofgroundwaterqualitycomparedwithlandusechangeandprecipitationratezrebarlakesbasin
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