Postdocs and Research Associates
Rosemarie Drummond
Email: rmarie@atmosp.physics.utoronto.ca
Details: My work is centred around Prof Peltier's ICE-5G model of the last glacial cycle occurring over the last 120,000 years, calculating various effects of Glacial Isostatic Adjustment (GIA), the earth's response to glacial loading and unloading. We calculate Relative Sea level curves, present-day rates of vertical and horizontal motion, gravity anomalies, polar wander rates, non-tidal acceleration etc due to GIA. Results are compared with observed values. Some products, such as the predicted historical topography and the effect of GIA on present-day rates of sealevel rise are useful to others in the field of climate research.
Stephen Griffiths
Office: McLennan Labs MP704A
Phone: (416) 946-9869
Email: sdg@atmosp.physics.utoronto.ca
Webpage: http://www.atmosp.physics.utoronto.ca/~sdg/
Details: Atmosphere/ocean fluid dynamics, instability theory, nonlinear waves and asymptotic methods. Particular interests are waves and inertial instabilities in the equatorial atmosphere, and the modelling of tides and the internal tide in the ocean.
William Hyde
Email: whyde@atmosp.physics.utoronto.ca
Details: My main area of research concerns the glacial cycles of the Phanerozoic and late Precambrian. Work by Berner and others (GEOCARB) on CO2 levels and by Chris Scotese (Paleomap Project) on paleotopography, has given us the necessary inputs for a quantitative model study of these distant eras and to test not only our models, but to use our models, in turn, to examine the consistency of our various paleoclimatic data sets with one another, as in our June 2006 Geology paper. A secondary area of research involves the use of models and data to estimate the climate sensitivity to a doubling of CO2.
Marc d'Orgeville
Office: McLennan Labs MP609
Phone: (416) 946-3019
Email: marcdo@atmosp.physics.utoronto.ca
Details: My current research interests are in climate modeling, low-frequency ocean variability and wave dynamics. It involves analysis of observations and/or GCM output as well as idealized analytical and/or numerical models.
Gordan Stuhne
Office: McLennan Labs MP609
Phone: (416) 946-3019
Email: gordan@atmosp.physics.utoronto.ca
Webpage: http://www.atmosp.physics.utoronto.ca/people/gordan/
Details: My current research interests relate to atmospheric and oceanic fluid dynamics, with particular emphasis on numerical algorithms and model development. Specific topics include the application of unstructured and block-structured triangular grid methods to ocean and tidal simulation. In other work I have also studied jet and vortex dynamics on the Jovian planets, as well as marine plankton clustering.
Lev Tarasov
Email: lev@atmosp.physics.utoronto.ca
Webpage: http://www.atmosp.physics.utoronto.ca/people/lev/lev.html
Details: General interest: Earth System Science and analysing and modelling the dynamics of complex non-linear physical systems. Current research focus: analysing, modelling, and constraining the dynamics of the glacial climate system over the last glacial cycle and into the future.
Guido Vettoretti
Office: McLennan Labs MP610
Phone: (416) 946-7086
Email: guido@atmosp.physics.utoronto.ca
Webpage: http://www.atmosp.physics.utoronto.ca/people/guido/guido.html
Details: My research focuses on the numerical modelling of past climate regimes and long term climate change. In particular, I have been interested in the nature of the glacial-interglacial cycles that have characterized the dominant mode of climatic variability over the past million years. Understanding the complex interactions that have occurred and that may occur in the Earth's climate requires a detailed understanding of the non-linear behaviour of the climate system under a wide range of external and internal forcing. My research is intimately connected with the validation of model simulations of paleoclimate to verify the study of future anthropogenic induced climate change.
