Impact of Agriculture on the Quality of Groundwater Resources in Peri-Urban Zone of Songon (Cote D'ivoire)

Dibi, Brou; Kouame, Kouassi Innocent; Konan-Waidhet, Arthur Brice; Savané, Issiaka; Barthélemy, Jean; Nedeff, Valentin; Lazăr, Gabriel

doi:10.30638/eemj.2012.271

Cited by 6 publications

(4 citation statements)

References 2 publications

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“…This could be due to the high theoretical weight assigned to this factor (weight = 5). These findings are similar to those obtained by Dibi et al (2012), who have shown that, in addition to this parameter, topography, net recharge, and water table depth have a high impact on the vulnerability index. In addition, according to Samake et al (2011), the vadose zone and hydraulic conductivity had a significant impact on the vulnerability index that appears to have a moderate sensitivity to the deletion of water table depth (1.48 %), net recharge (1.36 %), and hydraulic conductivity (1.25 %).…”

Section: Sensitivity Of the Drastic Indexsupporting

confidence: 91%

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GIS-based DRASTIC and composite DRASTIC indices for assessing groundwater vulnerability in the Baghin aquifer, Kerman, Iran

Malakootian

Nozari

2020

Nat. Hazards Earth Syst. Sci.

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Abstract. The present study estimates the Kerman–Baghin aquifer vulnerability using DRASTIC and composite DRASTIC (CDRASTIC) indices with the aid of geographic information system (GIS) techniques. Factors affecting the transfer of contamination, including water table depth, soil media, aquifer media, the impact of the vadose zone, topography, hydraulic conductivity, and land use, were used to calculate the DRASTIC and CDRASTIC indices. A sensitivity test was also performed to determine the sensitivity of the parameters. Results showed that the topographic layer displays a gentle slope in the aquifer. Most of the aquifer was covered with irrigated field crops and grassland with a moderate vegetation cover. In addition, the aquifer vulnerability maps indicated very similar results, identifying the north-west parts of the aquifer as areas with high to very high vulnerability. The map removal sensibility analysis (MRSA) revealed the impact of the vadose zone (in the DRASTIC index) and hydraulic conductivity (in the CDRASTIC index) as the most important parameters in vulnerability evaluation. In both indices, the single-parameter sensibility analysis (SPSA) demonstrated net recharge as the most effective factor in vulnerability estimation. According to the results, parts of the studied aquifer have a high vulnerability and require protective measures.

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Section: Sensitivity Of the Drastic Indexsupporting

confidence: 91%

“…Most of these techniques are based on analytic tools to associate groundwater contamination with land operations. There are three types of evaluation methods: process-based simulations, statistic procedures, and overlay and index approaches (Neshat et al, 2014;Dixon, 2004).…”

Section: Introductionmentioning

confidence: 99%

GIS-based DRASTIC and composite DRASTIC indices for assessing groundwater vulnerability in the Baghin aquifer, Kerman, Iran

Malakootian

Nozari

2020

Nat. Hazards Earth Syst. Sci.

View full text Add to dashboard Cite

show abstract

“…This could be due to the high theoretical weight allocated to this factor (weight = 5). These findings are similar to those obtained by Dibi et al (2012) who have shown that in addition to this parameter, topography, net recharge, and water table depth have a high impact on the vulnerability index. Also, in Samake et al (2011) study, the impact of the vadose zone and the hydraulic conductivity parameters had a considerable impact on the vulnerability index.…”

Section: Sensitivity Of the Drastic Modelsupporting

confidence: 91%

Contribution of the Sensitivity Analysis in Groundwater Vulnerability Assessing Using the DRASTIC and Composite DRASTIC Indexes

Malakootian¹,

Nozari²

2019

Preprint

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Abstract. The present study estimates Kerman–Baghin aquifer vulnerability by applying the DRASTIC and composite DRASTIC (CDRASTIC) indexes. The factors affecting the transfer of contamination, including the water table depth, soil media, aquifer media, the impact of the vadose zone, topography, hydraulic conductivity, and land use, were ranked, weighted, and integrated using a geographical information system (GIS). A sensitivity test has also been performed to specify the sensitivity of the parameters. The study results show that the topographic layer displays a gentle slope in the aquifer. The majority of the aquifer covered irrigated field crops and grassland with a moderate vegetation cover. In addition, the aquifer vulnerability maps indicate very similar results, recognizing the northwest parts of the aquifer as areas with high and very high vulnerability. The map removal sensibility analysis (MRSA) revealed the impact of the vadose zone (in the DRASTIC index) and hydraulic conductivity (in the CDRASTIC index) as the most effective parameters in the vulnerability evaluation. In both indexes, the single-parameter sensibility analysis (SPSA) showed net recharge as the most effective factor in the vulnerability estimation. From this study, it can be concluded that vulnerability maps can be used as a tool to control human activities for the sustained protection of aquifers.

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“…Several methods have been adopted to assess the vulnerability. There are DRASTIC [5], GOD [6], AVI [7], SINTACS [8] and many other small methods including the properties of the environment (DISCO, DRASTIC-fm, DRATIC-P, DRASTICLU) have been studied [9]. However, all these methods, although effective, only allow the evaluation of vulnerability to pollution in a punctual way, i.e.…”

Section: Introductionmentioning

confidence: 99%

Development of a Model for Assessing Vulnerability to Pollution of Groundwater in Fissured Aquifers: The Case of the Ehania Watershed (South-Eastern Côte d’Ivoire)

Dibi¹,

Konan-Waidhet²,

Plagnes³

et al. 2021

JEP

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Impact of Agriculture on the Quality of Groundwater Resources in Peri-Urban Zone of Songon (Cote D'ivoire)

Cited by 6 publications

References 2 publications

GIS-based DRASTIC and composite DRASTIC indices for assessing groundwater vulnerability in the Baghin aquifer, Kerman, Iran

GIS-based DRASTIC and composite DRASTIC indices for assessing groundwater vulnerability in the Baghin aquifer, Kerman, Iran

Contribution of the Sensitivity Analysis in Groundwater Vulnerability Assessing Using the DRASTIC and Composite DRASTIC Indexes

Development of a Model for Assessing Vulnerability to Pollution of Groundwater in Fissured Aquifers: The Case of the Ehania Watershed (South-Eastern Côte d’Ivoire)

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Impact of Agriculture on the Quality of Groundwater Resources in Peri-Urban Zone of Songon (Cote D'ivoire)

Cited by 6 publications

References 2 publications

GIS-based DRASTIC and composite DRASTIC indices for assessing groundwater vulnerability in the Baghin aquifer, Kerman, Iran

GIS-based DRASTIC and composite DRASTIC indices for assessing groundwater vulnerability in the Baghin aquifer, Kerman, Iran

Contribution of the Sensitivity Analysis in Groundwater Vulnerability Assessing Using the DRASTIC and Composite DRASTIC Indexes

Development of a Model for Assessing Vulnerability to Pollution of Groundwater in Fissured Aquifers: The Case of the Ehania Watershed (South-Eastern C&#244;te d’Ivoire)

Contact Info

Product

Resources

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Development of a Model for Assessing Vulnerability to Pollution of Groundwater in Fissured Aquifers: The Case of the Ehania Watershed (South-Eastern Côte d’Ivoire)