The transition from rifting to sea-floor spreading within a magma-poor rifted margin: field and isotopic constraints
Details
Serval ID
serval:BIB_203C3BFECE49
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
The transition from rifting to sea-floor spreading within a magma-poor rifted margin: field and isotopic constraints
Journal
Terra Nova
ISSN-L
0954-4879
Publication state
Published
Issued date
2002
Peer-reviewed
Oui
Volume
14
Pages
156-162
Language
english
Abstract
We provide new geological and isotope geochemical constraints on the
evolution from continental rifting to sea-floor spreading along a
segment of the Jurassic Tethyan margin exposed in the Platta and Err
nappes (eastern Central Alps). Field observations show that the
ocean-continent transition zone is characterized by oceanward-dipping
detachment faults leading to the exhumation of subcontinental mantle
rocks subsequently intruded by gabbro bodies and dolerite dikes, and
covered by pillow basalts and radiolarites. Zircons extracted from
gabbros and albitite yield concordant U-Pb ages of 161 +/- 1 Ma; their
initial epsilon(Hf) (+ 14.4 to + 14.9) as well as bulk rock epsilon(Nd)
values of from gabbros and basalts (+ 7.3 to + 9.5) point to a
MORB-type depleted mantle source. These data suggest that the onset of
magmatic activity coincides with the latest phase of mantle exhumation
along low-angle detachment faults and may be controlled by upwelling
asthenosphere beneath a zone of exhumed continental mantle.
evolution from continental rifting to sea-floor spreading along a
segment of the Jurassic Tethyan margin exposed in the Platta and Err
nappes (eastern Central Alps). Field observations show that the
ocean-continent transition zone is characterized by oceanward-dipping
detachment faults leading to the exhumation of subcontinental mantle
rocks subsequently intruded by gabbro bodies and dolerite dikes, and
covered by pillow basalts and radiolarites. Zircons extracted from
gabbros and albitite yield concordant U-Pb ages of 161 +/- 1 Ma; their
initial epsilon(Hf) (+ 14.4 to + 14.9) as well as bulk rock epsilon(Nd)
values of from gabbros and basalts (+ 7.3 to + 9.5) point to a
MORB-type depleted mantle source. These data suggest that the onset of
magmatic activity coincides with the latest phase of mantle exhumation
along low-angle detachment faults and may be controlled by upwelling
asthenosphere beneath a zone of exhumed continental mantle.
Create date
18/04/2009 0:56
Last modification date
20/08/2019 13:56
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