A palaeomagnetic study of Syrian volcanic rocks of Miocene to Holocene age

Abou Deeb, J. M.; Department of Geology, The University of Damascus, Syria.; Otaki, M. M.; Department of Geology, The University of Damascus, Syria.; Tarling, D. H.; Department of Geological Sciences, The University of Plymouth, U.K.; Abdeldayem, A. L.; Department of Geological Sciences, The University of Plymouth, U.K.
Now at Department of Geology, University of Tanta, Egypt.

dc.creator	Abou Deeb, J. M.; Department of Geology, The University of Damascus, Syria.
dc.creator	Otaki, M. M.; Department of Geology, The University of Damascus, Syria.
dc.creator	Tarling, D. H.; Department of Geological Sciences, The University of Plymouth, U.K.
dc.creator	Abdeldayem, A. L.; Department of Geological Sciences, The University of Plymouth, U.K. Now at Department of Geology, University of Tanta, Egypt.
dc.date	2012-10-04
dc.date.accessioned	2018-03-16T15:53:13Z
dc.date.available	2018-03-16T15:53:13Z
dc.identifier	http://ojs.unam.mx/index.php/geofisica/article/view/39632
dc.identifier.uri	http://repositorioslatinoamericanos.uchile.cl/handle/2250/1203315
dc.description	Rocas volcánicas del Mioceno y más jóvenes de varias localidades de Siria muestran polaridades normales y reversas después de desmagnetización térmica. Las similitudes en las direcciones medias de magnetización pueden ser usadas para establecer correlación entre lavas. Las polaridades observadas sugieren que algunas de las lavas del Cuaternario son más antiguas de lo propuesto en cartografías previas. Los sitios con direcciones medias reversas e intermedias presentan una dispersión angular mayor que la observada en los sitios de direcciones normales. La dispersión media global es mayor que la esperada de acuerdo con los modelos de variación secular simulados con deriva al oeste o este y el campo dipolar inclinado actual. Los sitios de polaridad normales tienen magnetizaciones dos veces mayores que los sitios de polaridad reversa e intermedia. La dirección media para los sitios del Cuaternario es consistente con el campo dipolar axial, pero para los sitios del Mioceno, con direcciones antipodales de polaridades opuestas, tienen una inclinación media más somera que la dipolar, lo que sugiere un efecto geomagnético o inclinación regional tectónica.	es-ES
dc.description	Miocene and younger volcanic rocks from Syria show both normal and reversed polarities after thermal demagnetisation. Similarities in site mean directions may be used to establish lavas erupted at similar times. The observed polarities suggest that some Quaternary volcanics are older than previously mapped. The site mean directions of reversed and intermediate polarity sites are more scattered than for normal polarity sites, and the overall scatter is larger than would be expected from models of secular variation simulated by westward or eastward drift of the present non axial dipole field. The normal sites are also twice as strongly magnetised as the reversed and intermediate polarity sites. The mean direction of the Quaternary sites is consistent with an axial geocentric dipole model, but the Miocene sites, while having antipodal directions for the two polarities, have a mean inclination that is shallower than the axial dipole field and may indicate persistent geomagnetic effects or possibly regional tilting.	en-US
dc.format	application/pdf
dc.language	spa
dc.publisher	Instituto de Geofísica	es-ES
dc.relation	http://ojs.unam.mx/index.php/geofisica/article/view/39632/36061
dc.source	Geofísica Internacional; Vol 38, No 1 (1999)	es-ES
dc.source	0016-7169
dc.subject	Paleomagnetismo, volcanismo, magnetoestratigrafía, Neógeno, Siria.	es-ES
dc.subject	Paleomagnetism, volcanism, magnetostratigraphy, Neogene, Syria.	en-US
dc.title	A palaeomagnetic study of Syrian volcanic rocks of Miocene to Holocene age	es-ES
dc.title	A palaeomagnetic study of Syrian volcanic rocks of Miocene to Holocene age	en-US
dc.type	Artículos de revistas
dc.type	Artículos de revistas

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A palaeomagnetic study of Syrian volcanic rocks of Miocene to Holocene age

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