Spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas

Spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas

Agriculture in delta areas of emerging economies is highly reliant on the provision of water with adequate quality. This quality is often under pressure by season-related saltwater intrusion and poor domestic or industrial wastewater management. Methods to separate these two negative impacts on water quality for the delta areas are lacking but essential for proper management and supply of irrigation water. Therefore, the main aim of this research is to propose a method that maps salt and wastewater impacts on seasonal water quality and relate that to different land uses. Khulna, a delta city of Bangladesh was taken as a representative case study. Surface water samples have been collected from different city locations in winter, summer and monsoon seasons, and were analyzed for a variety of chemical-physical water quality parameters. Spatio-temporal variation maps were generated using Inverse Distance Weighted (IDW) interpolation method, and weighted overlay method was employed to map the current irrigation water use suitability based on FAO guidelines for the interpretations of water quality for irrigation. The influence of land-use on water quality was assessed by correlation analysis followed by bi-variate linear regression analysis. Analysis indicated significant (p < 0.05) seasonal dependent variation in water quality parameters, especially for saltwater influenced and generic water quality parameters. Also, the land-use percentage within 500 m radii to the sampling stations had a significant positive correlation with several parameters indicating saltwater and urban wastewater influences. Weighted overlay analysis revealed that during summer, approximately 1/3rd of the total studied area has a severe restriction for irrigation water use. The method presented here was shown to be effective in presenting variabilities on the effects of salinization and wastewater discharge on water quality in urbanized deltas and can be used as a knowledge base for formulating and implementing future urban infrastructure planning to improve irrigation water quality.

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Main Authors: Haldar, Kamonashish, Kujawa-Roeleveld, Katarzyna, Dey, Priyanka, Bosu, Shanchita, Datta, Dilip Kumar, Rijnaarts, Huub H.M.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Agriculture, Land-use, Spatial and temporal, Water quality, Water reuse,
Online Access:https://research.wur.nl/en/publications/spatio-temporal-variations-in-chemical-physical-water-quality-par
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spelling dig-wur-nl-wurpubs-5593412024-10-30 Haldar, Kamonashish Kujawa-Roeleveld, Katarzyna Dey, Priyanka Bosu, Shanchita Datta, Dilip Kumar Rijnaarts, Huub H.M. Article/Letter to editor Science of the Total Environment 708 (2020) ISSN: 0048-9697 Spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas 2020 Agriculture in delta areas of emerging economies is highly reliant on the provision of water with adequate quality. This quality is often under pressure by season-related saltwater intrusion and poor domestic or industrial wastewater management. Methods to separate these two negative impacts on water quality for the delta areas are lacking but essential for proper management and supply of irrigation water. Therefore, the main aim of this research is to propose a method that maps salt and wastewater impacts on seasonal water quality and relate that to different land uses. Khulna, a delta city of Bangladesh was taken as a representative case study. Surface water samples have been collected from different city locations in winter, summer and monsoon seasons, and were analyzed for a variety of chemical-physical water quality parameters. Spatio-temporal variation maps were generated using Inverse Distance Weighted (IDW) interpolation method, and weighted overlay method was employed to map the current irrigation water use suitability based on FAO guidelines for the interpretations of water quality for irrigation. The influence of land-use on water quality was assessed by correlation analysis followed by bi-variate linear regression analysis. Analysis indicated significant (p < 0.05) seasonal dependent variation in water quality parameters, especially for saltwater influenced and generic water quality parameters. Also, the land-use percentage within 500 m radii to the sampling stations had a significant positive correlation with several parameters indicating saltwater and urban wastewater influences. Weighted overlay analysis revealed that during summer, approximately 1/3rd of the total studied area has a severe restriction for irrigation water use. The method presented here was shown to be effective in presenting variabilities on the effects of salinization and wastewater discharge on water quality in urbanized deltas and can be used as a knowledge base for formulating and implementing future urban infrastructure planning to improve irrigation water quality. en application/pdf https://research.wur.nl/en/publications/spatio-temporal-variations-in-chemical-physical-water-quality-par 10.1016/j.scitotenv.2019.134559 https://edepot.wur.nl/512168 Agriculture Land-use Spatial and temporal Water quality Water reuse https://creativecommons.org/licenses/by-nc-nd/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Agriculture
Land-use
Spatial and temporal
Water quality
Water reuse
Agriculture
Land-use
Spatial and temporal
Water quality
Water reuse
spellingShingle Agriculture
Land-use
Spatial and temporal
Water quality
Water reuse
Agriculture
Land-use
Spatial and temporal
Water quality
Water reuse
Haldar, Kamonashish
Kujawa-Roeleveld, Katarzyna
Dey, Priyanka
Bosu, Shanchita
Datta, Dilip Kumar
Rijnaarts, Huub H.M.
Spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas
description Agriculture in delta areas of emerging economies is highly reliant on the provision of water with adequate quality. This quality is often under pressure by season-related saltwater intrusion and poor domestic or industrial wastewater management. Methods to separate these two negative impacts on water quality for the delta areas are lacking but essential for proper management and supply of irrigation water. Therefore, the main aim of this research is to propose a method that maps salt and wastewater impacts on seasonal water quality and relate that to different land uses. Khulna, a delta city of Bangladesh was taken as a representative case study. Surface water samples have been collected from different city locations in winter, summer and monsoon seasons, and were analyzed for a variety of chemical-physical water quality parameters. Spatio-temporal variation maps were generated using Inverse Distance Weighted (IDW) interpolation method, and weighted overlay method was employed to map the current irrigation water use suitability based on FAO guidelines for the interpretations of water quality for irrigation. The influence of land-use on water quality was assessed by correlation analysis followed by bi-variate linear regression analysis. Analysis indicated significant (p < 0.05) seasonal dependent variation in water quality parameters, especially for saltwater influenced and generic water quality parameters. Also, the land-use percentage within 500 m radii to the sampling stations had a significant positive correlation with several parameters indicating saltwater and urban wastewater influences. Weighted overlay analysis revealed that during summer, approximately 1/3rd of the total studied area has a severe restriction for irrigation water use. The method presented here was shown to be effective in presenting variabilities on the effects of salinization and wastewater discharge on water quality in urbanized deltas and can be used as a knowledge base for formulating and implementing future urban infrastructure planning to improve irrigation water quality.
format Article/Letter to editor
topic_facet Agriculture
Land-use
Spatial and temporal
Water quality
Water reuse
author Haldar, Kamonashish
Kujawa-Roeleveld, Katarzyna
Dey, Priyanka
Bosu, Shanchita
Datta, Dilip Kumar
Rijnaarts, Huub H.M.
author_facet Haldar, Kamonashish
Kujawa-Roeleveld, Katarzyna
Dey, Priyanka
Bosu, Shanchita
Datta, Dilip Kumar
Rijnaarts, Huub H.M.
author_sort Haldar, Kamonashish
title Spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas
title_short Spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas
title_full Spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas
title_fullStr Spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas
title_full_unstemmed Spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas
title_sort spatio-temporal variations in chemical-physical water quality parameters influencing water reuse for irrigated agriculture in tropical urbanized deltas
url https://research.wur.nl/en/publications/spatio-temporal-variations-in-chemical-physical-water-quality-par
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AT kujawaroeleveldkatarzyna spatiotemporalvariationsinchemicalphysicalwaterqualityparametersinfluencingwaterreuseforirrigatedagricultureintropicalurbanizeddeltas
AT deypriyanka spatiotemporalvariationsinchemicalphysicalwaterqualityparametersinfluencingwaterreuseforirrigatedagricultureintropicalurbanizeddeltas
AT bosushanchita spatiotemporalvariationsinchemicalphysicalwaterqualityparametersinfluencingwaterreuseforirrigatedagricultureintropicalurbanizeddeltas
AT dattadilipkumar spatiotemporalvariationsinchemicalphysicalwaterqualityparametersinfluencingwaterreuseforirrigatedagricultureintropicalurbanizeddeltas
AT rijnaartshuubhm spatiotemporalvariationsinchemicalphysicalwaterqualityparametersinfluencingwaterreuseforirrigatedagricultureintropicalurbanizeddeltas
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