2019
DOI: 10.1080/10511970.2018.1489318
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A “Rule-of-Five” Framework for Models and Modeling to Unify Mathematicians and Biologists and Improve Student Learning

Abstract: Despite widespread calls for the incorporation of mathematical modeling into the undergraduate biology curriculum, there is lack of a common understanding around the definition of modeling, which inhibits progress. In this paper, we extend the "Rule-of-Four," initially used in calculus reform efforts, to a "Rule-of-Five" framework for models and modeling that is inclusive of varying disciplinary definitions of each. This unifying framework allows us to both build on strengths that each discipline and its stude… Show more

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Cited by 24 publications
(16 citation statements)
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“…BioSkills Guide responsible conduct of research (Diaz-Martinez et al, 2019), quantitative reasoning (Durán and Marshall, 2018;Stanhope et al, 2017), bioinformatics (Wilson Sayres et al, 2018), data science (Kjelvik and Schultheis, 2019), data communication (Angra and Gardner, 2016), modeling (Quillin and Thomas, 2015;Diaz Eaton et al, 2019), the interdisciplinary nature of science (Tripp and Shortlidge, 2019), and scientific writing (Timmerman et al, 2011). Efforts to define general or STEMwide educational goals for college graduates can also inform how we teach competencies in biology, such as the Association of American College and University VALUE rubrics (Rhodes, 2010) and more targeted work on information literacy (Association of College and Research Libraries, 2015), communication (Mercer-Mapstone and Kuchel, 2017), and process skills (Understanding Science, 2016;Cole et al, 2018).…”
Section: Competencies and Stem Curriculum Reformmentioning
confidence: 99%
“…BioSkills Guide responsible conduct of research (Diaz-Martinez et al, 2019), quantitative reasoning (Durán and Marshall, 2018;Stanhope et al, 2017), bioinformatics (Wilson Sayres et al, 2018), data science (Kjelvik and Schultheis, 2019), data communication (Angra and Gardner, 2016), modeling (Quillin and Thomas, 2015;Diaz Eaton et al, 2019), the interdisciplinary nature of science (Tripp and Shortlidge, 2019), and scientific writing (Timmerman et al, 2011). Efforts to define general or STEMwide educational goals for college graduates can also inform how we teach competencies in biology, such as the Association of American College and University VALUE rubrics (Rhodes, 2010) and more targeted work on information literacy (Association of College and Research Libraries, 2015), communication (Mercer-Mapstone and Kuchel, 2017), and process skills (Understanding Science, 2016;Cole et al, 2018).…”
Section: Competencies and Stem Curriculum Reformmentioning
confidence: 99%
“…Varying definitions of models were a common theme in survey comments and interviews. Recently a group of mathematicians and biologists (NIMBioS) joined forces to address this issue (Diaz Eaton et al, 2019). They argue that differences in conceptions of modeling among scientists within and across fields have stood in the way of progress in integrating modeling into undergraduate courses.…”
Section: Examining Variation In Educator Survey Responsesmentioning
confidence: 99%
“…Scaffolding competencies across course series or whole programs will require thoughtful reflection on the component parts of each learning outcome and how students develop these outcomes over time. To assist in this work, there are a number of resources focusing on particular competencies (for example, see Angra & Gardner, 2016;Diaz-Martinez et al, 2019;Diaz Eaton et al, 2019;Pelaez et al, 2017;Quillin & Thomas, 2015;Tripp & Shortlidge, 2019;Wilson Sayres et al, 2018), all of which describe specific competencies in further detail than is contained in the BioSkills Guide. Additionally, work in K-12 education, and more recently higher education, developing learning progressions could guide future investigations of competency scaffolding (Schwarz et al, 2009;Scott, Wenderoth, & Doherty, 2019).…”
Section: Next Steps For the Core Competenciesmentioning
confidence: 99%
See 1 more Smart Citation
“…Modeling (frequently coupled with simulations) is a skill that develops over time and is considered a core competency for postsecondary biology students (AAAS 2011). Modeling can involve a spectrum of skills from passive observation of graphs to creation and interpretation of models ranging from conceptual to computational (Eaton et al 2019;Garfunkel and Montgomery 2016). Moreover, scientists engage in modeling for many reasons, including exploring dynamics of complex systems, developing conceptual frameworks, making predictions, and generating causal explanations (Nersessian 2009;Odenbaugh 2005;Svoboda and Passmore 2013).…”
Section: Introductionmentioning
confidence: 99%