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| Titel |
Impact of seawater [Ca2+] on the calcification and calciteMg / Ca of Amphistegina lessonii |
| VerfasserIn |
A. Mewes, G. Langer, S. Thoms, G. Nehrke, G.-J. Reichart, L. J. de Nooijer, J. Bijma |
| Medientyp |
Artikel
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| Sprache |
Englisch
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| ISSN |
1726-4170
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| Digitales Dokument |
URL |
| Erschienen |
In: Biogeosciences ; 12, no. 7 ; Nr. 12, no. 7 (2015-04-10), S.2153-2162 |
| Datensatznummer |
250117893
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| Publikation (Nr.) |
 copernicus.org/bg-12-2153-2015.pdf |
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| Zusammenfassung |
| Mg / Ca ratios in foraminiferal tests are routinely used as paleotemperature
proxies, but on long timescales, they also hold the potential to reconstruct past
seawater Mg / Ca. The impact of both temperature and seawater Mg / Ca on Mg
incorporation in Foraminifera has been quantified by a number of studies.
The underlying mechanism responsible for Mg incorporation in foraminiferal
calcite and its sensitivity to environmental conditions, however, has not
been fully identified. A recently published biomineralization model (Nehrke et
al., 2013) proposes a combination of transmembrane transport and seawater
leakage or vacuolization to link calcite Mg / Ca to seawater Mg / Ca and
explains inter-species variability in Mg / Ca ratios. To test the assumptions
of this model, we conducted a culture study in which seawater Mg / Ca was
manipulated by varying [Ca2+] and keeping [Mg2+] constant.
Foraminiferal growth rates, test thickness and calcite Mg / Ca of newly formed
chambers were analyzed. Results showed optimum growth rates and test
thickness at Mg / Ca closest to that of ambient seawater. Calcite Mg / Ca is
positively correlated to seawater Mg / Ca, indicating that it is not absolute
seawater [Ca2+] and [Mg2+] but their ratio that controls Mg / Ca in
tests. These results demonstrate that the calcification process cannot be
based only on seawater vacuolization, supporting the mixing model proposed
by Nehrke et al. (2013). Here, however, we suggest transmembrane transport
fractionation that is not as strong as suggested by Nehrke et al. (2013). |
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