Water-rock interaction and mixing processes of complex urban groundwater flow system subject to intensive exploitation: The case of Mexico City

In complex aquifer systems subject to intensive exploitation it is important to investigate hydrogeochemical processes in the components to understand the hydrodynamics of groundwater. In this respect, understanding the hydrochemical mechanisms of water-rock interactions and mixing processes eventua...

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Published inJournal of South American earth sciences Vol. 103; p. 102719
Main Authors Olea-Olea, Selene, Escolero, Oscar, Mahlknecht, Jürgen, Ortega, Lucia, Taran, Yuri, Moran-Zenteno, Dante Jaime, Zamora-Martinez, Olivia, Tadeo-Leon, Javier
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2020
Subjects
Ion-exchange
Mexico City
Mixing flows
Silicate weathering
Thermal water
Water-rock interactions
Silicate weathering
Ion-exchange
Thermal water
Water-rock interactions
Mixing flows
Mexico City
Online AccessGet full text
ISSN0895-9811
1873-0647
DOI10.1016/j.jsames.2020.102719

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Abstract In complex aquifer systems subject to intensive exploitation it is important to investigate hydrogeochemical processes in the components to understand the hydrodynamics of groundwater. In this respect, understanding the hydrochemical mechanisms of water-rock interactions and mixing processes eventually leads to the development of appropriate strategies for a sustainable groundwater management. In this study, we analyze water-rock interactions processes of the so-called Anáhuac groundwater system underlying part of the Mexico Valley comprising Mexico City and its suburbs. This intensively exploited system has four flow components: 1) local flow, 2) intermediate flow, 3) cold regional flow, and 4) hot regional flow. This is studied using inverse geochemical models, which consider uncertainties of analytical data and constraints from thermodynamic stability diagrams, speciation-solubility models, and petrographic data. Three representative modeling sections were selected for the implementation of the mass-balance approach. The general conceptual model in two sections suggests that rainwater infiltrates the subsoil and begins to dissolve CO2 in the unsaturated zone; by reaching the saturated zone it reacts with silicate minerals of the host rock producing the final chemical composition of waters. On the other hand, the third section shows mixing as the main groundwater process, as well as water-rock interactions. In general, the identified processes of water-rock interaction are dissolution of CO2, dissolution of calcite, gypsum, and halite, Ca/Na ion-exchange, and weathering of silicate minerals such as biotite, muscovite, plagioclase, epidote and pyroxene, and precipitation of kaolinite, SiO2 and Fe (OH)3. Changes between local and intermediate flow components suggest dissolution of andesite rocks and precipitation of pyrite. Changes between local flow component and the cold regional component are explained by large flow trajectories. Transformations between local and hot regional components indicate mixing flows and a deep circulation influenced by the geothermal gradient. The combination of the methods used in this study can be applied in other similar geoenvironments of the world and assist local water authorities to adequately address and manage groundwater. •Geochemical models explain water-rock interaction in the flow components.•Silicate weathering and mixing flows are main water-rock processes.•Mixing quantification between thermal and non-thermal components was obtained.•A systematic geochemical modeling approach was used in a complex flow system.
AbstractList In complex aquifer systems subject to intensive exploitation it is important to investigate hydrogeochemical processes in the components to understand the hydrodynamics of groundwater. In this respect, understanding the hydrochemical mechanisms of water-rock interactions and mixing processes eventually leads to the development of appropriate strategies for a sustainable groundwater management. In this study, we analyze water-rock interactions processes of the so-called Anáhuac groundwater system underlying part of the Mexico Valley comprising Mexico City and its suburbs. This intensively exploited system has four flow components: 1) local flow, 2) intermediate flow, 3) cold regional flow, and 4) hot regional flow. This is studied using inverse geochemical models, which consider uncertainties of analytical data and constraints from thermodynamic stability diagrams, speciation-solubility models, and petrographic data. Three representative modeling sections were selected for the implementation of the mass-balance approach. The general conceptual model in two sections suggests that rainwater infiltrates the subsoil and begins to dissolve CO2 in the unsaturated zone; by reaching the saturated zone it reacts with silicate minerals of the host rock producing the final chemical composition of waters. On the other hand, the third section shows mixing as the main groundwater process, as well as water-rock interactions. In general, the identified processes of water-rock interaction are dissolution of CO2, dissolution of calcite, gypsum, and halite, Ca/Na ion-exchange, and weathering of silicate minerals such as biotite, muscovite, plagioclase, epidote and pyroxene, and precipitation of kaolinite, SiO2 and Fe (OH)3. Changes between local and intermediate flow components suggest dissolution of andesite rocks and precipitation of pyrite. Changes between local flow component and the cold regional component are explained by large flow trajectories. Transformations between local and hot regional components indicate mixing flows and a deep circulation influenced by the geothermal gradient. The combination of the methods used in this study can be applied in other similar geoenvironments of the world and assist local water authorities to adequately address and manage groundwater. •Geochemical models explain water-rock interaction in the flow components.•Silicate weathering and mixing flows are main water-rock processes.•Mixing quantification between thermal and non-thermal components was obtained.•A systematic geochemical modeling approach was used in a complex flow system.
ArticleNumber 102719
Author Taran, Yuri
Ortega, Lucia
Moran-Zenteno, Dante Jaime
Olea-Olea, Selene
Escolero, Oscar
Mahlknecht, Jürgen
Zamora-Martinez, Olivia
Tadeo-Leon, Javier
Author_xml – sequence: 1
  givenname: Selene
  orcidid: 0000-0001-8923-7300
  surname: Olea-Olea
  fullname: Olea-Olea, Selene
  email: selene.olea.olea@gmail.com
  organization: Posgrado en Ciencias de la tierra, Instituto de Geología, Universidad Nacional Autónoma de México, Ciudad Universitaria, 04510, Ciudad de México, Mexico
– sequence: 2
  givenname: Oscar
  surname: Escolero
  fullname: Escolero, Oscar
  organization: Departamento de Dinámica Terrestre y Superficial, Instituto de Geología, Universidad Nacional Autónoma de México, Ciudad Universitaria, 04510, Ciudad de México, Mexico
– sequence: 3
  givenname: Jürgen
  surname: Mahlknecht
  fullname: Mahlknecht, Jürgen
  organization: Centro del Agua para América Latina y el Caribe. Escuela de Ingenieria y Ciencias, Tecnologico de Monterrey, Campus Monterrey, 64849, Nuevo León, Mexico
– sequence: 4
  givenname: Lucia
  surname: Ortega
  fullname: Ortega, Lucia
  organization: International Atomic Energy Agency, Isotope Hydrology Section, Vienna International Center, Vienna, Austria
– sequence: 5
  givenname: Yuri
  surname: Taran
  fullname: Taran, Yuri
  organization: Departamento de Vulcanología, Instituto de Geofísica, Universidad Nacional Autónoma de México, Ciudad Universitaria, 04510, Ciudad de México, Mexico
– sequence: 6
  givenname: Dante Jaime
  surname: Moran-Zenteno
  fullname: Moran-Zenteno, Dante Jaime
  organization: Departamento de procesos litosféricos, Instituto de Geología, Universidad Nacional Autónoma de México, Ciudad Universitaria, 04510, Ciudad de México, Mexico
– sequence: 7
  givenname: Olivia
  surname: Zamora-Martinez
  fullname: Zamora-Martinez, Olivia
  organization: Departamento de Ciencias Ambientales y del Suelo, Instituto de Geología, Universidad Nacional Autónoma de México, Ciudad Universitaria, 04510, Ciudad de México, Mexico
– sequence: 8
  givenname: Javier
  surname: Tadeo-Leon
  fullname: Tadeo-Leon, Javier
  organization: Departamento de Ciencias Ambientales y del Suelo, Instituto de Geología, Universidad Nacional Autónoma de México, Ciudad Universitaria, 04510, Ciudad de México, Mexico
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Keywords Silicate weathering
Ion-exchange
Thermal water
Water-rock interactions
Mixing flows
Mexico City
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Snippet In complex aquifer systems subject to intensive exploitation it is important to investigate hydrogeochemical processes in the components to understand the...
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SourceType Enrichment Source
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StartPage 102719
SubjectTerms Ion-exchange
Mexico City
Mixing flows
Silicate weathering
Thermal water
Water-rock interactions
Title Water-rock interaction and mixing processes of complex urban groundwater flow system subject to intensive exploitation: The case of Mexico City
URI https://dx.doi.org/10.1016/j.jsames.2020.102719
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