Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina

Autores
Gómez Samus, Mauro Leandro; Rico, Yamile; Bidegain, Juan Carlos
Año de publicación
2016
Idioma
español castellano
Tipo de recurso
artículo
Estado
versión publicada
Descripción
Dado que los parámetros magnéticos proporcionan información acerca del tipo, abundancia y tamaño de grano de los minerales magnéticos, es posible utilizarlos para la interpretación de procesos sedimentarios y pedogenéticos. El objetivo del presente trabajo es caracterizar la señal magnética de los suelos que se desarrollan a partir del loess del Pleistoceno – Holoceno en el centro de la provincia de Buenos Aires, en el sector de Tandilia. El área de estudio ocupa un lugar intermedio entre zonas donde existen estudios de magnetismo ambiental, como el norte y el sur de la provincia de Buenos Aires. Esto permite realizar comparaciones que propenden a la elaboración de un modelo magnético regional para los suelos de la región pampeana. Los perfiles de suelos analizados han sido clasificados como Argiudol típico, Hapludol típico y Hapludol petrocálcico. Los minerales que dominan la señal magnética corresponden en todos los casos a especies ferrimagnéticas, del tipo magnetita-titanomagnetitas-maghemita. Las técnicas empleadas indican dominio de granos magnéticos de diámetro inferior a 1 μm, principalmente Dominio Simple (DS). La concentración de estos minerales en el material parental de los suelos analizados difiere de la del material parental de los suelos de otros sectores de la provincia; es más elevada que la del norte y más baja que la del sur. Posiblemente, este patrón tiene una estrecha vinculación con la procedencia sedimentaria, con mayor cantidad de titanomagnetitas hacia el área fuente, ubicada al sudoeste. Los valores más elevados de susceptibilidad magnética se registran en los horizontes A y B, debido a un enriquecimiento en partículas magnéticas de tamaños de grano ultrafino (SP) a fino (DS) por efecto de la pedogénesis. Los valores de coercitividad de la remanencia disminuyen en dichos horizontes, de manera que la incorporación pedogenética de partículas magnéticas correspondería a especies de baja coercitividad, probablemente maghemita. La señal magnética registrada en los suelos del centro de la provincia de Buenos Aires corresponde al denominado patrón de incremento magnético, semejante al de los suelos del sur dicha provincia, pero inverso al de la mayoría de los suelos del norte. Las diferencias se relacionan con el tiempo de permanencia del agua en el suelo, aspecto vinculado al clima, al relieve y a las características hidráulicas del material.
A great variety of iron oxides are present in soils and paleosols; these can be inherited from the parent material or formed during pedogenesis. Different authors have analyzed magnetic properties of soils and they are mainly associated with climate, topography, soil drainage, characteristics of the parent material or the occurrence of fires. Besides, considering that current climatic and environmental characteristics are more accurately known than such conditions in the geological past, it is estimated that the application of these techniques in soils could help to establish the framework for the study of paleosols through its magnetic properties. This contribution is part of a wider research, which tends to differentiate the soils of the Pampean region based on their magnetic properties. Four soil profiles from central Buenos Aires province are analyzed from the environmental magnetism perspective (Fig. 1) and are compared with the results obtained by several authors in the north and south of the same province. The comparison tends to develop a regional magnetic model for the Late Pleistocene- Holocene loess deposits and loess-derived soils in the Pampean region The soils of the study area are developed from loess deposits of Late Pleistocene-Holocene (Las Ánimas Formation), but they are also controlled by the presence of a regional calcareous crust found below of Las Ánimas Formation, affecting loessoid fluvial sediments that constitute another lithostratigraphic unit, called Vela Formation (Middle Pleistocene). The current climate is humid to subhumid, mesothermal, with a slight hydric excess, with an average annual rainfall of 838 mm and annual average temperature of 13,6ºC; potential evapotranspiration was calculated at 712 mm/year and real evapotranspiration at 694 mm/year. The soils in the area correspond to the Mollisol order, and as the moisture regime is mainly udic across the region, the suborder is Udoll (Soil Survey Staff, 2014). Taking into account the surveys carried out by Pazos (2014) and INTA (National Institute of Agricultural Technology) in support of the field descriptions (Table 1 - 4), the analysed soils profiles were tentatively classified at the subgroup level of Soil Taxonomy. Two Typic Argiudolls (P1 and P4), a Petrocalcic Hapludoll (P2) and a Typic Hapludoll (P3) were recognized. Whereas the Typic Argiudolls correspond to “zonal” soils, the rest are “intrazonal” soils, in which the development of the Petrocalcic Hapludoll is conditioned by a shallow duricrust and the Typic Hapludoll by a relatively high slope. Samples of each soil horizon were extracted for analysis by thermogravimetric techniques, which allowed loss on ignition determination at 550 and 1000ºC, and the measurement of magnetic parameters, which included magnetic susceptibility, isothermal remanent magnetization and anhysteric remanent magnetization. Figure 3 shows the variation of the determined parameters as depth-functions for each soil profile, whereas the analyses related to the lithostratigraphic units and soil horizons are shown in the histograms of figures 4 to 6. Besides, the greater amounts of measurements of magnetic susceptibility (χbf) make it possible a more detailed analysis of this parameter (Fig. 5b). The coercivity of remanence (Hcr) and S-ratio (Coef. S) values, as well acquisition of isothermal remanent magnetization curves design (Fig. 7), are consistent with the magnetic signature of ferrimagnetic species. According to Peters and Dekkers’ graph (2001), the samples correspond to magnetite-titanomagnetitesmaghemite (Fig. 8a). These data are consistent with those indicated for other soils with loessic parent materials of the Pampean region where it has been determined by different ways that the detrital magnetic composition mainly corresponds to titanomagnetites with low titanium. According to King et al. (1982) (Fig. 9) the magnetic grains would be less than 1 micron diameter, and are considered of single domain (SD). Samples of horizons A and B present smaller magnetic particles than the parent materials (C horizons). Besides, the frequencydependent susceptibility indicates that the relative presence of ultrafine particles (SP) increase in the solum horizons, in which there is also recorded, taking into account the inter-parametric relations, an increase of fine magnetic particles (SD and SDSP limit) (Fig. 10). Finally, the decline of Hcr values at the A and B horizons would indicate that the magnetic particles of pedogenetic origin formed in these horizons have low coercivity (Fig. 8b). An aspect to remark is that the magnetic concentration in the parent material of the analyzed soils presents differences between the soils of north and south of the same province (Fig. 11). It is lower in the north and higher in the south; this would be related to the sediment distribution mechanisms at the regional level and the sources areas, corroborating the utility of magnetic parameters for provenance analyses. In our case, it seems that the deposits register the highest magnetic concentrations as closer to the source area, in the flood plains of the Colorado and Negro Rivers, but in the north of Buenos Aires is also possible a contribution of poorly magnetic sediments of a cratonic origin related to the Paraná River basin. In respect to the pedogenetic magnetic signal, the behavior corresponds to the so-called magnetic enhancement, linked to an enrichment of ultrafine (SP) to fine (SD) magnetic particles by the effect of pedogenesis. The same behavior was determined in soils in the south of the province of Buenos Aires; while in the north of this province the opposite (depletion) dominates. Such difference seems to be related to the time of permanence of the water in the soil, an aspect that integrates climate, topography and hydraulic characteristics of the material. It is considered that a prolonged permanence of water in the soil favors the loss of lithogenic magnetite by oxidation. On the other hand, the alternation of wetting-drying cycles of short duration in a predominance of aerobic conditions, leads to the neoformation of magnetite (and/or maghemite) particles, as well as a greater conservation of the detrital magnetite.
Fil: Gómez Samus, Mauro Leandro. Laboratorio Entrenamiento Multidisciplinario para la Investigación Tecnológica; Argentina. Universidad Nacional de La Plata; Argentina
Fil: Rico, Yamile. Laboratorio Entrenamiento Multidisciplinario para la Investigación Tecnológica; Argentina. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas; Argentina. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo; Argentina
Fil: Bidegain, Juan Carlos. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas; Argentina. Laboratorio Entrenamiento Multidisciplinario para la Investigación Tecnológica; Argentina
Materia
Suelos
Magnetismo Ambiental
Cuaternario
Loess
Tandilia
Nivel de accesibilidad
acceso abierto
Condiciones de uso
https://creativecommons.org/licenses/by-nc-sa/2.5/ar/
Repositorio
CONICET Digital (CONICET)
Institución
Consejo Nacional de Investigaciones Científicas y Técnicas
OAI Identificador
oai:ri.conicet.gov.ar:11336/57529
Acceder
id CONICETDig_fa0ebaa484ebf0b3a8e9f8d8af39849b
oai_identifier_str oai:ri.conicet.gov.ar:11336/57529
network_acronym_str CONICETDig
repository_id_str 3498
network_name_str CONICET Digital (CONICET)
spelling Señal magnética en suelos del centro de la provincia de Buenos Aires, ArgentinaMagnetic signal in soils of the centre of Buenos Aires province, ArgentinaGómez Samus, Mauro LeandroRico, YamileBidegain, Juan CarlosSuelosMagnetismo AmbientalCuaternarioLoessTandiliahttps://purl.org/becyt/ford/4.1https://purl.org/becyt/ford/4Dado que los parámetros magnéticos proporcionan información acerca del tipo, abundancia y tamaño de grano de los minerales magnéticos, es posible utilizarlos para la interpretación de procesos sedimentarios y pedogenéticos. El objetivo del presente trabajo es caracterizar la señal magnética de los suelos que se desarrollan a partir del loess del Pleistoceno – Holoceno en el centro de la provincia de Buenos Aires, en el sector de Tandilia. El área de estudio ocupa un lugar intermedio entre zonas donde existen estudios de magnetismo ambiental, como el norte y el sur de la provincia de Buenos Aires. Esto permite realizar comparaciones que propenden a la elaboración de un modelo magnético regional para los suelos de la región pampeana. Los perfiles de suelos analizados han sido clasificados como Argiudol típico, Hapludol típico y Hapludol petrocálcico. Los minerales que dominan la señal magnética corresponden en todos los casos a especies ferrimagnéticas, del tipo magnetita-titanomagnetitas-maghemita. Las técnicas empleadas indican dominio de granos magnéticos de diámetro inferior a 1 μm, principalmente Dominio Simple (DS). La concentración de estos minerales en el material parental de los suelos analizados difiere de la del material parental de los suelos de otros sectores de la provincia; es más elevada que la del norte y más baja que la del sur. Posiblemente, este patrón tiene una estrecha vinculación con la procedencia sedimentaria, con mayor cantidad de titanomagnetitas hacia el área fuente, ubicada al sudoeste. Los valores más elevados de susceptibilidad magnética se registran en los horizontes A y B, debido a un enriquecimiento en partículas magnéticas de tamaños de grano ultrafino (SP) a fino (DS) por efecto de la pedogénesis. Los valores de coercitividad de la remanencia disminuyen en dichos horizontes, de manera que la incorporación pedogenética de partículas magnéticas correspondería a especies de baja coercitividad, probablemente maghemita. La señal magnética registrada en los suelos del centro de la provincia de Buenos Aires corresponde al denominado patrón de incremento magnético, semejante al de los suelos del sur dicha provincia, pero inverso al de la mayoría de los suelos del norte. Las diferencias se relacionan con el tiempo de permanencia del agua en el suelo, aspecto vinculado al clima, al relieve y a las características hidráulicas del material.A great variety of iron oxides are present in soils and paleosols; these can be inherited from the parent material or formed during pedogenesis. Different authors have analyzed magnetic properties of soils and they are mainly associated with climate, topography, soil drainage, characteristics of the parent material or the occurrence of fires. Besides, considering that current climatic and environmental characteristics are more accurately known than such conditions in the geological past, it is estimated that the application of these techniques in soils could help to establish the framework for the study of paleosols through its magnetic properties. This contribution is part of a wider research, which tends to differentiate the soils of the Pampean region based on their magnetic properties. Four soil profiles from central Buenos Aires province are analyzed from the environmental magnetism perspective (Fig. 1) and are compared with the results obtained by several authors in the north and south of the same province. The comparison tends to develop a regional magnetic model for the Late Pleistocene- Holocene loess deposits and loess-derived soils in the Pampean region The soils of the study area are developed from loess deposits of Late Pleistocene-Holocene (Las Ánimas Formation), but they are also controlled by the presence of a regional calcareous crust found below of Las Ánimas Formation, affecting loessoid fluvial sediments that constitute another lithostratigraphic unit, called Vela Formation (Middle Pleistocene). The current climate is humid to subhumid, mesothermal, with a slight hydric excess, with an average annual rainfall of 838 mm and annual average temperature of 13,6ºC; potential evapotranspiration was calculated at 712 mm/year and real evapotranspiration at 694 mm/year. The soils in the area correspond to the Mollisol order, and as the moisture regime is mainly udic across the region, the suborder is Udoll (Soil Survey Staff, 2014). Taking into account the surveys carried out by Pazos (2014) and INTA (National Institute of Agricultural Technology) in support of the field descriptions (Table 1 - 4), the analysed soils profiles were tentatively classified at the subgroup level of Soil Taxonomy. Two Typic Argiudolls (P1 and P4), a Petrocalcic Hapludoll (P2) and a Typic Hapludoll (P3) were recognized. Whereas the Typic Argiudolls correspond to “zonal” soils, the rest are “intrazonal” soils, in which the development of the Petrocalcic Hapludoll is conditioned by a shallow duricrust and the Typic Hapludoll by a relatively high slope. Samples of each soil horizon were extracted for analysis by thermogravimetric techniques, which allowed loss on ignition determination at 550 and 1000ºC, and the measurement of magnetic parameters, which included magnetic susceptibility, isothermal remanent magnetization and anhysteric remanent magnetization. Figure 3 shows the variation of the determined parameters as depth-functions for each soil profile, whereas the analyses related to the lithostratigraphic units and soil horizons are shown in the histograms of figures 4 to 6. Besides, the greater amounts of measurements of magnetic susceptibility (χbf) make it possible a more detailed analysis of this parameter (Fig. 5b). The coercivity of remanence (Hcr) and S-ratio (Coef. S) values, as well acquisition of isothermal remanent magnetization curves design (Fig. 7), are consistent with the magnetic signature of ferrimagnetic species. According to Peters and Dekkers’ graph (2001), the samples correspond to magnetite-titanomagnetitesmaghemite (Fig. 8a). These data are consistent with those indicated for other soils with loessic parent materials of the Pampean region where it has been determined by different ways that the detrital magnetic composition mainly corresponds to titanomagnetites with low titanium. According to King et al. (1982) (Fig. 9) the magnetic grains would be less than 1 micron diameter, and are considered of single domain (SD). Samples of horizons A and B present smaller magnetic particles than the parent materials (C horizons). Besides, the frequencydependent susceptibility indicates that the relative presence of ultrafine particles (SP) increase in the solum horizons, in which there is also recorded, taking into account the inter-parametric relations, an increase of fine magnetic particles (SD and SDSP limit) (Fig. 10). Finally, the decline of Hcr values at the A and B horizons would indicate that the magnetic particles of pedogenetic origin formed in these horizons have low coercivity (Fig. 8b). An aspect to remark is that the magnetic concentration in the parent material of the analyzed soils presents differences between the soils of north and south of the same province (Fig. 11). It is lower in the north and higher in the south; this would be related to the sediment distribution mechanisms at the regional level and the sources areas, corroborating the utility of magnetic parameters for provenance analyses. In our case, it seems that the deposits register the highest magnetic concentrations as closer to the source area, in the flood plains of the Colorado and Negro Rivers, but in the north of Buenos Aires is also possible a contribution of poorly magnetic sediments of a cratonic origin related to the Paraná River basin. In respect to the pedogenetic magnetic signal, the behavior corresponds to the so-called magnetic enhancement, linked to an enrichment of ultrafine (SP) to fine (SD) magnetic particles by the effect of pedogenesis. The same behavior was determined in soils in the south of the province of Buenos Aires; while in the north of this province the opposite (depletion) dominates. Such difference seems to be related to the time of permanence of the water in the soil, an aspect that integrates climate, topography and hydraulic characteristics of the material. It is considered that a prolonged permanence of water in the soil favors the loss of lithogenic magnetite by oxidation. On the other hand, the alternation of wetting-drying cycles of short duration in a predominance of aerobic conditions, leads to the neoformation of magnetite (and/or maghemite) particles, as well as a greater conservation of the detrital magnetite.Fil: Gómez Samus, Mauro Leandro. Laboratorio Entrenamiento Multidisciplinario para la Investigación Tecnológica; Argentina. Universidad Nacional de La Plata; ArgentinaFil: Rico, Yamile. Laboratorio Entrenamiento Multidisciplinario para la Investigación Tecnológica; Argentina. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas; Argentina. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo; ArgentinaFil: Bidegain, Juan Carlos. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas; Argentina. Laboratorio Entrenamiento Multidisciplinario para la Investigación Tecnológica; ArgentinaAsociación Argentina de Sedimentología2016-12info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/resource_type/c_6501info:ar-repo/semantics/articuloapplication/pdfapplication/pdfapplication/pdfhttp://hdl.handle.net/11336/57529Gómez Samus, Mauro Leandro; Rico, Yamile; Bidegain, Juan Carlos; Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina; Asociación Argentina de Sedimentología; Latin American Journal of Sedimentology and Basin Analisis; 23; 2; 12-2016; 93-1101851-4979CONICET DigitalCONICETspainfo:eu-repo/semantics/altIdentifier/url/http://ref.scielo.org/5fb8w4info:eu-repo/semantics/openAccesshttps://creativecommons.org/licenses/by-nc-sa/2.5/ar/reponame:CONICET Digital (CONICET)instname:Consejo Nacional de Investigaciones Científicas y Técnicas2025-09-29T09:43:14Zoai:ri.conicet.gov.ar:11336/57529instacron:CONICETInstitucionalhttp://ri.conicet.gov.ar/Organismo científico-tecnológicoNo correspondehttp://ri.conicet.gov.ar/oai/requestdasensio@conicet.gov.ar; lcarlino@conicet.gov.arArgentinaNo correspondeNo correspondeNo correspondeopendoar:34982025-09-29 09:43:14.869CONICET Digital (CONICET) - Consejo Nacional de Investigaciones Científicas y Técnicasfalse
dc.title.none.fl_str_mv Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina
Magnetic signal in soils of the centre of Buenos Aires province, Argentina
title Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina
spellingShingle Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina
Gómez Samus, Mauro Leandro
Suelos
Magnetismo Ambiental
Cuaternario
Loess
Tandilia
title_short Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina
title_full Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina
title_fullStr Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina
title_full_unstemmed Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina
title_sort Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina
dc.creator.none.fl_str_mv Gómez Samus, Mauro Leandro
Rico, Yamile
Bidegain, Juan Carlos
author Gómez Samus, Mauro Leandro
author_facet Gómez Samus, Mauro Leandro
Rico, Yamile
Bidegain, Juan Carlos
author_role author
author2 Rico, Yamile
Bidegain, Juan Carlos
author2_role author
author
dc.subject.none.fl_str_mv Suelos
Magnetismo Ambiental
Cuaternario
Loess
Tandilia
topic Suelos
Magnetismo Ambiental
Cuaternario
Loess
Tandilia
purl_subject.fl_str_mv https://purl.org/becyt/ford/4.1
https://purl.org/becyt/ford/4
dc.description.none.fl_txt_mv Dado que los parámetros magnéticos proporcionan información acerca del tipo, abundancia y tamaño de grano de los minerales magnéticos, es posible utilizarlos para la interpretación de procesos sedimentarios y pedogenéticos. El objetivo del presente trabajo es caracterizar la señal magnética de los suelos que se desarrollan a partir del loess del Pleistoceno – Holoceno en el centro de la provincia de Buenos Aires, en el sector de Tandilia. El área de estudio ocupa un lugar intermedio entre zonas donde existen estudios de magnetismo ambiental, como el norte y el sur de la provincia de Buenos Aires. Esto permite realizar comparaciones que propenden a la elaboración de un modelo magnético regional para los suelos de la región pampeana. Los perfiles de suelos analizados han sido clasificados como Argiudol típico, Hapludol típico y Hapludol petrocálcico. Los minerales que dominan la señal magnética corresponden en todos los casos a especies ferrimagnéticas, del tipo magnetita-titanomagnetitas-maghemita. Las técnicas empleadas indican dominio de granos magnéticos de diámetro inferior a 1 μm, principalmente Dominio Simple (DS). La concentración de estos minerales en el material parental de los suelos analizados difiere de la del material parental de los suelos de otros sectores de la provincia; es más elevada que la del norte y más baja que la del sur. Posiblemente, este patrón tiene una estrecha vinculación con la procedencia sedimentaria, con mayor cantidad de titanomagnetitas hacia el área fuente, ubicada al sudoeste. Los valores más elevados de susceptibilidad magnética se registran en los horizontes A y B, debido a un enriquecimiento en partículas magnéticas de tamaños de grano ultrafino (SP) a fino (DS) por efecto de la pedogénesis. Los valores de coercitividad de la remanencia disminuyen en dichos horizontes, de manera que la incorporación pedogenética de partículas magnéticas correspondería a especies de baja coercitividad, probablemente maghemita. La señal magnética registrada en los suelos del centro de la provincia de Buenos Aires corresponde al denominado patrón de incremento magnético, semejante al de los suelos del sur dicha provincia, pero inverso al de la mayoría de los suelos del norte. Las diferencias se relacionan con el tiempo de permanencia del agua en el suelo, aspecto vinculado al clima, al relieve y a las características hidráulicas del material.
A great variety of iron oxides are present in soils and paleosols; these can be inherited from the parent material or formed during pedogenesis. Different authors have analyzed magnetic properties of soils and they are mainly associated with climate, topography, soil drainage, characteristics of the parent material or the occurrence of fires. Besides, considering that current climatic and environmental characteristics are more accurately known than such conditions in the geological past, it is estimated that the application of these techniques in soils could help to establish the framework for the study of paleosols through its magnetic properties. This contribution is part of a wider research, which tends to differentiate the soils of the Pampean region based on their magnetic properties. Four soil profiles from central Buenos Aires province are analyzed from the environmental magnetism perspective (Fig. 1) and are compared with the results obtained by several authors in the north and south of the same province. The comparison tends to develop a regional magnetic model for the Late Pleistocene- Holocene loess deposits and loess-derived soils in the Pampean region The soils of the study area are developed from loess deposits of Late Pleistocene-Holocene (Las Ánimas Formation), but they are also controlled by the presence of a regional calcareous crust found below of Las Ánimas Formation, affecting loessoid fluvial sediments that constitute another lithostratigraphic unit, called Vela Formation (Middle Pleistocene). The current climate is humid to subhumid, mesothermal, with a slight hydric excess, with an average annual rainfall of 838 mm and annual average temperature of 13,6ºC; potential evapotranspiration was calculated at 712 mm/year and real evapotranspiration at 694 mm/year. The soils in the area correspond to the Mollisol order, and as the moisture regime is mainly udic across the region, the suborder is Udoll (Soil Survey Staff, 2014). Taking into account the surveys carried out by Pazos (2014) and INTA (National Institute of Agricultural Technology) in support of the field descriptions (Table 1 - 4), the analysed soils profiles were tentatively classified at the subgroup level of Soil Taxonomy. Two Typic Argiudolls (P1 and P4), a Petrocalcic Hapludoll (P2) and a Typic Hapludoll (P3) were recognized. Whereas the Typic Argiudolls correspond to “zonal” soils, the rest are “intrazonal” soils, in which the development of the Petrocalcic Hapludoll is conditioned by a shallow duricrust and the Typic Hapludoll by a relatively high slope. Samples of each soil horizon were extracted for analysis by thermogravimetric techniques, which allowed loss on ignition determination at 550 and 1000ºC, and the measurement of magnetic parameters, which included magnetic susceptibility, isothermal remanent magnetization and anhysteric remanent magnetization. Figure 3 shows the variation of the determined parameters as depth-functions for each soil profile, whereas the analyses related to the lithostratigraphic units and soil horizons are shown in the histograms of figures 4 to 6. Besides, the greater amounts of measurements of magnetic susceptibility (χbf) make it possible a more detailed analysis of this parameter (Fig. 5b). The coercivity of remanence (Hcr) and S-ratio (Coef. S) values, as well acquisition of isothermal remanent magnetization curves design (Fig. 7), are consistent with the magnetic signature of ferrimagnetic species. According to Peters and Dekkers’ graph (2001), the samples correspond to magnetite-titanomagnetitesmaghemite (Fig. 8a). These data are consistent with those indicated for other soils with loessic parent materials of the Pampean region where it has been determined by different ways that the detrital magnetic composition mainly corresponds to titanomagnetites with low titanium. According to King et al. (1982) (Fig. 9) the magnetic grains would be less than 1 micron diameter, and are considered of single domain (SD). Samples of horizons A and B present smaller magnetic particles than the parent materials (C horizons). Besides, the frequencydependent susceptibility indicates that the relative presence of ultrafine particles (SP) increase in the solum horizons, in which there is also recorded, taking into account the inter-parametric relations, an increase of fine magnetic particles (SD and SDSP limit) (Fig. 10). Finally, the decline of Hcr values at the A and B horizons would indicate that the magnetic particles of pedogenetic origin formed in these horizons have low coercivity (Fig. 8b). An aspect to remark is that the magnetic concentration in the parent material of the analyzed soils presents differences between the soils of north and south of the same province (Fig. 11). It is lower in the north and higher in the south; this would be related to the sediment distribution mechanisms at the regional level and the sources areas, corroborating the utility of magnetic parameters for provenance analyses. In our case, it seems that the deposits register the highest magnetic concentrations as closer to the source area, in the flood plains of the Colorado and Negro Rivers, but in the north of Buenos Aires is also possible a contribution of poorly magnetic sediments of a cratonic origin related to the Paraná River basin. In respect to the pedogenetic magnetic signal, the behavior corresponds to the so-called magnetic enhancement, linked to an enrichment of ultrafine (SP) to fine (SD) magnetic particles by the effect of pedogenesis. The same behavior was determined in soils in the south of the province of Buenos Aires; while in the north of this province the opposite (depletion) dominates. Such difference seems to be related to the time of permanence of the water in the soil, an aspect that integrates climate, topography and hydraulic characteristics of the material. It is considered that a prolonged permanence of water in the soil favors the loss of lithogenic magnetite by oxidation. On the other hand, the alternation of wetting-drying cycles of short duration in a predominance of aerobic conditions, leads to the neoformation of magnetite (and/or maghemite) particles, as well as a greater conservation of the detrital magnetite.
Fil: Gómez Samus, Mauro Leandro. Laboratorio Entrenamiento Multidisciplinario para la Investigación Tecnológica; Argentina. Universidad Nacional de La Plata; Argentina
Fil: Rico, Yamile. Laboratorio Entrenamiento Multidisciplinario para la Investigación Tecnológica; Argentina. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas; Argentina. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo; Argentina
Fil: Bidegain, Juan Carlos. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas; Argentina. Laboratorio Entrenamiento Multidisciplinario para la Investigación Tecnológica; Argentina
description Dado que los parámetros magnéticos proporcionan información acerca del tipo, abundancia y tamaño de grano de los minerales magnéticos, es posible utilizarlos para la interpretación de procesos sedimentarios y pedogenéticos. El objetivo del presente trabajo es caracterizar la señal magnética de los suelos que se desarrollan a partir del loess del Pleistoceno – Holoceno en el centro de la provincia de Buenos Aires, en el sector de Tandilia. El área de estudio ocupa un lugar intermedio entre zonas donde existen estudios de magnetismo ambiental, como el norte y el sur de la provincia de Buenos Aires. Esto permite realizar comparaciones que propenden a la elaboración de un modelo magnético regional para los suelos de la región pampeana. Los perfiles de suelos analizados han sido clasificados como Argiudol típico, Hapludol típico y Hapludol petrocálcico. Los minerales que dominan la señal magnética corresponden en todos los casos a especies ferrimagnéticas, del tipo magnetita-titanomagnetitas-maghemita. Las técnicas empleadas indican dominio de granos magnéticos de diámetro inferior a 1 μm, principalmente Dominio Simple (DS). La concentración de estos minerales en el material parental de los suelos analizados difiere de la del material parental de los suelos de otros sectores de la provincia; es más elevada que la del norte y más baja que la del sur. Posiblemente, este patrón tiene una estrecha vinculación con la procedencia sedimentaria, con mayor cantidad de titanomagnetitas hacia el área fuente, ubicada al sudoeste. Los valores más elevados de susceptibilidad magnética se registran en los horizontes A y B, debido a un enriquecimiento en partículas magnéticas de tamaños de grano ultrafino (SP) a fino (DS) por efecto de la pedogénesis. Los valores de coercitividad de la remanencia disminuyen en dichos horizontes, de manera que la incorporación pedogenética de partículas magnéticas correspondería a especies de baja coercitividad, probablemente maghemita. La señal magnética registrada en los suelos del centro de la provincia de Buenos Aires corresponde al denominado patrón de incremento magnético, semejante al de los suelos del sur dicha provincia, pero inverso al de la mayoría de los suelos del norte. Las diferencias se relacionan con el tiempo de permanencia del agua en el suelo, aspecto vinculado al clima, al relieve y a las características hidráulicas del material.
publishDate 2016
dc.date.none.fl_str_mv 2016-12
dc.type.none.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
http://purl.org/coar/resource_type/c_6501
info:ar-repo/semantics/articulo
format article
status_str publishedVersion
dc.identifier.none.fl_str_mv http://hdl.handle.net/11336/57529
Gómez Samus, Mauro Leandro; Rico, Yamile; Bidegain, Juan Carlos; Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina; Asociación Argentina de Sedimentología; Latin American Journal of Sedimentology and Basin Analisis; 23; 2; 12-2016; 93-110
1851-4979
CONICET Digital
CONICET
url http://hdl.handle.net/11336/57529
identifier_str_mv Gómez Samus, Mauro Leandro; Rico, Yamile; Bidegain, Juan Carlos; Señal magnética en suelos del centro de la provincia de Buenos Aires, Argentina; Asociación Argentina de Sedimentología; Latin American Journal of Sedimentology and Basin Analisis; 23; 2; 12-2016; 93-110
1851-4979
CONICET Digital
CONICET
dc.language.none.fl_str_mv spa
language spa
dc.relation.none.fl_str_mv info:eu-repo/semantics/altIdentifier/url/http://ref.scielo.org/5fb8w4
dc.rights.none.fl_str_mv info:eu-repo/semantics/openAccess
https://creativecommons.org/licenses/by-nc-sa/2.5/ar/
eu_rights_str_mv openAccess
rights_invalid_str_mv https://creativecommons.org/licenses/by-nc-sa/2.5/ar/
dc.format.none.fl_str_mv application/pdf
application/pdf
application/pdf
dc.publisher.none.fl_str_mv Asociación Argentina de Sedimentología
publisher.none.fl_str_mv Asociación Argentina de Sedimentología
dc.source.none.fl_str_mv reponame:CONICET Digital (CONICET)
instname:Consejo Nacional de Investigaciones Científicas y Técnicas
reponame_str CONICET Digital (CONICET)
collection CONICET Digital (CONICET)
instname_str Consejo Nacional de Investigaciones Científicas y Técnicas
repository.name.fl_str_mv CONICET Digital (CONICET) - Consejo Nacional de Investigaciones Científicas y Técnicas
repository.mail.fl_str_mv dasensio@conicet.gov.ar; lcarlino@conicet.gov.ar
_version_ 1844613361018339328
score 13.070432

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