More Like this

1. From Basic to Humane Genomics Literacy: How Different Types of Genetics Curricula Could Influence Anti-Essentialist Understandings of Race

   Donovan, B.M. ; Weindling, M. ; Lee, D. ( March 2021 , Science and Education)

   Genetic essentialism of race is the belief that racial groups have different underlying genetic essences which cause them to differ physically, cognitively, or behaviorally. Apparently no published studies have explored if belief in genetic essentialism of race among adolescents differs after many weeks of formal instruction about different domains of genetics knowledge. Nor have any studies explored if such differences reflect a coherent change in students’ racial schemas. We use a quasi-experimental design (N = 254 students in 7th-12th grade) to explore these gaps. Over the course of three months, we compared students who learned from a curriculum on multifactorial inheritance and genetic ancestry to students who learned from their business as usual (BAU) genetics curriculum that discussed Mendelian and molecular genetics without any reference to race, multifactorial genetics, or genetic ancestry. Relative to the BAU condition, classrooms that learned from the multifactorial genetics and ancestry curriculum grew significantly more in their knowledge of multifactorial genetics and decreased significantly more in their genetic essentialist perceptions, attributions, and beliefs. From a conceptual change perspective, these findings suggest that classrooms using a curriculum emphasizing genetic complexity are more likely to shift toward a coherent anti-essentialist understanding of racial difference. 

   more » « less
2. Bringing exploratory learning online: Problem-solving before instruction improves remote undergraduate physics learning

   https://doi.org/10.3389/feduc.2023.1215975  

   DeCaro, Marci S ; Isaacs, Raina A ; Bego, Campbell R ; Chastain, Raymond J ( August 2023 , Frontiers in Education)

   STEM undergraduate instructors teaching remote courses often use traditional lecture-based instruction, despite evidence that active learning methods improve student engagement and learning outcomes. One simple way to use active learning online is to incorporate exploratory learning. In exploratory learning, students explore a novel activity (e.g., problem solving) before a lecture on the underlying concepts and procedures. This method has been shown to improve learning outcomes during in-person courses, without requiring the entire course to be restructured. The current study examined whether the benefits of exploratory learning extend to a remote undergraduate physics lesson, taught synchronously online. Undergraduate physics students (N = 78) completed a physics problem-solving activity either before instruction (explore-first condition) or after (instruct-first condition). Students then completed a learning assessment of the problem-solving procedures and underlying concepts. Despite lower accuracy on the learning activity, students in the explore-first condition demonstrated better understanding on the assessment, compared to students in the instruct-first condition. This finding suggests that exploratory learning can serve as productive failure in online courses, challenging students but improving learning, compared to the more widely-used lecture-then-practice method. 

   more » « less
3. Genomics Literacy Matters: Supporting the Development of Genomics Literacy Through Genetics Education Could Reduce Cognitive Forms of Racial Prejudice

   Donovan, B.M. ; Weindling, M. ; Salazar, B. ; Duncan, A. ; Stuhlsatz, M. ; Keck, P. ( March 2021 , Journal of research in science teaching)

   Some genetics educators have recently argued that improving students’ genomics literacy could prevent students from developing erroneous beliefs about social identity, such as the belief that racial groups differ cognitively and behaviorally because of their genes; a belief called genetic essentialism. To date, however, little research has explored if or how a conceptual understanding of genomics protects against the development of genetic essentialism. Using a randomized control trial (RCT) (N = 721, 9th-12th graders), we explore if students with more genomics literacy are more able to conceptually change their genetic essentialist beliefs after engaging in a learning experience designed to refute essentialist thinking. The results of the RCT demonstrated that students with higher genomics literacy (relative to those with lower genomics literacy) exhibited greater reductions in the perception of racial differences and greater reductions in belief in genetic essentialism after learning about patterns of human genetic variation. These results suggest that genetics education can protect students from developing a belief in genetic essentialism when it provides them with opportunities to learn multifactorial genetics and population thinking in conjunction with how these concepts refute essentialist thinking. 

   more » « less
4. Genomics literacy matters: Supporting the development of genomics literacy through genetics education could reduce the prevalence of genetic essentialism

   https://doi.org/10.1002/tea.21670  

   Donovan, Brian M. ; Weindling, Monica ; Salazar, Brae ; Duncan, Alex ; Stuhlsatz, Molly ; Keck, Phillip ( October 2020 , Journal of Research in Science Teaching)

   Recently, it has been argued that improving students' genomics literacy could prevent students from developing erroneous beliefs about social identity, such as the belief that racial groups differ cognitively and behaviorally because of their genes; a belief called genetic essentialism. To date, however, little research has explored if or how a conceptual understanding of genomics protects against the development of genetic essentialism. Using a randomized control trial (RCT) (N= 721, 9th–12th graders), we explore if students with more genomics literacy are more able to conceptually change their genetic essentialist beliefs after engaging in a learning experience designed to refute essentialist thinking. The results of the RCT demonstrated that students with higher genomics literacy (relative to those with lower genomics literacy) exhibited greater reductions in the perception of racial differences and greater reductions in belief in genetic essentialism after learning how patterns of human genetic variation refute genetic essentialism. These results suggest that genetics education can protect students from developing a belief in genetic essentialism when it provides them with opportunities to learn multifactorial genetics and population thinking in conjunction with how these concepts refute essentialist thinking.

    

   more » « less
5. Integrating Cybersecurity Concepts Across Undergraduate Computer Science and Information Systems Curriculum

   Kannan, Uma ; Swamidurai, Rajedran ( January 2021 , 2021 ASEE Annual Conference)

   null (Ed.)

   The global Cybersecurity skill gap in 2020 is about 3.1 million and the Cybersecurity staff shortage is about 69%. Universities are waking up to the need for developing skills in Cybersecurity. Though many Universities offer a master’s degree in Cybersecurity, it is impractical to fill this huge demand for Cybersecurity through only graduate degree holders. After careful analysis, it has become evident that there is a gap in the curriculum as it relates to training for Cybersecurity concepts in foundational computing courses for students. To be more specific, there is relatively less focus on the infusion of Cybersecurity concepts in undergraduate computing courses and its impact on classroom practices. This paper serves to address this gap by providing an experience in infusing, teaching, and assessing Cybersecurity modules in various undergraduate computing courses that immerse students in real-world Cybersecurity practices through active learning. 

   more » « less