Incorporating Environmental and Sustainability Issues into the Curriculum in a Mineralogy Class
Abstract
A traditional curriculum in mineralogy addresses classic subject matter such as crystal chemistry, crystallography, systematic mineralogy and optical mineralogy. This is entirely reasonable and appropriate, as these time-honored aspects of mineralogy are fundamental to students' understanding of Earth Materials; they are also important building blocks for an understanding of other geologic disciplines such as petrology, structural geology, and sedimentology. Due to the impressive breadth and amount of subject material that is covered in most mineralogy courses, time constraints do not allow instructors to branch out into more contemporary subjects. In our increasingly technologically-advanced (and crowded) modern society, issues pertaining to the environment and sustainability are at the forefront of scientific thought. In many introductory physical geoscience courses these issues are addressed and incorporated into the curriculum, thereby giving students valuable scientific background in modern environmental issues. However, in upper division classes (such as mineralogy) there is little time or motivation for instructors to add new content or to connect the course content with current environmental or societal concerns, even though there may be significant and meaningful opportunities to do so throughout the quarter or semester. Consequently, many students' understanding of environmental issues remains at an introductory or cursory level. In my mineralogy class at the University of California San Diego (UCSD), I teach a traditional curriculum with a modern approach that uses dynamic lectures, makes use of multimedia, and also utilizes current best teaching practices. As a department, we have recently made an increased effort to educate our students about environmental issues. Accordingly, I have integrated environmental and sustainability topics (when they are pertinent) into the curriculum as a regular component of the course. These topics typically relate to how minerals (and other Earth materials) affect society, human health, and the environment. I cover a variety of topics including (but not limited to) conflict minerals, the role of minerals as vital natural and energy resources, sustainability issues associated with the use of minerals as natural resources, environmental problems associated with the extraction and use of minerals, and human health concerns as they relate to minerals (asbestos, radioactivity/radon, water supply contamination, etc.). These new topics have successfully formed the basis for several new homework and lab assignments and are now an integral component in lectures. Students have communicated (both in end-of-quarter course reviews and in conversation) that they greatly appreciate the added instruction in these topics as we are able to go into far greater detail than would ordinarily be possible in an introductory class. Many also report that they appreciate learning about the societal relevance of minerals and that they are more motivated in the learning process. My experience has been that real world connections stimulate student interest and motivation in their studies, and the incorporation of environmental and sustainability as topics in our mineralogy class at UCSD has made a significant positive impact on student's learning. This is evident in student evaluations of the course.
- Publication:
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AGU Fall Meeting Abstracts
- Pub Date:
- December 2013
- Bibcode:
- 2013AGUFMED21A0704C
- Keywords:
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- 0825 EDUCATION Teaching methods;
- 0800 EDUCATION;
- 3699 MINERALOGY AND PETROLOGY General or miscellaneous