Matt Sievers scite author profile

Researchers have called for undergraduate courses to update teaching frameworks based on the Modern Synthesis with insights from molecular biology, by stressing the molecular underpinnings of variation and adaptation. To support this goal, we developed a modified version of the widely used Assessing Conceptual Reasoning of Natural Selection (ACORNS) instrument. The expanded tool, called the E-ACORNS, is explicitly designed to test student understanding of the connections among genotypes, phenotypes, and fitness. E-ACORNS comprises a slight modification to the ACORNS open-response prompts and a new scoring rubric. The rubric is based on five core concepts in evolution by natural selection, with each concept broken into elements at the novice, intermediate, and expert-level understanding. Initial tests of the E-ACORNS showed that (1) upper-level undergraduates can score responses reliably and quickly, and (2) students who were just starting an introductory biology series for majors do not yet grasp the molecular basis of phenotypic variation and its connection to fitness.

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A CURE on the Evolution of Antibiotic Resistance in Escherichia coli Improves Student Conceptual Understanding

Freeman

Mukerji

Sievers

et al. 2023

LSE

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From the Modern Synthesis to the Molecular Synthesis: updating how we teach and assess evolution by natural selection

Sievers

Reemts

Dickinson

et al. 2021

Preprint

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Evolution by natural selection is recognized as both the most important concept in undergraduate biology and the most difficult to teach. Unfortunately, teaching and assessment of evolution have been impaired by legacy approaches that focus on Darwin's original insights and the Modern Synthesis' integration of Mendelian genetics, but ignore or downplay advances from what we term the Molecular Synthesis. To create better alignment between instructional approaches and contemporary research in the biosciences, we propose that the primary learning goal in teaching evolution should be for students to connect genotypes, phenotypes, and fitness. To support this approach, we developed and tested assessment questions and scoring rubrics called the Extended Assessing Conceptual Reasoning of Natural Selection (E-ACORNS) instrument. Initial E-ACORNS data suggest that after traditional instruction, few students recognize the molecular synthesis, prompting us to propose that introductory course sequences be re-organized with the molecular synthesis as their central theme.

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Matt Sievers

Assessing how well students understand the molecular basis of evolution by natural selection

A CURE on the Evolution of Antibiotic Resistance in Escherichia coli Improves Student Conceptual Understanding

From the Modern Synthesis to the Molecular Synthesis: updating how we teach and assess evolution by natural selection

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