FOR 2332: Temperature-related stresses as a unifying principle in ancient extinctions (TERSANE)

Drittmittelfinanzierte Gruppenförderung - Gesamtprojekt

Details zum Projekt

Prof. Dr. Wolfgang Kießling

Beteiligte FAU-Organisationseinheiten:
Lehrstuhl für Paläoumwelt

Mittelgeber: DFG / Forschergruppe (FOR)
Akronym: FOR 2332
Projektstart: 01.01.2016

Abstract (fachliche Beschreibung):

Anthropogenic global warming is regarded as a major threat to species and ecosystems worldwide. Predicting the biological impacts of future warming is thus of critical importance. The geological record provides several examples of mass extinctions and global ecosystem pertubations in which temperature-related stresses are thought to have played a substantial role. These catastrophic natural events are potential analogues for the consequences of anthropogenic warming but the Earth system processes during these times are still unexplored, especially in terms of their ultimate trigger and the extinction mechanisms. The Research Unit TERSANE aims at assessing the relative importance of warming-related stresses in ancient mass extinctions and at evaluating how these stresses emerged under non-anthropogenic conditions. An interdisciplinary set of projects will combine high-resolution geological field studies with meta-analyses and sophisticated analysis of fossil occurrence data on ancient (suspect) hyperthermal events to reveal the rate and magnitude of warming, their potential causes, their impact on marine life, and the mechanisms which led to ecologic change and extinction. Geochemistry, analytical paleobiology and physiology comprise our main toolkit, supplemented by biostratigraphy, sedimentology, and modelling.


Biologische Konsequenzen von temperaturbedingten Stressfaktoren über mehrere Zeitskalen
Rekonstruktion der atmosphärischen pCO2 Konzentration und der Palaeotemperaturen der höheren Breiten im Zeitraum spätes Perm bis frühe Trias
Größenveränderungen von Cephalopoden während der Pliensbachium-Toarcium Krise

Externe Partner

Universität Bremen


Reddin, C.J., Kocsis, Á., & Kießling, W. (2018). Climate change and the latitudinal selectivity of ancient marine extinctions. Paleobiology, 1–15.
Reddin, C.J., Kocsis, Á., & Kießling, W. (2018). Marine invertebrate migrations trace climate change over 450 million years. Global Ecology and Biogeography, 27(6), 704-713.
Kießling, W., Schobben, M., Ghaderi, A., Hairapetian, V., Leda, L., & Korn, D. (2018). Pre-mass extinction decline of latest Permian ammonoids. Geology, 46(3), 283-286.
Kocsis, Á., Reddin, C.J., & Kießling, W. (2018). The biogeographical imprint of mass extinctions. Proceedings of the Royal Society B-Biological Sciences, 285(1878).
Kocsis, Á., Reddin, C.J., & Kießling, W. (2018). The stability of coastal benthic biogeography over the last 10 million years. Global Ecology and Biogeography, 27(9), 1106-1120-1120.

Zuletzt aktualisiert 2018-22-11 um 18:01