TY - JOUR
T1 - Geoelectrical and electromagnetic methods applied to paleolimnological studies
T2 - Two examples from desiccated lakes in the Basin of Mexico
AU - Bücker, Matthias
AU - García, Socorro Lozano
AU - Guerrero, Beatriz Ortega
AU - Caballero, Margarita
AU - Pérez, Liseth
AU - Caballero, Lizeth
AU - de la Paz, Carlos Pita
AU - Sánchez-Galindo, Alfredo
AU - Villegas, Francisco Jesús
AU - Orozco, Adrián Flores
AU - Brown, Erik
AU - Werne, Josef
AU - Garcés, Blas Valero
AU - Schwalb, Antje
AU - Kemna, Andreas
AU - Sánchez-Alvaro, Edgar
AU - Launizar-Martínez, Norberto
AU - Valverde-Placencia, Antonio
AU - Garay-Jiménez, Fernando
PY - 2017/1/1
Y1 - 2017/1/1
N2 - Paleolimnological studies require a broad understanding of the geometry and depth of the sedimentary fill of lake basins prior to coring campaigns. Seismic methods are routinely employed for the indirect characterization of lake-bottom sediments. However, the use of seismic methods might occasionally be limited due to surface conditions or poor seismic contrasts between the stratigraphic units, which lead to data quality that is too poor to provide sufficient information for the selection of drill sites. Sources of cultural noise are one of the main reasons why seismic methods fail in study areas near or within large cities, such as Mexico City. Under certain conditions, electrical and electromagnetic methods might be a suitable substitute or complement to seismic exploration, as they respond to different physical properties of the subsurface. To evaluate the applicability of such methods, here we present two recent case studies from the desiccated lakes Chalco and Xochimilco both located in urban areas within the Basin of Mexico where electrical resistivity tomography (ERT), transient electromagnetic (TEM) and magnetotelluric (MT) soundings were conducted for the characterization of lake basement and lacustrine sediments. In both examples, the results of the geophysical exploration contributed valuable stratigraphic information for the following drilling and core recovery, which highlights the potential of electrical and electromagnetic methods in paleolimnological studies.
AB - Paleolimnological studies require a broad understanding of the geometry and depth of the sedimentary fill of lake basins prior to coring campaigns. Seismic methods are routinely employed for the indirect characterization of lake-bottom sediments. However, the use of seismic methods might occasionally be limited due to surface conditions or poor seismic contrasts between the stratigraphic units, which lead to data quality that is too poor to provide sufficient information for the selection of drill sites. Sources of cultural noise are one of the main reasons why seismic methods fail in study areas near or within large cities, such as Mexico City. Under certain conditions, electrical and electromagnetic methods might be a suitable substitute or complement to seismic exploration, as they respond to different physical properties of the subsurface. To evaluate the applicability of such methods, here we present two recent case studies from the desiccated lakes Chalco and Xochimilco both located in urban areas within the Basin of Mexico where electrical resistivity tomography (ERT), transient electromagnetic (TEM) and magnetotelluric (MT) soundings were conducted for the characterization of lake basement and lacustrine sediments. In both examples, the results of the geophysical exploration contributed valuable stratigraphic information for the following drilling and core recovery, which highlights the potential of electrical and electromagnetic methods in paleolimnological studies.
KW - Electrical resistivity tomography
KW - Electromagnetic methods
KW - Geophysics
KW - Lacustrine sediments
KW - Mexico
KW - Paleolimnology
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U2 - 10.18268/BSGM2017v69n2a1
DO - 10.18268/BSGM2017v69n2a1
M3 - Article
AN - SCOPUS:85028992372
SN - 1405-3322
VL - 69
SP - 279
EP - 298
JO - Boletin de la Sociedad Geologica Mexicana
JF - Boletin de la Sociedad Geologica Mexicana
IS - 2
ER -