Understanding Physical and Chemical Parameters of Ocean Water Using CTD Profiles
Overview
A focus of the PolarTREC Southern Ocean Diatoms expedition was to collect water samples and physical profile data using oceanographic technology. Oceanographers rely on the real-time data transferred from the water column to the ship-based computers using a CTD sensor. The CTD measures conductivity (salinity), temperature and depth
This PowerPoint presentation could be used as part of an introductory or supplementary unit on Antarctica. The presentation includes stunning visuals and general facts about Antarctica.
Jeanine Gelhaus <gelhaje [at] medford.k12.wi.us> Capstone Project Fall 2013. Integrated Life and Earth Sciences in the Polar Regions.
Have you ever wondered how polar scientists do it? How do they really know if the planet is losing vast quantities of ice anyway? You can use pictures from satellites to monitor the surface from year to year, but the vast majority of ice is hidden from view, buried beneath the surface in some of the most inhospitable and
This presentation, given by Robert Suydam, at the 2012 Arctic Ocean Ecosystem Workshop in Barrow, Alaska, is an overview of the resilience of the people of the North Slope with respect to their whaling history. The presentation showcases the history of both the science and traditional knowledge used in attempting to track whale population health and the ways in which
Rachel Potter presents her research on the use of radar to measure surface currents in the top 2 m of the water column in the Chukchi Sea. The information gained from her research allows her to determine where water is going and how fast it is flowing, which can aid in issues of search and rescue, contaminant spills, marine navigation
Wilderness Research Foundation (USA) has developed two teaching modules based on a project we conducted in the Antarctic Peninsula in January 2010. They're available free for any educator interested in reviewing them for classroom use. The project concerned the collection of soil samples for the potential corroboration of a new conception of the carbon cycle. The principal investigator
Melting permafrost in a warming world could mean lots of greenhouses gasses, especially methane, released into the atmosphere. But it also means an unusual community of soil bacteria coming out of hibernation, so to speak. A new study looks at what those permafrost microbes do, exactly, as their environment warms up.
Using samples from a field site at Alaska's Hess Creek, researchers from the Lawrence Berkeley National Laboratory, the U.S. Department of Energy Joint Genome Institute and the U.S. Geological Survey collaborated to study how permafrost-dwelling microbes generate greenhouse gases as their environments thaw.
In this video adapted from KUAC-TV and the Geophysical Institute at the University of Alaska, Fairbanks, learn how one-celled organisms in permafrost may be contributing to greenhouse gas levels and global warming. Investigate how soil microbes, once thought to be dormant in cold temperatures, may actually be actively decomposing organic matter throughout the Alaskan winter and contributing significant amounts of
University of Alaska Fairbanks Professor Katey Walter Anthony takes us onto a frozen lake in Fairbanks, AK to demonstrate why methane gas has "exploded" onto the climate change scene.