Geochemistry of ocean floor and forearc serpentinites

We provide new insights into the geochemistry of serpentinites from mid-ocean ridges (Mid-Atlantic Ridge and Hess Deep), passive margins (Iberia Abyssal Plain and Newfoundland) and fore-arcs (Mariana and Guatemala) based on bulk-rock and in situ mineral major and trace element compositional data col...

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Main Authors: Kodolányi, János, Pettke, Thomas, Spandler, Carl, Kamber, Balz S, Gméling, Katalin
Format: Other/Unknown Material
Language:English
Published: PANGAEA 2012
Subjects:
147-895D
147-895E
173-1068A
173-1070A
195-1200A
195-1200B
195-1200D
195-1200E
209-1270D
209-1272A
209-1274A
210-1277A
84-566C
84-567A
84-570
Deep Sea Drilling Project
DRILL
Drilling/drill rig
DSDP
Glomar Challenger
Joides Resolution
Leg147
Leg173
Leg195
Leg209
Leg210
Leg84
North Atlantic Ocean
North Pacific/SLOPE
North Pacific Ocean
Ocean Drilling Program
ODP
Newfoundland
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.779555
https://doi.org/10.1594/PANGAEA.779555
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spelling ftpangaea:oai:pangaea.de:doi:10.1594/PANGAEA.779555 2024-09-15T18:20:23+00:00 Geochemistry of ocean floor and forearc serpentinites Kodolányi, János Pettke, Thomas Spandler, Carl Kamber, Balz S Gméling, Katalin MEDIAN LATITUDE: 21.784658 * MEDIAN LONGITUDE: -91.448310 * SOUTH-BOUND LATITUDE: 2.277300 * WEST-BOUND LONGITUDE: 146.002850 * NORTH-BOUND LATITUDE: 45.196660 * EAST-BOUND LONGITUDE: -11.612000 * DATE/TIME START: 1982-01-24T00:00:00 * DATE/TIME END: 2003-09-04T13:30:00 2012 application/zip, 14 datasets https://doi.pangaea.de/10.1594/PANGAEA.779555 https://doi.org/10.1594/PANGAEA.779555 en eng PANGAEA https://doi.pangaea.de/10.1594/PANGAEA.779555 https://doi.org/10.1594/PANGAEA.779555 CC-BY-3.0: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted info:eu-repo/semantics/openAccess Supplement to: Kodolányi, János; Pettke, Thomas; Spandler, Carl; Kamber, Balz S; Gméling, Katalin (2012): Geochemistry of ocean floor and fore-arc serpentinites: Constraints on the ultramafic input to subduction zones. Journal of Petrology, 53(2), 235-270, https://doi.org/10.1093/petrology/egr058 147-895D 147-895E 173-1068A 173-1070A 195-1200A 195-1200B 195-1200D 195-1200E 209-1270D 209-1272A 209-1274A 210-1277A 84-566C 84-567A 84-570 Deep Sea Drilling Project DRILL Drilling/drill rig DSDP Glomar Challenger Joides Resolution Leg147 Leg173 Leg195 Leg209 Leg210 Leg84 North Atlantic Ocean North Pacific/SLOPE North Pacific Ocean Ocean Drilling Program ODP dataset publication series 2012 ftpangaea https://doi.org/10.1594/PANGAEA.77955510.1093/petrology/egr058 2024-08-21T00:02:25Z We provide new insights into the geochemistry of serpentinites from mid-ocean ridges (Mid-Atlantic Ridge and Hess Deep), passive margins (Iberia Abyssal Plain and Newfoundland) and fore-arcs (Mariana and Guatemala) based on bulk-rock and in situ mineral major and trace element compositional data collected on drill cores from the Deep Sea Drilling Project and Ocean Drilling Program. These data are important for constraining the serpentinite-hosted trace element inventory of subduction zones. Bulk serpentinites show up to several orders of magnitude enrichments in Cl, B, Sr, U, Sb, Pb, Rb, Cs and Li relative to elements of similar compatibility during mantle melting, which correspond to the highest primitive mantle-normalized B/Nb, B/Th, U/Th, Sb/Ce, Sr/Nd and Li/Y among subducted lithologies of the oceanic lithosphere (serpentinites, sediments and altered igneous oceanic crust). Among the elements showing relative enrichment, Cl and B are by far the most abundant with bulk concentrations mostly above 1000 µg/g and 30 µg/g, respectively. All other trace elements showing relative enrichments are generally present in low concentrations (µg/g level), except Sr in carbonate-bearing serpentinites (thousands of µg/g). In situ data indicate that concentrations of Cl, B, Sr, U, Sb, Rb and Cs are, and that of Li can be, increased by serpentinization. These elements are largely hosted in serpentine (lizardite and chrysotile, but not antigorite). Aragonite precipitation leads to significant enrichments in Sr, U and B, whereas calcite is important only as an Sr host. Commonly observed brucite is trace element-poor. The overall enrichment patterns are comparable among serpentinites from mid-ocean ridges, passive margins and fore-arcs, whereas the extents of enrichments are often specific to the geodynamic setting. Variability in relative trace element enrichments within a specific setting (and locality) can be several orders of magnitude. Mid-ocean ridge serpentinites often show pronounced bulk-rock U enrichment in addition to ... Other/Unknown Material Newfoundland North Atlantic PANGAEA - Data Publisher for Earth & Environmental Science ENVELOPE(146.002850,-11.612000,45.196660,2.277300)
institution Open Polar
collection PANGAEA - Data Publisher for Earth & Environmental Science
op_collection_id ftpangaea
language English
topic 147-895D
147-895E
173-1068A
173-1070A
195-1200A
195-1200B
195-1200D
195-1200E
209-1270D
209-1272A
209-1274A
210-1277A
84-566C
84-567A
84-570
Deep Sea Drilling Project
DRILL
Drilling/drill rig
DSDP
Glomar Challenger
Joides Resolution
Leg147
Leg173
Leg195
Leg209
Leg210
Leg84
North Atlantic Ocean
North Pacific/SLOPE
North Pacific Ocean
Ocean Drilling Program
ODP
spellingShingle 147-895D
147-895E
173-1068A
173-1070A
195-1200A
195-1200B
195-1200D
195-1200E
209-1270D
209-1272A
209-1274A
210-1277A
84-566C
84-567A
84-570
Deep Sea Drilling Project
DRILL
Drilling/drill rig
DSDP
Glomar Challenger
Joides Resolution
Leg147
Leg173
Leg195
Leg209
Leg210
Leg84
North Atlantic Ocean
North Pacific/SLOPE
North Pacific Ocean
Ocean Drilling Program
ODP
Kodolányi, János
Pettke, Thomas
Spandler, Carl
Kamber, Balz S
Gméling, Katalin
Geochemistry of ocean floor and forearc serpentinites
topic_facet 147-895D
147-895E
173-1068A
173-1070A
195-1200A
195-1200B
195-1200D
195-1200E
209-1270D
209-1272A
209-1274A
210-1277A
84-566C
84-567A
84-570
Deep Sea Drilling Project
DRILL
Drilling/drill rig
DSDP
Glomar Challenger
Joides Resolution
Leg147
Leg173
Leg195
Leg209
Leg210
Leg84
North Atlantic Ocean
North Pacific/SLOPE
North Pacific Ocean
Ocean Drilling Program
ODP
description We provide new insights into the geochemistry of serpentinites from mid-ocean ridges (Mid-Atlantic Ridge and Hess Deep), passive margins (Iberia Abyssal Plain and Newfoundland) and fore-arcs (Mariana and Guatemala) based on bulk-rock and in situ mineral major and trace element compositional data collected on drill cores from the Deep Sea Drilling Project and Ocean Drilling Program. These data are important for constraining the serpentinite-hosted trace element inventory of subduction zones. Bulk serpentinites show up to several orders of magnitude enrichments in Cl, B, Sr, U, Sb, Pb, Rb, Cs and Li relative to elements of similar compatibility during mantle melting, which correspond to the highest primitive mantle-normalized B/Nb, B/Th, U/Th, Sb/Ce, Sr/Nd and Li/Y among subducted lithologies of the oceanic lithosphere (serpentinites, sediments and altered igneous oceanic crust). Among the elements showing relative enrichment, Cl and B are by far the most abundant with bulk concentrations mostly above 1000 µg/g and 30 µg/g, respectively. All other trace elements showing relative enrichments are generally present in low concentrations (µg/g level), except Sr in carbonate-bearing serpentinites (thousands of µg/g). In situ data indicate that concentrations of Cl, B, Sr, U, Sb, Rb and Cs are, and that of Li can be, increased by serpentinization. These elements are largely hosted in serpentine (lizardite and chrysotile, but not antigorite). Aragonite precipitation leads to significant enrichments in Sr, U and B, whereas calcite is important only as an Sr host. Commonly observed brucite is trace element-poor. The overall enrichment patterns are comparable among serpentinites from mid-ocean ridges, passive margins and fore-arcs, whereas the extents of enrichments are often specific to the geodynamic setting. Variability in relative trace element enrichments within a specific setting (and locality) can be several orders of magnitude. Mid-ocean ridge serpentinites often show pronounced bulk-rock U enrichment in addition to ...
format Other/Unknown Material
author Kodolányi, János
Pettke, Thomas
Spandler, Carl
Kamber, Balz S
Gméling, Katalin
author_facet Kodolányi, János
Pettke, Thomas
Spandler, Carl
Kamber, Balz S
Gméling, Katalin
author_sort Kodolányi, János
title Geochemistry of ocean floor and forearc serpentinites
title_short Geochemistry of ocean floor and forearc serpentinites
title_full Geochemistry of ocean floor and forearc serpentinites
title_fullStr Geochemistry of ocean floor and forearc serpentinites
title_full_unstemmed Geochemistry of ocean floor and forearc serpentinites
title_sort geochemistry of ocean floor and forearc serpentinites
publisher PANGAEA
publishDate 2012
url https://doi.pangaea.de/10.1594/PANGAEA.779555
https://doi.org/10.1594/PANGAEA.779555
op_coverage MEDIAN LATITUDE: 21.784658 * MEDIAN LONGITUDE: -91.448310 * SOUTH-BOUND LATITUDE: 2.277300 * WEST-BOUND LONGITUDE: 146.002850 * NORTH-BOUND LATITUDE: 45.196660 * EAST-BOUND LONGITUDE: -11.612000 * DATE/TIME START: 1982-01-24T00:00:00 * DATE/TIME END: 2003-09-04T13:30:00
long_lat ENVELOPE(146.002850,-11.612000,45.196660,2.277300)
genre Newfoundland
North Atlantic
genre_facet Newfoundland
North Atlantic
op_source Supplement to: Kodolányi, János; Pettke, Thomas; Spandler, Carl; Kamber, Balz S; Gméling, Katalin (2012): Geochemistry of ocean floor and fore-arc serpentinites: Constraints on the ultramafic input to subduction zones. Journal of Petrology, 53(2), 235-270, https://doi.org/10.1093/petrology/egr058
op_relation https://doi.pangaea.de/10.1594/PANGAEA.779555
https://doi.org/10.1594/PANGAEA.779555
op_rights CC-BY-3.0: Creative Commons Attribution 3.0 Unported
Access constraints: unrestricted
info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1594/PANGAEA.77955510.1093/petrology/egr058
_version_ 1810458770377015296

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