Low-temperature thermochronology of the South Atlantic margin along Uruguay and its relation to tectonic events in West Gondwana

Joao Pacifico Silveira Luiz Machado; Andrea Ritter Jelinek; Randell Stephenson; Claudio Gaucher; Marcos Muller Bicca; Leticia Chiglino; Frederico Antonio Genezini

doi:10.1016/j.tecto.2020.228439

Low-temperature thermochronology of the South Atlantic margin along Uruguay and its relation to tectonic events in West Gondwana

Joao Pacifico Silveira Luiz Machado^*, Andrea Ritter Jelinek, Randell Stephenson, Claudio Gaucher, Marcos Muller Bicca, Leticia Chiglino, Frederico Antonio Genezini

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

The geodynamic forces acting during Jurassic-Cretaceous South Atlantic rifting provoked intense transformations in West Gondwana, such as the reactivation of ancient basement structures, voluminous magmatism and general uplift of the new continental margins. Low-temperature thermochronology records cooling associated with uplift syn- and post-breakup along the Brazilian margin, while further south, in Uruguay, mostly pre-breakup uplift is identified. Thermochronometry data are scarce in Uruguay, but previous studies suggest that basement cooling and exhumation preceded West Gondwana breakup by hundreds of millions of years. To improve our knowledge of Uruguay's thermotectonic evolution, in this study we present 19 apatite fission-track ages, 42 apatite and 40 zircon (U-Th)/He single crystal ages for the Uruguayan shield (UYS), from which we modeled 19 inverse thermal histories. Our results suggest that the UYS temperatures were below 200 degrees C since the early Paleozoic, and that cooling below 110 degrees C started during the Carboniferous, with continuous exhumation of the basement until Early Cretaceous. The onset of this long-term uplift is correlated with orogenesis and terrane accretions in the SW margin of West Gondwana during the Paleozoic. Lithosphere thinning and uplift preceding breakup contributed to the continuous Late Paleozoic to middle Mesozoic exhumation, until the voluminous volcanism of the Parana-Etendeka Large Igneous Province (c. 133 Ma). This magmatic event, combined with the thermal influence of the Tristao da Cunha mantle plume and rift spreading, likely raised the basement geotherm during the Late Cretaceous. Models suggest a slight increase in temperatures of the UYS from Late Cretaceous until the Oligocene, when a final cooling to surface temperatures took place. Our findings corroborate a long and complex thermal history for Uruguay, with crustal uplift occurring essentially before West Gondwana breakup.

Original language	English
Article number	228439
Number of pages	21
Journal	Tectonophysics
Volume	784
Early online date	8 Apr 2020
DOIs	https://doi.org/10.1016/j.tecto.2020.228439
Publication status	Published - 5 Jun 2020

Bibliographical note

The authors gratefully acknowledge the support from Shell Brasil through the “Shell - BG05: UoA-UFRGS-SWB Sedimentary Systems” project at UFRGS and the strategic importance of the support given by ANP through the R&D levy regulation. We thank Peter Reiners and his team at the Arizona Radiogenic Helium Dating Laboratory (US) for the (UTh)/He analyses and support during the data evaluation. The first author thanks the CNPq scholarship (SWE 204254/2017-5) during the exchange period at the University of Aberdeen. A.R. Jelinek also thanks the support from CNPq (Project 303184/2017-5). This manuscript was improved after helpful reviews by Mathias Hueck and an anonymous reviewer.

Keywords

Thermochronology
Fission-tracks
(U-Th)/He
West Gondwana
South Atlantic
Uruguay
APATITE FISSION-TRACK
LA-PLATA CRATON
NICO PEREZ TERRANE
DOM FELICIANO BELT
HELIUM DIFFUSION KINETICS
CUCHILLA DIONISIO TERRANE
ZIRCON RADIATION-DAMAGE
(U-TH)/HE THERMOCHRONOMETRY
CONTINENTAL-MARGIN
BREAK-UP
(U[sbnd]Th)/He

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Cite this

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title = "Low-temperature thermochronology of the South Atlantic margin along Uruguay and its relation to tectonic events in West Gondwana",

abstract = "The geodynamic forces acting during Jurassic-Cretaceous South Atlantic rifting provoked intense transformations in West Gondwana, such as the reactivation of ancient basement structures, voluminous magmatism and general uplift of the new continental margins. Low-temperature thermochronology records cooling associated with uplift syn- and post-breakup along the Brazilian margin, while further south, in Uruguay, mostly pre-breakup uplift is identified. Thermochronometry data are scarce in Uruguay, but previous studies suggest that basement cooling and exhumation preceded West Gondwana breakup by hundreds of millions of years. To improve our knowledge of Uruguay's thermotectonic evolution, in this study we present 19 apatite fission-track ages, 42 apatite and 40 zircon (U-Th)/He single crystal ages for the Uruguayan shield (UYS), from which we modeled 19 inverse thermal histories. Our results suggest that the UYS temperatures were below 200 degrees C since the early Paleozoic, and that cooling below 110 degrees C started during the Carboniferous, with continuous exhumation of the basement until Early Cretaceous. The onset of this long-term uplift is correlated with orogenesis and terrane accretions in the SW margin of West Gondwana during the Paleozoic. Lithosphere thinning and uplift preceding breakup contributed to the continuous Late Paleozoic to middle Mesozoic exhumation, until the voluminous volcanism of the Parana-Etendeka Large Igneous Province (c. 133 Ma). This magmatic event, combined with the thermal influence of the Tristao da Cunha mantle plume and rift spreading, likely raised the basement geotherm during the Late Cretaceous. Models suggest a slight increase in temperatures of the UYS from Late Cretaceous until the Oligocene, when a final cooling to surface temperatures took place. Our findings corroborate a long and complex thermal history for Uruguay, with crustal uplift occurring essentially before West Gondwana breakup.",

keywords = "Thermochronology, Fission-tracks, (U-Th)/He, West Gondwana, South Atlantic, Uruguay, APATITE FISSION-TRACK, LA-PLATA CRATON, NICO PEREZ TERRANE, DOM FELICIANO BELT, HELIUM DIFFUSION KINETICS, CUCHILLA DIONISIO TERRANE, ZIRCON RADIATION-DAMAGE, (U-TH)/HE THERMOCHRONOMETRY, CONTINENTAL-MARGIN, BREAK-UP, (U[sbnd]Th)/He",

author = "{Silveira Luiz Machado}, {Joao Pacifico} and Jelinek, {Andrea Ritter} and Randell Stephenson and Claudio Gaucher and Bicca, {Marcos Muller} and Leticia Chiglino and Genezini, {Frederico Antonio}",

note = "The authors gratefully acknowledge the support from Shell Brasil through the “Shell - BG05: UoA-UFRGS-SWB Sedimentary Systems” project at UFRGS and the strategic importance of the support given by ANP through the R&D levy regulation. We thank Peter Reiners and his team at the Arizona Radiogenic Helium Dating Laboratory (US) for the (UTh)/He analyses and support during the data evaluation. The first author thanks the CNPq scholarship (SWE 204254/2017-5) during the exchange period at the University of Aberdeen. A.R. Jelinek also thanks the support from CNPq (Project 303184/2017-5). This manuscript was improved after helpful reviews by Mathias Hueck and an anonymous reviewer. ",

year = "2020",

month = jun,

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doi = "10.1016/j.tecto.2020.228439",

language = "English",

volume = "784",

journal = "Tectonophysics",

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T1 - Low-temperature thermochronology of the South Atlantic margin along Uruguay and its relation to tectonic events in West Gondwana

AU - Silveira Luiz Machado, Joao Pacifico

AU - Jelinek, Andrea Ritter

AU - Stephenson, Randell

AU - Gaucher, Claudio

AU - Bicca, Marcos Muller

AU - Chiglino, Leticia

AU - Genezini, Frederico Antonio

N1 - The authors gratefully acknowledge the support from Shell Brasil through the “Shell - BG05: UoA-UFRGS-SWB Sedimentary Systems” project at UFRGS and the strategic importance of the support given by ANP through the R&D levy regulation. We thank Peter Reiners and his team at the Arizona Radiogenic Helium Dating Laboratory (US) for the (UTh)/He analyses and support during the data evaluation. The first author thanks the CNPq scholarship (SWE 204254/2017-5) during the exchange period at the University of Aberdeen. A.R. Jelinek also thanks the support from CNPq (Project 303184/2017-5). This manuscript was improved after helpful reviews by Mathias Hueck and an anonymous reviewer.

PY - 2020/6/5

Y1 - 2020/6/5

N2 - The geodynamic forces acting during Jurassic-Cretaceous South Atlantic rifting provoked intense transformations in West Gondwana, such as the reactivation of ancient basement structures, voluminous magmatism and general uplift of the new continental margins. Low-temperature thermochronology records cooling associated with uplift syn- and post-breakup along the Brazilian margin, while further south, in Uruguay, mostly pre-breakup uplift is identified. Thermochronometry data are scarce in Uruguay, but previous studies suggest that basement cooling and exhumation preceded West Gondwana breakup by hundreds of millions of years. To improve our knowledge of Uruguay's thermotectonic evolution, in this study we present 19 apatite fission-track ages, 42 apatite and 40 zircon (U-Th)/He single crystal ages for the Uruguayan shield (UYS), from which we modeled 19 inverse thermal histories. Our results suggest that the UYS temperatures were below 200 degrees C since the early Paleozoic, and that cooling below 110 degrees C started during the Carboniferous, with continuous exhumation of the basement until Early Cretaceous. The onset of this long-term uplift is correlated with orogenesis and terrane accretions in the SW margin of West Gondwana during the Paleozoic. Lithosphere thinning and uplift preceding breakup contributed to the continuous Late Paleozoic to middle Mesozoic exhumation, until the voluminous volcanism of the Parana-Etendeka Large Igneous Province (c. 133 Ma). This magmatic event, combined with the thermal influence of the Tristao da Cunha mantle plume and rift spreading, likely raised the basement geotherm during the Late Cretaceous. Models suggest a slight increase in temperatures of the UYS from Late Cretaceous until the Oligocene, when a final cooling to surface temperatures took place. Our findings corroborate a long and complex thermal history for Uruguay, with crustal uplift occurring essentially before West Gondwana breakup.

AB - The geodynamic forces acting during Jurassic-Cretaceous South Atlantic rifting provoked intense transformations in West Gondwana, such as the reactivation of ancient basement structures, voluminous magmatism and general uplift of the new continental margins. Low-temperature thermochronology records cooling associated with uplift syn- and post-breakup along the Brazilian margin, while further south, in Uruguay, mostly pre-breakup uplift is identified. Thermochronometry data are scarce in Uruguay, but previous studies suggest that basement cooling and exhumation preceded West Gondwana breakup by hundreds of millions of years. To improve our knowledge of Uruguay's thermotectonic evolution, in this study we present 19 apatite fission-track ages, 42 apatite and 40 zircon (U-Th)/He single crystal ages for the Uruguayan shield (UYS), from which we modeled 19 inverse thermal histories. Our results suggest that the UYS temperatures were below 200 degrees C since the early Paleozoic, and that cooling below 110 degrees C started during the Carboniferous, with continuous exhumation of the basement until Early Cretaceous. The onset of this long-term uplift is correlated with orogenesis and terrane accretions in the SW margin of West Gondwana during the Paleozoic. Lithosphere thinning and uplift preceding breakup contributed to the continuous Late Paleozoic to middle Mesozoic exhumation, until the voluminous volcanism of the Parana-Etendeka Large Igneous Province (c. 133 Ma). This magmatic event, combined with the thermal influence of the Tristao da Cunha mantle plume and rift spreading, likely raised the basement geotherm during the Late Cretaceous. Models suggest a slight increase in temperatures of the UYS from Late Cretaceous until the Oligocene, when a final cooling to surface temperatures took place. Our findings corroborate a long and complex thermal history for Uruguay, with crustal uplift occurring essentially before West Gondwana breakup.

KW - Thermochronology

KW - Fission-tracks

KW - (U-Th)/He

KW - West Gondwana

KW - South Atlantic

KW - Uruguay

KW - APATITE FISSION-TRACK

KW - LA-PLATA CRATON

KW - NICO PEREZ TERRANE

KW - DOM FELICIANO BELT

KW - HELIUM DIFFUSION KINETICS

KW - CUCHILLA DIONISIO TERRANE

KW - ZIRCON RADIATION-DAMAGE

KW - (U-TH)/HE THERMOCHRONOMETRY

KW - CONTINENTAL-MARGIN

KW - BREAK-UP

KW - (U[sbnd]Th)/He

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U2 - 10.1016/j.tecto.2020.228439

DO - 10.1016/j.tecto.2020.228439

M3 - Article

SN - 0040-1951

VL - 784

JO - Tectonophysics

JF - Tectonophysics

M1 - 228439

ER -

Low-temperature thermochronology of the South Atlantic margin along Uruguay and its relation to tectonic events in West Gondwana

Abstract

Bibliographical note

Keywords

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