Assessing the history of the Greenland Ice Sheet through ocean drilling
Anders Carlson1,2 and Joseph Stoner2
11Department of Geoscience, Center for Climatic Research, University of Wisconsin-Madison, USA; email@example.com
2College of Earth, Ocean and Atmospheric Sciences, Oregon State University, Corvallis, USA
Corvallis, USA, 7-9 November 2011
The primary goal of this workshop was to assess whether ocean drilling of the geological record can provide information on the sensitivity of the Greenland Ice Sheet (GIS) to climate warming. Discussion focused on potential marine archives, proxies of GIS behavior and climate, and methods for dating such records. The participants represented a range of disciplines, including climate and ice-sheet modelers, glaciologists, organic and inorganic geochemists, geophysicists, paleomagnetists, paleoceanographers, glacial geologists and sedimentologists, and paleobiologists. The group concluded that process-oriented topics could be addressed through ocean drilling and that the following questions were of significant importance: What controls the rate of ice mass change on Greenland and the respective roles of atmospheric and oceanic forcings? Is subsurface oceanic temperature important in predicting the behavior of the GIS? What is the role of ice shelves and sea ice? How does Greenland freshwater influence global ocean circulation?
Following the theme of process-oriented questions, participants selected several key climate periods spanning the entire history of the GIS that would be important targets to focus on. First, the background climate state of an ice-free Greenland should be established to document when and to what extent Greenland valley glaciers expanded and became an ice sheet. Then, exploring GIS volatility during the Pliocene would provide information on long-term GIS sensitivity to greenhouse gas concentrations similar to current levels. Finally, the Quaternary offers several climate targets of interest, such as GIS behavior during the transition from 40 to 100 ka glacial-interglacial cycles. These document which glacial periods had a fully extended GIS on the continental shelf, and the amount of ice retreat inland of its current extent during interglacial Marine Isotope Stages 1, 5e, 7, 11, 19 and 31. The participants also noted that ice sheet-climate modelers should be involved at all steps of addressing these targeted time periods.
Different strategies and drilling platforms will be needed for tackling these questions and retrieving sediment cores covering the key time periods. Continental slope drilling cores could be used to address large-scale GIS changes, which can better inform ice-sheet models, but may be difficult to date. Small-scale instability related processes might be better addressed through localized investigation at the individual fjord outlet glacier scale on the continental shelf. Sediment drifts on the continental rise integrate these signals in well-dated records that will facilitate interpretation of the more proximal records. Ocean temperature and sea-ice records should also be constructed to test GIS sensitivity to oceanic changes. A reoccurring issue at the workshop was the need for detailed site surveying prior to drilling to identify the best sites for studying the climate targets and addressing the process-oriented questions. Extensive seismic surveying and bathymetric mapping will allow the collection of the best cores, and for the linkage of discontinuous continental shelf, fan and slope records to the continuous records obtained on the continental rise.
To continue the development of a “Greenland” community, the workshop conveners, Anders Carlson and Joseph Stoner, have set up a website for further discussion of ideas and advancement of drilling plans and proposals (www.geoscience.wisc.edu/degree). The conveners and steering committee will develop a working group called DEGREE (DEglaciated GREEnland) that will facilitate future workshops to advance research, and foster discussions of new records and model results of past GIS behavior and its climate forcings. The DEGREE strategy is to develop a community that will foster International Ocean Discovery Program (IODP) expedition proposals focusing on specific aspects of Greenland paleo-history.