Science

Environmental education is essential for protecting and restoring natural water sources. Integrating education with positive environmental experiences can instill values and stewardship in the public, encouraging proactive steps to preserve and enhance water resources. Elementary teachers can incorporate real-world water-related environmental issues into their classrooms, promoting critical thinking and problem-solving skills. Place-based education, which involves experiential learning in local settings, effectively builds connections between students and their communities.

Educative curriculum materials (ECM) have been shown to support K-12 teacher learning, but little is known about teacher educators’ use of ECM. In this study, we report on enactments of ECM designed to support the development of preservice elementary teachers’ content knowledge for teaching about matter in two different courses to understand how teacher educators use ECM. Participants were two full professors teaching science content and science methods courses for elementary preservice teachers at a public university in the Pacific Northwest.

Educative curriculum materials (ECM) have been shown to support K-12 teacher learning, but little is known about teacher educators’ use of ECM. In this study, we report on enactments of ECM designed to support the development of preservice elementary teachers’ content knowledge for teaching about matter in two different courses to understand how teacher educators use ECM. Participants were two full professors teaching science content and science methods courses for elementary preservice teachers at a public university in the Pacific Northwest.

Water scarcity poses a significant global challenge, which is often overlooked, particularly in regions with abundant water resources. This article outlines a curriculum designed for middle school students (grades 6–8) that addresses the dynamics of water scarcity and sustainability through five detailed lessons centered around the water cycle. The curriculum is designed to meet the Next Generation Science Standards, specifically focusing on standards ESS2.C and ESS3.C.

Despite a growing effort to integrate students’ civic action projects into science and engineering curricula that address climate change and environmental justice, there are few frameworks that guide teachers and students to make well-informed decisions and actions towards a more just and sustainable future. This article presents a tool, Civic Action Matrix, that characterizes different types of students’ civic action projects.

Peer-review and publication are important parts of the scientific enterprise, and research has shown that engaging students in such scholarly practices helps build their sense of belonging and scientific identity. Yet, these disciplinary literacy skills and professional practices are often part of the hidden curriculum of science research, thus excluding students and others from fully understanding ways in which scientific knowledge is constructed, refined, and disseminated even though students are participating in such activities.

The modern information landscape offers an abundance of options to learn about science topics, but it is also ripe for the spread of mis- and disinformation and science denial. Science education can play a pivotal role in mitigating harm from untruthful information, strengthening trust in science, and fostering a more informed and critically engaged public. Across the articles in this special issue, 10 pedagogical strategies to address mis- and disinformation in the classroom were synthesized.

Participatory science conducted in formal K–12 settings has many benefits, including the potential to engage teachers and students authentically in the scientific enterprise and to make learning more meaningful. Despite these benefits and others, school-based participatory science (SBPS) is not widespread. In this essay, we put forth a theory of SBPS that is emerging from a four-year study of efforts to integrate participatory science in elementary classrooms.

Two teachers—whose students were concerned about environmental injustices in their communities and eager to take action—initiated a collaboration to design freely available, customizable curriculum materials and a model professional development workshop. The workshop was designed to foster teacher efficacy in incorporating social justice into science teaching. To cultivate teacher efficacy, the materials were created to respond to middle school science teachers’ concerns about supporting students’ emotions around social justice issues and empowering students to take action.

Two teachers—whose students were concerned about environmental injustices in their communities and eager to take action—initiated a collaboration to design freely available, customizable curriculum materials and a model professional development workshop. The workshop was designed to foster teacher efficacy in incorporating social justice into science teaching. To cultivate teacher efficacy, the materials were created to respond to middle school science teachers’ concerns about supporting students’ emotions around social justice issues and empowering students to take action.