Hydrogen isotopes as a tracer of the Precambrian hydrosphere:AGU2013 V31E-06

Oceanic serpentinites and hydrous silicate minerals that are formed in subduction-related volcanic and hydrothermal environments obtain their hydrogen isotope composition (δD) from seawater-derived fluids, and thus may be used to calculate secular variation in δD SEAWATER . Hydrogen isotope composit...

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Main Authors:	Pope, Emily Catherine, Rosing, Minik Thorleif, Bird, Dennis K.
Format:	Conference Object
Language:	English
Published:	2013
Subjects:	/dk/atira/pure/core/keywords/TheFacultyOfScience Faculty of Science composition of the hydrosphere stable isotope geochemistry early environment of Earth evolution of Earth Greenland
Online Access:	https://curis.ku.dk/portal/da/publications/hydrogen-isotopes-as-a-tracer-of-the-precambrian-hydrosphere(97987723-4ec1-414d-be96-4fb378a8a321).html http://abstractsearch.agu.org/meetings/2013/FM/sections/V/sessions/V31E/abstracts/V31E-06.html

id	ftcopenhagenunip:oai:pure.atira.dk:publications/97987723-4ec1-414d-be96-4fb378a8a321
record_format	openpolar
spelling	ftcopenhagenunip:oai:pure.atira.dk:publications/97987723-4ec1-414d-be96-4fb378a8a321 2023-05-15T16:30:42+02:00 Hydrogen isotopes as a tracer of the Precambrian hydrosphere:AGU2013 V31E-06 Pope, Emily Catherine Rosing, Minik Thorleif Bird, Dennis K. 2013 https://curis.ku.dk/portal/da/publications/hydrogen-isotopes-as-a-tracer-of-the-precambrian-hydrosphere(97987723-4ec1-414d-be96-4fb378a8a321).html http://abstractsearch.agu.org/meetings/2013/FM/sections/V/sessions/V31E/abstracts/V31E-06.html eng eng info:eu-repo/semantics/restrictedAccess Pope , E C , Rosing , M T & Bird , D K 2013 , ' Hydrogen isotopes as a tracer of the Precambrian hydrosphere : AGU2013 V31E-06 ' , American Geophysical Union Fall Meeting , San Francisco , United States , 09/12/2013 - 13/12/2013 . < http://abstractsearch.agu.org/meetings/2013/FM/sections/V/sessions/V31E/abstracts/V31E-06.html > /dk/atira/pure/core/keywords/TheFacultyOfScience Faculty of Science composition of the hydrosphere stable isotope geochemistry early environment of Earth evolution of Earth conferenceObject 2013 ftcopenhagenunip 2021-09-23T17:28:53Z Oceanic serpentinites and hydrous silicate minerals that are formed in subduction-related volcanic and hydrothermal environments obtain their hydrogen isotope composition (δD) from seawater-derived fluids, and thus may be used to calculate secular variation in δD SEAWATER . Hydrogen isotope compositions of serpentine and fuchsite from the ca. 3.8 Ga Isua supracrustal belt in West Greenland range from -99 to -53‰, and -115 to -61‰, respectively. The highest values indicate that Eoarchean seawater had a δD that was at most 25 ± 5‰ lower than modern oceans. Deuterium-poor water is potentially sequestered from oceans over geologic time by continental growth, large-scale glaciation events, biologically mediated hydrogen escape to space, and subduction of water that is chemically bound in alteration minerals of the ocean crust. The extent to which any of these fluxes have occurred since the Eoarchean is constrained by the hydrogen isotope composition of the minerals at Isua. We developed a first-order mass balance model of δD SEAWATER evolution delimited by δD of Isua serpentine and fuchsite and that of modern seawater. The ca. 25‰ change in δD SEAWATER can be accounted for by the development of the modern cryosphere (9‰), continental growth (as much as 10‰ if continents grew continuously from 0% to 100% of their modern volume since 3.8 Ga) and hydrogen escape to space before the rise of an oxygen-rich atmosphere. ~1.0 ± 0.8 x 1022 mol of elemental hydrogen released to space via biogenic methanogenesis would account for the remainder of the observed isotopic shift in seawater. This estimate is consistent with independent approximations of atmospheric methane concentrations in the early Archean, and is within an order of magnitude of the amount of hydrogen escape required to oxidize the continents before the rise of atmospheric oxygen. Volatile ingassing to the mantle at subduction zones and outgassing in arcs and mid-ocean ridges are apparently equivocal on modern Earth, suggesting there is currently no net flux of water into the mantle. However, estimates that the mass equivalent of Earth’s modern oceans have been sequestered into the deep mantle during subduction over Earth history would significantly change the factors controlling global hydrogen budget as we have proposed. Incorporating this additional outgoing flux of deuterium-poor water from oceans (Δ D MANTLE-SEAWATER = -60 ± 20‰) since the formation of Isua serpentines would require that either continental growth must have happened primarily before 3.8 Ga, and/or methane was not a significant atmospheric gas in the Eoarchean. Developing a more robust geological record of δD SEAWATER using other well-preserved vestiges of hydrated ocean crust or arc-related hydrous minerals is critical to resolving the relationship between these controls on the global water budget. Conference Object Greenland University of Copenhagen: Research Greenland
institution	Open Polar
collection	University of Copenhagen: Research
op_collection_id	ftcopenhagenunip
language	English
topic	/dk/atira/pure/core/keywords/TheFacultyOfScience Faculty of Science composition of the hydrosphere stable isotope geochemistry early environment of Earth evolution of Earth
spellingShingle	/dk/atira/pure/core/keywords/TheFacultyOfScience Faculty of Science composition of the hydrosphere stable isotope geochemistry early environment of Earth evolution of Earth Pope, Emily Catherine Rosing, Minik Thorleif Bird, Dennis K. Hydrogen isotopes as a tracer of the Precambrian hydrosphere:AGU2013 V31E-06
topic_facet	/dk/atira/pure/core/keywords/TheFacultyOfScience Faculty of Science composition of the hydrosphere stable isotope geochemistry early environment of Earth evolution of Earth
description	Oceanic serpentinites and hydrous silicate minerals that are formed in subduction-related volcanic and hydrothermal environments obtain their hydrogen isotope composition (δD) from seawater-derived fluids, and thus may be used to calculate secular variation in δD SEAWATER . Hydrogen isotope compositions of serpentine and fuchsite from the ca. 3.8 Ga Isua supracrustal belt in West Greenland range from -99 to -53‰, and -115 to -61‰, respectively. The highest values indicate that Eoarchean seawater had a δD that was at most 25 ± 5‰ lower than modern oceans. Deuterium-poor water is potentially sequestered from oceans over geologic time by continental growth, large-scale glaciation events, biologically mediated hydrogen escape to space, and subduction of water that is chemically bound in alteration minerals of the ocean crust. The extent to which any of these fluxes have occurred since the Eoarchean is constrained by the hydrogen isotope composition of the minerals at Isua. We developed a first-order mass balance model of δD SEAWATER evolution delimited by δD of Isua serpentine and fuchsite and that of modern seawater. The ca. 25‰ change in δD SEAWATER can be accounted for by the development of the modern cryosphere (9‰), continental growth (as much as 10‰ if continents grew continuously from 0% to 100% of their modern volume since 3.8 Ga) and hydrogen escape to space before the rise of an oxygen-rich atmosphere. ~1.0 ± 0.8 x 1022 mol of elemental hydrogen released to space via biogenic methanogenesis would account for the remainder of the observed isotopic shift in seawater. This estimate is consistent with independent approximations of atmospheric methane concentrations in the early Archean, and is within an order of magnitude of the amount of hydrogen escape required to oxidize the continents before the rise of atmospheric oxygen. Volatile ingassing to the mantle at subduction zones and outgassing in arcs and mid-ocean ridges are apparently equivocal on modern Earth, suggesting there is currently no net flux of water into the mantle. However, estimates that the mass equivalent of Earth’s modern oceans have been sequestered into the deep mantle during subduction over Earth history would significantly change the factors controlling global hydrogen budget as we have proposed. Incorporating this additional outgoing flux of deuterium-poor water from oceans (Δ D MANTLE-SEAWATER = -60 ± 20‰) since the formation of Isua serpentines would require that either continental growth must have happened primarily before 3.8 Ga, and/or methane was not a significant atmospheric gas in the Eoarchean. Developing a more robust geological record of δD SEAWATER using other well-preserved vestiges of hydrated ocean crust or arc-related hydrous minerals is critical to resolving the relationship between these controls on the global water budget.
format	Conference Object
author	Pope, Emily Catherine Rosing, Minik Thorleif Bird, Dennis K.
author_facet	Pope, Emily Catherine Rosing, Minik Thorleif Bird, Dennis K.
author_sort	Pope, Emily Catherine
title	Hydrogen isotopes as a tracer of the Precambrian hydrosphere:AGU2013 V31E-06
title_short	Hydrogen isotopes as a tracer of the Precambrian hydrosphere:AGU2013 V31E-06
title_full	Hydrogen isotopes as a tracer of the Precambrian hydrosphere:AGU2013 V31E-06
title_fullStr	Hydrogen isotopes as a tracer of the Precambrian hydrosphere:AGU2013 V31E-06
title_full_unstemmed	Hydrogen isotopes as a tracer of the Precambrian hydrosphere:AGU2013 V31E-06
title_sort	hydrogen isotopes as a tracer of the precambrian hydrosphere:agu2013 v31e-06
publishDate	2013
url	https://curis.ku.dk/portal/da/publications/hydrogen-isotopes-as-a-tracer-of-the-precambrian-hydrosphere(97987723-4ec1-414d-be96-4fb378a8a321).html http://abstractsearch.agu.org/meetings/2013/FM/sections/V/sessions/V31E/abstracts/V31E-06.html
geographic	Greenland
geographic_facet	Greenland
genre	Greenland
genre_facet	Greenland
op_source	Pope , E C , Rosing , M T & Bird , D K 2013 , ' Hydrogen isotopes as a tracer of the Precambrian hydrosphere : AGU2013 V31E-06 ' , American Geophysical Union Fall Meeting , San Francisco , United States , 09/12/2013 - 13/12/2013 . < http://abstractsearch.agu.org/meetings/2013/FM/sections/V/sessions/V31E/abstracts/V31E-06.html >
op_rights	info:eu-repo/semantics/restrictedAccess
_version_	1766020433633607680

Hydrogen isotopes as a tracer of the Precambrian hydrosphere:AGU2013 V31E-06

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