Kelin X. Whipple

Kelin Whipple explores the interactions among climate, topography, and tectonics. His work focuses on developing the capacity to interpret the history of tectonic activity and climate change that is recorded in landforms and associated sedimentary records. Current research activities focus on quantifying the linkages among topography, rock properties, climate, and erosion rate. Kelin leverages quantitative understanding of these linkages to explore the potential for coupling and feedback between the Earth’s interior processes and its fluid envelopes. A particular recent focus is on how the interaction between fluvial erosion and transport thresholds and the stochastic distribution of floods dictates the relationships among climate, topography, and erosion and therefore the strength of coupling between climate and tectonics. Active projects and interests span a range from small-scale modeling and both field and experimental investigation of the physics of bedrock channel erosion, to reach-scale modeling of the dynamics of bedrock channel evolution, to neotectonic studies of active deformation using geomorphic tools, and to quantitative investigation of linkages among tectonics, climate, and surface processes at mountain range scale. Applications of this work to evolution of Martian landforms and implications for the climate history of Mars is another active interest.