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Combined oxygen and silicon isotope analysis of diatom silica from a deglacial subarctic Pacific record
Author(s) -
MAIER E.,
CHAPLIGIN B.,
ABELMANN A.,
GERSONDE R.,
ESPER O.,
REN J.,
FRIEDRICHSEN H.,
MEYER H.,
TIEDEMANN R.
Publication year - 2013
Publication title -
journal of quaternary science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.142
H-Index - 94
eISSN - 1099-1417
pISSN - 0267-8179
DOI - 10.1002/jqs.2649
Subject(s) - diatom , biogenic silica , oceanography , deglaciation , isotopes of oxygen , geology , δ18o , isotope analysis , tephra , holocene , stable isotope ratio , paleontology , geochemistry , physics , quantum mechanics , volcano
We present an SiF 4 separation line, coupled to a laser fluorination system, which allows for an efficient combined silica δ 18 O and δ 30 Si analysis (50 min per sample). The required sample weight of 1.5–2.0 mg allows for high‐resolution isotope studies on biogenic opal. Besides analytical tests, the new instrumentation set‐up was used to analyse two marine diatom fractions (>63 µm, 10–20 µm) with different diatom species compositions extracted from a Bølling/Allerød–Holocene core section [MD01‐2416, North‐West (NW) Pacific] to evaluate the palaeoceanographic significance of the diatom isotopic signals and to address isotopic effects related to contamination and species‐related isotope effects (vital and environmental effects). While δ 30 Si offsets between the two fractions were not discernible, supporting the absence of species‐related silicon isotope effects, systematic offsets occur between the δ 18 O records. Although small, these offsets point to species‐related isotope effects, as bias by contamination can be discarded. The new records strengthen the palaeoceanographic history during the last deglaciation in the NW Pacific characterized by a sequence of events with varying surface water structure and biological productivity. With such palaeoceanographic evolution it becomes unlikely that the observed systematic δ 18 O offsets signal seasonal temperature variability. This calls for reconsideration of vital effects, generally excluded to affect δ 18 O measurements. Copyright © 2013 John Wiley & Sons, Ltd.

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