We gratefully acknowledge Arizona State University, Mars Space Flight Facility, MSIP, and THEMIS team members. We also gratefully acknowledge NASA for funding MSIP. We also wish to acknowledge all of the local donations, grants, and fund raising events that made this research possible.
Barnouin-Jha, O.S.; Wada, K., Matsui, T., Sugita, S., The flow dynamics of long run-out landslides on Mars from 3-D granular flow models, 2005, Lunar and Planetary Science.
Chapman, G., Soderblom, L.A., Cushing, G., Evidence of very young glacial processes in Central Candor Chasma, Mars, 2005, Lunar and Planetary Science .
Head, J., and Merchant, D., July 2003, Cold-Based mountain glaciers on Mars: Western Arsia Mons, v. 31; no 7; p. 641-644.
Head, J., Shean, D.E., 2003, Pavonis Mons fan-shaped deposit: A cold based glacial origin, Sixth International Conference on Mars 3036.pdf.
Head, J., Shean, D.E., Milkovich, S., Marchant, D., 2003, Tropical Mountain Glaciers on Mars: Evidence for Amazonian Climate Change, Third Mars Polar Science Conference 8105 pdf.
Head, J., Marchant, D., Mountain Glaciers on Mars? Characterization of Western Tharsis Montes Fan Shaped Deposits Using MGS Data
Head, J., Marchant, D., Fastook, J., Regional Mid-Latitude Glaciation on Mars: Evidence for Marginal Glacial Deposits Adjacent to Lineated Valley Fill
Head, J., Garvin, J., Marchant, D., Kreslavsky, M., 2006, High-Latitude Cold-Based Glacial Deposits on Mars: Multiple Superposed Drop Moraines in a Crater Interior at 70 degrees north latitude.