The stable calcium isotopic composition of rivers draining basaltic catchments in Iceland

Calcium isotopic compositions (δ44 / 42Ca) were measured in Icelandic rivers draining a range of catchment types. The δ44 / 42Cavalues of the rivers ranged from 0.45‰ to 0.67‰, which in all cases was higher than the δ44 / 42Ca value of basaltic rock standards (0.42±0.03‰). A single explanation was u...

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Main Authors:	Hindshaw, RS, Bourdon, B, Pogge von Strandmann, PAE, Vigier, N, Burton, KW
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	2013
Subjects:	Iceland
Online Access:	http://discovery.ucl.ac.uk/1403477/

id	ftucl:oai:eprints.ucl.ac.uk.OAI2:1403477
record_format	openpolar
spelling	ftucl:oai:eprints.ucl.ac.uk.OAI2:1403477 2023-05-15T16:51:15+02:00 The stable calcium isotopic composition of rivers draining basaltic catchments in Iceland Hindshaw, RS Bourdon, B Pogge von Strandmann, PAE Vigier, N Burton, KW 2013-07-05 http://discovery.ucl.ac.uk/1403477/ unknown Earth and Planetary Science Letters , 374 pp. 173-184. (2013) Article 2013 ftucl 2016-12-22T23:12:12Z Calcium isotopic compositions (δ44 / 42Ca) were measured in Icelandic rivers draining a range of catchment types. The δ44 / 42Cavalues of the rivers ranged from 0.45‰ to 0.67‰, which in all cases was higher than the δ44 / 42Ca value of basaltic rock standards (0.42±0.03‰). A single explanation was unable to satisfactorily explain the δ44 / 42Ca values of all rivers, rather it was found that the rivers formed three distinct groups based on the extent of glacial coverage in each catchment. The Ca isotopic composition of rivers draining catchments with less than 10% glacial cover could be explained by the mixing of water sources: basalt-derived solutes, meltwater (taken to represent meteorological precipitation inputs) and hydrothermal water. However, fractionation of δ44 / 42Ca in these catchments cannot unequivocally be ruled out. In catchments with greater than 22% glacial cover, Ca isotopic compositions could not be explained by a mixture of water sources and instead reflected a fractionation process, most likely the precipitation of Ca-bearing secondary minerals or the adsorption/ion-exchange of Ca onto mineral surfaces. The fractionation factor (α) for this process was calculated to be 0.9999. The third group of rivers, with partially glaciated (10-21%) catchments, grouped with glaciated catchments with respect to their Sr geochemistry and with non-glaciated catchments with respect to their Ca geochemistry. The difference in the controls of Ca isotope fractionation between glaciated and unglaciated catchments was attributed to different weathering regimes.© 2013 Elsevier B.V. Article in Journal/Newspaper Iceland University College London: UCL Discovery
institution	Open Polar
collection	University College London: UCL Discovery
op_collection_id	ftucl
language	unknown
description	Calcium isotopic compositions (δ44 / 42Ca) were measured in Icelandic rivers draining a range of catchment types. The δ44 / 42Cavalues of the rivers ranged from 0.45‰ to 0.67‰, which in all cases was higher than the δ44 / 42Ca value of basaltic rock standards (0.42±0.03‰). A single explanation was unable to satisfactorily explain the δ44 / 42Ca values of all rivers, rather it was found that the rivers formed three distinct groups based on the extent of glacial coverage in each catchment. The Ca isotopic composition of rivers draining catchments with less than 10% glacial cover could be explained by the mixing of water sources: basalt-derived solutes, meltwater (taken to represent meteorological precipitation inputs) and hydrothermal water. However, fractionation of δ44 / 42Ca in these catchments cannot unequivocally be ruled out. In catchments with greater than 22% glacial cover, Ca isotopic compositions could not be explained by a mixture of water sources and instead reflected a fractionation process, most likely the precipitation of Ca-bearing secondary minerals or the adsorption/ion-exchange of Ca onto mineral surfaces. The fractionation factor (α) for this process was calculated to be 0.9999. The third group of rivers, with partially glaciated (10-21%) catchments, grouped with glaciated catchments with respect to their Sr geochemistry and with non-glaciated catchments with respect to their Ca geochemistry. The difference in the controls of Ca isotope fractionation between glaciated and unglaciated catchments was attributed to different weathering regimes.© 2013 Elsevier B.V.
format	Article in Journal/Newspaper
author	Hindshaw, RS Bourdon, B Pogge von Strandmann, PAE Vigier, N Burton, KW
spellingShingle	Hindshaw, RS Bourdon, B Pogge von Strandmann, PAE Vigier, N Burton, KW The stable calcium isotopic composition of rivers draining basaltic catchments in Iceland
author_facet	Hindshaw, RS Bourdon, B Pogge von Strandmann, PAE Vigier, N Burton, KW
author_sort	Hindshaw, RS
title	The stable calcium isotopic composition of rivers draining basaltic catchments in Iceland
title_short	The stable calcium isotopic composition of rivers draining basaltic catchments in Iceland
title_full	The stable calcium isotopic composition of rivers draining basaltic catchments in Iceland
title_fullStr	The stable calcium isotopic composition of rivers draining basaltic catchments in Iceland
title_full_unstemmed	The stable calcium isotopic composition of rivers draining basaltic catchments in Iceland
title_sort	stable calcium isotopic composition of rivers draining basaltic catchments in iceland
publishDate	2013
url	http://discovery.ucl.ac.uk/1403477/
genre	Iceland
genre_facet	Iceland
op_source	Earth and Planetary Science Letters , 374 pp. 173-184. (2013)
_version_	1766041368140972032

The stable calcium isotopic composition of rivers draining basaltic catchments in Iceland

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