A novel salinity proxy based on Na incorporation into foraminiferal calcite

A novel salinity proxy based on Na incorporation into foraminiferal calcite

Salinity and temperature determine seawater density, and differences in both thereby control global thermohaline circulation. Whereas numerous proxies have been calibrated and applied to reconstruct temperature, a direct and independent proxy for salinity is still missing. Ideally, a new proxy for s...

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Main Authors: J. C. Wit, L. J. de Nooijer, M. Wolthers, G. J. Reichart
Format: Article
Language:English
Published: Copernicus Publications 2013-10-01
Series:Biogeosciences
Online Access:http://www.biogeosciences.net/10/6375/2013/bg-10-6375-2013.pdf
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spelling doaj-8d598079fc6e482082da8067a02957a62020-11-25T02:39:48ZengCopernicus PublicationsBiogeosciences1726-41701726-41892013-10-0110106375638710.5194/bg-10-6375-2013A novel salinity proxy based on Na incorporation into foraminiferal calciteJ. C. WitL. J. de NooijerM. WolthersG. J. ReichartSalinity and temperature determine seawater density, and differences in both thereby control global thermohaline circulation. Whereas numerous proxies have been calibrated and applied to reconstruct temperature, a direct and independent proxy for salinity is still missing. Ideally, a new proxy for salinity should target one of the direct constituents of dissolved salt, such as [Na<sup>&plus;</sup>] or [Cl<sup>&minus;</sup>]. This study investigates the impact of salinity on foraminiferal Na/Ca values by laser ablation ICP-MS analyses of specimens of the benthic foraminifer <i>Ammonia tepida</i> cultured at a range of salinities (30.0–38.6). Foraminifera at lower salinities (30.0 and 32.5) added more chambers (10–11) to their test over the course of the culturing experiment than those maintained at higher salinities (36.1, 7–8 chambers, and 38.6, 6–7 chambers), suggesting that growth rates in this species are promoted by lower salinities. The Na/Ca of cultured specimens correlates significantly with seawater salinity (Na/Ca = 0.22S–0.75, <i>R</i><sup>2</sup> = 0.96, <i>p</i> < 0.01) and size. Values for Na/Ca and <i>D</i><sub>Na</sub> vary between 5.17 and 9.29 mmol mol<sup>−1</sup> and 0.12–0.16 × 10<sup>−3</sup>, which are similar to values from inorganic precipitation experiments. The significant correlation between test size and Na/Ca results from co-variation with salinity. This implies that foraminiferal Na/Ca could serve as a robust and independent proxy for salinity, enabling salinity reconstructions independent of calcitic δ<sup>18</sup>O.http://www.biogeosciences.net/10/6375/2013/bg-10-6375-2013.pdf
collection DOAJ
language English
format Article
sources DOAJ
author J. C. Wit
L. J. de Nooijer
M. Wolthers
G. J. Reichart
spellingShingle J. C. Wit
L. J. de Nooijer
M. Wolthers
G. J. Reichart
A novel salinity proxy based on Na incorporation into foraminiferal calcite
Biogeosciences
author_facet J. C. Wit
L. J. de Nooijer
M. Wolthers
G. J. Reichart
author_sort J. C. Wit
title A novel salinity proxy based on Na incorporation into foraminiferal calcite
title_short A novel salinity proxy based on Na incorporation into foraminiferal calcite
title_full A novel salinity proxy based on Na incorporation into foraminiferal calcite
title_fullStr A novel salinity proxy based on Na incorporation into foraminiferal calcite
title_full_unstemmed A novel salinity proxy based on Na incorporation into foraminiferal calcite
title_sort novel salinity proxy based on na incorporation into foraminiferal calcite
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2013-10-01
description Salinity and temperature determine seawater density, and differences in both thereby control global thermohaline circulation. Whereas numerous proxies have been calibrated and applied to reconstruct temperature, a direct and independent proxy for salinity is still missing. Ideally, a new proxy for salinity should target one of the direct constituents of dissolved salt, such as [Na<sup>&plus;</sup>] or [Cl<sup>&minus;</sup>]. This study investigates the impact of salinity on foraminiferal Na/Ca values by laser ablation ICP-MS analyses of specimens of the benthic foraminifer <i>Ammonia tepida</i> cultured at a range of salinities (30.0–38.6). Foraminifera at lower salinities (30.0 and 32.5) added more chambers (10–11) to their test over the course of the culturing experiment than those maintained at higher salinities (36.1, 7–8 chambers, and 38.6, 6–7 chambers), suggesting that growth rates in this species are promoted by lower salinities. The Na/Ca of cultured specimens correlates significantly with seawater salinity (Na/Ca = 0.22S–0.75, <i>R</i><sup>2</sup> = 0.96, <i>p</i> < 0.01) and size. Values for Na/Ca and <i>D</i><sub>Na</sub> vary between 5.17 and 9.29 mmol mol<sup>−1</sup> and 0.12–0.16 × 10<sup>−3</sup>, which are similar to values from inorganic precipitation experiments. The significant correlation between test size and Na/Ca results from co-variation with salinity. This implies that foraminiferal Na/Ca could serve as a robust and independent proxy for salinity, enabling salinity reconstructions independent of calcitic δ<sup>18</sup>O.
url http://www.biogeosciences.net/10/6375/2013/bg-10-6375-2013.pdf
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