A reappraisal of the vital effect in cultured benthic foraminifer Bulimina marginata on Mg/Ca values: Assessing temperature uncertainty relationships
Publication date
2012
Authors
Wit, J.C.
de Nooijer, L.J.
Barras, C.
Jorissen, F.J.
Reichart, G.-J.
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Document Type
Article
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(c) UU Universiteit Utrecht, 2012
Abstract
The reconstruction of past temperatures is often
achieved through measuring the Mg/Ca value of
foraminiferal test carbonate. The diversity in foraminiferal
Mg/Ca–temperature calibrations suggests that there is
also a biological control on this proxy. This study
presents a new Mg/Ca–temperature calibration for the
benthic foraminifer Bulimina marginata, based on cultures
under a range of temperatures (4–14 C). Measured
Mg/Ca values for B. marginata correlate with temperature
(Mg/Ca = (1.10±0.10) e(0.045±0.009)T , R2 = 0.28 p <0.01).
The inter-individual variability is, however, also significant
(standard deviation is 10–35%of the average). Before applying
this or any calibration, the effect of the inter-individual
variability on the accuracy of the Mg/Ca–temperature calibration
has to be evaluated. The inter-individual variability
is quantified and split into three components, namely (1) an
analytical error, (2) an environmental effect and (3) a vital effect.
The effect of inter-individual variability on the accuracy
of Mg/Ca–temperature calibrations depends on the sensitivity
of the calibration used and the number of individuals measured
(temperature uncertainty = (0.33 ·N−0.50)/sensitivity).
The less sensitive a calibration, the greater is the impact
of inter-individual variability, which can partly be circumvented
by measuring more individuals. This study shows
the link between inter-individual variability and sensitivity
and quantifies their influence on the accuracy of Mg/Ca–
temperature calibrations. Differences in the sensitivity of the
Mg/Ca–temperature calibration of foraminifera may depend
on the environmental conditions in which foraminifera live
and their concurring ecological strategies.