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Socio-economic constraints of groundwater in Capital La Rioja, Argentina

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Environmental Geology

Abstract

Historically, the arid conditions of La Rioja, Argentina have been the main controlling factor in its development. The shortage of surface water, which is fully used, makes groundwater a potential source for development. The government encouraged investment in early 1979, resulting in a 20-fold increase of groundwater extraction by 1998 (0.076–1.450 m3/s, respectively) to cover related needs of agriculture, industry and population growth. This extraction created unjustified uncertainties derived from negative results obtained in hydrological balances. However, a 0.5 m lowering of the water-table surface was experienced. A knowledge of groundwater functioning was required to establish a reliable frame of reference for development and, at the same time, to find possible scenarios of feasible economic activities in harmony with accessible water resources and aptitude of the environment. The flow regime was found to be composed of three main systems: a regional, an intermediate and several local. The intermediate system provides water for the extraction boreholes, and discharges naturally in Salina La Antigua. From the chemical perspective the intermediate system has three groundwater groups. Group I has an outstanding fluoride concentration (1.98–3.10 mg/l) defined to the north of the City of la Rioja and the highest temperature (26.8–33.0°C), the lowest lithium content (0.029–0.059 mg/l) and moderate arsenic (≤0.038 mg/l). Group II has the moderate arsenic content (≤0.38 mg/l) detected to the south of the City of La Rioja and high lithium (0.024–0.085 mg/l), Group III has the lowest TDS (456–931 mg/l) and arsenic (0.007–0.012 mg/l) and the highest lithium (0.067–0.141 mg/l). to A regional flow is represented by Group IV with one order of magnitude higher strontium (4.870 mg/l), lead (0.021 mg/l) and uranium (0.362 mg/l) content than the other groups. Results provide evidence to eliminate several well-established hydro-myths such as “the boreholes are getting dry” and “boreholes are getting saline water”. The aquifer (granular Tertiary and Quaternary material) thickness (≈750m) was defined with the aid of the geological framework, geothermometers and Modflow modelling. The aquifer extent extends far beyond the limits of the study area. Several economic activities were found to be feasible with available groundwater resources and without bordening the environment (fish farming, bottled-water marketing, SPA activities and farming of endangered species).

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References

  • Carrillo-Rivera JJ, Cardona A, Edmunds WM (2002) Use of extraction regime and knowledge of hydrogeological conditions to control high-fluoride concentration in extracted groundwater: San Luis Potosí basin. Méx. J Hydrol 261:24–47

    Article  Google Scholar 

  • Hernández G, Carrillo-Rivera JJ, Martinez S, Hergt T (2002) Flujo de agua subterránea, importancia de la profundidad a roca basamento. Municipalidad Capital La Rioja, Argentina. In: Proceedings XXXII AIH-Congress-6° Congress of ALHSUD, Mar del Plata, Arg

  • Hidromediterránea SRL (1998a) Evaluación hidrológica del recurso hídrico superficial y subterráneo del cono aluvial de la Ciudad de La Rioja y áreas de promoción agrícola en el Departamento Capital. Administración Provincial del Agua, Dirección General de Manejo de Cuencas. Vol. I-IV. La Rioja, Arg

  • Hidromediterránea SRL (1998b) Evaluación Hidrológica del Recurso Hídrico Superficial y Subterránea en Huaco y Sanagasta, Departamento de Sanagasta, La Rioja Administración Provincial del Agua, Dirección General de Manejo de Cuencas. Vol. I-III. La Rioja, Arg

  • Huizar-Alvarez R, Carrillo-Rivera JJ, Angeles-Serrano G, Hergt T, Cardona A (2004) Chemical response to groundwater extraction southeast of Mexico City. Hydrogeol J 12(4):436–450

    Article  Google Scholar 

  • INAS (1998) Evaluación hidrogeológica de la cuenca subterránea de La Rioja Report issued by Instituto Nacional de Aguas Subterráneas for Administración Provincial del Agua, La Rioja, Arg. pp 74

  • Ley No 22 021 (1979) Ley Nacional de Desarrollo Económico de la Provincia de La Rioja, issued in 1979

  • Martinez S, Carrillo-Rivera JJ, Hernández G, Hergt T, Osorio M, Cardona A, Ángeles G, Márquez E (2001) Diagnóstico ambiental de los recursos hídricos del Departamento Capital Provincia de La Rioja, Argentina. Co-operation research sponsored by AIH, ALHSUD and UNAM with support of the Municipio Capital La Rioja, Arg. pp 98

  • Morello J, Protomastro J, Sancholuz L, Blanco C (1986) Estudio macroecológico de los Llanos de La Rioja, “Serie del Cincuentenario” de la Administración de Parques Nacionales, N° 5, Arg

  • Ottonello RE (1974) Hidrología subterránea en: Evaluación hidrogeológica de la cuenca y cono aluvial del río de La Rioja y faldeo oriental del Velasco. Internal Report Subsecretaría de Recursos Hídricos, Dirección Provincial de Diagnósticos Hidrológicos. La Rioja, Arg

  • Rathod KS, Rushton KR (1991) Interpretation of pumping from two zones layered aquifers using a numerical model. Ground Water 29a(4):499–509

    Article  Google Scholar 

  • Socic MVJ (1967) Estudio hidrogeológico de la región pedemontana oriental de la Sierra de Velasco, Internal report, Instituto Nacional de Geología y Minería, Arg

  • Tóth J (1963) A theoretical analysis of groundwater in small drainage basins. J Geoph Res 67(11): 4375–4387

    Article  Google Scholar 

  • Tóth J (1995) Hydraulic continuity in large sedimentary basins. Hydrogeol J 3(4):4–16

    Article  Google Scholar 

Download references

Acknowledgements

The authors would like to thank the Municipal Authorities of City of La Rioja, Argentina, for the support provided. The authors are indebted to the members of the Mexican Chapter, International Association of Hydrogeologists, the Asociación Latinoamericana de Hidrología Subterránea para el Desarrollo (ALHSUD, México and Central America), the National Autonomous University of Mexico, the National University of San Juan, Argentina and the University of San Luis Potosí, Mexico, who through their participation provided the necessary assistance for data acquisition and analysis was acquired.

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Authors and Affiliations

  1. Posgrado en Geografía, México, México

    S. E. Martinez

  2. Instituto de Geografía, Universidad Nacional Autónoma de México, 04510, CU, Coyoacán, DF, México

    J. J. Carrillo-Rivera

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  1. S. E. Martinez
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  2. J. J. Carrillo-Rivera
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Correspondence to S. E. Martinez.

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Martinez, S.E., Carrillo-Rivera, J.J. Socio-economic constraints of groundwater in Capital La Rioja, Argentina. Environ Geol 49, 875–886 (2006). https://doi.org/10.1007/s00254-006-0183-7

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