Reconstruction of a 3700 Ma transgressive marine environment from Isua (Greenland): Sedimentlogy, stratigraphy and geochemical signatures

The rare preservation of a stratigraphy in the northwest of the Eoarchean Isua supracrustal belt (Greenland) demonstrates the world's earliest-recognised marine transgression. Stratigraphically lowest is the ~3710 Ma Solvang Volcanic Formation of picrites, basalts and basaltic-andesites with ar...

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Published in:Lithos
Main Authors: Nutman, Allen P., Friend, Clark R L, Bennett, Victoria, Van Kranendonk, M J, Chivas, A R
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier
Subjects:
Greenland
Solvang
Online Access:http://hdl.handle.net/1885/206418
https://doi.org/10.1016/j.lithos.2019.105164
https://openresearch-repository.anu.edu.au/bitstream/1885/206418/3/01_Nutman_Reconstruction_of_a_3700_Ma_2019.pdf.jpg
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spelling ftanucanberra:oai:openresearch-repository.anu.edu.au:1885/206418 2024-01-14T10:07:19+01:00 Reconstruction of a 3700 Ma transgressive marine environment from Isua (Greenland): Sedimentlogy, stratigraphy and geochemical signatures Nutman, Allen P. Friend, Clark R L Bennett, Victoria Van Kranendonk, M J Chivas, A R application/pdf http://hdl.handle.net/1885/206418 https://doi.org/10.1016/j.lithos.2019.105164 https://openresearch-repository.anu.edu.au/bitstream/1885/206418/3/01_Nutman_Reconstruction_of_a_3700_Ma_2019.pdf.jpg en_AU eng Elsevier 0024-4937 http://hdl.handle.net/1885/206418 doi:10.1016/j.lithos.2019.105164 https://openresearch-repository.anu.edu.au/bitstream/1885/206418/3/01_Nutman_Reconstruction_of_a_3700_Ma_2019.pdf.jpg © 2019 Elsevier B.V Lithos Journal article ftanucanberra https://doi.org/10.1016/j.lithos.2019.105164 2023-12-15T09:37:43Z The rare preservation of a stratigraphy in the northwest of the Eoarchean Isua supracrustal belt (Greenland) demonstrates the world's earliest-recognised marine transgression. Stratigraphically lowest is the ~3710 Ma Solvang Volcanic Formation of picrites, basalts and basaltic-andesites with arc-like geochemical signatures. Close to its erosional top, this formation's volcanic rocks show increase in K2O with depletion of Na2O, depletion in Sr with no alteration in Eu abundance and δ18OVSMOW increase to +16‰, interpreted as subaerial weathering at ~3700 Ma. The sedimentary Snowpatch Formation was deposited unconformably on the Solvang Volcanic Formation. Locally, the unconformity is marked by the laterally discontinuous Conglomerate Member dominated by rounded quartz clasts, but also with clasts of basalt and andesite up to N10 cm across, layered chert and ultramafic rocks. The Conglomerate Member carries sparse detrital zircons, the youngest of which are ~3710 Ma. The conglomerates are succeeded by the Sandstone and Dolostone Member of layered quartz and dolomite clastic sandstones that locally preserve relict shallow marine cross-bedding with scoured layers, tempestite breccia beds and very rare stromatolite horizons. The Sandstone and Dolostone Member is succeeded by the ~3695 Ma BIF Member. The Snowpatch Formation quartz-dolomite sandstones and interlayered stromatolites have seawater-like REE + Y trace element patterns variably modified by a negligible to significant influx of a terrigenous component. Trace element signatures such as Ti/V ratios and normalising REE + Y data to a 3710 Ma weathered volcanic rock (rather than Post Archean Average Shale) suggest this component was derived from a juvenile arc source, resembling the basement Solvang Volcanic Formation. The detailed field and geochemical evidence such as positive correlation between Fe/Mg and Pr/Yb* in the Snowpatch Formation dolostones and BIF (banded iron formation) indicates that the dolomitic lithologies developed in a shallow water setting ... Article in Journal/Newspaper Greenland Australian National University: ANU Digital Collections Greenland Solvang ENVELOPE(13.660,13.660,66.916,66.916) Lithos 346-347 105164
institution Open Polar
collection Australian National University: ANU Digital Collections
op_collection_id ftanucanberra
language English
description The rare preservation of a stratigraphy in the northwest of the Eoarchean Isua supracrustal belt (Greenland) demonstrates the world's earliest-recognised marine transgression. Stratigraphically lowest is the ~3710 Ma Solvang Volcanic Formation of picrites, basalts and basaltic-andesites with arc-like geochemical signatures. Close to its erosional top, this formation's volcanic rocks show increase in K2O with depletion of Na2O, depletion in Sr with no alteration in Eu abundance and δ18OVSMOW increase to +16‰, interpreted as subaerial weathering at ~3700 Ma. The sedimentary Snowpatch Formation was deposited unconformably on the Solvang Volcanic Formation. Locally, the unconformity is marked by the laterally discontinuous Conglomerate Member dominated by rounded quartz clasts, but also with clasts of basalt and andesite up to N10 cm across, layered chert and ultramafic rocks. The Conglomerate Member carries sparse detrital zircons, the youngest of which are ~3710 Ma. The conglomerates are succeeded by the Sandstone and Dolostone Member of layered quartz and dolomite clastic sandstones that locally preserve relict shallow marine cross-bedding with scoured layers, tempestite breccia beds and very rare stromatolite horizons. The Sandstone and Dolostone Member is succeeded by the ~3695 Ma BIF Member. The Snowpatch Formation quartz-dolomite sandstones and interlayered stromatolites have seawater-like REE + Y trace element patterns variably modified by a negligible to significant influx of a terrigenous component. Trace element signatures such as Ti/V ratios and normalising REE + Y data to a 3710 Ma weathered volcanic rock (rather than Post Archean Average Shale) suggest this component was derived from a juvenile arc source, resembling the basement Solvang Volcanic Formation. The detailed field and geochemical evidence such as positive correlation between Fe/Mg and Pr/Yb* in the Snowpatch Formation dolostones and BIF (banded iron formation) indicates that the dolomitic lithologies developed in a shallow water setting ...
format Article in Journal/Newspaper
author Nutman, Allen P.
Friend, Clark R L
Bennett, Victoria
Van Kranendonk, M J
Chivas, A R
spellingShingle Nutman, Allen P.
Friend, Clark R L
Bennett, Victoria
Van Kranendonk, M J
Chivas, A R
Reconstruction of a 3700 Ma transgressive marine environment from Isua (Greenland): Sedimentlogy, stratigraphy and geochemical signatures
author_facet Nutman, Allen P.
Friend, Clark R L
Bennett, Victoria
Van Kranendonk, M J
Chivas, A R
author_sort Nutman, Allen P.
title Reconstruction of a 3700 Ma transgressive marine environment from Isua (Greenland): Sedimentlogy, stratigraphy and geochemical signatures
title_short Reconstruction of a 3700 Ma transgressive marine environment from Isua (Greenland): Sedimentlogy, stratigraphy and geochemical signatures
title_full Reconstruction of a 3700 Ma transgressive marine environment from Isua (Greenland): Sedimentlogy, stratigraphy and geochemical signatures
title_fullStr Reconstruction of a 3700 Ma transgressive marine environment from Isua (Greenland): Sedimentlogy, stratigraphy and geochemical signatures
title_full_unstemmed Reconstruction of a 3700 Ma transgressive marine environment from Isua (Greenland): Sedimentlogy, stratigraphy and geochemical signatures
title_sort reconstruction of a 3700 ma transgressive marine environment from isua (greenland): sedimentlogy, stratigraphy and geochemical signatures
publisher Elsevier
url http://hdl.handle.net/1885/206418
https://doi.org/10.1016/j.lithos.2019.105164
https://openresearch-repository.anu.edu.au/bitstream/1885/206418/3/01_Nutman_Reconstruction_of_a_3700_Ma_2019.pdf.jpg
long_lat ENVELOPE(13.660,13.660,66.916,66.916)
geographic Greenland
Solvang
geographic_facet Greenland
Solvang
genre Greenland
genre_facet Greenland
op_source Lithos
op_relation 0024-4937
http://hdl.handle.net/1885/206418
doi:10.1016/j.lithos.2019.105164
https://openresearch-repository.anu.edu.au/bitstream/1885/206418/3/01_Nutman_Reconstruction_of_a_3700_Ma_2019.pdf.jpg
op_rights © 2019 Elsevier B.V
op_doi https://doi.org/10.1016/j.lithos.2019.105164
container_title Lithos
container_volume 346-347
container_start_page 105164
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