Antarctic ecosystems are undergoing change at unprecedented levels. In this lesson, students will use real data to evaluate the effect of climate change on Antarctic fish. Denise Hardoy created this lesson plan after joining Dr. Anne Todgham’s team studying Antarctic Fish Development Under Future Ocean Conditions in October/November of 2019.
Denise Hardoy created this resource after spending five weeks embedded with Dr. Anne Todgham’s team studying the effects of climate change on Antarctic fishes in 2019. This lesson addresses one of the most difficult aspects of science for students - making sense of data.
Objectives
Success Criteria
* Given a graph, students will write an analysis paragraph of a
I believe it is important to show my students what real science is… and that is how I found myself in Antarctica studying Antarctic Fish Development Under Future Ocean Conditions.
The PolarTREC program pairs teachers with research scientists for a symbiotic expedition. Scientists get a voice and a larger audience through the educator, and the educator
Teacher Denise Hardoy and researcher Anne Todgham discuss the research they have been working on looking at mechanisms that early life stages (embryos, larvae, and juveniles) of Antarctic fishes use to respond to changes in ocean conditions. This live event was broadcast from McMurdo Station, Antarctica on 20 November 2019.
A simple Google search changed my life. I always knew I wanted to go to Antarctica, but getting the opportunity to visit the continent as part of a research team was something I never imagined. A year ago, I was looking for a way to become more involved and connected to the research science world.
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Ice is a medium that nearly everyone is familiar with. We put it in drinks, skate on it for hockey and scrape it off our windshields in winter. Ice can be turned into sculptures and can even make for some fantastic winter scenery. Ice can also turn into a kaleidoscope of color and patterns under the right circumstances. Science
PolarConnect Event with teacher Keith Smith and the Chemical Ecology of Shallow-water Marine Communities Research Team broadcasting live from Palmer Station, Antarctica.
This lesson is intended to help students make connections to polar science while discovering how and why sea ice drives deep ocean currents. Students will also learn key terminology related to sea ice and using actual salinity content charts, will graph a typical sea ice core’s salinity as it relates to depth.