A new method for dating impact events – Thermal dependency on nanoscale Pb mobility in monazite shock twins
To test the potential of deformation twins to record the age of impact events, micrometre-scale size mechanical twins in shocked monazite grains from three impact structures were analyzed by atom probe tomography (APT). Shocked monazite from Vredefort (South Africa; ∼300 km crater diameter), Araguai...
| Main Authors: | , , , , , , , |
|---|---|
| Format: | Journal Article |
| Language: | English |
| Published: |
PERGAMON-ELSEVIER SCIENCE LTD
2021
|
| Subjects: | |
| Online Access: | http://purl.org/au-research/grants/arc/DE190101307 http://hdl.handle.net/20.500.11937/91631 |
| _version_ | 1848765563772338176 |
|---|---|
| author | Fougerouse, Denis Cavosie, Aaron Erickson, Timmons Reddy, Steven Cox, M.A. Saxey, David Rickard, William Wingate, M.T.D. |
| author_facet | Fougerouse, Denis Cavosie, Aaron Erickson, Timmons Reddy, Steven Cox, M.A. Saxey, David Rickard, William Wingate, M.T.D. |
| author_sort | Fougerouse, Denis |
| building | Curtin Institutional Repository |
| collection | Online Access |
| description | To test the potential of deformation twins to record the age of impact events, micrometre-scale size mechanical twins in shocked monazite grains from three impact structures were analyzed by atom probe tomography (APT). Shocked monazite from Vredefort (South Africa; ∼300 km crater diameter), Araguainha (Brazil; ∼40 km diameter), and Woodleigh (Australia; 60 to 120 km diameter) were studied, all from rocks which experienced pressures of ∼30 GPa or higher, but each with a different post-impact thermal history. The Vredefort sample is a thermally recrystallised foliated felsic gneiss and the Araguainha sample is an impact melt-bearing bedrock. Both Vredefort and Araguainha samples record temperatures > 900 °C, whereas the Woodleigh sample is a paragneiss that experienced lower temperature conditions (350–500 °C). A combined 208Pb/232Th age for common {12¯2¯} twins and shock-specific (1¯01) twins in Vredefort monazite was defined at 1979 ± 150 Ma, consistent with the accepted impact age of ∼2020 Ma. Irrational η1 [1¯1¯0] shock-specific twins in Araguainha monazite yielded a 260 ± 48 Ma age, also consistent with the accepted 250–260 Ma impact age. However, the age of a common (001) twin in Araguainha monazite is 510 ± 87 Ma, the pre-impact age of igneous crystallisation. These results are explained by the occurrence of common (001) twins in tectonic deformation settings, in contrast to the (1¯01) and irrational η1 [1¯1¯0] twins, which have only been documented in shock-deformed rocks. In Woodleigh monazite, APT age data for all monazite twins [(001), (1¯01), newly identified 102°/<4¯23> twin], and host monazite are within uncertainty at 1048 ± 91 Ma, which is interpreted as a pre-impact age of regional metamorphism. We therefore are able to further constrain the poorly known age of the Woodleigh impact to <1048 ± 91 Ma. These results provide evidence that Pb is expelled from monazite during shock twin formation at high temperature (Vredefort and Araguainha), and also that Pb is not mobilised during twinning at lower temperature (Woodleigh). Our study suggests that twins formed during shock metamorphism have the potential to record the age of the impact event in target rocks that are sufficiently heated during the cratering process. |
| first_indexed | 2025-11-14T11:37:15Z |
| format | Journal Article |
| id | curtin-20.500.11937-91631 |
| institution | Curtin University Malaysia |
| institution_category | Local University |
| language | English |
| last_indexed | 2025-11-14T11:37:15Z |
| publishDate | 2021 |
| publisher | PERGAMON-ELSEVIER SCIENCE LTD |
| recordtype | eprints |
| repository_type | Digital Repository |
| spelling | curtin-20.500.11937-916312023-05-17T08:10:45Z A new method for dating impact events – Thermal dependency on nanoscale Pb mobility in monazite shock twins Fougerouse, Denis Cavosie, Aaron Erickson, Timmons Reddy, Steven Cox, M.A. Saxey, David Rickard, William Wingate, M.T.D. Science & Technology Physical Sciences Geochemistry & Geophysics Shock metamorphism Pb diffusion Mechanical twinning Nanogeochronology SOUTHERN CARNARVON BASIN ATOM-PROBE TOMOGRAPHY LATE DEVONIAN AGE U-PB WESTERN-AUSTRALIA VREDEFORT IMPACT ZIRCON WOODLEIGH DEFORMATION METAMORPHISM To test the potential of deformation twins to record the age of impact events, micrometre-scale size mechanical twins in shocked monazite grains from three impact structures were analyzed by atom probe tomography (APT). Shocked monazite from Vredefort (South Africa; ∼300 km crater diameter), Araguainha (Brazil; ∼40 km diameter), and Woodleigh (Australia; 60 to 120 km diameter) were studied, all from rocks which experienced pressures of ∼30 GPa or higher, but each with a different post-impact thermal history. The Vredefort sample is a thermally recrystallised foliated felsic gneiss and the Araguainha sample is an impact melt-bearing bedrock. Both Vredefort and Araguainha samples record temperatures > 900 °C, whereas the Woodleigh sample is a paragneiss that experienced lower temperature conditions (350–500 °C). A combined 208Pb/232Th age for common {12¯2¯} twins and shock-specific (1¯01) twins in Vredefort monazite was defined at 1979 ± 150 Ma, consistent with the accepted impact age of ∼2020 Ma. Irrational η1 [1¯1¯0] shock-specific twins in Araguainha monazite yielded a 260 ± 48 Ma age, also consistent with the accepted 250–260 Ma impact age. However, the age of a common (001) twin in Araguainha monazite is 510 ± 87 Ma, the pre-impact age of igneous crystallisation. These results are explained by the occurrence of common (001) twins in tectonic deformation settings, in contrast to the (1¯01) and irrational η1 [1¯1¯0] twins, which have only been documented in shock-deformed rocks. In Woodleigh monazite, APT age data for all monazite twins [(001), (1¯01), newly identified 102°/<4¯23> twin], and host monazite are within uncertainty at 1048 ± 91 Ma, which is interpreted as a pre-impact age of regional metamorphism. We therefore are able to further constrain the poorly known age of the Woodleigh impact to <1048 ± 91 Ma. These results provide evidence that Pb is expelled from monazite during shock twin formation at high temperature (Vredefort and Araguainha), and also that Pb is not mobilised during twinning at lower temperature (Woodleigh). Our study suggests that twins formed during shock metamorphism have the potential to record the age of the impact event in target rocks that are sufficiently heated during the cratering process. 2021 Journal Article http://hdl.handle.net/20.500.11937/91631 10.1016/j.gca.2021.08.025 English http://purl.org/au-research/grants/arc/DE190101307 PERGAMON-ELSEVIER SCIENCE LTD restricted |
| spellingShingle | Science & Technology Physical Sciences Geochemistry & Geophysics Shock metamorphism Pb diffusion Mechanical twinning Nanogeochronology SOUTHERN CARNARVON BASIN ATOM-PROBE TOMOGRAPHY LATE DEVONIAN AGE U-PB WESTERN-AUSTRALIA VREDEFORT IMPACT ZIRCON WOODLEIGH DEFORMATION METAMORPHISM Fougerouse, Denis Cavosie, Aaron Erickson, Timmons Reddy, Steven Cox, M.A. Saxey, David Rickard, William Wingate, M.T.D. A new method for dating impact events – Thermal dependency on nanoscale Pb mobility in monazite shock twins |
| title | A new method for dating impact events – Thermal dependency on nanoscale Pb mobility in monazite shock twins |
| title_full | A new method for dating impact events – Thermal dependency on nanoscale Pb mobility in monazite shock twins |
| title_fullStr | A new method for dating impact events – Thermal dependency on nanoscale Pb mobility in monazite shock twins |
| title_full_unstemmed | A new method for dating impact events – Thermal dependency on nanoscale Pb mobility in monazite shock twins |
| title_short | A new method for dating impact events – Thermal dependency on nanoscale Pb mobility in monazite shock twins |
| title_sort | new method for dating impact events – thermal dependency on nanoscale pb mobility in monazite shock twins |
| topic | Science & Technology Physical Sciences Geochemistry & Geophysics Shock metamorphism Pb diffusion Mechanical twinning Nanogeochronology SOUTHERN CARNARVON BASIN ATOM-PROBE TOMOGRAPHY LATE DEVONIAN AGE U-PB WESTERN-AUSTRALIA VREDEFORT IMPACT ZIRCON WOODLEIGH DEFORMATION METAMORPHISM |
| url | http://purl.org/au-research/grants/arc/DE190101307 http://hdl.handle.net/20.500.11937/91631 |