Encrustation and trace element composition of Neogloboquadrina dutertrei assessed from single chamber analyses implications for paleotemperature estimates
Publication date
2012
Authors
Jonkers, L.
Nooijer, de L.J.
Reichart, G.-J.
Zahn, R.
Brummer, G.-J.A.
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(c) UU Universiteit Utrecht, 2012
Abstract
Crust formation is a common phenomenon in
planktonic foraminifera. Because of their different formation
mechanism and hence composition, crusts affect the overall
test composition and therefore complicate the use of crustbearing
foraminifera in paleoceanography. Such species are
often used to estimate subsurface paleotemperatures, and although
the influence of encrustation on the trace element/Ca
ratio is recognised, it has not been systematically explored
between and within tests. Here we use laser ablation ICP-MS
to assess the variability in trace element composition of the
crust of Neogloboquadrina dutertrei within individual chambers,
as well as the effect of compositional heterogeneity of
the crust on whole test chemistry. Compositionally, the outer
crust differs from inner layer by lower Mg/Ca and Mn/Ca,
but is indistinguishable in Sr/Ca. Crust thickness decreases
towards the younger chambers, and it may be entirely absent
from the last chamber. In contrast to Mn/Ca and Sr/Ca,
crustal Mg/Ca ratios show a tendency towards higher values
on the younger chambers. These patterns in crust thickness
and in crust Mg/Ca indicate that temperature is not
the dominant factor controlling crust composition. Temperature
estimates based on N. dutertrei, and presumably other
crust-forming species too, are therefore biased towards too
low values. Through comparison of modern and glacial tests,
we show that this bias is not constant and that changes in
crust thickness and/or in Mg/Ca values can spuriously suggest
temperature changes.