InTeGrate Modules and Courses >Water, Agriculture, and Sustainability
 Earth-focused Modules and Courses for the Undergraduate Classroom
showLearn More
These materials are part of a collection of classroom-tested modules and courses developed by InTeGrate. The materials engage students in understanding the earth system as it intertwines with key societal issues. The materials are free and ready to be adapted by undergraduate educators across a range of courses including: general education or majors courses in Earth-focused disciplines such as geoscience or environmental science, social science, engineering, and other sciences, as well as courses for interdisciplinary programs.
Explore the Collection »
How to Use »

New to InTeGrate?

Learn how to incorporate these teaching materials into your class.

  • Find out what's included with each module
  • Learn how it can be adapted to work in your classroom
  • See how your peers at hundreds of colleges and university across the country have used these materials to engage their students

How To Use InTeGrate Materials »
show Download
The instructor material for this module are available for offline viewing below. Downloadable versions of the student materials are available from this location on the student materials pages. Learn more about using the different versions of InTeGrate materials »

Download a PDF of all web pages for the instructor's materials

Download a zip file that includes all the web pages and downloadable files from the instructor's materials
Initial Publication Date: March 2, 2017

Summary

Water is the most critical substance for the sustenance of life, but the prognosis for the quality and supply of water resources in much of the world is somewhere between troubling and dire. This module provides a framework for students to learn about how people interact with water, peer into our water future, and consider ways we might foster more sustainability in water management. After assessing our major water challenges, the module has students learn about the concepts of water sustainability, virtual water trade, and water footprints. The focus then turns to the interplay between agriculture and water resources, as agriculture has the greatest impact on freshwater consumption and quality. The module has students use several types of data to understand the patterns of crop irrigation in the United States and link this to groundwater levels in different parts of the country. The module also has students assess how agriculture impacts the quality of freshwater resources and employ systems thinking as it relates to nutrient runoff and the development of the Gulf of Mexico Dead Zones.

Strengths of the Module

  • Students synthesize information derived from many different disciplines to assess the sustainability of water use and management. Accordingly, it works well in introducing non-geoscience students to the methods, data and issues of geoscience, as well as helping geoscience majors appreciate the societal relevance of hydrology and biogeochemistry and the value of incorporating economic and other information in evaluating geoscience problems and solutions.
  • Hydrologic data sets, and the methods used to generate them, are highlighted throughout the module. Students are challenged to consider the application of the geoscience data and methods in their analyses of water problem case studies.
  • Students are challenged to use geoscience data from sources such as the US Geologic Survey, the US Department of Agriculture.
  • Students are repeatedly challenged to consider complex water management problems as part of socio-ecological systems. It is particularly evident in the module when we have students learn what goes into virtual water estimates, calculate their water footprints, consider the interplay between climate, irrigation and groundwater levels, and understand the processes leading to the generation of the Gulf of Mexico Dead Zone.

Students will be able to evaluate the sustainability of fresh water resource use on global and regional scales. In particular, students will be able to:

  • explain how freshwater availability and management practices pose threats to ecosystem integrity, human well-being, security, and agricultural production.
  • explain what goes into the calculation of virtual water amounts and water footprints and the application of these concepts.
  • explain what controls geographic variability in irrigation, groundwater mining, and ecosystem impacts of agriculture in the United States.
  • apply geoscience information and methods in interdisciplinary assessments of the sustainability of water systems.

Next Generation Science Standards Logo. A purple, orange, and green triangle to the left of the words, Next Generation Science Standards.

These materials have been reviewed for their alignment with the Next Generation Science Standards. At the top of each page, you can click on the NGSS logo to see the specific connections. Visit InTeGrate and the NGSS to learn more about the process of alignment and how to use InTeGrate materials to implement the NGSS.

NGSS in this Module

This module provides a series of activities for students to learn how our allocation and use of fresh water is unsustainable, particularly with regard to our agricultural practices. This is a critically important topic today. Some NGSS PE's are addressed by the module, but not necessaritly completely. The pedagogy (e.g. jigsaws, think-pair-share, case studies) is very sound, there is extensive use of data, and the activities are engaging. Discussion and data interpretation are the primary teaching methods. To be useful in a K-12 teaching environment, the teacher may need to embed some hands on investigations, like modeling aquifers and groundwater cycling. Overall, the module provides an excellent context in which K-12 teachers can embed science content in a more meaningful, authentic, and relevant way.

A great fit for courses in:

  • Environmental Science
  • Hydrology
  • Geology
  • Geography
  • Natural Resources
  • Environmental Geology
  • Earth Science
  • Sustainability


Instructor Stories: How this module was adapted
for use at several institutions »



      Next Page »

Already used some of these materials in a course?
Let us know and join the discussion »

Considering using these materials with your students?
Get advice for using GETSI modules in your courses »
Get pointers and learn about how it's working for your peers in their classrooms »

These materials are part of a collection of classroom-tested modules and courses developed by InTeGrate. The materials engage students in understanding the earth system as it intertwines with key societal issues. The collection is freely available and ready to be adapted by undergraduate educators across a range of courses including: general education or majors courses in Earth-focused disciplines such as geoscience or environmental science, social science, engineering, and other sciences, as well as courses for interdisciplinary programs.
Explore the Collection »