Onshore and offshore apatite fission-track dating from the southern Gulf of California: Insights into the time-space evolution of the rifting

Onshore and offshore apatite fission-track dating from the southern Gulf of California: Insights into the time-space evolution of the rifting

We present the results of a apatite fission-track (AFT) study on intrusive rocks in the southern Gulf of California, sampled along the eastern margin of Baja California Sur (western rift margin), as well as from islands and submerged rifted blocks within the Gulf of California, and from the conjugat...

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Veröffentlicht in:Tectonophysics 2017-11, Vol.719-720, p.148-161
Hauptverfasser: Balestrieri, Maria Laura, Ferrari, Luca, Bonini, Marco, Duque-Trujillo, Jose, Cerca, Mariano, Moratti, Giovanna, Corti, Giacomo
Format: Artikel
Sprache:eng
Schlagworte:
Age
Apatite
Deformation
Evolution
Fission
Geochronometry
Igneous rocks
Miocene
Offshore
Plutons
Radiometric dating
Rheological properties
Rheology
Rifting
Spatial analysis
Spatial distribution
Studies
Uranium
Volcanic activity
Volcanism
Volcanoes
Zircon
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container_end_page 161
container_issue
container_start_page 148
container_title Tectonophysics
container_volume 719-720
creator Balestrieri, Maria Laura
Ferrari, Luca
Bonini, Marco
Duque-Trujillo, Jose
Cerca, Mariano
Moratti, Giovanna
Corti, Giacomo
description We present the results of a apatite fission-track (AFT) study on intrusive rocks in the southern Gulf of California, sampled along the eastern margin of Baja California Sur (western rift margin), as well as from islands and submerged rifted blocks within the Gulf of California, and from the conjugate Mexican margin (Nayarit state). For most of the samples U-Pb zircon and 40Ar-39Ar mineral ages were already available (Duque-Trujillo et al., 2015). Coupled with the new AFT data these ages provide a more complete information on cooling after emplacement. Our samples span a wide range of ages between 5.5±1.1 and 73.7±5.8Ma, and show a general spatial distribution, with late Miocene AFT ages (about 6Ma) aligned roughly NW-SE along a narrow offshore belt, parallel to Baja California Peninsula, separating older ages on both sides. This pattern suggests that in Late Miocene, deformation due to plate transtension focused at the eastern rheological boundary of the Baja California block. Some Early Miocene AFT ages onshore Baja California could be related to plutons emplaced at shallow depths and thermal resetting associated with the onset of volcanism at ~19Ma in this part of the Peninsula. On the other hand, an early extensional event similar to that documented in the eastern Gulf cannot be ruled out in the westernmost Baja California. •First AFT dating of subaerial and submerged samples in the Gulf of California•Constraints on the timing of fault activity and time-space evolution of the rifting•Possible evidence of an early Miocene regional thermal event in eastern Baja California•Focusing of deformation at the eastern margin of Baja California in Late Miocene
doi_str_mv 10.1016/j.tecto.2017.05.012
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source Elsevier ScienceDirect Journals
subjects Age
Apatite
Deformation
Evolution
Fission
Geochronometry
Igneous rocks
Miocene
Offshore
Plutons
Radiometric dating
Rheological properties
Rheology
Rifting
Spatial analysis
Spatial distribution
Studies
Uranium
Volcanic activity
Volcanism
Volcanoes
Zircon
title Onshore and offshore apatite fission-track dating from the southern Gulf of California: Insights into the time-space evolution of the rifting
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