Infusing quantitative approaches throughout the biological sciences curriculum
- 12 July 2013
- journal article
- research article
- Published by Informa UK Limited in International Journal of Mathematical Education in Science and Technology
- Vol. 44 (6), 817-833
- https://doi.org/10.1080/0020739x.2013.812754
Abstract
A major curriculum redesign effort at the University of Maryland is infusing all levels of our undergraduate biological sciences curriculum with increased emphasis on interdisciplinary connections and quantitative approaches. The curriculum development efforts have largely been guided by recommendations in the National Research Council's Bio 2010 report and have resulted in revisions to courses in biology, mathematics, and physics over a period of 10 years. Important components of this effort included (1) developing online modules to infuse more mathematical content into six biology courses taken by biological sciences majors during their first 2 years of study; (2) strengthening the interdisciplinary connections of ancillary courses in mathematics and physics to support the development of quantitative skills in biological contexts; and (3) creating more quantitatively intensive courses for the final 2 years of the bachelors of science programme. These efforts, carried out by a large, multidisciplinary team of faculty, have resulted in increased coherence in the undergraduate biological sciences curriculum, increased quantitative skills in first- and second-year students, and a greater appreciation among graduates for the essential relationship between mathematics and modern biology.Keywords
This publication has 20 references indexed in Scilit:
- SYMBIOSIS: Development, Implementation, and Assessment of a Model Curriculum across Biology and Mathematics at the Introductory LevelCBE—Life Sciences Education, 2010
- On a Calculus-based Statistics Course for Life Science StudentsCBE—Life Sciences Education, 2010
- Using the Principles of BIO2010 to Develop an Introductory, Interdisciplinary Course for Biology StudentsCBE—Life Sciences Education, 2010
- A Transformative Model for Undergraduate Quantitative Biology EducationCBE—Life Sciences Education, 2010
- Introductory Life Science Mathematics and Quantitative Neuroscience CoursesCBE—Life Sciences Education, 2010
- Impact of Interdisciplinary Undergraduate Research in Mathematics and Biology on the Development of a New Course Integrating Five STEM DisciplinesCBE—Life Sciences Education, 2010
- A Bright Future for Biologists and Mathematicians?Science, 2003
- STRATEGIES FOR INCREASING MINORITIES IN THE SCIENCES: A UNIVERSITY OF MARYLAND, COLLEGE PARK, MODELJournal of Women and Minorities in Science and Engineering, 2003
- Changing patterns of transition from school to university mathematicsInternational Journal of Mathematical Education in Science and Technology, 2001
- Quantitative Training for Life-Science StudentsBioScience, 1994