In this set of lessons, students have the opportunity to think like scientists as they examine actual data related to Arctic ground squirrels, organize it in logical ways, and make inferences based on the data.
Objectives
Students will develop an understanding of some of the ways scientists use and organize data.
We want students to develop the habits, traits, and qualities of effective scientists. What better way for them to learn what these traits are than by hearing from actual scientists? In this lesson, students watch video interviews with four Arctic scientists from the University of Alaska, notice what types of work scientists do on a daily basis, and make
PolarTREC teacher Alicia Gillean shares her impressions of the Arctic tundra and details about her expedition to Toolik Lake, Alaska to study arctic ground squirrels.
Article in the Oklahoma Jenks District Gazette about PolarTREC participant Alicia Gillean's experiences and arctic impressions following her expedition to study ground squirrels at Toolik Lake, Alaska.
PolarTREC teacher Bill Schmoker, one of 14 teachers nationwide, has been awarded the National Geographic Grosvenor Teacher Fellowship. This article describes his upcoming National Geographic expedition to the Arctic Ocean aboard its research ship 'Explorer'.
PolarTREC teacher Alicia Jenks is inspiring her students with her expedition to Toolik Field Station, Alaska. She will be studying Arctic Ground Squirrels.
Arctic Research Mapping Application. ARMAP is a suite of online, interactive maps and services that support Arctic science. Learn more about research projects in your region of interest or scientific discipline. Explore available data or possible collaborations. Use the online mapping tools to meet your own project's specific goals.
Summit Station, Greenland Website. The station is located atop 3200 m of ice and is nearly 400 km from the nearest point of land. Summit supports a diversity of scientific research, including year-round measurements of air-snow interactions that provide crucial knowledge for interpreting data from deep ice cores drilled both at Summit and elsewhere.
Density currents drive 3D movements within the world’s oceans that dwarf surface currents by volume. Density-driven movements due to temperature/salinity differences keep the world’s oceans well mixed & help to re-distribute heat from tropical areas towards polar areas. Resultant upwelling creates some of the world’s richest ocean ecosystems. Density movements known as turbidity currents are the world’s largest