Abstract
The porous aquifers in the area called Challapampa are the most important groundwater reservoirs that supply drinking water to Oruro city in the highlands of Bolivia. They consist of unconsolidated fluvial–lacustrine deposits, resting on a complex sedimentary bedrock and covered by a thin surficial clay layer. The settings of these geological units and the structures governing the flow patterns have barely been investigated, despite this reservoir having been utilized during the last 50 years. This study applied transient electromagnetic (TEM) soundings and electrical resistivity tomography (ERT) in the middle part of the alluvial fan of River Paria to investigate the thickness of the porous aquifer and detect the relief of the bedrock. Likewise, some results expressed as resistivity models indicate the possible existence of geological structures below the unconsolidated sediments. The average depth of investigation reached in this study is between 200 and 250 m below the surface, for both the applied methods. The geological structures inferred have similar directions as the major faults in the vicinity, from southeast to northwest, which in turn are assumed as part of fractured aquifers underlying the porous aquifers. The geo-electrical techniques were successfully tested in the study area and the resistivity models from TEM complement very well those obtained from ERT. Therefore, extended investigations using the same techniques would help to develop a more complete description of the hydrogeological settings of the aquifer system.
Highlights
In the semi-arid Bolivian Altiplano, aquifers are the most important source of water, since rivers and lakes have been drying out in the recent years because of the climate change
A number of soundings are aligned in two cross-sections, one of them overlapping both electrical resistivity tomography (ERT) profiles (See Fig. 4), which were conducted in March 2015
Two single transient electromagnetic (TEM) tests were conducted close to the bedrock outcrops to get the distinctive resistivity of those rocks
Summary
In the semi-arid Bolivian Altiplano, aquifers are the most important source of water, since rivers and lakes have been drying out in the recent years because of the climate change. The aquifer system in the area called Challapampa, close to Oruro city, supplies water for consumption to about 300,000 inhabitants, besides being used for agriculture, mining and industrial purposes. This reservoir requires a management plan to assure its sustainability in the future. Geophysical methods have proven to be efficient and inexpensive tools in obtaining fast information about the distribution of physical properties in the subsurface They have proven to be efficient ways to investigate features such as saline water interface, depth and thickness of geological units and depth to water table
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