Constraints on the rheology of the lower crust in a strike-slip plate boundary: evidence from the San Quintín xenoliths, Baja California, Mexico
The rheology of lower crust and its transient behavior in active strike-slip plate boundaries remain poorly understood. To address this issue, we analyzed a suite of granulite and lherzolite xenoliths from the upper Pleistocene–Holocene San Quintín volcanic field of northern Baja California, Mex...
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Copernicus Publications
2017-12-01
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| Series: | Solid Earth |
| Online Access: | https://www.solid-earth.net/8/1211/2017/se-8-1211-2017.pdf |
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doaj-85e6e2ae990c4268a2eda7a6e2afe9dd2020-11-24T21:28:13ZengCopernicus PublicationsSolid Earth1869-95101869-95292017-12-0181211123910.5194/se-8-1211-2017Constraints on the rheology of the lower crust in a strike-slip plate boundary: evidence from the San Quintín xenoliths, Baja California, MexicoT. van der Werf0V. Chatzaras1V. Chatzaras2L. M. Kriegsman3L. M. Kriegsman4A. Kronenberg5B. Tikoff6M. R. Drury7Department of Earth Sciences, Utrecht University, Utrecht, the NetherlandsDepartment of Earth Sciences, Utrecht University, Utrecht, the NetherlandsDepartment of Geoscience, University of Wisconsin-Madison, Madison, Wisconsin, USADepartment of Earth Sciences, Utrecht University, Utrecht, the NetherlandsDepartment of Research & Education, Naturalis Biodiversity Center, Leiden, the NetherlandsDepartment of Geology and Geophysics, Texas A&M University, College Station, Texas, USADepartment of Geoscience, University of Wisconsin-Madison, Madison, Wisconsin, USADepartment of Earth Sciences, Utrecht University, Utrecht, the NetherlandsThe rheology of lower crust and its transient behavior in active strike-slip plate boundaries remain poorly understood. To address this issue, we analyzed a suite of granulite and lherzolite xenoliths from the upper Pleistocene–Holocene San Quintín volcanic field of northern Baja California, Mexico. The San Quintín volcanic field is located 20 km east of the Baja California shear zone, which accommodates the relative movement between the Pacific plate and Baja California microplate. The development of a strong foliation in both the mafic granulites and lherzolites, suggests that a lithospheric-scale shear zone exists beneath the San Quintín volcanic field. Combining microstructural observations, geothermometry, and phase equilibria modeling, we estimated that crystal-plastic deformation took place at temperatures of 750–890 °C and pressures of 400–560 MPa, corresponding to 15–22 km depth. A hot crustal geotherm of 40 ° C km<sup>−1</sup> is required to explain the estimated deformation conditions. Infrared spectroscopy shows that plagioclase in the mafic granulites is relatively dry. Microstructures are interpreted to show that deformation in both the uppermost lower crust and upper mantle was accommodated by a combination of dislocation creep and grain-size-sensitive creep. Recrystallized grain size paleopiezometry yields low differential stresses of 12–33 and 17 MPa for plagioclase and olivine, respectively. The lower range of stresses (12–17 MPa) in the mafic granulite and lherzolite xenoliths is interpreted to be associated with transient deformation under decreasing stress conditions, following an event of stress increase. Using flow laws for dry plagioclase, we estimated a low viscosity of 1.1–1.3×10<sup>20</sup> Pa ⋅ s for the high temperature conditions (890 °C) in the lower crust. Significantly lower viscosities in the range of 10<sup>16</sup>–10<sup>19</sup> Pa ⋅ s, were estimated using flow laws for wet plagioclase. The shallow upper mantle has a low viscosity of 5.7×10<sup>19</sup> Pa ⋅ s, which indicates the lack of an upper-mantle lid beneath northern Baja California. Our data show that during post-seismic transients, the upper mantle and the lower crust in the Pacific–Baja California plate boundary are characterized by similar and low differential stress. Transient viscosity of the lower crust is similar to the viscosity of the upper mantle.https://www.solid-earth.net/8/1211/2017/se-8-1211-2017.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
T. van der Werf V. Chatzaras V. Chatzaras L. M. Kriegsman L. M. Kriegsman A. Kronenberg B. Tikoff M. R. Drury |
| spellingShingle |
T. van der Werf V. Chatzaras V. Chatzaras L. M. Kriegsman L. M. Kriegsman A. Kronenberg B. Tikoff M. R. Drury Constraints on the rheology of the lower crust in a strike-slip plate boundary: evidence from the San Quintín xenoliths, Baja California, Mexico Solid Earth |
| author_facet |
T. van der Werf V. Chatzaras V. Chatzaras L. M. Kriegsman L. M. Kriegsman A. Kronenberg B. Tikoff M. R. Drury |
| author_sort |
T. van der Werf |
| title |
Constraints on the rheology of the lower crust in a strike-slip plate boundary: evidence from the San Quintín xenoliths, Baja California, Mexico |
| title_short |
Constraints on the rheology of the lower crust in a strike-slip plate boundary: evidence from the San Quintín xenoliths, Baja California, Mexico |
| title_full |
Constraints on the rheology of the lower crust in a strike-slip plate boundary: evidence from the San Quintín xenoliths, Baja California, Mexico |
| title_fullStr |
Constraints on the rheology of the lower crust in a strike-slip plate boundary: evidence from the San Quintín xenoliths, Baja California, Mexico |
| title_full_unstemmed |
Constraints on the rheology of the lower crust in a strike-slip plate boundary: evidence from the San Quintín xenoliths, Baja California, Mexico |
| title_sort |
constraints on the rheology of the lower crust in a strike-slip plate boundary: evidence from the san quintín xenoliths, baja california, mexico |
| publisher |
Copernicus Publications |
| series |
Solid Earth |
| issn |
1869-9510 1869-9529 |
| publishDate |
2017-12-01 |
| description |
The rheology of lower crust and its transient behavior in active strike-slip
plate boundaries remain poorly understood. To address this issue, we analyzed
a suite of granulite and lherzolite xenoliths from the upper
Pleistocene–Holocene San Quintín volcanic field of northern Baja
California, Mexico. The San Quintín volcanic field is located 20 km
east of the Baja California shear zone, which accommodates the relative
movement between the Pacific plate and Baja California microplate. The
development of a strong foliation in both the mafic granulites and
lherzolites, suggests that a lithospheric-scale shear zone exists beneath the
San Quintín volcanic field. Combining microstructural observations,
geothermometry, and phase equilibria modeling, we estimated that
crystal-plastic deformation took place at temperatures of
750–890 °C and pressures of 400–560 MPa, corresponding to
15–22 km depth. A hot crustal geotherm of 40 ° C km<sup>−1</sup> is
required to explain the estimated deformation conditions. Infrared
spectroscopy shows that plagioclase in the mafic granulites is relatively
dry. Microstructures are interpreted to show that deformation in both the
uppermost lower crust and upper mantle was accommodated by a combination of
dislocation creep and grain-size-sensitive creep. Recrystallized grain size
paleopiezometry yields low differential stresses of 12–33 and 17 MPa for
plagioclase and olivine, respectively. The lower range of stresses
(12–17 MPa) in the mafic granulite and lherzolite xenoliths is interpreted
to be associated with transient deformation under decreasing stress
conditions, following an event of stress increase. Using flow laws for dry
plagioclase, we estimated a low viscosity of 1.1–1.3×10<sup>20</sup> Pa ⋅ s for the high temperature conditions
(890 °C) in the lower crust. Significantly lower viscosities in the
range of 10<sup>16</sup>–10<sup>19</sup> Pa ⋅ s, were estimated using flow
laws for wet plagioclase. The shallow upper mantle has a low viscosity of
5.7×10<sup>19</sup> Pa ⋅ s, which indicates the lack of an
upper-mantle lid beneath northern Baja California. Our data show that during
post-seismic transients, the upper mantle and the lower crust in the
Pacific–Baja California plate boundary are characterized by similar and low
differential stress. Transient viscosity of the lower crust is similar to the
viscosity of the upper mantle. |
| url |
https://www.solid-earth.net/8/1211/2017/se-8-1211-2017.pdf |
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