Ten Ways to Teach and Learn About Water Using ArcGIS Online

Blog Post created by jkerski-esristaff Employee on Apr 13, 2012
Just in time for Earth Day, but suitable for use throughout the year in geography, earth science, environmental science, chemistry, social studies, and in other disciplines is a new lesson that invites students to learn about water using ArcGIS Online.10_ways_to_teach_and_learn_about_water_agol_screenshot-300x285.jpg

Water is a spatial subject: It easily moves among its solid, liquid, or gas phases on our planet. It flows through oceans, rivers, wetlands, glaciers, and through the hydrologic cycle at different rates. It is affected by long-term climate, everyday weather, hurricanes, landforms, and air pressure. It has been channeled into settling ponds, water treatment plants, fields, irrigation ditches, drainage ditches, canals, reservoirs, and many other means by humans. It acts as a change agent above, on, and below the surface of the Earth, affecting crop yields, aquifers, erosion, floods, stream sediment, soil chemistry, weathering, and much more. Thus, the geographic perspective and GIS are useful to understanding water from local to global scales.

These activity use ArcGIS Online, a Web-based Geographic Information System (GIS). Students at the upper secondary/university level can use the lesson, but so can those at the lower secondary level, and the lesson can be modified for primary level. It can be used in formal or informal educational settings and in a whole-class format or in a lab. No previous experience with GIS is necessary but (1) the geographic perspective is important, and (2) a background discussion in the topic investigated will be helpful. For example: “What are watersheds and why are they important?”

Through the activities, students investigate major dams and reservoirs, cities along rivers, flood zones, food production, wetlands, and water quality. These include the following questions and assignments: What is the relationship between wind speed and direction to precipitation, current air pressure, temperature, and topography? Using USGS stream gages and weather stations, predict the height of the water in streams where significant precipitation has been occurring. What is the relationship between the location of the gaging station within the watershed and the height of the river? Go outside! Do current weather local conditions match the map you have been examining? Predict tomorrow’s conditions based on the maps you are examining.

How could you use ArcGIS Online to teach about water in your instruction?

- Joseph Kerski, Esri Education Manager