Lake Mixing Module part of Project EDDIE:Teaching Materials:Modules
This module was initially developed by Carey, C.C., J.L. Klug, and R.L. Fuller. 1 August 2015. Project EDDIE: Dynamics of Lake Mixing. Project EDDIE Module 3, Version 1. cemast.illinoisstate.edu/data-for-students/modules/lake-mixing.shtml. Module development was supported by NSF DEB 1245707.
Stratified lakes exhibit vertical gradients in organisms, nutrients, and oxygen, which have important implications for ecosystem structure and functioning. Mixing disrupts these gradients by redistributing these ...

OGGM-Edu Glaciology Lab 1: What Makes a Glacier? part of Teaching Activities
Lizz Ultee, Middlebury College
This is a three-part class or lab activity that challenges students to define what a glacier is, how it differs from other parts of the cryosphere (such as sea ice), and what kinds of glaciers there are in the ...

Greenhouse Effect Lab part of Teaching Activities
Krista Larsen, Carleton College
In this lab, students measure temperature changes inside soda bottles (one with CO2 added, the other with only air inside) as incandescent light is shined on them to model the Greenhouse Effect.

Paleoclimate part of IODP School of Rock 2020:Teaching Activities
Lenore Teevan, School of Innovation/Springfield City School District
This is a unit plan for project-based learning. Students will learn about paleoclimate proxies and their importance in understanding past climates. Students will focus on one region-specific aspect of paleoclimate ...

Soil Respiration Module part of Project EDDIE:Teaching Materials:Modules
This module was initially developed by Nave, L.E., N. Bader, and J.L. Klug. 25 June 2015. Project EDDIE: Soil Respiration. Project EDDIE Module 9, Version 1. cemast.illinoisstate.edu/data-for-students/modules/soil-respiration.shtml. Module development was supported by NSF DEB 1245707.
Soils hold more carbon (C) than any other component of the terrestrial biosphere! In this module, students will explore high-frequency, sensor-based datasets documenting climate variables and the emissions of C (as ...

Module 7: Mammal Responses to Climate Change in the Past and the Future with Neotoma Explorer part of Neotoma:Teaching Activities
Russell Graham, Pennsylvania State University-Main Campus
Animal distributions are frequently controlled by climate extremes, especially seasonal ones. Therefore, if the climate changes from cold to warm (or vice versa) then using modern mammal distributions and modern climate conditions it is possible to make predictions about how the mammal will respond to the climate change -- whether it is past or future. In this module students use the Neotoma Paleoecological Database to test predictions, or establish hypotheses, about how certain species of mammals have responded to climate change in the past and how they might do so on the future. Part of the Neotoma Education Modules for Biotic Response to Climate Change.

Module 6: Modern (Living) Animals – What Do the Habitat Preferences and Geographic Distribution of Modern Animals Tell Us about Why Animals Live Where They Do? part of Neotoma:Teaching Activities
James S. Oliver III and Russell W. Graham, The Pennsylvania State University
Paleoecologists reconstruct past climates and ecosystems by comparing the habits and habitats preferred by living animals or ones closely related to those found as fossils. In this module, students take the first step in this process by examining modern species distributions to make observations about species habitat preferences. Given a list of species, students use the Neotoma Explorer to obtain species distribution maps and compare them to temperature and precipitation maps. A series of questions guide them through their comparison and analysis of the maps. Part of the Neotoma Education Modules for Biotic Response to Climate Change.

Module 4: Global Records of Climate Change - The Deep Sea and Ice Cores part of Neotoma:Teaching Activities
Russell Graham, Pennsylvania State University-Main Campus
In this module, students explore and analyze records of past climate. In the first part of the module, students are given background information about long-term records of Earth's climate: deep sea sediment cores and ice cores. Students are also introduced to Oxygen isotopes and how they are used as records of past climate. Students complete a set of exercises that assess their understanding of the material and ask them to analyze data about the Laurentide Ice Sheet using the Neotoma Explorer. In the second part of the module, students examine Antarctic ice core data and apply their knowledge from the beginning of the module. Part of the Neotoma Education Modules for Biotic Response to Climate Change.

Unit 2: Climate Change, After the Storm part of Exploring Geoscience Methods
Jeffrey D. Thomas, Central Connecticut State University; Scott Linneman, Western Washington University; James Ebert, SUNY College at Oneonta
The goal of Unit 2 is for students to apply what they learned about the methods of geoscience to complete an authentic and data-rich, lab-based activity to address the following problem: "To what extent should ...

Activity 2.2: Issue Investigation part of Exploring Geoscience Methods
Jeffrey D. Thomas, Central Connecticut State University; Scott Linneman, Western Washington University; James Ebert, SUNY College at Oneonta
During Activity 2.2, students download, organize, and analyze geoscience data sets of sea level trends, terrestrial ice sheet trends, and intensity of tropical cyclones as well as forecast models of atmospheric CO2 ...