Tag Archives: fresh water

Lights, camera, action: A video that introduces the NGSS practice of scientific argumentation

Following the recommendation to incorporate the Next Generation Science Standards (NGSS) science and engineering practices in their classrooms, schools across the country are looking for ways to integrate scientific argumentation into their curriculum. Since 2012 the High-Adventure Science project in collaboration with National Geographic Education has offered free online modules for Earth and space science topics—including climate change, freshwater availability, the future of energy sources, air quality, land management, and the search for life in the universe—that include multiple opportunities for students to engage in argument from evidence.

Over 67,000 teachers and students across the globe have used High-Adventure Science modules. Based on teacher feedback, classroom observations, and analysis of student data, we have learned that when students engage in argumentation from data and model-based evidence, they need a lot of support on how to write a convincing argument.

Last year, we added an introductory activity to each module where students learn about the component parts of a scientific argument before they are asked to write one. In this highly scaffolded task, students see written examples of a claim and explanation and learn about uncertainty in scientific data and how to express this uncertainty. In High-Adventure Science, argumentation takes a special form, including a multiple-choice structured claim, open-ended explanation, five-point Likert scale uncertainty rating, and uncertainty rationale.


In this introductory activity, students learn about the components of a good explanation.

Even with this new activity, some students still struggled, so we recently created an animated video to introduce the scientific practice of developing an argument. We start by helping students identify the difference between a scientific argument and so-called “arguments” they may have with their friends (e.g., arguing about favorite ice cream flavors!), and making the distinction between claims backed by evidence and opinion. The goal is to introduce students to scientific arguments in a fun and relatable way and to make the terminology and process of scientific argumentation less daunting.

We’re piloting the video in our Will there be enough fresh water? module for select students. We’re looking forward to student and teacher feedback and may revise the video based on their comments. We want everyone to be able to engage in the critical practice of arguing from evidence.

We welcome your comments about our video, as well as your challenges and successes with incorporating the NGSS practice of engaging in argument from evidence.

Teaching about water quality and the importance of fresh water

A new resolution may overturn the Interior Department’s “Stream Protection Rule,” which required coal mining companies to monitor and test the quality of local streams and rivers before, during, or after mining operations. There is no better time than the present to learn about the importance of water issues in our communities and environment. Three Concord Consortium projects focus on teaching middle and high school students about their local watersheds, careers in environmental conservation, and freshwater availability, and all of them offer free, high-quality resources ideal for classrooms or informal education settings.

The Teaching Environmental Sustainability: Model My Watershed project, a collaborative research project at the Concord Consortium, Millersville University, and the Stroud Water Research Center, has developed curricula for environmental/geoscience disciplines for high school classrooms, using the Model My Watershed (MMW) web-based application. The curricula also integrate low-cost environmental sensors, allowing students to collect and upload their own data and compare them to data visualized on the new MMW.

In Supporting Collaborative Inquiry, Engineering, and Career Exploration with Water (Water SCIENCE), middle school students from southern Arizona, central valley California, southeastern Pennsylvania, and eastern Massachusetts complete hands-on science and engineering activities, receive guidance and instruction from undergraduate and graduate student mentors, interact online with STEM professionals, and learn about careers in environmental conservation and engineering while investigating their community’s local water resources.

Melinda Daniels, Associate Research Scientist at the Stroud Water Research Center, describes her work. Watch additional videos about water scientists and environmental conservationists »

And in our High-Adventure Science project, we’ve developed a unit entitled “Will there be enough fresh water?” Students explore the distribution and uses of fresh water on Earth. They run experiments with computational models to explore the flow of groundwater, investigate the relationship of groundwater levels to rainfall and human impact, and hear from a hydrologist working on the same question. Students think about how to assess the sustainability of water usage locally and globally while considering their own water usage. Use these great resources today to help students understand critical water issues!

Aquifers

Students use computational models to explore water extraction from aquifers in urban and rural areas.