If there is one moral argument that looms large against the prospects for Geoengineering it is the Precautionary Principle. In this session, the aim is to put this argument in a broader context in which all “facts” established via the scientific method are always open to falsification and hence cannot be known with certainty.
- Martin Bunzl - SRM Risk and the problem of uncertainty
- Ortwin Renn - Geoengineered Black Swans?
- Douglas MacMartin - How uncertain is solar geoengineering?
- David Keith - Solar geoengineering in a risk analysis framework
Martin Bunzl is professor emeritus of Philosophy at Rutgers University and author of Uncertainty and the Philosophy of Climate Change published in 2015.
Douglas MacMartin splits his time between Mechanical & Aerospace Engineering at Cornell University, and Computing + Mathematical Sciences at the California Institute of Technology. His research lies at the intersection between engineering feedback analysis and climate dynamics, with a primary focus on solar geoengineering – working to develop the knowledge base for society to make informed decisions. In addition to applying engineering analysis to climate dynamics, he is also involved in control design for the Thirty Meter Telescope. He received his Bachelors’ degree from the University of Toronto in 1987, and Ph.D. in Aeronautics and Astronautics from MIT in 1992; prior to joining Caltech in 2000, he led the active control research and development program at United Technologies Research Center.
David Keith has worked near the interface between climate science, energy technology, and public policy for twenty-five years. He took first prize in Canada's national physics prize exam, won MIT's prize for excellence in experimental physics, and was one of TIME magazine's Heroes of the Environment. David is Professor of Applied Physics in Harvard’s School of Engineering and Applied Sciences and Professor of Public Policy in the Harvard Kennedy School, and founder at Carbon Engineering, a company developing technology to capture of CO2 from ambient air to make carbon-neutral hydrocarbon fuels. Best known for work on the science, technology, and public policy of solar geoengineering, David is leading the development of an interfaculty research initiative on solar geoengineering at Harvard. David’s work has ranged from the climatic impacts of large-scale wind power to an early critique of the prospects for hydrogen fuel. David’s hardware engineering projects include the first interferometer for atoms, a high-accuracy infrared spectrometer for NASA's ER-2, and currently, development of CO2 capture pilot plants for Carbon Engineering. David teaches courses on Science and Technology Policy and on Energy and Environmental Systems where he has reached students worldwide with an online edX course. He has writing for the public with A case for climate engineering from MIT Press. Based in Cambridge, David spends about a third of his time in Canmore Alberta.
Professor Renn is a Scientific Director at the Institute for Advanced Sustainability Studies (IASS) in Potsdam (Germany). Additionally, he continues to work with the Stuttgart Research Center for Interdisciplinary Risk and Innovation Studies at the University of Stuttgart (ZIRIUS) and directs the non-profit company DIALOGIK, a research institute for the investigation of communication and participation processes. Renn is Adjunct Professor for Integrated Risk Analysis at Stavanger University (Norway) and Affiliate Professor for Risk Governance at Beijing Normal University. His main research activities at the IASS focus on the role of systemic risks as threats to sustainable development, and the structures and processes for sustainable transformations in Germany and beyond.
Professor Renn has a PhD in social psychology from the University of Cologne. He is member of several boards, including the National Academy of Disaster Reduction and Emergency Management of the People’s Republic of China and the Governing Board of the German Academy of Science and Engineering (acatech). Renn has published more than 30 books and 250 articles, most notably the book Risk Governance (Earthscan: London, 2008).