Colloquia – Alison Donnelly
Lapham Hall Room 160 3209 North Maryland Avenue, Milwaukee, WI, United StatesAffiliation: Dept. of Geography, UWM Title: The bloomin’ Arctic: plant phenology at the edge of the Greenland ice-sheet Abstract: In this presentation I will describe a fragile ecosystem at the edge of the Greenland ice-sheet where I spent a field […]
Colloquia – Tegan Blaine
Lapham Hall Room 160 3209 North Maryland Avenue, Milwaukee, WI, United StatesAffiliation: US Agency for International Development Title: Alternative international careers for scientists Abstract: Scientists have many options outside of academia. Since finishing her Ph.D., Tegan Blaine has worked on international policy and international development, primarily from the perspective of climate […]
Colloquia – David Malone
Lapham Hall Room 160 3209 North Maryland Avenue, Milwaukee, WI, United StatesAffiliation: Illinois State University Title: Origin of the massive Eocene Heart Mountain Slide, Wyoming Abstract: The Heart Mountain slide is the largest terrestrial landslide deposit as yet recognized on Earth. The slide covers an area of at least 3400 km2, […]
Colloquia – Jason Sylvan
Lapham Hall Room 160 3209 North Maryland Avenue, Milwaukee, WI, United StatesAffiliation: Texas A & M University Title: Those rocks are alive! – Geomicrobiology of the deep biosphere in subseafloor igneous basement Abstract: One of the great surprises in ecology during the last 20 years was the discovery of a vast […]
Colloquia – Patrick Brady
Lapham Hall Room 160 3209 North Maryland Avenue, Milwaukee, WI, United StatesAffiliation: Dept. of Physics, UWM Title: TBA Abstract: TBA
Colloquia – Tenley Banik
Lapham Hall Room 160 3209 North Maryland Avenue, Milwaukee, WI, United StatesAffiliation: Illinois State University Title: What Lies Beneath: Using Detrital Materials to Explore Iceland’s Subglacial Volcanoes Abstract: TBA
Colloquia – Kenneth Kodama
Lapham Hall Room 160 3209 North Maryland Avenue, Milwaukee, WI, United StatesAffiliation: Lehigh University Title: Finding the duration of the Shuram 13C excursion using rock magnetic cyclostratigraphy Abstract: TBA