Building Community-Based Approaches to Systemic Reform in Mathematical Biology Education

被引：0

作者：

Olcay Akman

Carrie Diaz Eaton

Dan Hrozencik

Kristin P. Jenkins

Katerina V. Thompson

机构：

[1] Bates College,Digital and Computational Studies

[2] Illinois State University,Center for Collaborative Studies in Mathematical Biology

[3] Chicago State University,Mathematics and Computer Science

[4] Bioquest Curriculum Consortium,undefined

[5] University of Maryland,undefined

来源：

Bulletin of Mathematical Biology | 2020年 / 82卷

关键词：

Biology; Mathematics; Pedagogy reform;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Starting in the early 2000’s, several reports were released recognizing the convergence of mathematics, biology and computer science, and calling for a rethinking of how undergraduates are prepared for careers in research and the science and technology workforce. This call for change requires careful consideration of the mathematical biology education system to identify key components and leverage points for change. This paper demonstrates the wide range of resources and approaches available to the mathematical biology education community to create systemic change by highlighting the efforts of four community-based education reform organizations. A closer look at these organizations provides an opportunity to examine how to leverage components of the education system including faculty, academic institutions, students, access to resources, and the power of community.

引用

共 52 条

[1]

Brownell SE(2012)Barriers to faculty pedagogical change: lack of training, time, incentives, and...tensions with professional identity? CBE—Life Sciences Education 11 339-346

[2]

Tanner KD(2009)Bootstrapping a culture of sharing to facilitate open educational resources IEEE Trans Learn Technol 3 96-109

[3]

Davis HC(2014)Factors underlying the adoption and adaption of a university physics reform over three generations of implementation Electron J Sci Educ 18 279-307

[4]

Carr LA(2016)Stem reform outcomes through communities of transformation Change Mag High Learn 48 30-38

[5]

Hey JM(2009)The impact of physics education research on the teaching of introductory quantitative physics in the united states Phys Rev Phys Educ Res 5 020107-984

[6]

Howard Y(2011)Facilitating change in undergraduate stem instructional practices: an analytic review of the literature J Res Sci Teach 48 952-465

[7]

Millard DE(2019)I was told there would be no math involved Am Biol Teach 81 465-12

[8]

White S(2015)Modeling and simulation: helping students acquire this skill using stock and flow approach with mathbench Lett Biomath 2 1-39

[9]

Foote KT(2009)Mathbench biology modules: web-based math for all biology undergraduates J College Sci Teach 38 34-17

[10]

Gehrke S(1988)Communities of transformation and their work in stem education reform Acad Comput 2 14-283

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