In this lesson, students will conduct an investigation to discover how the behavior of hermit crabs change as water temperature changes.
Goals
Students will understand and practice the steps of a science investigation through an investigation about hermit crabs’ reaction to changing ocean temperature. Students will understand that as ocean temperatures increase some animals will adapt and some will
This lesson introduces students to the impacts of increasing ocean temperatures on marine life. Through this kinesthetic activity, students will learn more about marine ectotherms and what researchers in Antarctica have learned so far about how increasing temperature in Antarctic waters will affect their growth. Through the elaborate section of the activity students will connect what they learned about
I looked closer at the nudibranch. This is a Tritonia challengeriana...I can tell by the pompon looking tufts along the side of its body. I think it's producing an egg case. Yes, it is! I need to tell Aaron, Graham, and Amy! I am so excited that, finally, after mornings and afternoons spent observing
This archive is from a live event broadcast from McMurdo Station, Antarctica with "Team Amy" (Educator Amy Osborne and Researcher Amy Moran) on 22 November 2019. The research team discussed different aspects of their fieldwork investigating the effects of temperature on the metabolism, growth rate, developmental rate, and energetics of embryos and larvae of Antarctic marine ectotherms.
In this activity, students will use IB-style data-based questions centered around graphs made from data collected about arctic ground squirrels by researchers at Toolik Field Station in northern Alaska. Activity levels of ground squirrels are analyzed in relation to solar radiation and ambient temperature. Students work individually or in pairs to answer the questions.
In this activity, students will use data collected about two male arctic ground squirrels by researchers at Toolik Field Station in northern Alaska. Each squirrel had a lightlogger to record light intensity (lux) and an implanted data logger to record internal body temperature (°C). Students work individually or in pairs to analyze the data sets and interpret the results
This lesson focuses on the diffusion of gas molecules across the cuticle membrane of sea spider legs and the role body size plays in the ability of sea spiders to uptake gases. Students construct model sea spider legs of varying diameters and use them to investigate the relationship between surface area-to-volume ratios and diffusion.
Ice that forms in the polar oceans is an important driver behind the global climate. This ice is physically different from frozen precipitation in a number of different ways. In this brief inquiry activity, students make qualitative observations about two types of ice cubes and deduce ice composition based on their observations. This activity may serve as an introduction to