Groundwater vulnerability assessment combining the drastic and Dyna-CLUE model in the Argentine Pampas

Vulnerability assessment is considered an effective tool in establishing monitoring networks required for controlling potential pollution. The aim of this work is to propose a new integrated methodology to assess actual and forecasted groundwater vulnerability by including land-use change impact on...

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Guardado en:
Detalles Bibliográficos
Publicado: 2011
Materias:
DRASTIC-P
Dyna-CLUE model
Land-use change
Vulnerability assessment
Agricultural activities
Agricultural expansion
Aquifer vulnerability
Critical location
Effective tool
Environmental change
Groundwater quality
Groundwater vulnerability
Integrated methodology
Monitoring network
Scenario analysis
Spatial dynamics
Study case
Vulnerability assessments
Aquifers
Computer simulation
Forestry
Groundwater resources
Land use
Pollution
Rating
Water quality
Groundwater pollution
ground water
aquifer
crop
environmental change
environmental modeling
environmental monitoring
groundwater
land use change
pasture
pollution monitoring
vulnerability
agriculture
article
controlled study
environmental management
environmental planning
land use
risk assessment
simulation
water quality
Argentina
Environmental Monitoring
Risk Assessment
Water Pollution
Water Supply
Pampas
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0364152X_v47_n5_p828_Lima
http://hdl.handle.net/20.500.12110/paper_0364152X_v47_n5_p828_Lima
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_0364152X_v47_n5_p828_Lima
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spelling paper:paper_0364152X_v47_n5_p828_Lima2023-06-08T15:35:33Z Groundwater vulnerability assessment combining the drastic and Dyna-CLUE model in the Argentine Pampas DRASTIC-P Dyna-CLUE model Land-use change Vulnerability assessment Agricultural activities Agricultural expansion Aquifer vulnerability Critical location DRASTIC-P Dyna-CLUE model Effective tool Environmental change Groundwater quality Groundwater vulnerability Integrated methodology Land-use change Monitoring network Scenario analysis Spatial dynamics Study case Vulnerability assessments Aquifers Computer simulation Forestry Groundwater resources Land use Pollution Rating Water quality Groundwater pollution ground water aquifer crop environmental change environmental modeling environmental monitoring groundwater land use change pasture pollution monitoring vulnerability agriculture aquifer article controlled study environmental change environmental management environmental planning land use pollution monitoring risk assessment simulation water quality Argentina Environmental Monitoring Risk Assessment Water Pollution Water Supply Argentina Pampas Vulnerability assessment is considered an effective tool in establishing monitoring networks required for controlling potential pollution. The aim of this work is to propose a new integrated methodology to assess actual and forecasted groundwater vulnerability by including land-use change impact on groundwater quality. Land-use changes were simulated by applying a spatial dynamics model in a scenario of agricultural expansion. Groundwater vulnerability methodology DRASTIC-P, was modifyed by adding a land-use parameter in order to assess groundwater vulnerability within a future scenario. This new groundwater vulnerability methodology shows the areas where agricultural activities increase the potential level of groundwater vulnerability to pollution. The Dulce Creek Basin was the study case proposed for the application of this methodology. The study revealed that the area with Very High vulnerability would increase 20% by the year 2020 in the Dulce Creek Basin. This result can be explained by analyzing the land-use map simulated by the Dyna-CLUE model for the year 2020, which shows that the areas with increments in crop and pasture coincide with the area defined by the Very High aquifer vulnerability category in the year 2020. Through scenario analysis, land-use change models can help to identify medium or long term critical locations in the face of environmental change. © 2011 Springer Science+Business Media, LLC. 2011 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0364152X_v47_n5_p828_Lima http://hdl.handle.net/20.500.12110/paper_0364152X_v47_n5_p828_Lima
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic DRASTIC-P
Dyna-CLUE model
Land-use change
Vulnerability assessment
Agricultural activities
Agricultural expansion
Aquifer vulnerability
Critical location
DRASTIC-P
Dyna-CLUE model
Effective tool
Environmental change
Groundwater quality
Groundwater vulnerability
Integrated methodology
Land-use change
Monitoring network
Scenario analysis
Spatial dynamics
Study case
Vulnerability assessments
Aquifers
Computer simulation
Forestry
Groundwater resources
Land use
Pollution
Rating
Water quality
Groundwater pollution
ground water
aquifer
crop
environmental change
environmental modeling
environmental monitoring
groundwater
land use change
pasture
pollution monitoring
vulnerability
agriculture
aquifer
article
controlled study
environmental change
environmental management
environmental planning
land use
pollution monitoring
risk assessment
simulation
water quality
Argentina
Environmental Monitoring
Risk Assessment
Water Pollution
Water Supply
Argentina
Pampas
spellingShingle DRASTIC-P
Dyna-CLUE model
Land-use change
Vulnerability assessment
Agricultural activities
Agricultural expansion
Aquifer vulnerability
Critical location
DRASTIC-P
Dyna-CLUE model
Effective tool
Environmental change
Groundwater quality
Groundwater vulnerability
Integrated methodology
Land-use change
Monitoring network
Scenario analysis
Spatial dynamics
Study case
Vulnerability assessments
Aquifers
Computer simulation
Forestry
Groundwater resources
Land use
Pollution
Rating
Water quality
Groundwater pollution
ground water
aquifer
crop
environmental change
environmental modeling
environmental monitoring
groundwater
land use change
pasture
pollution monitoring
vulnerability
agriculture
aquifer
article
controlled study
environmental change
environmental management
environmental planning
land use
pollution monitoring
risk assessment
simulation
water quality
Argentina
Environmental Monitoring
Risk Assessment
Water Pollution
Water Supply
Argentina
Pampas
Groundwater vulnerability assessment combining the drastic and Dyna-CLUE model in the Argentine Pampas
topic_facet DRASTIC-P
Dyna-CLUE model
Land-use change
Vulnerability assessment
Agricultural activities
Agricultural expansion
Aquifer vulnerability
Critical location
DRASTIC-P
Dyna-CLUE model
Effective tool
Environmental change
Groundwater quality
Groundwater vulnerability
Integrated methodology
Land-use change
Monitoring network
Scenario analysis
Spatial dynamics
Study case
Vulnerability assessments
Aquifers
Computer simulation
Forestry
Groundwater resources
Land use
Pollution
Rating
Water quality
Groundwater pollution
ground water
aquifer
crop
environmental change
environmental modeling
environmental monitoring
groundwater
land use change
pasture
pollution monitoring
vulnerability
agriculture
aquifer
article
controlled study
environmental change
environmental management
environmental planning
land use
pollution monitoring
risk assessment
simulation
water quality
Argentina
Environmental Monitoring
Risk Assessment
Water Pollution
Water Supply
Argentina
Pampas
description Vulnerability assessment is considered an effective tool in establishing monitoring networks required for controlling potential pollution. The aim of this work is to propose a new integrated methodology to assess actual and forecasted groundwater vulnerability by including land-use change impact on groundwater quality. Land-use changes were simulated by applying a spatial dynamics model in a scenario of agricultural expansion. Groundwater vulnerability methodology DRASTIC-P, was modifyed by adding a land-use parameter in order to assess groundwater vulnerability within a future scenario. This new groundwater vulnerability methodology shows the areas where agricultural activities increase the potential level of groundwater vulnerability to pollution. The Dulce Creek Basin was the study case proposed for the application of this methodology. The study revealed that the area with Very High vulnerability would increase 20% by the year 2020 in the Dulce Creek Basin. This result can be explained by analyzing the land-use map simulated by the Dyna-CLUE model for the year 2020, which shows that the areas with increments in crop and pasture coincide with the area defined by the Very High aquifer vulnerability category in the year 2020. Through scenario analysis, land-use change models can help to identify medium or long term critical locations in the face of environmental change. © 2011 Springer Science+Business Media, LLC.
title Groundwater vulnerability assessment combining the drastic and Dyna-CLUE model in the Argentine Pampas
title_short Groundwater vulnerability assessment combining the drastic and Dyna-CLUE model in the Argentine Pampas
title_full Groundwater vulnerability assessment combining the drastic and Dyna-CLUE model in the Argentine Pampas
title_fullStr Groundwater vulnerability assessment combining the drastic and Dyna-CLUE model in the Argentine Pampas
title_full_unstemmed Groundwater vulnerability assessment combining the drastic and Dyna-CLUE model in the Argentine Pampas
title_sort groundwater vulnerability assessment combining the drastic and dyna-clue model in the argentine pampas
publishDate 2011
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0364152X_v47_n5_p828_Lima
http://hdl.handle.net/20.500.12110/paper_0364152X_v47_n5_p828_Lima
_version_ 1768546542680014848

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