This unit focuses on local plant species; students learn to identify common species and will examine their life cycle characteristics as evidence of climate change. Through the use of the national citizen science project titled Project BudBurst,... (View More) students explore the impacts of climate variation on plant species distribution. The unit is one of four under the Chicago Botanic Garden curriculum entitled, "Climate Change in My Backyard." (View Less)

In this unit, students investigate temperature cycles, tree rings, CO2 records, and the effects of CO2 on temperature, precipitation and cloud cover to determine the impacts of changing climate on forests. After gathering and analyzing local data,... (View More) students examine regional impacts and differences. The unit is one of four under the Chicago Botanic Garden curriculum entitled, "Climate Change in My Backyard." (View Less)

Students are introduced to the carbon cycle through discussion, modeling and a game. Students then complete activities and investigations on Greenhouse gasses, photosynthesis, cellular respiration and ecosystem services (functions and values of... (View More) intact ecosystems to humans). The unit is one of four under the Chicago Botanic Garden curriculum entitled, "Climate Change in My Backyard." (View Less)

In this lesson, students will conduct labs to investigate the drivers of climate change, including adding carbon dioxide and other greenhouse gases to the atmosphere, sea level rise, and the effect of decreasing sea ice on temperatures. They will... (View More) become experts on one of these areas, conduct their own experiments and connect them to real-world data, and then make posters to present their findings to the class. This lesson uses the 5E instructional sequence. (View Less)

In this activity, students face an engineering challenge based on real-world applications. They are tasked with developing a tool they can use to measure the amount of rain that falls each day. Students will find out why freshwater is important,... (View More) learn about the water cycle, and the need to have a standard form of calibration for measurement tools. They will learn that keeping track of precipitation is important, and learn a little bit about how NASA's GPM satellite measures precipitation from space. This lesson uses the 5-E instructional model. (View Less)

Students will design, build and then test a rain gauge to measure precipitation. By sharing their results, they will recognize the need for standardization and precision in scientific tools. All background information, student worksheets and... (View More) images/photographs/data are included in these downloadable sections: Teacher’s Guide, Student Capture Sheet and PowerPoint Presentation. This activity uses the 5E instructional model and is part of the Survivor Earth series of one-hour lessons. (View Less)

In this engineering challenge, student teams are introduced to the engineering design process, and then construct and test an earthquake-resistant structure. The lesson plan includes teacher support, student worksheets, multimedia assets, and links... (View More) for students to conduct Web-based investigations. Authentic assessments, a multiple choice test, and rubrics are included. This is an optional extension activity associated with the resource, Flight Mission Challenge: Improving Earthquake Monitoring, a 3 part, multiple-day Earth science and engineering investigation. (View Less)

Hurricane Katrina serves as the focus for this lesson on the relationship between sea surface temperatures and hurricane intensity. Students assume the roles of Senior Science Advisors for the Louisiana Environmental Agency to research and plot the... (View More) data used to analyze Hurricane Katrina. Students then apply that analysis to possible future tropical storms impacting the U.S. Gulf Coast. This lesson uses student- and citizen science-friendly microsets of authentic NASA Earth system science data from the MY NASA DATA project. It also includes related links, extensions, an online glossary, and data analysis tools. (View Less)

In this activity, students will research weather proverbs, analyze the scientific validity of three weather proverbs and present their reasoning in an essay. As an extension, students may survey 15 senior citizens to determine most frequently heard... (View More) weather proverbs and the proverbs they feel were most scientifically valid, then create histograms charting this information. Students may also compare their Student Cloud Observations On-Line (S'COOL) observation record of clouds with their findings regarding the validity of the weather proverb, "The higher the clouds, the better the weather," to determine if the days high clouds were observed were days of fair weather. (View Less)