ABSTRACTS FOR 7TH MARS CRATER CONSORTIUM MEETING
Barlow, N. G.: Martian impact crater ejecta and interior morphologies: New insights from MGS and Odyssey data analysis. (Abstract #0703)
Berman, D.C., W. K. Hartmann, D. A. Crown, and V. R. Baker: Survey of craters with arcuate ridges and gullies in the Newton Basin region on Mars. (Abstract #0708)
Boyce, J. M., P. Mouginis-Mark, H. Garbeil, and L. A. Soderblom: History of major degradational events in the highlands of Mars: Preliminary results from crater depth and diameter measurements. (Abstract #0705)
Haldemann, A. F. C., M. P. Golombek, L. Grumpler, J. Grant, and the Athena Science Team: Survey of craters by Spirit in Gusev Crater and Opportunity in Meridiani Planum. (Abstract #0706)
Mouginis-Mark, P. and J. M. Boyce: Morphology of Martian double layered ejecta craters and the speed of ejecta emplacement. (Abstract #0711)
Osinski, G. R. and H. J. Melosh: A search for terrestrial analogues to Martian layered ejecta structures. (Abstract #0704)
Pierazzo, E., N. A. Artemieva, and B. A. Ivanov: Characterizing starting conditions for hydrothermal systems underneath Martian craters. (Abstract #0702)
Rodriguez, J. A. P., S. Sasaki, J. M. Dohm, K. L. Tanaka, H. Miyamoto, V. Baker, J. A. Skinner, G. Komatsu, A. G. Fairen, and J. C. Ferris: Control of exposed and buried impact craters and related fracture systems on hydrogeology, ground subsidence/collapse, and chaotic terrain formation, Mars. (Abstract #0701)
Stewart, S. T. and G. J. Valiant: Validation of martian impact crater geometry measurements. (Abstract #0707)
Tanaka, K. L., J. A. Skinner, and N. G. Barlow: Does Mars have a pristine -2 cumulative power law distribution for craters >5 km in diameter? (Abstract #0712)
Tornabene, L. L., J. Piatek, J. E. Moersch, H. Y. McSween Jr., and P. R. Christensen: Recognition of rayed craters on Mars using day and nighttime temperature images from the Mars Odyssey's Thermal Emission Imaging System (THEMIS). (Abstract #0710)
Wright, S. P. and H. E. Newsom: Thermal infrared spectroscopy of basalt from Lonar Crater, India: Implications for the remote sensing of impact craters on Mars. (Abstract #0709)