The Arctic region is expected to experience some of the greatest climate and environmental changes in the next centuries as a result of climate change, and the consequences of these changes will be experienced worldwide, for instance through rising sea-levels or changes to Northern Hemisphere weather systems. Improving understanding of how the Arctic will develop in a warmer world is therefore of paramount importance, and one way to achieve this is to look at periods of warmer climate in the recent geological past.
Northeast Greenland is one of the areas of the Arctic that is predicted to experience the greatest change. Despite this, a severe lack of knowledge exists on the climate history of this region, which is located far from the site of the deep ice cores and sparse in other high-quality climate records of long duration. The Northeast Greenland Speleothem project thus seeks to address this fundamental knowledge gap by constructing records of climate change from calcite mineral deposits found in caves (known as speleothems). In the current environment, the region containing the caves is arid and the ground is frozen, thus preventing deposition of speleothem. The presence of many speleothem deposits, which are already known from pioneering work by the principle investigator Dr. Moseley, indicates that the region must have been warmer and wetter in the past. This FWF Start project, will provide Moseley with the resources to mount a substantial expedition to collect samples and analyse them using the most cutting-edge methods. In particular the project aims to: (1) establish when in the recent geological past Greenland was warmer and wetter than today and the stability of the climate during those intervals; (2) establish seasonal climate changes during past warm intervals; (3) establish mean annual temperatures for past warm intervals.
The pilot study revealed that speleothems were deposited between 600,000 to 400,000 years ago, thus whilst ambitious, this project guarantees to improve understanding of climate change on deeper timescales than the 128,000 year limit of the Greenland ice cores. Such an advance in the knowledge of Arctic climate has the potential to complement the longer ice-core records from Antarctica and speleothem records of Asian monsoon strength. Establishing the world’s first Arctic Speleothem Research Group at the University of Innsbruck will not only be a ground-breaking step for speleothem research, which thus far has concentrated on the mid-latitudes and tropics, but will also transform the field of palaeoclimatology by opening up a new Arctic archive for investigation.
FWF Projest-Number: Y-1162
Project-Title Northeast Greenland Speleothem Project
Research Institute: University of Innsbruck, Institute of Geology
Run Time: 2019-2025
Fabien Maussion, University of Innsbruck, Synoptic climatology
R.L. Edwards, University of Minnesota, U-Th Dating
Josh Feinburg, University of Minnesota, Palaeomagnetic Dating
Hai Cheng, University of Xi’an, δ17Oexcess
Anders Svennson, University of Copenhagen,Greenland δ18O time-series
Sune Rasmussen, University of Copenhagen,Greenland δ18O time-series
Philip Hopley, University of London, Confocal microscopy
Denis Scholz, University of Mainz, LA-ICPMS
Ian Orland, University of Wisconsin, SIMS
Nele Meckler, University of Bergen, Clumped Isotopes
Tunnel in die Vergangenheit, GEOkompakt (09.2018) Link
Verliebt in die irdische Unterwelt, Die Presse (20.07.2018) Link
Das Klimaarchiv in den Höhlen der Arktis, Der Standard (19.07.2018) Link
Renommierter START-Preis für Innsbruck Geologin, Tiroler Tageszeitung (16.07.2018)
Aufwind für sechs Nachwuchswissenschaftler, DiePresse (15.06.2018) Link
START-Preis für die Erforschung des arktischen Klimawandels vergeben, Mein Bezirk (15.06.2018) Link Geologist receives prestigious START award. University of Innsbruck (14.06.2018) German English
Cave Scientist Gina Moseley Receives €1.2 Million Research Prize, Darkness Below (14.06.2018) Link
Our 2019 expedition report has been published as a thematic issue of the British Cave Research Association journal Cave and Karst Science (vol. 42 (2)). The report is available as an open-access free download from here.