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Projekt Druckansicht

Subarktische terrestrische Paläoklimatologie des frühen Eozäns mittels stabiler Wasserstoffisotopenverhältnisse des Niederschlags aus mumifizierten Hölzern

Antragsteller Dr. Tobias Anhäuser
Fachliche Zuordnung Paläontologie
Förderung Förderung von 2019 bis 2020
Projektkennung Deutsche Forschungsgemeinschaft (DFG) - Projektnummer 420409273
 
Erstellungsjahr 2020

Zusammenfassung der Projektergebnisse

The overall goal of the project was to test the applicability δ²HLM values as paleoclimate proxy for deep-time fossil wood samples. However, deviating from the initial work schedule, an investigation of high-resolution δ²HLM tree-ring series of the earliest Eocene was not feasible due to challenges regarding the sampling of relevant reference tree-ring material in the envisaged study area. Instead, the project investigated δ²HLM values of fossil woods from other Cenozoic epochs to reconstruct climate-sensitive δ²Hprecip values. We were able to analyze δ²HLM values for 43 fossil woods (found as disintegrated wood pieces) originating from various fluvial sediments found across the Canadian Arctic Archipelago (73 – 80° N). Samples came from five sampling sites of the latest Pliocene (~ 3 Ma) and one middle Miocene site (~12 Ma). Combining a calibrated apparent isotope fractionation (εapp value) with the analyzed δ²HLM values of the fossil woods enabled reconstructions of δ²Hprecip values of the Pliocene and Miocene time periods. The reconstructed δ²Hprecip values are strongly elevated (40 to 70 and 80 ‰ for Pliocene and Miocene, respectively) when compared to equilatitudinal modern day δ²Hprecip values. Such increased δ²Hprecip at highlatitudes values are indicative of a decreased Rayleigh distillation occurring during poleward atmospheric water vapor transport induced by a reduced meridional temperature gradient. Thus, this observation gives important insights regarding the global variability of stable water isotopes (both δ²Hprecip and δ18Oprecip values) which are widely used in paleoclimatology. Furthermore, assuming a modern-day relationship between mean annual temperatures (MATs) and δ²Hprecip values, allowed a MAT approximation of corresponding Cenozoic time periods. Averaged MAT reconstructions for the Pliocene and Miocene suggest ~10 and ~15 °C, respectively, warmer temperatures for the Canadian Arctic when compared to today. The estimations also partly match existing reconstructions derived from cellulose δ²H values of fossil woods found at the same sampling sites. However, the here produced MAT estimations require a more detail insight regarding atmospheric circulation and storm track patterns to evaluate whether the modern MAT- δ²Hprecip can validly applied for the corresponding time periods. Overall, δ²HLM values appear promising when investigating deep-time terrestrial paleoclimatology particularly when considering that fossil wood is typically lignin-enriched whereby cellulose is commonly degraded (or fully absent). Thus, lignin-based stable isotope proxies (such as δ²HLM) may be able to unlock the full paleoclimatic potential of deep-time fossil wood specimen.

Projektbezogene Publikationen (Auswahl)

 
 

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