Calcium Carbonate Hexahydrate (Ikaite): History of Mineral Formation as Recorded by Stable Isotopes

Calcium carbonate hexahydrate (ikaite) is a rare mineral that forms as metastable species in the organic-carbon-rich sediments of the King George Basin, Bransfield Strait, Antarctica, as a consequence of early diagenetic decomposition of organic matter under cold water (−1.4 °C) and high pressure (2...

Full description

Bibliographic Details
Published in:	Minerals
Main Authors:	Whiticar, Michael J., Suess, Erwin, Wefer, Gerold, Müller, Peter J.
Format:	Article in Journal/Newspaper
Language:	English
Published:	Minerals 2022
Subjects:	ikaite calcium carbonate hexahydrate glendonite Bransfield Strait diagenesis stable isotope geochemistry palaeoclimate Antarc* Antarctica
Online Access:	http://hdl.handle.net/1828/15508 https://doi.org/10.3390/min12121627

id	ftuvicpubl:oai:dspace.library.uvic.ca:1828/15508
record_format	openpolar
spelling	ftuvicpubl:oai:dspace.library.uvic.ca:1828/15508 2023-11-12T04:03:13+01:00 Calcium Carbonate Hexahydrate (Ikaite): History of Mineral Formation as Recorded by Stable Isotopes Whiticar, Michael J. Suess, Erwin Wefer, Gerold Müller, Peter J. 2022 application/pdf http://hdl.handle.net/1828/15508 https://doi.org/10.3390/min12121627 en eng Minerals Whiticar, M. J., Suess, E., Wefer, G., & Müller, P. (2022). Calcium carbonate hexahydrate (Ikaite): history of mineral formation as recorded by stable isotopes. Minerals, 12(12), 1627. https://doi.org/10.3390/min12121627 https://doi.org/10.3390/min12121627 http://hdl.handle.net/1828/15508 ikaite calcium carbonate hexahydrate glendonite Bransfield Strait diagenesis stable isotope geochemistry palaeoclimate Article 2022 ftuvicpubl https://doi.org/10.3390/min12121627 2023-10-17T23:47:16Z Calcium carbonate hexahydrate (ikaite) is a rare mineral that forms as metastable species in the organic-carbon-rich sediments of the King George Basin, Bransfield Strait, Antarctica, as a consequence of early diagenetic decomposition of organic matter under cold water (−1.4 °C) and high pressure (200 bar) conditions. Large crystals grow in the sediment immediately below the diagenetic transition between microbial sulfate reduction and methanogenesis at ~320 cm below sea floor (bsf). This process is reflected in the dissolved sulfate, total carbon dioxide, and methane concentrations, as well as in the carbon, hydrogen, and oxygen isotope chemistries of the interstitial fluids and dissolved gases of the host sediment. The ikaite crystal faithfully records in its zonal structure the changing carbon isotope ratio of the total dissolved carbon dioxide pool as it gradually diminishes during methanogenesis (δ13Cikaite = −17.5 to −21.4‰). These changes in the crystal’s host environment follow general Rayleigh carbon isotope fractionation. The oxygen isotopes of the ikaite carbonate (δ18Oikaite = 1.46 to 4.45‰) also show a strong zonal distribution, unrelated to temperature of formation, but perhaps controlled by the degree of recrystallization of ikaite to calcite. The crystal water of the ikaite is depleted 11‰ in 2H/1H (VSMOW) relative to the coexisting interstitial water, which is in excellent agreement with the isotope fractionation of other hydrated minerals. In addition to the in situ temperature and pressure, nucleation of the ikaite crystals in the Bransfield Basin sediments may be induced by the high alkalinity, high phosphate concentrations, and dissolved organic compounds. Intense microbial metabolism generates such compounds; of these, aspartic acid and glutamic acid may play an important role, as they do in biological and extracellular carbonate mineral precipitation. All indications are that low temperatures (such as of polar environments), high calcium carbonate supersaturation caused by interstitial ... Article in Journal/Newspaper Antarc* Antarctica Bransfield Strait University of Victoria (Canada): UVicDSpace Bransfield Strait Minerals 12 12 1627
institution	Open Polar
collection	University of Victoria (Canada): UVicDSpace
op_collection_id	ftuvicpubl
language	English
topic	ikaite calcium carbonate hexahydrate glendonite Bransfield Strait diagenesis stable isotope geochemistry palaeoclimate
spellingShingle	ikaite calcium carbonate hexahydrate glendonite Bransfield Strait diagenesis stable isotope geochemistry palaeoclimate Whiticar, Michael J. Suess, Erwin Wefer, Gerold Müller, Peter J. Calcium Carbonate Hexahydrate (Ikaite): History of Mineral Formation as Recorded by Stable Isotopes
topic_facet	ikaite calcium carbonate hexahydrate glendonite Bransfield Strait diagenesis stable isotope geochemistry palaeoclimate
description	Calcium carbonate hexahydrate (ikaite) is a rare mineral that forms as metastable species in the organic-carbon-rich sediments of the King George Basin, Bransfield Strait, Antarctica, as a consequence of early diagenetic decomposition of organic matter under cold water (−1.4 °C) and high pressure (200 bar) conditions. Large crystals grow in the sediment immediately below the diagenetic transition between microbial sulfate reduction and methanogenesis at ~320 cm below sea floor (bsf). This process is reflected in the dissolved sulfate, total carbon dioxide, and methane concentrations, as well as in the carbon, hydrogen, and oxygen isotope chemistries of the interstitial fluids and dissolved gases of the host sediment. The ikaite crystal faithfully records in its zonal structure the changing carbon isotope ratio of the total dissolved carbon dioxide pool as it gradually diminishes during methanogenesis (δ13Cikaite = −17.5 to −21.4‰). These changes in the crystal’s host environment follow general Rayleigh carbon isotope fractionation. The oxygen isotopes of the ikaite carbonate (δ18Oikaite = 1.46 to 4.45‰) also show a strong zonal distribution, unrelated to temperature of formation, but perhaps controlled by the degree of recrystallization of ikaite to calcite. The crystal water of the ikaite is depleted 11‰ in 2H/1H (VSMOW) relative to the coexisting interstitial water, which is in excellent agreement with the isotope fractionation of other hydrated minerals. In addition to the in situ temperature and pressure, nucleation of the ikaite crystals in the Bransfield Basin sediments may be induced by the high alkalinity, high phosphate concentrations, and dissolved organic compounds. Intense microbial metabolism generates such compounds; of these, aspartic acid and glutamic acid may play an important role, as they do in biological and extracellular carbonate mineral precipitation. All indications are that low temperatures (such as of polar environments), high calcium carbonate supersaturation caused by interstitial ...
format	Article in Journal/Newspaper
author	Whiticar, Michael J. Suess, Erwin Wefer, Gerold Müller, Peter J.
author_facet	Whiticar, Michael J. Suess, Erwin Wefer, Gerold Müller, Peter J.
author_sort	Whiticar, Michael J.
title	Calcium Carbonate Hexahydrate (Ikaite): History of Mineral Formation as Recorded by Stable Isotopes
title_short	Calcium Carbonate Hexahydrate (Ikaite): History of Mineral Formation as Recorded by Stable Isotopes
title_full	Calcium Carbonate Hexahydrate (Ikaite): History of Mineral Formation as Recorded by Stable Isotopes
title_fullStr	Calcium Carbonate Hexahydrate (Ikaite): History of Mineral Formation as Recorded by Stable Isotopes
title_full_unstemmed	Calcium Carbonate Hexahydrate (Ikaite): History of Mineral Formation as Recorded by Stable Isotopes
title_sort	calcium carbonate hexahydrate (ikaite): history of mineral formation as recorded by stable isotopes
publisher	Minerals
publishDate	2022
url	http://hdl.handle.net/1828/15508 https://doi.org/10.3390/min12121627
geographic	Bransfield Strait
geographic_facet	Bransfield Strait
genre	Antarc* Antarctica Bransfield Strait
genre_facet	Antarc* Antarctica Bransfield Strait
op_relation	Whiticar, M. J., Suess, E., Wefer, G., & Müller, P. (2022). Calcium carbonate hexahydrate (Ikaite): history of mineral formation as recorded by stable isotopes. Minerals, 12(12), 1627. https://doi.org/10.3390/min12121627 https://doi.org/10.3390/min12121627 http://hdl.handle.net/1828/15508
op_doi	https://doi.org/10.3390/min12121627
container_title	Minerals
container_volume	12
container_issue	12
container_start_page	1627
_version_	1782336496823435264

Calcium Carbonate Hexahydrate (Ikaite): History of Mineral Formation as Recorded by Stable Isotopes

Similar Items