Cruise Report for the R/V Sikuliaq August 25-September 18, 2017, prepared by Dr. Carin Ashjian, Chief Scientist, and the SKQ201713S Science Team for the time PolarTREC teacher Lisa Seff was aboard and working on Upwelling and Ecology in the Beaufort Sea.
Article written for the East Hampton Star Newspaper on September 7, 2017, featuring teacher Lisa Seff aboard the R/V Sikuliaq in the Beaufort Sea studying Upwelling and Ecology in the Bering Sea.
Article run in the East Hampton Star Newspaper on February 16, 2017, about teacher Lisa Seff's participation in the expedition "Upwelling and Ecology in the Bering Sea" aboard the R/V Sikuliaq in the Beaufort Sea.
PolarTREC teacher Lisa Seff and the "Upwelling and Ecology in the Beaufort Sea Research Team" discuss the many research projects being carried out aboard the R/V Sikuliaq. This event was broadcast live on 14 September 2017 from the research vessel located in the Beaufort Sea.
Even in Antarctica ice will melt. As the sun stays higher and higher in the sky as summer progresses, the warm sun causes the ice to melt. The questions that we are going to ask are: 1) Does clean ice (no sediment) or dirty ice (has sediment mixed in it) melt faster? and 2) Would the ice melt if
We know that we have lots of microorganisms growing where we live, but can microorganisms like bacteria also live in the harsh, cold, dry climate of Antarctica? Part of our research project in Antarctica is looking at the microorganisms that live in the Taylor Glacier. We are taking dirty ice (ice with lots of dirt/sediment in it) and
For this experiment, we are going to melt dirty ice (ice with lots of sediment/dirt in it) and clean ice (ice without sediment) from the Taylor Glacier. After we melt the ice, we are going to test the melt water for pH and conductivity, and then determine how much salt is actually in our ice samples. There are
This Live from IPY! Event was was held with Lindsay Knippenberg who discussed her recent research on the Microorganisms in Antarctic Glacier Ice expedition in the Dry Valleys.
Students will undertake a long term project to evaluate the effectiveness of different local forecasters, match the forecast with the actual weather and analyze which forecaster is best.
Objective
Students will compare the accuracy of different weather forecasts. Students will compile and analyze their own data gaining a better understanding of the challenges involved in weather forecasting