Presentations
Cryovolcanism in Concept and Reality
Presented by Jeffrey Kargel, Planetary Science Institute
What can Silicate Volcanism tell Us About Cryovolcanism?
Presented by Sarah Fagents, University of Hawaii
Candidate (Cryo)Volcanic Features in the Outer Solar System: Observational Constraints
Presented by Paul Schenk, Lunar and Planetary Institute
Brine-Driven Volcanism at Ceres
Presented by Julie Castillo-Rogez, Jet Propulsion Laboratory
Cryovolcanic History of Ceres from Topography
Presented by Michael Sori, University of Arizona
Are Floor-Fractured Craters on Ceres Formed by Cryomagmatism?
Presented by Debra Buczkowski, Johns Hopkins University Applied Physics Laboratory
Cryovolcanism on Pluto from the New Horizons Flyby
Presented by Kelsi Singer, Washington University in St. Louis
Potential Mud Volcanism Type Processes on Pluto
Presented by Caitlin Ahrens, University of Arkansas
Vulcan Planitia, Type Example of Outer Solar System Ammonia-Water Cryovolcanism
Presented by William McKinnon, Washington University in St. Louis
Cryovolcanism at Rhadamanthys Linea, Europa and the Role of Tidal Stresses
Presented by Rachel Maxwell, University of California Santa Cruz
Stress, Tectonics and Cryovolcanism
Presented by Terry Hurford, NASA Goddard Space Flight Center
Terrestrial Magma Dynamics as an Analog for Cryomagma Transport on Icy Worlds
Presented by Lynnae Quick, National Air and Space Museum
Investigating the Dynamics of Dike-Fed Cryovolcanism
Presented by Lauren Jozwiak, Johns Hopkins University Applied Physics Laboratory
Breaking the BBC (Buoyancy Barriers to Cryovolcanism)
Presented by Patrick McGovern, Lunar and Planetary Institute
Investigating Effects of Subsurface Cryovolcanic Chamber Pressurization on Ceres and Icy Moons — Fracturing, Cryovolcanism, and Surface Response
Presented by Kate Craft, Johns Hopkins University Applied Physics Laboratory
Heat Generating Processes and Their Affects on Ice and Ice Mixtures: On the Potential Origins of Cryovolcanism in the Solar System
Presented by Christine McCarthy, Lamont-Doherty Earth Observatory
Cold Case: Fractional Crystallization in Cryomagmatic Systems
Presented by Jacob Buffo, Georgia Institute of Technology
Experimental Simulation of Cryomagmatic Processes. Water Ice, Clathrates and Salts
Presented by Victoria Muñoz-Iglesias, Centro de Astrobiologia
Heat Pipe Effects on Enceladus' South Polar Terrain and the Implications for Regional Heating and Eruption Activity
Presented by Susan Sakimoto, Space Science Institute
Time Evolution of Ice-shell Thickness: Implications for Cryovolcanic Activity on Europa
Presented by Divya Peddinti, Arizona State University
Cryomagma Ascent on Europa
Presented by Elodie Lesage, Université Paris-Sud
An Enthalpy Method to Simulate the Cryomagmatic Evolution of Impact Induced Melt Beneath Occator Crater on Ceres
Presented by Marc Hesse, The University of Texas at Austin
Modeling the Enceladus, Europa and Io Plumes; a Contrast
Presented by David Goldstein, The University of Texas at Austin
Plumes Across the Solar System — When is Cryovolcanism Implicated?
Presented by Candice Hansen, Planetary Science Institute
Systematic Spatial Variations in the Dust-to-Gas Ratio Within Enceladus' Plume
Presented by Matthew Hedman, University of Idaho
A Closer Look at Galileo Photopolarimeter-Radiometer (PPR) Data from a Possible Plume Source North of Pwyll, Europa
Presented by Julie Rathbun, Planetary Science Institute
Evolution of Photometric and Polarimetric Phase Curves of Fine-Grained Water Ice Particles due to Grain Sintering
Presented by Bernhard Jost, Jet Propulsion Laboratory