From CREATE Workshop to Course Implementation: Examining Downstream Impacts on Teaching Practices and Student Learning at 4-Year Institutions.

The faculty workshop model has long been used for disseminating innovative methods in STEM education. Despite significant investments by researchers and funding agencies, there is a dearth of evidence regarding downstream impacts of faculty development. CREATE is an evidence-based strategy for teaching science using primary literature. In this study, we examined whether workshop-trained faculty applied CREATE methods effectively and whether their students achieved either cognitive or affective gains. We followed 10 workshop alumni at different 4-year institutions throughout the United States. External observations of the teaching indicated a high fidelity of CREATE implementation. The students made significant gains in cognitive (e.g., designing experiments) and affective (e.g., self-efficacy in science process skills) domains. Some student outcomes correlated with particular characteristics (e.g., class size) but not with others (e.g., teaching experience). These findings provide evidence for the robustness of the CREATE dissemination model and provide perspective on factors that may influence pedagogical reform efforts.

Investigating Undergraduates' Perceptions of Science in Courses Taught Using the CREATE Strategy.

Many science educators agree that 21st century students need to develop mature scientific thinking skills. Unsurprisingly, students' and experts' perceptions about the nature of scientific knowledge differ. Moreover, students' naïve and entrenched epistemologies can preclude their development toward "thinking like scientists." Novel teaching approaches that guide students toward more mature perceptions may be needed to support their development of scientific thinking skills. To address such issues, physics educators developed the Colorado Learning Attitudes About Science Survey (CLASS), subsequently adapted for chemistry and biology. These surveys are "designed to compare novice and expert perceptions about the content and structure of a specific discipline; the source of knowledge about that discipline, including connection of the discipline to the real world; and problem-solving approaches" (Semsar et al., CBE Life Sci. Educ. 10:268-278; p 269). We used CLASS-Bio to track students' perceptions of science in separate first-year and upper-level CREATE (Consider, Read, Elucidate hypotheses, Analyze and interpret the data, Think of the next Experiment) electives, hypothesizing that perceptions would become significantly more expert-like across a semester. Both first-year and upper-level cohorts made significant expert-like shifts. Students also made significant critical thinking gains in CREATE courses. Our findings of more mature, expert-like perceptions of science post-course contrast with those of previous studies, where students' thinking became significantly less expert-like across a term of introductory instruction and changed little in upper-level biology electives. Augmenting traditional biology curricula with CREATE courses could be an economical way to help undergraduates develop more mature views of science.

CREATE Two-Year/Four-Year Faculty Workshops: A Focus on Practice, Reflection, and Novel Curricular Design Leads to Diverse Gains for Faculty at Two-Year and Four-Year Institutions.

Improving STEM education through the propagation of highly effective teaching strategies is a major goal of national reform movements. CREATE (Consider, Read, Elucidate the hypotheses, Analyze and interpret the data, and Think of the next Experiment) is a transformative teaching and learning strategy grounded in evidence-based science pedagogy. CREATE courses promote both cognitive (e.g., critical thinking) and affective (e.g., attitudinal and epistemological) student gains in diverse settings. In this study, we look more deeply into the faculty development workshop used to disseminate CREATE pedagogy to instructors at two-year and four-year institutions. We hypothesized that an immersive experience would positively shift faculty participants' views on teaching/learning, build their understanding of CREATE pedagogy and develop their confidence for course implementation. Internal and external assessments indicate that faculty participants did achieve gains within the timeframe of the CREATE workshop. We discuss the workshop training outcomes in the context of designing effective dissemination models for innovative practices.

Testing CREATE at Community Colleges: An Examination of Faculty Perspectives and Diverse Student Gains.

CREATE (Consider, Read, Elucidate the hypotheses, Analyze and interpret the data, and Think of the next Experiment) is an innovative pedagogy for teaching science through the intensive analysis of scientific literature. Initiated at the City College of New York, a minority-serving institution, and regionally expanded in the New York/New Jersey/Pennsylvania area, this methodology has had multiple positive impacts on faculty and students in science, technology, engineering, and mathematics courses. To determine whether the CREATE strategy is effective at the community college (2-yr) level, we prepared 2-yr faculty to use CREATE methodologies and investigated CREATE implementation at community colleges in seven regions of the United States. We used outside evaluation combined with pre/postcourse assessments of students to test related hypotheses: 1) workshop-trained 2-yr faculty teach effectively with the CREATE strategy in their first attempt, and 2) 2-yr students in CREATE courses make cognitive and affective gains during their CREATE quarter or semester. Community college students demonstrated positive shifts in experimental design and critical-thinking ability concurrent with gains in attitudes/self-rated learning and maturation of epistemological beliefs about science.

CREATE cornerstone: introduction to scientific thinking, a new course for STEM-interested freshmen, demystifies scientific thinking through analysis of scientific literature.

The Consider, Read, Elucidate hypotheses, Analyze and interpret data, Think of the next Experiment (CREATE) strategy for teaching and learning uses intensive analysis of primary literature to improve students' critical-thinking and content integration abilities, as well as their self-rated science attitudes, understanding, and confidence. CREATE also supports maturation of undergraduates' epistemological beliefs about science. This approach, originally tested with upper-level students, has been adapted in Introduction to Scientific Thinking, a new course for freshmen. Results from this course's initial semesters indicate that freshmen in a one-semester introductory course that uses a narrowly focused set of readings to promote development of analytical skills made significant gains in critical-thinking and experimental design abilities. Students also reported significant gains in their ability to think scientifically and understand primary literature. Their perceptions and understanding of science improved, and multiple aspects of their epistemological beliefs about science gained sophistication. The course has no laboratory component, is relatively inexpensive to run, and could be adapted to any area of scientific study.