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Tecnología y ciencias del agua
versión On-line ISSN 2007-2422
Resumen
BRISENO-RUIZ, Jessica Vanessa; HERRERA-ZAMARRON, Graciela del Socorro y JUNEZ-FERREIRA, Hugo Enrique. Method for the optimal design of networks to monitor groundwater levels. Tecnol. cienc. agua [online]. 2011, vol.2, n.4, pp.77-96. ISSN 2007-2422.
It is essential to measure groundwater levels for long periods of time in order to estimate groundwater availability and its evolution. However, economic resources are a limitation to gathering enough data to estimate the evolution of these levels with certainty. Therefore, methods are required to design groundwater monitoring networks so as to effectively use the economic resources available for monitoring. The Herrera and Pinder method (Herrera, 1998) for the optimal design of groundwater quality sampling networks, applied by Herrera et al. (2001) and by Herrera and Pinder (2005), has several advantages: it allows for optimally selecting both monitoring positions and monitoring times; the information from the monitoring network enables obtaining estimates in space and time and; the method uses a flow and transport model that synthesizes knowledge about the characteristics of the aquifer, the groundwater flow dynamics and the groundwater quality problem, as well as knowledge about the laws of physics. This work tests, for the first time, a modification of the original method for the design of groundwater level monitoring networks. A synthetic case is presented in which the network is designed for a single time, assuming steady-state flow. The results indicate that the methodology proposed by Herrera and Pinder has good prospects for successful application to the optimal design of groundwater level monitoring networks.
Palabras llave : groundwater; monitoring networks; optimal design.