Sustainability Metrics
Natalie Hunt, University of Minnesota-Twin Cities
Sustainability is a complex term applied to many different contexts in a variety of ways. As a result, it can be challenging to determine how sustainable something really is. In this module, students will use an ...

Climate Change Module
This module was initially developed by O'Reilly, C.M., D.C. Richardson, and R.D. Gougis. 15 March 2017. Project EDDIE: Climate Change. Project EDDIE Module 8, Version 1.
Scientists agree that the climate is changing and that human activities are a primary cause for this change through increased emissions of CO2 and other greenhouse gases to the atmosphere. There have been times in ...

Assessing the Risk of Invasive Species Using Community Science Data
Matthew Heard, Belmont University
This module introduces students who are already familiar with GIS to doing comparative analyses with large-scale community science (often called citizen science) data sets. Students will explore how we can use ...

Teleconnections
Kaitlin Farrell, University of Georgia; Cayelan Carey, Virginia Polytechnic Institute and State Univ
Ecosystems can be influenced by teleconnections, in which meteorological, societal, and/or ecological phenomenon link remote regions via cause and effect relationships. Because it is difficult to predict how ...

Lake Modeling Module
This page was initially developed by Carey, C.C., S. Aditya, K. Subratie, and R. Figueiredo. 1 May 2016. Project EDDIE: Modeling Climate Change Effects on Lakes Using Distributed Computing. Project EDDIE Module 4, Version 1. Module development was supported by NSF DEB 1245707 and ACI 1234983. Note: An updated version of this module is available as part of the Macrosystems EDDIE project. Please visit the Climate Change Effects on Lake Temperatures module to view and download module files. We recommend using the updated Macrosystems EDDIE version of the module, as the Lake Modeling module materials have not been maintained with R code and software updates.
Lakes around the globe are experiencing the effects of climate change. In this module, students will learn how to use a lake model to explore the effects of altered weather on lakes, and then develop their own ...

Remote Sensing of Plants and Topography in R
Kyla Dahlin, Michigan State University
This module introduces students who are already familiar with remote sensing and R to doing quantitative analyses with large spatial data sets. Students will explore different possible abiotic drivers of plant ...

Paleoclimate and Ocean Biogeochemistry
Allison Jacobel, Middlebury College
This module guides students through an examination of how surface ocean productivity relates to global climate on glacial-interglacial timescales and how the availability of ocean nutrients can be correlated with ...

Nutrient Loading Module
This module was initially developed by Castendyk, D.N., T. Meixner, and C.A. Gibson. 6 June 2015. Project EDDIE: Nutrient Loading. Project EDDIE Module 7, Version 1. Module development was supported by NSF DEB 1245707.
Estimating nutrient loads is a critical concept for students studying water quality in a variety of environmental settings. Many STEM/Environmental science students will be asked to assess the impacts of a proposed anthropogenic activities on human water resources and/or ecosystems as part of their future careers. This module engages students in exploring factors contributing to the actual loads of nitrogen that are transmitted down streams. Nitrogen is a key water quality contaminant contributing to surface water quality issues in fresh, salt, and estuarine environments. Students will utilize real-time nitrate data from the US Geological Survey to calculate nitrate loads for several locations and investigate the interplay of concentration and discharge that contributes to calculated loads.

Lake Mixing Module
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 ...

Cross-Scale Interactions
Cayelan Carey, Virginia Polytechnic Institute and State Univ; Kaitlin Farrell, University of Georgia
Environmental phenomena are often driven by multiple factors that interact across different spatial and temporal scales. In freshwater lakes and reservoirs worldwide, phytoplankton blooms are increasing in ...

Climate Change Effects on Lake Temperatures
Cayelan Carey, Virginia Polytechnic Institute and State Univ; Kaitlin Farrell, University of Georgia
Climate change is modifying the thermal structure of lakes around the globe. Because it is difficult to predict how lakes will respond to the many different aspects of climate change (e.g., altered temperature, ...

Wind and Ocean Ecosystems
Alanna Lecher, Lynn University; April Watson, Lynn University
Wind has a fundamental impact on ocean ecosystems. Wind drives physical processes, including current development and upwelling through Ekman transport. These physical processes, in turn, have cascading impacts on ...

Climate Drivers of Phenology
Emily Mohl, Saint Olaf College
Many species' life cycles are strongly influenced by temperature, but other cues, like day length and precipitation, can also trigger life cycle changes. Phenology is a way of recording the time when events, ...

Lake Ice Phenology Module
This module was initially developed by Carey, C.C., J.L. Klug, and D.C. Richardson. 1 April 2015. Project EDDIE: Lake Ice Phenology. Project EDDIE Module 1, Version 1: cemast.illinoisstate.edu/data-for-students/modules/ice-phenology.shtml. Module development was supported by NSF DEB 1245707.
Lakes are changing worldwide due to altered climate. Many lakes that were historically frozen in the winter are now experiencing fewer days of ice cover and earlier ice-off dates. In this module, students will ...

Macro-Scale Feedbacks
Cayelan Carey, Virginia Polytechnic Institute and State Univ; Kaitlin Farrell, University of Georgia
Environmental phenomena are often driven by multiple factors that interact across space and over time. In freshwater lakes and reservoirs worldwide, carbon cycling and subsequent carbon dioxide (CO2) and methane ...

Lake Metabolism Module
Cayelan Carey, Virginia Polytechnic Institute and State Univ
Different lakes exhibit a range of catchment sizes, morphometry, and land use that contribute to differences in lake function. These functional differences mean that lakes vary in ecosystem services such as habitat ...

Prairie Eco Services
Kelly Knight, Houston Community College System
As densely populated urban areas continue to expand, human activity is removing much-needed greenspaces from our communities; in turn, we are also removing critical buffers that are needed to combat air and water ...

Where Does Stream Water Come From?
Christa Torrens, University of Colorado at Boulder
In this module, students explore various sources of stream water through reading, discussion, and data analysis in R. The module focuses on streams from four distinct LTER sites: an Antarctic desert stream, an Arizona desert stream, an Arctic tundra stream, and a temperate forest stream in New England.

Using Data to Improve Ecological Forecasts
Mary Lofton, Virginia Polytechnic Institute and State Univ; Tadhg Moore, Virginia Polytechnic Institute and State Univ; Quinn Thomas, Virginia Polytechnic Institute and State Univ; Cayelan Carey, Virginia Polytechnic Institute and State Univ
How can we use data to improve ecological forecasts? To be useful for management, ecological forecasts need to be both accurate enough for managers to be able to rely on them for decision-making and include a ...

How Do We Measure Biodiversity: Exploring Biodiversity Metrics Using Avian Communities
Jeffrey Brown, Arizona State University at the Tempe Campus
This activity is designed to illustrate various ways that biodiversity can be measured and to highlight what we can learn about an ecological community from different metrics. Students will explore biodiversity metrics (i.e., species richness and Shannon diversity) using point count data on birds collected from the Central Arizona-Phoenix Long Term Ecological Research program. Specifically, students will investigate how bird richness and abundance have changed over time and create figures to compare abundance across landscapes and time.

Exploring diatom biodiversity in the Everglades and Caribbean wetlands
Katherine Johnson, Florida International University; Gabriel Kamener, Florida International University
Water quality assessments frequently include biological indicators to evaluate aquatic ecosystem habitat type and health. Because diatoms are ubiquitous and are found in habitats where macroinvertebrates are not, ...

Exploring the relationship between periphyton and water quality in karstic wetlands
Gabriel Kamener, Florida International University; Katherine Johnson, Florida International University
Physicochemical properties and nutrients drive aquatic processes that sustain biota. Therefore, aquatic assessments usually investigate these variables as well as biological indicators to gain a better ...

Tracking hot spots and hot moments in an urban freshwater estuary
Gaston Small, University of St. Thomas (MN)
This module explores the hydrology and biogeochemistry of the St. Louis River Estuary (Duluth, Minnesota). The overarching question of the module is: when, and where, is the estuary acting as a source vs. a sink ...

Exploring the Global Carbon Budget
Dan Maxbauer, Carleton College
How much carbon is emitted each year due to human activity? How does that number compare to rates of exchange between carbon cycle reservoirs? Where do our carbon emissions go? In this module, students will explore global carbon budget data to 1) determine the rate of change in carbon emissions, 2) explore changes in carbon cycle sinks over time to investigate where carbon emissions end up, and 3) determine what kinds of rates of change are needed to reduce carbon emissions to zero in the future.

Museum Collections: Junk Drawers or Mirrors of Fossil Diversity?
David Cordie, Edgewood College
Are museum collections a perfect reflection of diversity in the past, or are they a junk drawer full of odds and ends that just happen to be collected? The fossil record is the best tool we have for studying ...