Teaching the process of science with primary literature: Using the CREATE pedagogy in ecological courses

Teaching the process of science with primary literature: Using the CREATE pedagogy in ecological courses

There have been numerous calls for improved pedagogical practices in biological education, and there is a clear need for such improvements in ecology and related curricula. Most ecology‐related texts lack pedagogy and are designed to be content‐rich. National initiatives, such as Vision & Change...

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Veröffentlicht in:Ecology and evolution 2022-12, Vol.12 (12), p.e9644-n/a
Hauptverfasser: Smith, Kevin G., Paradise, Christopher J.
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Best practice
Biodiversity
Biology
Classrooms
Climate change
Conservation biology
CREATE pedagogy
Ecologists
Ecology
Education
Educational materials
evidence‐based teaching
Genetics
Higher education
inclusive teaching
Learning
Molecular biology
Pedagogy
Science
science practice skills
Skills
Social impact
STEM education
Students
Teaching
Technical education
undergraduate biology education
Wildlife conservation
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Paradise, Christopher J.
description There have been numerous calls for improved pedagogical practices in biological education, and there is a clear need for such improvements in ecology and related curricula. Most ecology‐related texts lack pedagogy and are designed to be content‐rich. National initiatives, such as Vision & Change, provide guidance on undergraduate biology education, including increasing use of evidence‐based active learning, and taking a more conceptual and science practice skills approach. Biology education research is rich with evidence‐based teaching practices, which reveal that active learning approaches implemented in thoughtful ways lead to strong learning gains relative to lecture‐based course delivery. CREATE (Consider, Read, Elucidate the hypothesis, Analyze and interpret data, Think of the next Experiment) integrates evidence‐based active pedagogical practices into one approach to STEM education that focuses heavily on the process of science and science practice skills rather than content delivery by replacing the textbook with selected journal articles. The approach focuses on deep reading and analysis of primary literature; immersing students in the literature is an advantage of the pedagogy. CREATE was developed and tested in other biological disciplines (genetics and molecular biology) that have long been at the forefront of pedagogical best practices in biology. We transformed two upper‐level undergraduate ecological courses (Conservation Biology, and Biodiversity and Ecology) into CREATE courses. We provide examples of assignments, student work, and assessments of the approach, illustrating the various ways CREATE can be successfully implemented. The approach can be adopted in part, to ease into it and test it out, or in whole. We recommend that ecology teachers consider making their courses more active, if they have not already done so; adopting pedagogical practices embedded within CREATE can be a way to achieve active learning. The CREATE approach and other evidence‐based pedagogical best practices lead to strong learning gains and more inclusive learning environments. National initiatives, such as Vision & Change, provide guidance on undergraduate biology education, including increasing use of evidence‐based active learning. CREATE (Consider, Read, Elucidate the hypothesis, Analyze and interpret data, Think of the next Experiment) integrates evidence‐based active pedagogical practices into one approach that focuses on the process of science, science prac
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The approach focuses on deep reading and analysis of primary literature; immersing students in the literature is an advantage of the pedagogy. CREATE was developed and tested in other biological disciplines (genetics and molecular biology) that have long been at the forefront of pedagogical best practices in biology. We transformed two upper‐level undergraduate ecological courses (Conservation Biology, and Biodiversity and Ecology) into CREATE courses. We provide examples of assignments, student work, and assessments of the approach, illustrating the various ways CREATE can be successfully implemented. The approach can be adopted in part, to ease into it and test it out, or in whole. We recommend that ecology teachers consider making their courses more active, if they have not already done so; adopting pedagogical practices embedded within CREATE can be a way to achieve active learning. The CREATE approach and other evidence‐based pedagogical best practices lead to strong learning gains and more inclusive learning environments. National initiatives, such as Vision &amp; Change, provide guidance on undergraduate biology education, including increasing use of evidence‐based active learning. CREATE (Consider, Read, Elucidate the hypothesis, Analyze and interpret data, Think of the next Experiment) integrates evidence‐based active pedagogical practices into one approach that focuses on the process of science, science practice skills, and deep reading of the primary literature. We transformed two upper‐level undergraduate ecological courses (Conservation Biology, and Biodiversity and Ecology) into CREATE courses and provided examples of assignments, student work, and assessments, illustrating the various ways in which CREATE can be successfully implemented. 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The CREATE approach and other evidence‐based pedagogical best practices lead to strong learning gains and more inclusive learning environments. National initiatives, such as Vision &amp; Change, provide guidance on undergraduate biology education, including increasing use of evidence‐based active learning. CREATE (Consider, Read, Elucidate the hypothesis, Analyze and interpret data, Think of the next Experiment) integrates evidence‐based active pedagogical practices into one approach that focuses on the process of science, science practice skills, and deep reading of the primary literature. We transformed two upper‐level undergraduate ecological courses (Conservation Biology, and Biodiversity and Ecology) into CREATE courses and provided examples of assignments, student work, and assessments, illustrating the various ways in which CREATE can be successfully implemented. 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subjects Best practice
Biodiversity
Biology
Classrooms
Climate change
Conservation biology
CREATE pedagogy
Ecologists
Ecology
Education
Educational materials
evidence‐based teaching
Genetics
Higher education
inclusive teaching
Learning
Molecular biology
Pedagogy
Science
science practice skills
Skills
Social impact
STEM education
Students
Teaching
Technical education
undergraduate biology education
Wildlife conservation
title Teaching the process of science with primary literature: Using the CREATE pedagogy in ecological courses
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