TURBO2: A MATLAB simulation to study the effects of bioturbation on paleoceanographic time series

TURBO2: A MATLAB simulation to study the effects of bioturbation on paleoceanographic time series

Bioturbation (or benthic mixing) causes significant distortions in marine stable isotope signals and other palaeoceanographic records. Although the influence of bioturbation on these records is well known it has rarely been dealt systematically. The MATLAB program called TURBO2 can be used to simula...

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Veröffentlicht in:Computers & geosciences 2013-12, Vol.61, p.1-10
1. Verfasser: Trauth, Martin H.
Format: Artikel
Sprache:eng
Schlagworte:
Bioturbation
calcium
carbon
Computer simulation
computers
Deep-sea records
Distortion
Foraminifera
Isotopes
magnesium
marine sediments
MATLAB
mixing
Modeling
oxygen
radionuclides
Sediments
Shells
stable isotopes
Stable oxygen isotopes
surface water temperature
Time series
time series analysis
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description Bioturbation (or benthic mixing) causes significant distortions in marine stable isotope signals and other palaeoceanographic records. Although the influence of bioturbation on these records is well known it has rarely been dealt systematically. The MATLAB program called TURBO2 can be used to simulate the effect of bioturbation on individual sediment particles. It can therefore be used to model the distortion of all physical, chemical, and biological signals in deep-sea sediments, such as Mg/Ca ratios and UK37-based sea-surface temperature (SST) variations. In particular, it can be used to study the distortions in paleoceanographic records that are based on individual sediment particles, such as SST records based on foraminifera assemblages. Furthermore, TURBO2 provides a tool to study the effect of benthic mixing of isotope signals such as 14C, δ18O, and δ13C, measured in a stratigraphic carrier such as foraminifera shells. •A new MATLAB program to study the effects of bioturbation on deep-sea records.•It is a pedagogical tool for the next generation paleoceanographers.•It simulates the effect of bioturbation on single sediment particles.•The bioturbational mixing intensity can change down core/through time.•It models signal distortions of all physical, chemical, and biological signals.
doi_str_mv 10.1016/j.cageo.2013.05.003
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source Elsevier ScienceDirect Journals
subjects Bioturbation
calcium
carbon
Computer simulation
computers
Deep-sea records
Distortion
Foraminifera
Isotopes
magnesium
marine sediments
MATLAB
mixing
Modeling
oxygen
radionuclides
Sediments
Shells
stable isotopes
Stable oxygen isotopes
surface water temperature
Time series
time series analysis
title TURBO2: A MATLAB simulation to study the effects of bioturbation on paleoceanographic time series
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