Your search keyword '"GROUNDWATER temperature"' showing total 5 results

1. Development of Low-Cost IoT System for Monitoring Piezometric Level and Temperature of Groundwater.

Author

Espinoza Ortiz, Mauro, Apún Molina, Juan Pablo, Belmonte Jiménez, Salvador Isidro, Herrera Barrientos, Jaime, Peinado Guevara, Héctor José, and Santamaria Miranda, Apolinar

Subjects

*GROUNDWATER temperature, *WATER table, *WATER in agriculture, *INTERNET of things, *ELECTRIC conductivity, *GROUNDWATER monitoring, *SALTWATER encroachment

Abstract

Rural communities in Mexico and other countries with limited economic resources require a low-cost measurement system for the piezometric level and temperature of groundwater for their sustainable management, since anthropogenic action (pumping extractions), natural recharge and climate change phenomena affect the behavior of piezometric levels in the aquifer and its sustainability is at risk. Decrease in the piezometric level under a balanced level promotes salt intrusion from ocean water to the aquifer, salinizing and deteriorating the water quality for agriculture and other activities; and a decrease in water level under the pumps or well drilling depth could deprive communities of water. Water temperature monitoring is essential to determine electric conductivity and dissolved salt content in groundwater. Using IoT technology, a device was developed that monitors both variables inside the well, and the ambient temperature and atmospheric pressure outside the well. The measurements are made in real time, with sampling every second and sending data to a dedicated server every 15 min so that the visualization can be accessed through a device with Internet access. The time series of the variables measured inside and outside the well were obtained over a period of three months in the rural community of Agua Blanca, Guasave, Sinaloa, Mexico. Through these records, a progressive temporary drawdown of the piezometric level is observed, as well as the frequency of pumping. This low-cost IoT system shows potential use in hydrological processes of interest such as the separation of regional and local flow, drawdown rates and recognition of geohydrological parameters. [ABSTRACT FROM AUTHOR]

Published

2023

2. Hydrochemistry and stable isotopes revealed focused and diffuse recharge processes in the Sonora River basin, Mexico.

Author

Pérez Quezadas, Juan, Cabrera Sillas, Yesica Guadalupe, Monreal, Rogelio, Rangel Medina, Miguel, Morales Arredondo, José Iván, and Sánchez-Murillo, Ricardo

Subjects

*WATERSHEDS, *STABLE isotopes, *WATER chemistry, *GROUNDWATER temperature, *WATER pollution, *RIVER channels

Abstract

A hydro-geochemical characterization was conducted in the northern part of the Sonora River basin, covering an area of 9400 km2. Equipotential lines indicated that groundwater circulation coincided with the surface water flow direction. Based on the groundwater temperature measured (on average ∼21 °C), only one spring exhibited thermalism (51 °C). Electrical conductivity (160–1750 μS/cm), chloride and nitrate concentrations (>10 and >45 mg/L) imply highly ionized water and anthropogenic pollution. In the river network, δ18O values revealed a clear modern meteoric origin. Focused recharge occurred mainly from the riverbeds during the rainy season. During the dry season, diffuse recharge was characterized by complex return flows from irrigation, urban, agricultural, mining, and livestock. Drilled wells (>50 m) exhibited a strong meteoric origin from higher elevations during the rainy season with minimal hydrochemical anomalies. Our results contribute to the knowledge of mountain-front and mountain-block recharge processes in a semi-arid and human-altered landscape in northern Mexico, historically characterized by limited hydrogeological data. [ABSTRACT FROM AUTHOR]

Published

2023

3. Numerical Analysis of the Groundwater Flow System and Heat Transport for Sustainable Water Management in a Regional Semi-Arid Basin in Central Mexico.

Author

Ortega Guerrero, Marcos Adrián

Subjects

GROUNDWATER flow, GROUNDWATER analysis, WATER management, GROUNDWATER temperature, NUMERICAL analysis, GROUNDWATER recharge

Abstract

The Independence Basin is located in a semi-arid region of Mexico, delimited predominantly by volcanic mountains. Around 30 m3/s of water are extracted from regional aquifers mainly for agro-export activities, causing declines in the water table of up to 10 m/a, increased temperature and dissolved elements that are harmful to health and the environment. Regional groundwater coupled flow and heat transport under current conditions were studied on a basin-wide scale (7000 km2) using a three-dimensional finite-element model under steady-state conditions to provide support for water management decisions and transient modeling. Isothermal, forced and free thermal convection under existing hydrological conditions prior to pumping are analyzed. The results show that the interaction of topography-driven groundwater flow and buoyancy-driven free thermal convection are consistent with historical hydrological records, the characteristics of the water table, and thermal anomalies observed in the basin. The simulated groundwater recharge is near 7 ± 0.25 m3/s, a balance broken since the 1980s by extensive pumping. The results show the importance of considering the groundwater temperature, its transient response in the evolution of groundwater extraction, and the upward migration of a thermal front through the fractured aquifer that has increased risks for health and sustainability. [ABSTRACT FROM AUTHOR]

Published

2022

4. Spatio-temporal groundwater arsenic distribution in Central Mexico: implications in accumulation of arsenic in barley (Hordeum vulgare L.) agrosystem.

Author

Saldaña-Robles, Noé, Damián-Ascencio, Cesar, Gutiérrez-Chávez, Abner, Zanor, Gabriela, Guerra-Sánchez, Ricardo, Herrera-Díaz, Israel, and Saldaña-Robles, Adriana

Subjects

BARLEY, GROUNDWATER temperature, ARSENIC, HORDEUM, WATER temperature, IRRIGATION water, PLANT anatomy, GROUNDWATER

Abstract

In the present work, a spatio-temporal study of arsenic (As) concentration in groundwater and its impact in barley uptake is presented. The impact of As on barley is studied through the determination of its bioaccumulation in the soil-plant system, As uptake, as well as a correlation between As concentration in water and its temperature in the groundwater. For the groundwater, spatial and temporal variability of As concentration in central Mexico was determined through a geostatistical analysis using ordinary kriging. The results show that the variability of As in the ground water is correlated with its temperature (R2 > 0.83). The As accumulation in the structures of plant follows the order root > leaf > ear in concentration. The bioaccumulation factor BAFT suggests that As is mobilized to the aerial parts of the barely for both As concentrations used in the irrigation water. However, for As concentration lower than 25 μg L−1, the BAFT is lower than 0.57, suggesting that the amount of As in root is the same as that contained in the aerial parts; whereas, for higher As concentrations (from 170 to 250 μg L−1), the BAFT is around 0.92, indicating that the As is mainly contained in root. The spatial distribution of As concentration trend in groundwaters along the time is the same, which means high As concentration areas remain in the same groundwaters and these areas are presenting the highest water temperature. These results shall contribute to understand the bioaccumulation of As in barley and the As spatial variability in central Mexico. [ABSTRACT FROM AUTHOR]

Published

2021

5. Identificación de los flujos subterráneos que alimentan al acuífero de Tehuacán en el estado de Puebla, México, con base en indicadores hidrogeoquímicos y la temperatura del agua subterránea.

Author

Sandoval-Montes, Ismael del Carmen

Subjects

*GROUNDWATER temperature, *AQUIFERS, *HYDROGEOLOGY, *ECONOMIC development, *WATER use, *ANIONS, *CATIONS

Published

2011