Tucson / Charlottesville / Washington / DC / Honolulu / CRADDOCK ET / Hawai‘i / /
Company
Martian Valley Networks / Wilson / Drainage Networks / Komatsu / /
Continent
America / /
Country
United States / United Kingdom / / /
Event
Natural Disaster / /
Facility
University of Virginia / Planetary Science Institute / Hawai‘i State Highway / Space Museum / Scale bar / Aberystwyth University / University of Hawai‘i / Institute of Geography / /
IndustryTerm
bank erosion / fluvial systems / bank strength / valley networks / stainless steel disk / enough time valley networks / channel networks / high-energy / /
NaturalFeature
Hawai‘i / Tharsis volcanoes / Kīlauea Volcano / Keanakāko‘i Crater / Island of Hawai‘i / Ka‘ū Desert / Pacific Ocean / V-shaped valley / /
Organization
Center for Earth and Planetary Studies / Planetary Science Institute / Department of Environmental Sciences / Institute of Geography and Earth Sciences / American Geophysical Union / University of Virginia / National Park Service / Aberystwyth University / Smithsonian Institution / Department of Meteorology / University of Hawai‘i / /
Person
Emmett / Alba Patera / Leopold / Robert A. Craddock / Irwin III / / /
Position
gully head / researcher / Corresponding author / Head / 2008b] / representative / /
Drainage network development in the Keanakāko‘i tephra, Kīlauea Volcano, Hawai‘i: Implications for fluvial erosion and valley network formation on early Mars