NASA’s Operation IceBridge uses remote sensing techniques to build a picture of parts of our world not accessible or easily observed by humans. Flying 1500 feet above sea and land ice, the science team uses LiDAR, Radar, Infrared imaging, and high resolution digital imagery to collect information about our polar regions year after year. In this classroom project, inspired and
NASA’s Operation IceBridge, the largest airborne survey of Earth’s polar ice, uses remote sensing techniques like LiDAR (light detection and ranging), snow- and ice-penetrating radar, high resolution digital imaging, and infrared cameras to collect information on our changing ice sheets and sea ice. Several times each year a science team and flight crew head out on month-long campaigns in
This article summarizes PolarTREC teacher Mark Buesing’s amazing and varied career as a cyclist, engineer, teacher, and now participant on NASA's airborne mission to map and measure ice in the Polar Regions.
Article describing the final stages of this year's Operation IceBridge, the NASA campaign to maintain and expand on Arctic ice measurements. Along with PolarTREC teacher Mark Buesing, the IceBridge team has successfully completed a variety of aerial measurements on sea ice, sub-ice bedrock and Greenland's glaciers.
Press release about the launch of Operation IceBridge's 2013 season of research activity and science flights over Arctic ice sheets and sea ice. Operation Icebridge will undertake survey flights over land and sea ice in and around Greenland and the Arctic Ocean through early May in order to maintain a continuous record of polar ice measurements.
Article describing PolarTREC teacher Mark Buesing's upcoming expedition to Greenland in April to participate in NASA’s Operation IceBridge, a six-year mission to map polar ice.
As the homepage of the website describes, "The beauty of the Arctic, its precious and fragile nature, its critical role in maintaining a stable climate for the planet, and the rapid rate of change that is occurring there must all be conveyed to the general public. Here, through digital story telling, we put a human face on science, life, societies
Students will use marshmallows to simulate toxins in the environment. Concentrations of these toxins will be modeled and calculated as they bioaccumulate up the food chain. Methylmercury and POPs are substances that bioaccumulate in the Arctic food chain. OASIS scientists studied these in Barrow, Alaska. (See Ocean Atmosphere Sea Ice and Snow (OASIS) Project at www.polartrec.com)