Scientists in Siberia are seeing trends of more severe and widespread wildfires. By observing and measuring larch forests, they are trying to understand how the forests are changing. What do these trees need to survive? Are they getting what they need? Students will plant lodgepole pine seeds providing some with all the necessary components for survival and others missing
Scientists in Siberia are seeing trends of more severe and widespread wildfires. Larch seeds are dispersed by wind. Experimentation is currently underway to determine distances larch seeds can disperse from viable, mature larch trees. Students will explore how various types of seeds are dispersed to get what they need to survive.
Timeframe: 90 minutes
Grade: K-2
Students will learn to:
* Observe and record weather patterns
* Process data by creating graphs/charts
* Compare actual weather data from the Siberian Arctic to local weather patterns, draw conclusions and make future predictions concerning weather patterns.
Big Idea
Why do people need to track weather over time?
Lesson Preparation
You will need a thermometer, tracking calendar, and
The Importance of Teacher/Researcher Collaboration
Collaboration such as this offers a window into the science rarely seen by teachers and their students. It allows the public/students to experience, in real-time, relevant data collection of the 21st century. Furthermore, experiences such as these demonstrate the universal factors of the scientific process. It does not matter if we are practicing science in
PolarTREC Educator Amanda Ruland and researcher Jennie DeMarco describe the research taking place on post-fire tree regrowth within larch forests of eastern Siberia and consequences for climate feedbacks through changes in Carbon storage. This event was broadcast live from the Northeast Science Station in Cherskii, Russia on 8 July 2019.
This lesson was created by Rebecca Harris after being a part of the Arctic Glacial Lakes PolarTREC Expedition. She was inspired by how important suspended sediment, something so often overlooked by non scientists, was for developing paleoclimate models as well as ecosystems. Students will observe a watershed or a model of a watershed to make predictions about what might
This lesson plan was created by after being a part of the Arctic Glacial Lakes PolarTREC Expedition. I was inspired by the massive amount of data collected over the course of the research project and the complexity of hydrology in glaciated and non-glaciated basins in the Brooks Range of Alaska. Students will work together to make hypotheses about patterns
In August 2017, I spent two weeks at Lake Peters, in the Arctic National Wildlife Refuge. My team included Darrell Kaufman, project co-PI and Professor in the School of Earth Sciences & Environmental Sustainability, Ellie Broadman, graduate student and PolarTREC researcher, and graduate student Chris Benson, all of Northern Arizona University. Our research was part of the final
Teacher Rebecca Harris and Researcher Ellie Broadman discuss field work, weather and life at the remote field site near Lake Peters, Alaska as part of the Arctic Glacial Lakes Expedition. This live event was broadcast from Kaktovik, Alaska.