Forward modelling of the speleothem oxygen isotope paleoclimate proxy
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Speleothem
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Owing to its geographical location and geological settings, Romania has the potential of excellent paleoclimate archives from cave deposits because: (i) include extensive karst regions, with numerous caves that are usually well-documented; (ii) caves in Romania usually host abundant speleothems, suitable for high-resolution paleoclimate records; (iii) located at middle latitudes (44-45°N) speleothems from Romania are likely to preserve the longest speleothem records even during extreme climatic events; (iv) the regions located in the inner and outer parts of the Carpathian range experience slightly different climate conditions being influenced differently by the North Atlantic Oscillation (NAO); (v) numerous Romanian caves host simultaneously several types of deposits that may provide independent and coeval paleoclimate records.
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Detailed knowledge of the past climate and environmental variability is vital in order to predict
future scenarios with more confidence. High resolution and highly-resolved natural archives are therefore
in growing demand (PAGES report, 2009).
This thesis is part of a coordinated effort, STALCLIM project, where a series of state-of-theart
methods in speleothems proxies were used in order to develop the full potential of speleothemsas
paleoclimate and paleoenvironmental archive. The thesis investigates climate variations as recorded by
speleothems from Schafsloch and Milandre caves, spanning time intervals of high scientific interest: 0
to 14 550 years BP and 130 000 to 230 000 years BP. The locations of the caves, Jura Mountains and the
Alpstein Mountains (Swiss Alps) are regions highly sensitive to climate-induced changes in temperature,
atmospheric pathways and/or environment evolution. In order to establish new climate records and
resolve the paleoclimate questions, continuous geochemical analyses were applied, with high resolution
stable isotopic and trace elements analysis and 230Th age measurements, and these were combined with
thin section analysis of the calcite petrology. Where possible, we conducted continuous and temporal
measurements in the caves where the samples were collected, to provide a better understanding of the
cave environment.
Chapters 2 and 3 highlight the sensitivity of high altitude speleothem proxies to small changes
in temperature and water availability, both induced by internal and external climate drivers. The MF3
stalagmite, from Schafsloch Cave, provides a unique opportunity to investigate a regional expression
of millennial-scale climate variability in Central Europe during MIS 6 and Late MIS 7. The sample
records in high detail the structure of the penultimate deglaciation in the Alps, and brings new evidence
regarding the nature of this important climatic transition.
Chapters 4 and 5 show the high resolution composite δ18O record and elemental composition of
speleothems from Milandre Cave, covering the Lateglacial- Holocene interval. A detailed comparison
with Greenland ice cores and Gerzensee lake sediments (Central Switzerland) indicates similarities in the
long timescale changes of atmospheric circulation patterns in the whole North Atlantic region after the
last deglaciation. In contrast, during the Holocene, the signature pattern in the isotopic calcite δ18O data
differs to that seen in Central Europe. This provides important insights into the regional teleconnections
and local environmental reaction to changes in the temperature, seasonality of precipitation and
atmospheric processes. The use of a robust δ18O/temperature transfer function has enabled a high
resolution temperature reconstruction of the autumn to spring temperatures at the Milandre site for the
last 14 550 y BP.
In summary, this thesis provides new results on environmental and climatic variability in
Switzerland during specific intervals over the last 230 000 years. It suports large teleconnections over the
northern hemisphere and emphasizes the role of insolation and obliquity as important climate triggers in
the region. These new high-resolution and precisely dated records of δ18O and cold season temperature
reconstruction for the Jura Mountains over the last 14 550 y BP, are proposed as being representative
for Central Europe.
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tropical da América do Sul.
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