Ponencias

URI permanente para esta colecciónhttp://10.0.96.45:4000/handle/11056/14725

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Groundwater flow modeling using iMOD for Barva and Colima aquifers in the Central Valley of Costa Rica: validation of a conceptual model using tracer data
(Universidad Nacional de Salta, 2018) Gomez Castro, Cinthya; Ball, Sheila Marie; Sanchez-Murillo, Ricardo
A stationary numerical model of groundwater flow was developed using iMOD to better understand the recharge processes within Barva and Colima aquifers (BCS), located in the northwestern region of the Central Valley of Costa Rica. Lithological information was used to develop a conceptual model representing the complexity of the system, defined as high transmissivities, low storage capacity, and steep hydraulic gradients. Due to the lack of more detailed lithological and hydrometric data to perform robust calibrations, the system was studied by analyzing water flux dynamics using the iMOD particle tracer and water balance tools. The validation process was done by comparing the results of each simulation with the potential recharge elevation (PRE) derived from the ages of existing noble gases (tritium/helium) at different wells and springs in the system. Tracer estimations indicate a groundwater age (GWA) ranging from 2.3 to 71 years. Based on the tracer information, two hypotheses of PRE were evaluated. The first scenario (H01), with a PRE between 1,500 to 2,500 m a.s.l., and a second one (H02), with a PRE between 1,300 to 1,500 m a.s.l. Results from H01 were the most reliable: 77% of the particles dropped in the PRE were captured by the Lower Colima aquifer, with a GWA ranging from 1 to 45 years. Although the results reflect the dynamic-complex fluxes, more information is needed to understand the influence of surface water and recharge rates on groundwater levels in order to improve and calibrate the model as a reliable water management tool.
Tracer hydrology in a hydrometric data-limited and complex tropical mountainous region: the case of the Central American Isthmus
(European Geosciences Union, 2019) Sanchez-Murillo, Ricardo; Esquivel-Hernández, Germain; Castro Chacón, Laura; Durán-Quesada, Ana María ; Guerrero Henández, Manuel; Delgado, Valeria; Barberena, Javier; Montenegro Rayo, Kata; Alvarado, Yaneth; Benegas, Laura; Hernández - Antonio, Arturo; Matamoros Ortega, Marcela; Ortega, Lucía; Terzer-Wassmuth, Stefan
Numerous socio-economic activities are dependent on the seasonal rainfall and groundwater recharge cycle across the Central American Isthmus. Demographic growth and unregulated land use changes resulted in extensive surface in rainfall, surface water, and groundwater of Costa Rica, Nicaragua, El Salvador, and Honduras. A regional rainfall isoscape, isotopic lapse rates, spatial-temporal isotopic variations, and air mass back trajectories were combined to determine potential mean recharge elevations, moisture circulation patterns, and surface water-groundwater interactions. Intra-seasonal rainfall modes resulted in two depleted incursions (W-shaped isotopic pattern) during the wet season and two enriched pulses during the Mid-Summer Drought and the months of the strongest trade winds. Notable isotopic sub-cloud fractionation and near-surface secondary evaporation were identified as common denominators within the Dry Corridor. Groundwater and surface water isotope ratios depicted the strong orographic separation into the Caribbean and Pacific domains, mainly induced by the governing moisture transport from the Caribbean Sea, complex rainfall producing systems across the N-S mountain range, and the subsequent mixing with local evapotranspiration, and, to a lesser degree, the eastern Pacific Ocean fluxes.
Tracer hydrology of the data-scarce and heterogeneous Central American Isthmus
(Universidad Nacional (Costa Rica), 2019) Sanchez-Murillo, Ricardo; Esquivel Hernández, Germain; Corrales-Salazar, L.; Castro-Chacón, L.; Durán-Quesada, A. M.; Guerrero-Hernández, M.; Delgado, V.; Barberena, J.; Montenegro-Rayo, K.; Calderón, H.; Chevez, C.; Peña-Paz, T.; García-Santos, S.; Ortiz-Roque, P.; Alvarado-Callejas, Y.; Benegas, L.; Hernández-Antonio, A.; Matamoros-Ortega, M.; Ortega, L.; Terzer-Wassmuth, S.
Resumen. Numerosas actividades socioeconómicas dependen de las precipitaciones estacionales y del ciclo de recarga de aguas subterráneas en todo el istmo centroamericano. El crecimiento demográfico y los cambios no regulados en el uso de la tierra provocaron una amplia contaminación de las aguas superficiales y una gran dependencia de los recursos de aguas subterráneas. Este capítulo utiliza variaciones de isótopos estables en precipitaciones, aguas superficiales y subterráneas de Costa Rica, Nicaragua, El Salvador y Honduras para desarrollar un isopaisaje de precipitaciones regionalizado, tasas de caída isotópica, variaciones isotópicas espacio-temporales y trayectorias de retorno de masas de aire que determinan la media potencial. elevaciones de recarga, patrones de circulación de humedad e interacciones entre aguas superficiales y subterráneas. Los modos de lluvia intraestacionales dieron como resultado dos incursiones isotópicamente agotadas (patrón isotópico en forma de W) durante la estación húmeda y dos pulsos enriquecidos durante la sequía de mediados de verano y los meses de los vientos alisios más fuertes. Se identificaron como denominadores comunes dentro del Corredor Seco Centroamericano el notable fraccionamiento isotópico de las subnubes y la evaporación secundaria cerca de la superficie. Las proporciones de isótopos de aguas subterráneas y superficiales describieron la fuerte separación orográfica en los dominios del Caribe y el Pacífico, inducida principalmente por el transporte de humedad que rige desde el Mar Caribe, los complejos sistemas productores de lluvia a lo largo de la cordillera N-S y la posterior mezcla con la evapotranspiración local, y, en menor grado, los flujos del Océano Pacífico oriental. La recarga de aguas subterráneas se caracterizó por a) recarga agotada en áreas montañosas (72,3%), b) recarga rápida a través de rutas de flujo preferenciales (13,1%) y recarga enriquecida debido al fraccionamiento secundario cerca de la superficie (14,6%). La elevación media de recarga osciló entre 1.104 y 1.979 m s.n.m. Estos resultados tienen como objetivo mejorar las prácticas de conservación forestal, informar las regulaciones de protección del agua y facilitar la planificación de la seguridad y la sostenibilidad del agua en el istmo centroamericano.

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Examinando Ponencias por Materia "AGUAS SUBTERRÁNEAS"