In this theoretical article, we argue that the imminent collapse of earth systems that sustain life forms calls for mathematics education as a field to reflect on and re-evaluate its priorities and thus practices. We consider both what ecological collapse means for mathematics education and whether mathematics education might offer meaningful…

Scientific research endeavors are increasingly collaborative in nature. As researchers work together in groups of increasing size to develop project goals and implement plans, traditional 1-1 single faculty-student mentor models are less relevant as students need input and guidance from the multiple faculty members contributing to the…

Sustainability is becoming a key component of many HE curricula. However, questions as to what sustainability is and how it can be embedded within subject specific curriculum are difficult to answer. Focussing on existing pedagogic scholarship in this area and by drawing on experiences from my own institution, this article discusses how the GEES…

Multidisciplinary field investigations courses offer exciting alternatives to traditional learning. They offer a more holistic view of Earth and an opportunity for students to experience the relationships between all of the different elements instead of just one individual segment. We designed a multidisciplinary field investigations course for…

Active, student-centered pedagogies such as project-based learning (PjBL) can offer significant potential for engaging undergraduates with complex sustainability issues. Driven by institution-wide curriculum changes and informed by educational theories and evidence from previous studies, a trial PjBL activity was designed and delivered on three…

There is much that can be learned from a curriculum developed in The Netherlands, a country famous for having been "claimed from the sea." Nothing can be truer than that, but there is more to the story than just the physical aspect of claiming land from the water. The identity of the Dutch, the history of their maritime and seafaring…

This paper reflects upon the development of a multidisciplinary lesson plan aimed at developing science skills for Physics and Astronomy, Geographical and Earth Sciences, and Chemistry students at a research intensive Scottish university. The lesson plan was co-developed with a small group of staff and undergraduate students from these…

Developing and implementing relevant, challenging, integrative, and exploratory curriculum is critical at all levels of schooling. This article describes one attempt to develop and implement an instance of interdisciplinary curriculum by using copy change with trade books to teach earth science. Specifically, it introduces trade books as a way to…

In a society where technology plays an ever-increasing role, students' ability to understand the underlying science and make smart social and environmental decisions based on that knowledge is crucial. "Welcome to Nanoscience" helps biology, chemistry, and Earth science teachers introduce the revolutionary fields of nanoscience and nanotechnology…

At the University of Vermont, an interdisciplinary faculty team developed an introductory watershed science field course. This course honed field skills and catalyzed communication across water-related disciplines without requiring specific prerequisites. Five faculty (geology, engineering, geography, natural resources) taught the four-credit…

Reviews very generally the desirability of college science departments redirecting some of their efforts towards interdisciplinary goals, and proposes second-level courses given through the combined efforts of several science departments. (PR)

Provides a conceptual framework on which to build a multidisciplinary approach to environmental education. (See related document SE 520 333.) (CP)

Uses a university campus as the focus for a study of the entire watershed. Presents a context for incorporating pedagogical elements, interdisciplinary teaching, research experience, and active, collaborative strategies into a useful framework for undergraduate science education. (Author/KHR)

The author's premise rests on the endless parade of public controversies regarding education. He specifically opposes the views of those scientists who feel that they, and their work, are being discredited and that the scientific capability of the nation is being dismantled. He restricts his remarks to the science disciplines. Rather than…