Internal structure of the Late Triassic central Patagonian Batholith at Gastre, southern Argentina; implications for pluton emplacement and the Gastre fault system

The Central Patagonian batholith (CPB) comprises two Late Triassic calcalkaline plutonic suites (the Gastre superunit of 221 ± 2 Ma and the Lipetren superunit of 215 ± 1 Ma) which have been interpreted as a record of major dextral motion along the transcontinental NW-SE-striking subvertical Gastre f...

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Veröffentlicht in:	Geosphere (Boulder, Colo.) Colo.), 2017-11, Vol.13 (6), p.1973-1992
Hauptverfasser:	Zaffarana, Claudia B, Somoza, Rubén, Orts, Darío L, Mercader, Roberto, Boltshauser, Bárbara, González, Víctor Ruiz, Puigdomenech, Carla
Format:	Artikel
Sprache:	eng
Schlagworte:	anisotropy Argentina batholiths deformation emplacement fabric faults foliation Gastre Fault granites igneous and metamorphic rocks igneous rocks intrusions kinematics magnetic properties magnetic susceptibility Mesozoic metamorphic rocks microstructure mylonites overprinting paleomagnetism Patagonia Patagonian Batholith Petrology plutonic rocks plutons shear zones South America southern Argentina Structural geology tectonics Triassic Upper Triassic
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container_end_page	1992
container_issue	6
container_start_page	1973
container_title	Geosphere (Boulder, Colo.)
container_volume	13
creator	Zaffarana, Claudia B Somoza, Rubén Orts, Darío L Mercader, Roberto Boltshauser, Bárbara González, Víctor Ruiz Puigdomenech, Carla
description	The Central Patagonian batholith (CPB) comprises two Late Triassic calcalkaline plutonic suites (the Gastre superunit of 221 ± 2 Ma and the Lipetren superunit of 215 ± 1 Ma) which have been interpreted as a record of major dextral motion along the transcontinental NW-SE-striking subvertical Gastre fault system in Jurassic times. We performed a detailed study of the internal structure of the CPB through structural and anisotropy of magnetic susceptibility (AMS) techniques. The Gastre superunit reveals a very consistent pattern of NW-SE-striking steeply dipping magmatic foliations. Tectonic fabrics within the CPB are scarce and generally parallel to the magmatic fabrics. The magmatic and solid-state lineations within the CPB are steeply, intermediately, or shallowly plunging. The combination of flattened magmatic and solid-state fabrics with subvertical orientations and with steep to shallow lineations, together with the kinematic indicators in two mylonite belts with suspected CPB protoliths, suggests that the Gastre superunit was emplaced within a sinistral transpressive regime. The shallower stocks of the Lipetren superunit are more isotropic and have magmatic fabrics associated with magma chamber dynamics. The deformation of the CPB is coaxial with the late Paleozoic deformation in the hosting Calcatapul Formation. The late Paleozoic deformation in the North Patagonian Massif generated widespread NW-SE subvertical fractures which could have aided the emplacement of the CPB. The internal structure of the CPB does not support a model of dextral strike-slip movements on major Jurassic faults.
doi_str_mv	10.1130/GES01493.1
format	Article
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We performed a detailed study of the internal structure of the CPB through structural and anisotropy of magnetic susceptibility (AMS) techniques. The Gastre superunit reveals a very consistent pattern of NW-SE-striking steeply dipping magmatic foliations. Tectonic fabrics within the CPB are scarce and generally parallel to the magmatic fabrics. The magmatic and solid-state lineations within the CPB are steeply, intermediately, or shallowly plunging. The combination of flattened magmatic and solid-state fabrics with subvertical orientations and with steep to shallow lineations, together with the kinematic indicators in two mylonite belts with suspected CPB protoliths, suggests that the Gastre superunit was emplaced within a sinistral transpressive regime. The shallower stocks of the Lipetren superunit are more isotropic and have magmatic fabrics associated with magma chamber dynamics. The deformation of the CPB is coaxial with the late Paleozoic deformation in the hosting Calcatapul Formation. The late Paleozoic deformation in the North Patagonian Massif generated widespread NW-SE subvertical fractures which could have aided the emplacement of the CPB. The internal structure of the CPB does not support a model of dextral strike-slip movements on major Jurassic faults.</description><identifier>ISSN: 1553-040X</identifier><identifier>EISSN: 1553-040X</identifier><identifier>DOI: 10.1130/GES01493.1</identifier><language>eng</language><publisher>Geological Society of America</publisher><subject>anisotropy ; Argentina ; batholiths ; deformation ; emplacement ; fabric ; faults ; foliation ; Gastre Fault ; granites ; igneous and metamorphic rocks ; igneous rocks ; intrusions ; kinematics ; magnetic properties ; magnetic susceptibility ; Mesozoic ; metamorphic rocks ; microstructure ; mylonites ; overprinting ; paleomagnetism ; Patagonia ; Patagonian Batholith ; Petrology ; plutonic rocks ; plutons ; shear zones ; South America ; southern Argentina ; Structural geology ; tectonics ; Triassic ; Upper Triassic</subject><ispartof>Geosphere (Boulder, Colo.), 2017-11, Vol.13 (6), p.1973-1992</ispartof><rights>GeoRef, Copyright 2020, American Geosciences Institute. 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We performed a detailed study of the internal structure of the CPB through structural and anisotropy of magnetic susceptibility (AMS) techniques. The Gastre superunit reveals a very consistent pattern of NW-SE-striking steeply dipping magmatic foliations. Tectonic fabrics within the CPB are scarce and generally parallel to the magmatic fabrics. The magmatic and solid-state lineations within the CPB are steeply, intermediately, or shallowly plunging. The combination of flattened magmatic and solid-state fabrics with subvertical orientations and with steep to shallow lineations, together with the kinematic indicators in two mylonite belts with suspected CPB protoliths, suggests that the Gastre superunit was emplaced within a sinistral transpressive regime. The shallower stocks of the Lipetren superunit are more isotropic and have magmatic fabrics associated with magma chamber dynamics. The deformation of the CPB is coaxial with the late Paleozoic deformation in the hosting Calcatapul Formation. The late Paleozoic deformation in the North Patagonian Massif generated widespread NW-SE subvertical fractures which could have aided the emplacement of the CPB. The internal structure of the CPB does not support a model of dextral strike-slip movements on major Jurassic faults.</description><subject>anisotropy</subject><subject>Argentina</subject><subject>batholiths</subject><subject>deformation</subject><subject>emplacement</subject><subject>fabric</subject><subject>faults</subject><subject>foliation</subject><subject>Gastre Fault</subject><subject>granites</subject><subject>igneous and metamorphic rocks</subject><subject>igneous rocks</subject><subject>intrusions</subject><subject>kinematics</subject><subject>magnetic properties</subject><subject>magnetic susceptibility</subject><subject>Mesozoic</subject><subject>metamorphic rocks</subject><subject>microstructure</subject><subject>mylonites</subject><subject>overprinting</subject><subject>paleomagnetism</subject><subject>Patagonia</subject><subject>Patagonian Batholith</subject><subject>Petrology</subject><subject>plutonic rocks</subject><subject>plutons</subject><subject>shear zones</subject><subject>South America</subject><subject>southern Argentina</subject><subject>Structural geology</subject><subject>tectonics</subject><subject>Triassic</subject><subject>Upper Triassic</subject><issn>1553-040X</issn><issn>1553-040X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><recordid>eNpNkN1KAzEQhRdR8PfGJ5hrtTXZ7HYbvFKpVSgoqODdMiaTNmWblCSL9Hl8UaNV8GKYYfjOOXCK4pSzIeeCXU4nz4xXUgz5TnHA61oMWMXedv_d-8VhjEvGhKxFeVB8PrhEwWEHMYVepT4QeANpQTDDRPASLMZoFShyKWTsCRPOvbPo4AbTwnc2LQATTDEb0AVE32dxcHAd5lliHV6BXa07qzBZ7yIYH2Dd9ck7oPxHRavMATr9k7r1AYN9lyBuYqLVcbFnsIt08ruPite7ycvt_WD2OH24vZ4NUJSjNGgM49ooyStjsKmERBzLRnKDpm50o7UQ5TuZqqpLKbUcq7IZMdIV1aXJMi2OirOtrwo-xkCmXQe7wrBpOWu_623_6m15hs-38Jx8VJacog8fOt0uff_dZ2xLxsdtHlGX4gur84Dc</recordid><startdate>20171101</startdate><enddate>20171101</enddate><creator>Zaffarana, Claudia B</creator><creator>Somoza, Rubén</creator><creator>Orts, Darío L</creator><creator>Mercader, Roberto</creator><creator>Boltshauser, Bárbara</creator><creator>González, Víctor Ruiz</creator><creator>Puigdomenech, Carla</creator><general>Geological Society of America</general><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>20171101</creationdate><title>Internal structure of the Late Triassic central Patagonian Batholith at Gastre, southern Argentina; implications for pluton emplacement and the Gastre fault system</title><author>Zaffarana, Claudia B ; Somoza, Rubén ; Orts, Darío L ; Mercader, Roberto ; Boltshauser, Bárbara ; González, Víctor Ruiz ; Puigdomenech, Carla</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a326t-7f01dfc914ffa7439aa89791faf57d7dd332bef445299d98c2760ed4e52ffc9d3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2017</creationdate><topic>anisotropy</topic><topic>Argentina</topic><topic>batholiths</topic><topic>deformation</topic><topic>emplacement</topic><topic>fabric</topic><topic>faults</topic><topic>foliation</topic><topic>Gastre Fault</topic><topic>granites</topic><topic>igneous and metamorphic rocks</topic><topic>igneous rocks</topic><topic>intrusions</topic><topic>kinematics</topic><topic>magnetic properties</topic><topic>magnetic susceptibility</topic><topic>Mesozoic</topic><topic>metamorphic rocks</topic><topic>microstructure</topic><topic>mylonites</topic><topic>overprinting</topic><topic>paleomagnetism</topic><topic>Patagonia</topic><topic>Patagonian Batholith</topic><topic>Petrology</topic><topic>plutonic rocks</topic><topic>plutons</topic><topic>shear zones</topic><topic>South America</topic><topic>southern Argentina</topic><topic>Structural geology</topic><topic>tectonics</topic><topic>Triassic</topic><topic>Upper Triassic</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Zaffarana, Claudia B</creatorcontrib><creatorcontrib>Somoza, Rubén</creatorcontrib><creatorcontrib>Orts, Darío L</creatorcontrib><creatorcontrib>Mercader, Roberto</creatorcontrib><creatorcontrib>Boltshauser, Bárbara</creatorcontrib><creatorcontrib>González, Víctor Ruiz</creatorcontrib><creatorcontrib>Puigdomenech, Carla</creatorcontrib><collection>CrossRef</collection><jtitle>Geosphere (Boulder, Colo.)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Zaffarana, Claudia B</au><au>Somoza, Rubén</au><au>Orts, Darío L</au><au>Mercader, Roberto</au><au>Boltshauser, Bárbara</au><au>González, Víctor Ruiz</au><au>Puigdomenech, Carla</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Internal structure of the Late Triassic central Patagonian Batholith at Gastre, southern Argentina; implications for pluton emplacement and the Gastre fault system</atitle><jtitle>Geosphere (Boulder, Colo.)</jtitle><date>2017-11-01</date><risdate>2017</risdate><volume>13</volume><issue>6</issue><spage>1973</spage><epage>1992</epage><pages>1973-1992</pages><issn>1553-040X</issn><eissn>1553-040X</eissn><abstract>The Central Patagonian batholith (CPB) comprises two Late Triassic calcalkaline plutonic suites (the Gastre superunit of 221 ± 2 Ma and the Lipetren superunit of 215 ± 1 Ma) which have been interpreted as a record of major dextral motion along the transcontinental NW-SE-striking subvertical Gastre fault system in Jurassic times. We performed a detailed study of the internal structure of the CPB through structural and anisotropy of magnetic susceptibility (AMS) techniques. The Gastre superunit reveals a very consistent pattern of NW-SE-striking steeply dipping magmatic foliations. Tectonic fabrics within the CPB are scarce and generally parallel to the magmatic fabrics. The magmatic and solid-state lineations within the CPB are steeply, intermediately, or shallowly plunging. The combination of flattened magmatic and solid-state fabrics with subvertical orientations and with steep to shallow lineations, together with the kinematic indicators in two mylonite belts with suspected CPB protoliths, suggests that the Gastre superunit was emplaced within a sinistral transpressive regime. The shallower stocks of the Lipetren superunit are more isotropic and have magmatic fabrics associated with magma chamber dynamics. The deformation of the CPB is coaxial with the late Paleozoic deformation in the hosting Calcatapul Formation. The late Paleozoic deformation in the North Patagonian Massif generated widespread NW-SE subvertical fractures which could have aided the emplacement of the CPB. The internal structure of the CPB does not support a model of dextral strike-slip movements on major Jurassic faults.</abstract><pub>Geological Society of America</pub><doi>10.1130/GES01493.1</doi><tpages>20</tpages><oa>free_for_read</oa></addata></record>
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subjects	anisotropy Argentina batholiths deformation emplacement fabric faults foliation Gastre Fault granites igneous and metamorphic rocks igneous rocks intrusions kinematics magnetic properties magnetic susceptibility Mesozoic metamorphic rocks microstructure mylonites overprinting paleomagnetism Patagonia Patagonian Batholith Petrology plutonic rocks plutons shear zones South America southern Argentina Structural geology tectonics Triassic Upper Triassic
title	Internal structure of the Late Triassic central Patagonian Batholith at Gastre, southern Argentina; implications for pluton emplacement and the Gastre fault system
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