The effects of diagenesis on the trace element and stable isotope geochemistry of non-marine ostracod valves

The trace-element and stable-isotope geochemistry of non-marine ostracod valves is a valuable tool in palaeolimnology. However, the potential effects of early diagenesis on geochemical composition are poorly documented. In this study, the effect of partial dissolution on the trace-element (Sr and Mg...

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Bibliographic Details
Main Authors: Keatings, KW, Heaton, THE, Holmes, JA
Format: Article in Journal/Newspaper
Language:unknown
Published: KLUWER ACADEMIC PUBL 2002
Subjects:
early diagenesis
ostracod
palaeoenvironment
stable isotope
trace element
PLANKTONIC-FORAMINIFERA
TEMPERATURE
MG
CHEMISTRY
CALCITE
MG/CA
DISSOLUTION
MAGNESIUM
RATIOS
RECORD
Planktonic foraminifera
Online Access:http://discovery.ucl.ac.uk/98335/
Description
Summary:The trace-element and stable-isotope geochemistry of non-marine ostracod valves is a valuable tool in palaeolimnology. However, the potential effects of early diagenesis on geochemical composition are poorly documented. In this study, the effect of partial dissolution on the trace-element (Sr and Mg) and isotopic (O-18/O-16 and C-13/C-12) composition of late Quaternary non-marine ostracod valves was investigated. Both unaltered and extremely degraded valves of the species Cypretta brevisaepta recovered from the same core level had trace-element and stable-isotope ratios that were drawn from the same statistical population, suggesting that the geochemical effects of early diagenesis are minimal. However, since the possibility remains that diagenesis could under certain circumstances alter valve chemistry, only valves in pristine condition should be used in palaeoenvironmental studies whenever feasible.

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