The use of the magnetic signal of soils and paleosoils as a climatic function
The use of the magnetic signal of soils and paleosoils as a climatic function. The correlation between an index of potential water storage (PWS) with magnetic signal in soils and paleosoils, developed in loessic sediments has been proposed. The analyzed data suggest the existence of climatic thresho...
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Acceso en línea: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00044822_v65_n4_p612_Orgeira http://hdl.handle.net/20.500.12110/paper_00044822_v65_n4_p612_Orgeira |
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paper:paper_00044822_v65_n4_p612_Orgeira2023-06-08T14:26:21Z The use of the magnetic signal of soils and paleosoils as a climatic function Orgeira, María Julia Compagnucci, Rosa Hilda Late cenozoic Magnetism Paleoclimate Paleosoils Cenozoic geomagnetism loess magnetic mineral paleoclimate paleosol parent material Rumania The use of the magnetic signal of soils and paleosoils as a climatic function. The correlation between an index of potential water storage (PWS) with magnetic signal in soils and paleosoils, developed in loessic sediments has been proposed. The analyzed data suggest the existence of climatic thresholds that affect the genesis, preservation or depletion of ferrimagnetic minerals. Soils and paleosoils characterized by a positive PWS have an appropriate environment that favors the depletion of ferromagnetic minerals due to mainly reductive loss. Such soils are characterized by a depletion of detrital ferrimagnetic minerals, as in northeastern Pampean plain soils and paleosoils of Argentina and SE of China. A negative PWS prevents highly reducing conditions in the soil, and the detrital ferrimagnetic minerals are preserved. On the other hand, the environmental conditions of these soils allow the formation of new nannoparticle minerals. These conditions produce a net magnetic enhancement of the soil, as observed in European soils (Russia, Czech Republic, Rumania), Asian (paleosoils from the loess plateau of China) and Northern African ones (Tunisia). The influence of parent material in the magnetic signal is also discussed. Fil:Orgeira, M.J. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Compagnucci, R.H. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2009 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00044822_v65_n4_p612_Orgeira http://hdl.handle.net/20.500.12110/paper_00044822_v65_n4_p612_Orgeira |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Late cenozoic Magnetism Paleoclimate Paleosoils Cenozoic geomagnetism loess magnetic mineral paleoclimate paleosol parent material Rumania |
spellingShingle |
Late cenozoic Magnetism Paleoclimate Paleosoils Cenozoic geomagnetism loess magnetic mineral paleoclimate paleosol parent material Rumania Orgeira, María Julia Compagnucci, Rosa Hilda The use of the magnetic signal of soils and paleosoils as a climatic function |
topic_facet |
Late cenozoic Magnetism Paleoclimate Paleosoils Cenozoic geomagnetism loess magnetic mineral paleoclimate paleosol parent material Rumania |
description |
The use of the magnetic signal of soils and paleosoils as a climatic function. The correlation between an index of potential water storage (PWS) with magnetic signal in soils and paleosoils, developed in loessic sediments has been proposed. The analyzed data suggest the existence of climatic thresholds that affect the genesis, preservation or depletion of ferrimagnetic minerals. Soils and paleosoils characterized by a positive PWS have an appropriate environment that favors the depletion of ferromagnetic minerals due to mainly reductive loss. Such soils are characterized by a depletion of detrital ferrimagnetic minerals, as in northeastern Pampean plain soils and paleosoils of Argentina and SE of China. A negative PWS prevents highly reducing conditions in the soil, and the detrital ferrimagnetic minerals are preserved. On the other hand, the environmental conditions of these soils allow the formation of new nannoparticle minerals. These conditions produce a net magnetic enhancement of the soil, as observed in European soils (Russia, Czech Republic, Rumania), Asian (paleosoils from the loess plateau of China) and Northern African ones (Tunisia). The influence of parent material in the magnetic signal is also discussed. |
author |
Orgeira, María Julia Compagnucci, Rosa Hilda |
author_facet |
Orgeira, María Julia Compagnucci, Rosa Hilda |
author_sort |
Orgeira, María Julia |
title |
The use of the magnetic signal of soils and paleosoils as a climatic function |
title_short |
The use of the magnetic signal of soils and paleosoils as a climatic function |
title_full |
The use of the magnetic signal of soils and paleosoils as a climatic function |
title_fullStr |
The use of the magnetic signal of soils and paleosoils as a climatic function |
title_full_unstemmed |
The use of the magnetic signal of soils and paleosoils as a climatic function |
title_sort |
use of the magnetic signal of soils and paleosoils as a climatic function |
publishDate |
2009 |
url |
https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00044822_v65_n4_p612_Orgeira http://hdl.handle.net/20.500.12110/paper_00044822_v65_n4_p612_Orgeira |
work_keys_str_mv |
AT orgeiramariajulia theuseofthemagneticsignalofsoilsandpaleosoilsasaclimaticfunction AT compagnuccirosahilda theuseofthemagneticsignalofsoilsandpaleosoilsasaclimaticfunction AT orgeiramariajulia useofthemagneticsignalofsoilsandpaleosoilsasaclimaticfunction AT compagnuccirosahilda useofthemagneticsignalofsoilsandpaleosoilsasaclimaticfunction |
_version_ |
1768544206600536064 |