Characterization of the functioning of the Motril–Salobreña coastal aquifer (SE Spain) through the use of environmental tracers

M. L. Calvache; J. P. Sanchez-Ubeda; R. Purtschert; M. Lopez-Chicano; C. Martin-Montanes; J. Sueltenfuss; A. M. Blanco-Coronas; C. Duque

doi:10.1007/s12665-020-8852-5

Characterization of the functioning of the Motril–Salobreña coastal aquifer (SE Spain) through the use of environmental tracers

M. L. Calvache^*, J. P. Sanchez-Ubeda, R. Purtschert, M. Lopez-Chicano, C. Martin-Montanes, J. Sueltenfuss, A. M. Blanco-Coronas, C. Duque

^*Corresponding author for this work

Department of Geoscience - Geology, C.F. Møllers Allé
WATEC, Centre for Water Technology - WATEC Aarhus University Centre for Water Technology, Høegh-Guldbergs Gade

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

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Abstract

Environmental tracers were used to characterize the origin and determine the age of the groundwater in the Motril-Salobrena aquifer (south-eastern Spain). The stable isotope concentrations (delta O-18/delta H-2), compared to the results obtained in previous studies, indicate that most of the recharge during the sampling period was from irrigation return flow and the carbonate Escalate aquifer. The combined dating of H-3, He-3, He-4, Kr-85, and Ar-39 allowed establishing the presence of modern water throughout the aquifer, although with different mixing percentages. Thus, there is a large zone characterized by a fluvial domain with 100% young waters (<5 years) due to the circulation of water through an area of high permeability sediments. In the discharge zone of the aquifer, older water is located (age > 170 years), and the percentage of young water is reduced (22.5%). This is explained by the greater distance that groundwater travels (aquifer thicknesses is over 250 m) and the lower permeability of the aquifer in the deeper sectors.

Original language	English
Article number	141
Journal	Environmental Earth Sciences
Volume	79
Issue	6
Number of pages	12
ISSN	1866-6280
DOIs	https://doi.org/10.1007/s12665-020-8852-5
Publication status	Published - Mar 2020

Keywords

Environmental tracer
Groundwater age
Motril-Salobrena aquifer
H-3
He-3
Kr-85
Ar-39
GROUNDWATER AGE
NOBLE-GASES
KR-85
ISOTOPES
AR-39
DISPERSION
INTRUSION
TRANSPORT
H-3/HE-3
SYSTEM

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Calvache, M. L., Sanchez-Ubeda, J. P., Purtschert, R., Lopez-Chicano, M., Martin-Montanes, C., Sueltenfuss, J., Blanco-Coronas, A. M., & Duque, C. (2020). Characterization of the functioning of the Motril–Salobreña coastal aquifer (SE Spain) through the use of environmental tracers. Environmental Earth Sciences, 79(6), Article 141. https://doi.org/10.1007/s12665-020-8852-5

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abstract = "Environmental tracers were used to characterize the origin and determine the age of the groundwater in the Motril-Salobrena aquifer (south-eastern Spain). The stable isotope concentrations (delta O-18/delta H-2), compared to the results obtained in previous studies, indicate that most of the recharge during the sampling period was from irrigation return flow and the carbonate Escalate aquifer. The combined dating of H-3, He-3, He-4, Kr-85, and Ar-39 allowed establishing the presence of modern water throughout the aquifer, although with different mixing percentages. Thus, there is a large zone characterized by a fluvial domain with 100% young waters (<5 years) due to the circulation of water through an area of high permeability sediments. In the discharge zone of the aquifer, older water is located (age > 170 years), and the percentage of young water is reduced (22.5%). This is explained by the greater distance that groundwater travels (aquifer thicknesses is over 250 m) and the lower permeability of the aquifer in the deeper sectors.",

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Characterization of the functioning of the Motril–Salobreña coastal aquifer (SE Spain) through the use of environmental tracers. / Calvache, M. L.; Sanchez-Ubeda, J. P.; Purtschert, R. et al.
In: Environmental Earth Sciences, Vol. 79, No. 6, 141, 03.2020.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

TY - JOUR

T1 - Characterization of the functioning of the Motril–Salobreña coastal aquifer (SE Spain) through the use of environmental tracers

AU - Calvache, M. L.

AU - Sanchez-Ubeda, J. P.

AU - Purtschert, R.

AU - Lopez-Chicano, M.

AU - Martin-Montanes, C.

AU - Sueltenfuss, J.

AU - Blanco-Coronas, A. M.

AU - Duque, C.

N1 - Thematic Issue: Impacts of Global Change in Groundwater in Western Mediterranean Countries

PY - 2020/3

Y1 - 2020/3

N2 - Environmental tracers were used to characterize the origin and determine the age of the groundwater in the Motril-Salobrena aquifer (south-eastern Spain). The stable isotope concentrations (delta O-18/delta H-2), compared to the results obtained in previous studies, indicate that most of the recharge during the sampling period was from irrigation return flow and the carbonate Escalate aquifer. The combined dating of H-3, He-3, He-4, Kr-85, and Ar-39 allowed establishing the presence of modern water throughout the aquifer, although with different mixing percentages. Thus, there is a large zone characterized by a fluvial domain with 100% young waters (<5 years) due to the circulation of water through an area of high permeability sediments. In the discharge zone of the aquifer, older water is located (age > 170 years), and the percentage of young water is reduced (22.5%). This is explained by the greater distance that groundwater travels (aquifer thicknesses is over 250 m) and the lower permeability of the aquifer in the deeper sectors.

AB - Environmental tracers were used to characterize the origin and determine the age of the groundwater in the Motril-Salobrena aquifer (south-eastern Spain). The stable isotope concentrations (delta O-18/delta H-2), compared to the results obtained in previous studies, indicate that most of the recharge during the sampling period was from irrigation return flow and the carbonate Escalate aquifer. The combined dating of H-3, He-3, He-4, Kr-85, and Ar-39 allowed establishing the presence of modern water throughout the aquifer, although with different mixing percentages. Thus, there is a large zone characterized by a fluvial domain with 100% young waters (<5 years) due to the circulation of water through an area of high permeability sediments. In the discharge zone of the aquifer, older water is located (age > 170 years), and the percentage of young water is reduced (22.5%). This is explained by the greater distance that groundwater travels (aquifer thicknesses is over 250 m) and the lower permeability of the aquifer in the deeper sectors.

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KW - Groundwater age

KW - Motril-Salobrena aquifer

KW - H-3

KW - He-3

KW - Kr-85

KW - Ar-39

KW - GROUNDWATER AGE

KW - NOBLE-GASES

KW - KR-85

KW - ISOTOPES

KW - AR-39

KW - DISPERSION

KW - INTRUSION

KW - TRANSPORT

KW - H-3/HE-3

KW - SYSTEM

U2 - 10.1007/s12665-020-8852-5

DO - 10.1007/s12665-020-8852-5

M3 - Journal article

SN - 1866-6280

VL - 79

JO - Environmental Earth Sciences

JF - Environmental Earth Sciences

IS - 6

M1 - 141

ER -

Characterization of the functioning of the Motril–Salobreña coastal aquifer (SE Spain) through the use of environmental tracers

Abstract

Keywords

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