Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean

The Bell Island and Wabana groups together comprise a ca. 150-m-thick succession of interbedded clastic and chemical sedimentary rocks composed of eight distinct lithofacies that accumulated along the northern margin of the Rheic Ocean. Lithofacies stacking patterns indicate that deposition occurred...

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Published in:Sedimentary Geology
Main Authors: Todd, Stephanie, Pufahl, Peir, Murphy, Brendan, Taylor, Kevin
Format: Article in Journal/Newspaper
Language:English
Published: 2019
Subjects:
Bell Island
Newfoundland
Online Access:https://research.manchester.ac.uk/en/publications/330eb05e-14ff-4235-aa5d-d6a21dcb2e0c
https://doi.org/10.1016/j.sedgeo.2018.10.007
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spelling ftumanchesterpub:oai:pure.atira.dk:publications/330eb05e-14ff-4235-aa5d-d6a21dcb2e0c 2023-11-12T04:15:12+01:00 Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean Todd, Stephanie Pufahl, Peir Murphy, Brendan Taylor, Kevin 2019-01 https://research.manchester.ac.uk/en/publications/330eb05e-14ff-4235-aa5d-d6a21dcb2e0c https://doi.org/10.1016/j.sedgeo.2018.10.007 eng eng info:eu-repo/semantics/openAccess Todd , S , Pufahl , P , Murphy , B & Taylor , K 2019 , ' Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean ' , Sedimentary Geology , vol. 379 , pp. 1-15 . https://doi.org/10.1016/j.sedgeo.2018.10.007 article 2019 ftumanchesterpub https://doi.org/10.1016/j.sedgeo.2018.10.007 2023-10-30T09:17:52Z The Bell Island and Wabana groups together comprise a ca. 150-m-thick succession of interbedded clastic and chemical sedimentary rocks composed of eight distinct lithofacies that accumulated along the northern margin of the Rheic Ocean. Lithofacies stacking patterns indicate that deposition occurred during a marine transgression with superimposed small-scale sea level fluctuations producing at least six parasequences. Parasequences containing ironstone are 10 to 20-m-thick and composed of hummocky cross-stratified sandstone interbedded with organic-rich mudstone and phosphatic Fe-silicate-bearing siltstone,which is overlain by hematitic granular ironstone capped by an erosive flooding surface. This lithofacies association is interpreted to record the deposition of upwelling-related ironstone on a stormdominated shelf. The close relationship between Fe-silicates and phosphorite typical of upwelling systems suggests that Fe was delivered from deep, anoxic, nutrient-rich seawater that also stimulated high surface productivities. The result was the precipitation of authigenic sedimentary apatite in anoxic organic-rich sediments that accumulated near the upwelling front. The gradual advection of Fe-rich waters away from the upwelling front, initiated precipitation of Fe-silicate coated grains and cements in suboxic pore-waters. Iron pumped into shallower environments through advection and Fe-redox cycling is interpreted to have precipitated Fe- (oxyhydr)oxide grains in sediment of the oxygenated middle shelf. These coated grains were subsequently concentrated by fairweather and storm currents on the shoreface to create granular economic Fe deposits. We challenge conventional models of Paleozoic ironstone deposition that rely on a continental source of Fe by proposing a hydrothermal source that supplied Fe2+ to the shelf through upwelling. It also highlights the potential connection between the delivery of anoxic, ferruginous seawater to the margins of the Rheic Ocean and the Early Ordovician extinctions that ... Article in Journal/Newspaper Bell Island Newfoundland The University of Manchester: Research Explorer Sedimentary Geology 379 1 15
institution Open Polar
collection The University of Manchester: Research Explorer
op_collection_id ftumanchesterpub
language English
description The Bell Island and Wabana groups together comprise a ca. 150-m-thick succession of interbedded clastic and chemical sedimentary rocks composed of eight distinct lithofacies that accumulated along the northern margin of the Rheic Ocean. Lithofacies stacking patterns indicate that deposition occurred during a marine transgression with superimposed small-scale sea level fluctuations producing at least six parasequences. Parasequences containing ironstone are 10 to 20-m-thick and composed of hummocky cross-stratified sandstone interbedded with organic-rich mudstone and phosphatic Fe-silicate-bearing siltstone,which is overlain by hematitic granular ironstone capped by an erosive flooding surface. This lithofacies association is interpreted to record the deposition of upwelling-related ironstone on a stormdominated shelf. The close relationship between Fe-silicates and phosphorite typical of upwelling systems suggests that Fe was delivered from deep, anoxic, nutrient-rich seawater that also stimulated high surface productivities. The result was the precipitation of authigenic sedimentary apatite in anoxic organic-rich sediments that accumulated near the upwelling front. The gradual advection of Fe-rich waters away from the upwelling front, initiated precipitation of Fe-silicate coated grains and cements in suboxic pore-waters. Iron pumped into shallower environments through advection and Fe-redox cycling is interpreted to have precipitated Fe- (oxyhydr)oxide grains in sediment of the oxygenated middle shelf. These coated grains were subsequently concentrated by fairweather and storm currents on the shoreface to create granular economic Fe deposits. We challenge conventional models of Paleozoic ironstone deposition that rely on a continental source of Fe by proposing a hydrothermal source that supplied Fe2+ to the shelf through upwelling. It also highlights the potential connection between the delivery of anoxic, ferruginous seawater to the margins of the Rheic Ocean and the Early Ordovician extinctions that ...
format Article in Journal/Newspaper
author Todd, Stephanie
Pufahl, Peir
Murphy, Brendan
Taylor, Kevin
spellingShingle Todd, Stephanie
Pufahl, Peir
Murphy, Brendan
Taylor, Kevin
Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean
author_facet Todd, Stephanie
Pufahl, Peir
Murphy, Brendan
Taylor, Kevin
author_sort Todd, Stephanie
title Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean
title_short Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean
title_full Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean
title_fullStr Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean
title_full_unstemmed Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean
title_sort sedimentology and oceanography of early ordovician ironstone, bell island, newfoundland: ferruginous seawater and upwelling in the rheic ocean
publishDate 2019
url https://research.manchester.ac.uk/en/publications/330eb05e-14ff-4235-aa5d-d6a21dcb2e0c
https://doi.org/10.1016/j.sedgeo.2018.10.007
genre Bell Island
Newfoundland
genre_facet Bell Island
Newfoundland
op_source Todd , S , Pufahl , P , Murphy , B & Taylor , K 2019 , ' Sedimentology and oceanography of Early Ordovician ironstone, Bell Island, Newfoundland: Ferruginous seawater and upwelling in the Rheic Ocean ' , Sedimentary Geology , vol. 379 , pp. 1-15 . https://doi.org/10.1016/j.sedgeo.2018.10.007
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1016/j.sedgeo.2018.10.007
container_title Sedimentary Geology
container_volume 379
container_start_page 1
op_container_end_page 15
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