Piezometric level and electrical conductivity spatiotemporal monitoring as an instrument to design further managed aquifer recharge strategies in a complex estuarial system under anthropogenic pressure

Piezometric level and electrical conductivity spatiotemporal monitoring as an instrument to design further managed aquifer recharge strategies in a complex estuarial system under anthropogenic pressure

Recife Metropolitan Region (RMR, NE Brazil) lies over a multi-layered aquifer system located in an estuarial area. The region has experienced fast population growth and repeated droughts in the last three decades, which led to unprecedented anthropogenic pressure on groundwater resources because of...

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Veröffentlicht in:Journal of environmental management 2018-03, Vol.209, p.426-439
Hauptverfasser: Coelho, Victor Hugo R., Bertrand, Guillaume F., Montenegro, Suzana M.G.L., Paiva, Anderson L.R., Almeida, Cristiano N., Galvão, Carlos O., Barbosa, Luís Romero, Batista, Larissa F.D.R., Ferreira, Eduardo L.G.A.
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Brazil
Deep aquifer
Electric Conductivity
Environmental Monitoring
Estuaries
Geology
Groundwater
Humans
Infiltration
Injection
MAR
Paleo-channels
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container_end_page 439
container_issue
container_start_page 426
container_title Journal of environmental management
container_volume 209
creator Coelho, Victor Hugo R.
Bertrand, Guillaume F.
Montenegro, Suzana M.G.L.
Paiva, Anderson L.R.
Almeida, Cristiano N.
Galvão, Carlos O.
Barbosa, Luís Romero
Batista, Larissa F.D.R.
Ferreira, Eduardo L.G.A.
description Recife Metropolitan Region (RMR, NE Brazil) lies over a multi-layered aquifer system located in an estuarial area. The region has experienced fast population growth and repeated droughts in the last three decades, which led to unprecedented anthropogenic pressure on groundwater resources because of intense water pumping. Accordingly, scientific and stakeholder communities have been challenged to ensure the maintenance of sustainable groundwater resource by managing all water cycle. Because controlling pumping rates is difficult due to the large number of illegal wells, the Managed Aquifer Recharge (MAR) strategies are now under consideration. The RMR presents a tropical climate and an annual average rainfall rate of approximately 2450 mm year−1, providing great potential volumes of water to be used for piezometric level recovery. However, MAR implementation requires a detailed and in-depth knowledge of the human-impact on the hydrogeological behavior of the resource over the long-term, in order to find out the most appropriate recharge strategy. Therefore, the present study illustrates how routine data monitoring, i.e., piezometric level and electrical conductivity (EC), in combination with the geological knowledge, may allow proposing further MAR strategies. Two contrasted behaviors were observed in RMR: (i) groundwater level decrease and stable EC in the North and Southernmost areas of Recife; and (ii) stable groundwater level and high/varying EC values next to the estuarial zone. Although aquifers are undergoing over-abstraction, this spatiotemporal heterogeneity suggests that a recharge is possibly locally favored next to the estuarial area of the RMR thanks to hydraulic connections between surface and deep aquifers throughout extended paleo-channels. Thus, based on this typology, MAR implementation through controlled infiltration close to the estuarial area seems to be more appropriated, whereas the direct deep injection appears to be more relevant in more distant zones. [Display omitted] •Routine monitoring data and geological knowledge may help the proposition of MAR.•MAR strategies were considered to be implemented in a coastal metropolis of Brazil.•Connections between surface and deep waters were observed through paleo-channels.•Controlled infiltration close to the estuarial area seems to be more appropriate.•Direct deep injection appears to be more relevant in zones distant from the estuary.
doi_str_mv 10.1016/j.jenvman.2017.12.078
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The region has experienced fast population growth and repeated droughts in the last three decades, which led to unprecedented anthropogenic pressure on groundwater resources because of intense water pumping. Accordingly, scientific and stakeholder communities have been challenged to ensure the maintenance of sustainable groundwater resource by managing all water cycle. Because controlling pumping rates is difficult due to the large number of illegal wells, the Managed Aquifer Recharge (MAR) strategies are now under consideration. The RMR presents a tropical climate and an annual average rainfall rate of approximately 2450 mm year−1, providing great potential volumes of water to be used for piezometric level recovery. However, MAR implementation requires a detailed and in-depth knowledge of the human-impact on the hydrogeological behavior of the resource over the long-term, in order to find out the most appropriate recharge strategy. Therefore, the present study illustrates how routine data monitoring, i.e., piezometric level and electrical conductivity (EC), in combination with the geological knowledge, may allow proposing further MAR strategies. Two contrasted behaviors were observed in RMR: (i) groundwater level decrease and stable EC in the North and Southernmost areas of Recife; and (ii) stable groundwater level and high/varying EC values next to the estuarial zone. Although aquifers are undergoing over-abstraction, this spatiotemporal heterogeneity suggests that a recharge is possibly locally favored next to the estuarial area of the RMR thanks to hydraulic connections between surface and deep aquifers throughout extended paleo-channels. Thus, based on this typology, MAR implementation through controlled infiltration close to the estuarial area seems to be more appropriated, whereas the direct deep injection appears to be more relevant in more distant zones. 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subjects Brazil
Deep aquifer
Electric Conductivity
Environmental Monitoring
Estuaries
Geology
Groundwater
Humans
Infiltration
Injection
MAR
Paleo-channels
title Piezometric level and electrical conductivity spatiotemporal monitoring as an instrument to design further managed aquifer recharge strategies in a complex estuarial system under anthropogenic pressure
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