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1. Identity statement
Reference TypeJournal Article
Sitemtc-m16.sid.inpe.br
Holder Codeisadg {BR SPINPE} ibi 8JMKD3MGPCW/3DT298S
Identifier6qtX3pFwXQZ3r59YDa/HaV4T
Repositorysid.inpe.br/iris@1916/2005/08.16.11.28
Last Update2006:02.24.17.27.00 (UTC) administrator
Metadata Repositorysid.inpe.br/iris@1916/2005/08.16.11.28.33
Metadata Last Update2018:06.05.01.16.07 (UTC) administrator
Secondary KeyINPE-13557-PRE/8768
ISSN0956-540X
Citation KeyBolognaPadiVito:2005:GeCrSt
TitleGeoelectric crustal structures off the SW border of the Sao Francisco craton, central Brazil, as inferred from a magnetotelluric survey
Year2005
MonthAug.
Access Date2024, May 18
Secondary TypePRE PI
Number of Files1
Size2153 KiB
2. Context
Author1 Bologna, Mauricio de Souza
2 Padilha, Antonio Lopes
3 Vitorello, Icaro
Resume Identifier1
2 8JMKD3MGP5W/3C9JGJG
3 8JMKD3MGP5W/3C9JHD6
Group1 DGE-INPE-MCT-BR
Affiliation1 Instituto Nacional de Pesquisas Espaciais, Divisão de Geofisica Espacial (INPE.DGE)
JournalGeophysical Journal International
Volume162
Number2
Pages357-370
History (UTC)2006-02-24 17:27:27 :: sergio -> administrator ::
2006-09-28 22:30:08 :: administrator -> sergio ::
2008-01-07 12:52:54 :: sergio -> administrator ::
2018-06-05 01:16:07 :: administrator -> marciana :: 2005
3. Content and structure
Is the master or a copy?is the master
Content Stagecompleted
Transferable1
Content TypeExternal Contribution
KeywordsAlto Paranaiba igneous province
central Brazil
crustal structure
electrical anisotropy
magnetotellurics
Sao Francisco craton / NEOPROTEROZOIC BRASILIA BELT
TRINDADE MANTLE PLUME
ELECTRICAL-CONDUCTIVITY
SE BRAZIL
CONTINENTAL-CRUST
PARANA BASIN
ANISOTROPY
ROCKS
MAGMATISM
INVERSION
AbstractA magnetotelluric (MT) Survey of the crust beneath sedimentary basins and thrust sheets along the southwestern edge of the Sao Francisco craton, central Brazil, reveals intricate electrical characteristics that are interpreted in the context of Proterozoic collision tectonics and horizontal transport of allochthonous rock units, emplacement of Cretaceous hypabyssals, lavas and diatremes of ultrapotassic-mafic composition, and occurrence of induced seismicity. The data exhibit strong distortions represented by 3-D induction effects and galvanic disturbances resulting from shallow structures, frequency and site dependence of electrical strike, and inhomogeneous anisotropic layers with smoothly varying phase split, conductance and azimuth of the highly conductive direction. Geoelectrical and orthogonal phase difference directions, 2-D inversion, and forward modelling characterize three distinct subhorizontal sections showing two anisotropic conductors within a highly resistive crust, laterally segmented into unique blocks. The model for the uppermost crust section has E-W geoelectric directions and a 15-30 S anisotropic zone at a depth of approximately 1-2 km along the entire profile. This conducting layer is interpreted to represent a brine-filled fracture layer possibly controlled by the present-day state of crustal stresses, as disclosed from reservoir-triggered quakes. The mid-crust section presents a deeper conducting zone located at depths below 10 km. It is defined by stronger NIT responses having phase split directions oscillating from WNW-ESE to E-W beneath sites in the central-western area (Parana basin and allochthonous cover units) and NNE-SSW in the northeastern region (autochthonous platform units and Sanfranciscana basin). Anisotropy is greater than an order of magnitude in the highly conductive direction, with conductance in the range of 250-400 S. Conjecturally, the source of this anomalous feature would come from interconnected grain-boundary phases and hypersaline fluids, exsolved and precipitated from upwelling Cretaceous magma. In the central-western area, favourable trapping of conductors was constrained along a nearly E-W direction, feasibly associated with relic structures inherited from Brasiliano/Pan African continental collisions. Along the northeast, however, the coincidence with superficial NNE-SSW structural directions suggests a localized direct causal relationship with the trend of extension related to magma emplacement. The lower crust has a highly resistive quasi-1-D section along the entire profile that prevails also at uppermost mantle depths. Thus, whereas the brittle crust would have reconciled subhorizontal strain with fluid percolation related to uplift and magma emplacement, a mechanically coupled and stronger lower crust/upper mantle would have controlled the deep magma generation during Cretaceous distention pulses..
AreaCEA
Arrangementurlib.net > BDMCI > Fonds > Produção anterior à 2021 > DIDGE > Geoelectric crustal structures...
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4. Conditions of access and use
data URLhttp://urlib.net/ibi/6qtX3pFwXQZ3r59YDa/HaV4T
zipped data URLhttp://urlib.net/zip/6qtX3pFwXQZ3r59YDa/HaV4T
Languageen
Target File33.pdf
User Groupadministrator
sergio
Visibilityshown
Copy HolderSID/SCD
Archiving Policyallowpublisher allowfinaldraft
Read Permissionallow from all
5. Allied materials
Next Higher Units8JMKD3MGPCW/3EU29DP
Citing Item Listsid.inpe.br/mtc-m21/2012/07.13.14.50.10 1
sid.inpe.br/mtc-m21/2012/07.13.14.40.26 1
DisseminationWEBSCI
Host Collectionsid.inpe.br/banon/2003/08.15.17.40
6. Notes
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7. Description control
e-Mail (login)marciana
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