Showing total 707 results

1. Researchers from Texas Tech University Health Sciences Center Publish New Studies and Findings in the Area of Microbiology and Biology Education (Igniting children's enthusiasm for microbes with an origami paper microscope).

Subjects

BIOLOGY education, SCIENCE publishing, RESEARCH personnel, MEDICAL centers, MICROBIOLOGY

Abstract

A new report from researchers at Texas Tech University Health Sciences Center highlights the importance of microbiology literacy, particularly in light of the COVID-19 pandemic. The researchers conducted an outreach event for children, introducing them to bacteria of clinical importance and using a smartphone-attachable paper-based foldable microscope to make microbes visible. A pre- and post-activity survey showed a statistically significant increase in the participants' interest in microbes and microscopy. The researchers suggest that affordable paper-based microscopes could be an effective tool for teaching clinical microbiology to a wide audience. [Extracted from the article]

Published

2024

2. CHAPTERWISE PRACTICE PAPER 2023 CUET (UG): UNIT: BIOLOGY IN HUMAN WELFARE.

Subjects

BIOLOGY education, MICROORGANISMS, FOOD production

Abstract

The article presents a quiz concerning the biology practice paper for the CUET (Common University Entrance Test) in India on topics including the human health and diseases, the strategies for enhancement in food production; and the microbes in human welfare.

Published

2022

3. Effect of flipped teaching on the performance and perceptions of pre-service teachers on a biology course

Author

Reinoso, Roberto, Delgado-Iglesias, Jaime, and Fernández, Itziar

Published

2021

4. Transformative applications in biology education: A case study on the efficacy of adaptive learning with numerical insights.

Author

Aleksandrovich, Shin I., Ramazan, Tyan, Utegaliyeva, Raissa, Sarimbayeva, Balzat, Keubassova, Gaukhar, Bissalyyeva, Rakhima, Syman, Kuanysh, and Abdikarimova, Gaukhar

Subjects

INSTRUCTIONAL systems, BIOLOGY education, GAMIFICATION, STUDENT participation, ARTIFICIAL intelligence

Abstract

In the field of biology education, adaptive learning has been tested through a case study, serving as a crucible for innovative teaching methodologies designed to provide tailored, engaging, and effective learning experiences. This paper meticulously explores the implementation of select innovations in adaptive learning and reports on the outcomes derived from our fictitious case study. Our research underscores the efficacy of personalized learning pathways, where advanced algorithms dynamically customize content delivery based on individual students' needs and learning styles. Through our case study, we present compelling numerical evidence of a 25% improvement in learning outcomes and a notable 20% increase in student engagement. The strategic integration of real-time feedback and assessment mechanisms plays a pivotal role in enhancing the comprehension of biological concepts, as reflected in a 30% increase in student performance and a 15% boost in knowledge retention. Another simulated innovation involves the incorporation of gamification elements, resulting in a statistically significant 18% increase in student participation and a remarkable 22% surge in enthusiasm for biology studies. Our simulated findings accentuate how these elements can make biology education more enjoyable and motivating in a controlled environment. Furthermore, the simulated utilization of multimodal learning resources, such as videos, simulations, and interactive models, showcases a 28% improvement in students' ability to grasp complex biological concepts. This translates into a tangible 25% enhancement in student performance in assessments. The simulated investigation into the potential of AI-enhanced assistance, with AI chatbots and virtual tutors, reveals a simulated 35% increase in student satisfaction and a 27% improvement in performance. These simulated innovations demonstrate the positive impact of AI integration on student support. In addition, our simulated data-driven insights inform content and platform improvements, resulting in a simulated 20% increase in the adaptability of the learning system. These simulated results provide crucial insights into the optimization of adaptive learning in biology education. Through the presentation of these simulated innovations and their associated numerical results, this paper underscores the transformative potential of adaptive learning in the simulated context of biology education. These simulated innovations not only offer tailored learning experiences but also yield concrete, positive outcomes in terms of student understanding and performance. The simulated implications of our research are discussed in detail, emphasizing the promising future of these innovations in shaping simulated biology education. Furthermore, we suggest avenues for future research to continue improving adaptive learning methods, ensuring the simulated advancement of biology education in the digital age. [ABSTRACT FROM AUTHOR]

Published

2024

5. Innovative strategies to strengthen teaching-researching skills in chemistry and biology education: a systematic literature review.

Author

Luis Alberto, Mera Cabezas, Carmen Viviana, Basantes Vaca, Celso Vladimir, Benavides Enríquez, and Paulina Fernanda, Parra Alvarez

Subjects

BIOLOGY education, CHEMISTRY education, SCIENCE education, EDUCATIONAL literature, SUSTAINABILITY

Abstract

The dynamic field of scientific education, particularly in chemistry and biology, demands the implementation of innovative teaching strategies, driving the need for continuous research to enhance skills in both educators and students. This systematic literature review (SLR) delves into the evolving landscape of chemistry and biology education research, shedding light on key trends, strategies, and skills. Employing the PRISMA methodology, we scrutinized 81 papers to assess the employment of resources, technologies, and methods conducive to effective learning and research. Searches were conducted in the Scopus and Google Scholar databases, with inclusion criteria spanning English and Spanish studies from the last five years. The analysis reveals a notable shift in recent years, emphasizing the diversification of instructional approaches, integration of sustainable practices, and a heightened focus on fostering essential research skills for both educators and students. The study underscores the significant adaptation to digital tools and virtual environments, potentially influenced by the challenges posed by the COVID-19 pandemic. Remarkable findings include the growing importance of cognitive, social, and emotional competence in student development. This work provides valuable insights for educators, researchers, and policymakers cross-talking the dynamic intersection of teaching and research in chemistry and biology education. [ABSTRACT FROM AUTHOR]

Published

2024

6. ITEM ANALYSIS OF SUMMATIVE ADVANCED LEVEL BIOLOGY EXAMINATIONS.

Author

Azzopardi, Marthese and Azzopardi, Carmel

Subjects

EXAMINATION item analysis, BIOLOGY education, POSTSECONDARY education, LEARNING, ABILITY grouping (Education)

Abstract

The results of examinations taken by Maltese post-secondary students learning Advanced level Biology at the end of their first year is crucial in the advancement of their careers. The objective of the study was to statistically analyse the examination scores and calculate the difficulty index of the entire paper and individual items in paper 1 over the period 2014-2018. Controlling or balancing the item difficulty of an examination improves its validity. Scores were slightly positively skewed in three out of the five years studied, showing that students attained more low scores than high ones. A score in the region of 50% was attained by the majority of students in all years studied and scores never exceeded 85%. The mean score for all years was 49±11.58% and the range of scores, exceeded 61 in all years investigated. This indicates that the students investigated form a heterogeneous group. Results show that items were restricted in the level of difficulty: none were 'easy'. This study showed that paper setters consistently designed examination questions of an overall 'moderate' level of difficulty (0.40) which is below the optimal value of 0.50. The value of this study is that future examinations can be improved when items from past papers with known difficulty index are reused. Another value of this investigation is that close examination of items reveals which questions were most difficult, thus indicating a concept that needs to be taught more thoroughly as well as provides an opportunity to identify common misconceptions among students. Another result of this study is that students encountered difficulties when answering questions at various levels of cognition. [ABSTRACT FROM AUTHOR]

Published

2019

7. THE STATISTICAL ANALYSIS AND EVALUATION OF FINAL ADVANCED LEVEL BIOLOGY EXAMINATIONS.

Author

Azzopardi, Marthese and Azzopardi, Carmel

Subjects

BIOLOGY education, EXAMINATION item analysis, EFFECTIVE teaching, BIOLOGY students, ACADEMIC achievement

Abstract

It is widely accepted that statistical analysis and evaluation of examination results are crucial to improve teaching quality. Evaluation of such results is important to assess students' performance. This study is based on examination results obtained by first-year Biology Advanced level students attending a public institution over a five-year period, 2014-2018. The results indicate that the distribution of examination scores approximate to normal distribution with averages varying from 30±13.47% and 43±14.31%. The difficulty level is consistent across the years irrespective of there being no guidelines for tutors when designing questions. In all years investigated, the difficulty index of the whole paper indicated that questions were 'moderate', but below the optimal value of 0.50. Comprehensions offered the least level of difficulty while students found the unstructured essay type the most difficult. The most difficult unstructured essays dealt with the Ecology section of the syllabus. Results from this study, show the need for tutors to include questions of varying difficulty levels when constructing the final examination as a tentative step in improving the percentage of passes in the end-of year examinations. It is recommended to include the difficulty index in final examination reports besides comments about each item. [ABSTRACT FROM AUTHOR]

Published

2019

8. Implementation and Student Perceptions of OneNote as an Electronic Laboratory Notebook in a General Biology Course.

Author

Nyutu, Eva

Subjects

RIGHT to education, BIOLOGY education, SCIENTIFIC communication, INTRODUCTORY courses (Education), UNDERGRADUATE education

Abstract

Paper Laboratory Notebooks (PLNs) have been used for centuries to document and archive the thoughts and work of inventors, scientists, students, and engineers. PLNs are the first formal means of scientific communication we teach our students and, in turn, a student's first training on cultivating and expressing scientific thinking. In the science teaching laboratory, PLNs are at the forefront and serve various purposes for students in the science laboratory curriculum, like good documentation practices and accurate record keeping. This paper discusses the reasons for switching to OneNote ELN, the criteria for selecting OneNote ELN software, how OneNote ELN was introduced and used in the course, and students' opinions on using this ELN. We successfully implemented the OneNote ELN in our General Biology Laboratory II sequence course for biology majors and nonmajor students entering the health professions. Students had a generally favorable response to using the OneNote ELN; 98% of students agreed that ELNs enabled them to keep a well-maintained laboratory notebook. Overall, student experience with ELNs was positive, with 85% of students indicating that they would recommend other future science laboratory courses they will be taking to adopt the OneNote ELN. In general, the OneNote ELN was viewed more positively in many respects than the PLNs in ease of its usage, access and organizing the notebook. [ABSTRACT FROM AUTHOR]

Published

2023

9. Defining evolution: exploring students' conceptions of evolution in introductory biology courses.

Author

Hsu, Jeremy L., Dorner, Meredith A., and Hill, Kate M.

Subjects

COMMUNITY colleges, BIOLOGY education, JUNIOR colleges, NATURAL selection, BIOLOGICAL evolution

Abstract

Background: Understanding evolution is an important part of undergraduate biology education. Despite its importance, however, students often struggle to understand evolution, often holding preconceived notions of what evolution is. Here, we investigate how students in both majors and non-majors introductory biology define and conceive of evolution at the start of the semester for a two-year college and a four-year university near each other. We analyze open-ended responses to an in-class activity on the first day of the semester that asked students to define evolution, generating insight into how students are thinking of evolution prior to any formal instruction on evolution in college. Results: Our analysis of over 300 student responses reveals that students hold diverse conceptions about evolution, with some students perceiving evolution in the context of evolutionary processes while other students define evolution by referring to perceived evolutionary consequences. In addition, we identify multiple non-normative conceptions about evolution, including students viewing evolution and natural selection as synonymous and not recognizing other evolutionary forces, and find that very few students likely have developed mental models linking evolution and genetics. In addition, we find few differences between how students at the two- and four-year institutions perceive evolution, and similarly few differences between students in a majors and non-majors introductory biology, suggesting that these conceptions of evolution are widespread at the beginning of introductory biology, regardless of major or institution. Conclusions: We situate our results in the existing literature examining student conceptions of evolution, with our results extending past work that has primarily relied on more closed-ended questions or focused on specific evolutionary concepts (e.g., natural selection). Our results largely align with past work on student thinking of evolution but provide a broader, more holistic perspective at the ideas and framework that students are drawing upon when introductory biology instructors first introduce the term 'evolution'. We conclude our paper by discussing implications for the biology education research community as well as instructors. [ABSTRACT FROM AUTHOR]

Published

2024

10. Enhancing students' learning achievements, self‐efficacy, and motivation using mobile augmented reality.

Author

Aldeeb, Fatimah H., Sallabi, Omar M., Elaish, Monther M., and Hwang, Gwo‐Jen

Subjects

*SELF-efficacy, *SMARTPHONES, *CRONBACH'S alpha, *T-test (Statistics), *EDUCATIONAL outcomes, *HEALTH occupations students, *QUESTIONNAIRES, *RANDOMIZED controlled trials, *MOTIVATION (Psychology), *ACADEMIC achievement, *ABILITY, *CARDIOVASCULAR system physiology, *SCHOOL children, *RESEARCH methodology, *STUDENT attitudes, *AUGMENTED reality, *TRAINING, *COGNITION

Abstract

Background: This paper examines the use of augmented reality (AR) as a concept‐association tool in schools, with the aim of enhancing primary school students' learning outcomes and engagement. Conflicting findings exist in previous studies regarding the cognitive load of AR‐enriched learning, with some reporting reduced load and others indicating increased demand and poorer performance. Understanding these implications is essential for effectively leveraging AR in education. The study offers a fresh perspective on the potential of AR technology in improving educational experiences. Objectives: The primary goal of this research was to evaluate the effectiveness of an AR‐assisted concept‐association strategy for improving essential knowledge acquisition and skills outcomes, increasing cognitive load, and increasing self‐efficacy and learning motivation among primary school students. Methods: A quasi‐experimental design with a control group was employed to investigate the effectiveness of the intervention. Results and Conclusions: The results demonstrate that the implementation of the AR‐assisted concept‐association strategy effectively enhanced essential knowledge acquisition and skills outcomes, increased cognitive load, and increased self‐efficacy and learning motivation among primary school students. These findings highlight the potential of AR technology to improve the learning experience and engagement of primary school students. The study contributes to the existing literature on the effectiveness of AR technology in education, suggesting future research directions. Ultimately, it offers a practical solution for improving the learning experience by presenting a new approach for teaching using AR technology. Lay Description: What is currently known about this topic: Augmented reality (AR) technology has been increasingly explored in educational settings.Previous research has shown that AR can enhance learning outcomes and engagement among students.AR applications have the potential to serve as concept‐association tools to improve the learning experience. What this paper adds: This paper investigates the effectiveness of using an AR application as a mobile concept‐association tool in school settings.The study demonstrates that the AR‐assisted concept‐association strategy effectively enhances knowledge acquisition, skills outcomes, cognitive load, self‐efficacy, and learning motivation among primary school students.The findings highlight the potential of AR technology in improving learning experiences and engagement for primary school students.The study offers practical implications for integrating AR technology into educational settings, and suggests avenues for future research in this area. Implications for practice and/or policy: Incorporating AR applications as concept‐association tools can enhance learning outcomes and engagement in primary school settings.AR technology can be used to increase cognitive load, and to increase self‐efficacy and motivation among students.Educators and policymakers should consider integrating AR technology into teaching practices to improve the overall learning experience.Future research and exploration should be conducted to understand the full potential and limitations of AR technology in education. [ABSTRACT FROM AUTHOR]

Published

2024

11. The debate - an opportunity for the formation of ecological culture in Biology and Health Education.

Author

Doichinova, Klaida

Subjects

HEALTH education, STUDENT development, BIOLOGY education, BIOLOGY teachers, BIOLOGY students

Abstract

The present study is part of a didactic experiment, which aims at establishing the application and effectiveness of the school debate, as an interactive method of teaching in Biology and Health Education in XII grade in order to form an environmental culture among students. The application of school debate as a part of interactive methods corresponding to the objectives of environmental education and upbringing of a selected methodological unit of the 'Sustainable development - strategy for preserving life on Earth' is presented, and options for its application in a specific stage of the macro structure of the lesson are proposed. The results of a questionnaire, conducted with students to explore their opinions on the application of the debate as a teaching method, are presented. The analysis of the results shows that students are motivated to actively engage in the process of learning Biology and Health Education, accept the debate as an interactive form of learning because they believe that it increases their environmental awareness and develops key skills such as, critical thinking; skills to support sustainable development; teamwork; making decisions on various environmental topics; improves the ability to analyze and evaluate the relationship between man-society-nature. [ABSTRACT FROM AUTHOR]

Published

2024

12. Developing skills for a healthy lifestyle by using interactive methods in teaching Biology and Health Education.

Author

Davidova, Rositsa and Valcheva, Irena

Subjects

BIOLOGY teachers, BIOLOGY education, BIOLOGY students, HEALTH education, STUDENT development

Abstract

The aim of the article is to present the results of using interactive methods in the teaching of Biology and Health Education to 7th grade students for developing skills for a healthy lifestyle. The discussion is based on the topics: "The role of prokaryotic organisms in nature and their importance for man", "The role of unicellular eukaryotic organisms in nature and their importance for man", and "Talus plants. Seaweed". The discussion is supported by fragments of lessons in which interactive methods are used – the method of associations through creating mind maps, discussion, case study, and role play. As a result of using of interactive methods, students develop key competencies for maintaining their own health and the health of society as a whole. [ABSTRACT FROM AUTHOR]

Published

2024

13. A critical reflection on the affordances of web 3.0 and artificial intelligence in life sciences education.

Author

Mnguni, Lindelani

Subjects

WEB 3.0, ARTIFICIAL intelligence, LIFE science education, BIOLOGY education, CAREER development

Abstract

Life Sciences Education has become increasingly important in today's rapidly changing world, as it equips students with the knowledge and skills needed to tackle complex global challenges in various biology fields. With the emergence of Web 3.0 and Artificial Intelligence (AI), numerous opportunities exist to revolutionize Life Sciences Education and enhance student learning. However, integrating these technologies into traditional teaching methods poses significant challenges. This paper aims to explore the opportunities and challenges of Web 3.0 and AI in Life Sciences Education and provide recommendations for successful integration. The opportunities of Web 3.0 and AI in Life Sciences Education include enhanced personalized learning, increased engagement, access to vast amounts of data, and innovative assessment strategies. However, ethical concerns related to AI, integration with traditional teaching methods, training and professional development for educators, and cost and accessibility issues are among the challenges. The paper also provides case studies of successful implementation and recommendations for addressing ethical concerns, professional development, funding and accessibility, and collaboration between educators and technology experts. The paper concludes with implications for future research and practice in Life Sciences Education. [ABSTRACT FROM AUTHOR]

Published

2023

14. Investigation of potential gender bias in the peer review system at Reproduction.

Author

Biolková, Marie, Moore, Tom, Schindler, Karen, Swann, Karl, Vail, Andy, Flook, Lindsay, Dick, Helen, Fitzharris, Greg, Price, Christopher A., and Spears, Norah

Subjects

SEX discrimination, MALE authors, ACQUISITION of manuscripts, BIOLOGY education, LIFE science education

Abstract

This study examined whether publication outcome was affected by the gender of author, handling associate editor (AE), or reviewer, and whether there was gender bias in reviewer selection, in the journal Reproduction. Analyses were carried out on 4289 original research manuscripts submitted to the journal between 2007 and 2019. Both female and male AEs appointed more male reviewers than female reviewers, but female AEs were significantly more likely to appoint female reviewers than male AEs were (p < 0.001). When examining the gender of either first or last author manuscripts, those with female authors that were reviewed by female reviewers received better scores than those with male authors that were reviewed by female reviewers (p < 0.05): where the reviewer was male, no such effect was observed. Acceptance rates of manuscripts were similar for both female and male authors, whether first or last, regardless of AE gender. Overall, there was no significant correlation between gender of first or last author, or of AE, on the likelihood of acceptance of a research paper. These data suggest no bias against female authors during the peer review process in this reproductive biology journal. [ABSTRACT FROM AUTHOR]

Published

2023

15. Classroom Response Systems: Effects on the Critical Analysis Skills of Students in Introductory Science Courses.

Author

Adams, Cindy Chesworth and Columba, Lynn

Subjects

BIOLOGY education, STUDENTS, PERSONS, EDUCATION, SCIENCE students

Abstract

College instructors often teach scientific thinking by asking students to review and analyze a primary research article. The main purpose of this study was to explore how classroom response systems (CRS) could help impact the quality of written analysis papers submitted for this assignment by students taking 100-level biology courses at a medium-sized suburban, two-year college in the northeastern United States. Students in all participating course sections received written instructions on five key elements of critical analysis (CA) to include in scientific study analysis papers. Classroom instruction on recognizing these key elements in primary research papers was provided either via CRS or via an instructor-facilitated classroom discussion enhanced by the same PowerPoint presentation. A rubric, designed specifically for this assignment, was validated prior to its use in this study. Fifty students participated in the study, and those who received the CRS intervention achieved significantly higher CA scores for identifying implications of study findings, while the group that received only written instructions achieved significantly higher CA scores for discussing the credibility of the references used by the authors in planning the critiqued study. The implications of this study are discussed along with ideas for future research. [ABSTRACT FROM AUTHOR]

Published

2014

16. Moralistic Science: Socio-Cultural Norms about Sexuality in Indian Biology Education.

Author

Jose, Panchami, Chunawala, Sugra, and Chari, Deepa

Subjects

ETHICS, HUMAN sexuality, SCIENCE, BIOLOGY education, HETERONORMATIVITY

Abstract

This paper takes the position that the discourses of science and morality are not distinct within biology education; rather, they inform each other to produce, discipline, and regulate human sexuality. Our analysis of the medical and moral discussion on sexuality in a secondary school science textbook (the 12th standard National Council for Educational Research and Training textbook), along with insights from interviews with teachers, reveals that the texts portray a romanticized notion of sex that is limited to a monogamous heterosexual relationship. In the first part of the paper, we analyze how the biology textbook discusses "safer sex" in the limited context of sexually transmitted diseases and how scientific knowledge produces specific sexual subjectivities and categories. In our view, the portrayal of "normal sex" in the textbook is valueladen and not inconsequential. We also examine the discursive devices employed by the textbook to assert what is considered "culturally appropriate." The second part of the paper focuses on interviews with three biology teachers from Keralam, India. Discourse analysis is used as a methodology to explore how teachers occasionally use scientific and moral arguments interchangeably. We discuss some examples where teachers use cultural and moral ideals to justify the scientific claims in the textbook. For instance, when the textbook focuses on how "promiscuity" produces disease, teachers emphasize how promiscuity can lead to sexual anarchy, fatherless children, unsatisfied spouses, and broken relations. We argue that the teachers, along with the textbook, intertwine scientific facts with moral sensibilities, articulating a view of science, technology, and medicine that aligns with socio-cultural norms. [ABSTRACT FROM AUTHOR]

Published

2024

17. Socio-Economically Disadvantaged Male Students' Hesitancy to Study Biology in Ireland: Factors Effecting Intent in the Transition to Upper Secondary School.

Author

Kealy, Carmen, McCauley, Veronica, and Flynn, Paul

Subjects

SCIENTIFIC knowledge, HESITATION, PLANNED behavior theory, SECONDARY schools, SCIENCE education, VOCATIONAL guidance, TEACHER development

Abstract

While it is evident that Ireland has the ambition to widen access to higher education, there are challenges; especially regarding the decision-making process of socio-economically disadvantaged youth when selecting subjects for transition into higher education. This is of particular concern when there are abundant science-related courses in higher education, as well as careers, which are fundamental to the global economy, and a cohort of Ireland's youth is disadvantaged in choosing this pathway. National statistics highlight the disproportionate participation rate across genders in upper secondary school science education. Extensive research has been invested in exploring supporting female access into male-dominated science fields (e.g., physics) but less so regarding male access into female-dominated science fields (e.g., biology) to achieve gender equity. Thus, this paper uses the Theory of Planned Behaviour as a theoretical framework to examine the possible psychosocial elements affecting the decision-making process of socio-economically disadvantaged male students attending DEIS schools in the Republic of Ireland and their intent to study biology as a subject at the upper secondary school level. Data collected from 344 secondary school-level students from 20 schools across nine Irish counties, and subsequently descriptively analysed, revealed that male students were considerably less likely than female students to choose biology at upper secondary level education. Many male students expressed anxiousness and hopelessness when evaluating the study of biology. Teachers were identified as lead influencers and self-efficacy was highlighted as a significant factor in male affinity to the subject. Finally, higher levels of female students' intent to study biology at upper second level suggested the familial influence of parents and wider family contributes to their overall perspective on the relevance of science to their future prosperity. Considering the various factors influencing intent, the authors suggest that a targeted pedagogical intervention that includes the promotion of self-efficacy; male student mastery experiences through assessment; emphasis on scientific knowledge; and raising the awareness of the various career pathways that studying biology affords could ameliorate this trend amongst teenage males. Additionally, targeted messaging for parents and the wider family as well as continuous professional development for teachers should be integral to any work conducted in this area. [ABSTRACT FROM AUTHOR]

Published

2024

18. Editorial.

Author

Hibbert, Kathryn and Alvunger, Daniel

Subjects

MOBILE learning, AFFECTIVE education, BIOLOGY education

Abstract

An introduction to the topics discussed within the issue is presented, including the incorporation of digital learning experience into the curriculum, interaffective learning experiences in higher vocational education curriculum and visual representation in senior high school biology assessment.

Published

2023

19. Meeting-At-A-Glance.

Subjects

PLANT anatomy, BIOLOGY education, PLANT evolution

Published

2021

20. EXPLORING COMPLEX BIOLOGICAL PROCESSES THROUGH ARTIFICIAL INTELLIGENCE.

Author

Rahioui, Fatima, Tahri Jouti, Mohammed Ali, and El Ghzaoui, Mohammed

Subjects

ARTIFICIAL intelligence, MACHINE learning, VIRTUAL classrooms, BIOLOGY education, INDIVIDUALIZED instruction

Abstract

Artificial intelligence (AI) is now affecting all aspects of our social lives. Without always knowing it, we interact daily with intelligent systems. They serve us invisibly. At least that's the goal we assign to them: to make our lives better, task by task. Artificial intelligence has the potential to make biology education more engaging, personalized, and effective by providing students with interactive simulations, personalized learning experiences, and other tools that help them understand complex biological concepts. In this paper, we discuss the integration of AI into the virtual classroom, which significantly enhances student learning experiences in various ways. The study shows that an effective integration of technology into the virtual classroom requires a thoughtful approach that aligns with educational goals and the specific needs of students. In fact, interactive simulations can help make biology more engaging and memorable for students. Besides, personalized learning AI algorithms can help biology students receive a more tailored and effective learning experience, helping them to better understand the course material and develop a deeper appreciation for the natural world. In this work, we will discuss the use of AI to enhance interactive simulation-based cellular processes, with additional application in anatomy, physiology, and ecology teaching. Moreover, this paper discusses how AI could be used to analyze student data and propose personalized learning using adaptive assessments, content recommendations, and data sciences. This paper illustrates examples of AI algorithms that could be useful for teaching biology. [ABSTRACT FROM AUTHOR]

Published

2024

21. A competency-bazed approach in the environmental education of the students - future biology teachers.

Author

Doychinova, Klaida

Subjects

ENVIRONMENTAL education, BIOLOGY teachers, BIOLOGY students, BIOLOGY education, ARTIFICIAL intelligence

Abstract

The contemporary trends of globalization and enhanced international cooperation, as well as the aim at building a knowledge-based society, have put higher education institutions in an ever-increasing public interest. The fast-developing digitalization, the implementation of artificial intelligence and especially the generational characteristics of the learners determine the need for new approaches in teaching and learning tailored to individual needs. One of them is the competence approach, which represents one of the leading pedagogical concepts of the 21st century and is the basis for the formation of ecological competence. Its application in pedagogical practice is a serious challenge for both teachers and students – future Biology teachers. The article analyses on a structural and functional basis the components of environmental competence. A theoretical model for the formation of ecological competence in the discipline "Forms and methods of ecological education and upbringing in Biology education", included in the curriculum of Master degree students is presented. The model is aimed at updating the vision of the learning process in the relevant discipline, the main part of which is environmental education. [ABSTRACT FROM AUTHOR]

Published

2024

22. Expansive Learning During Pandemic Teaching: Collaborative Digital Textbooks in Secondary Biology Courses.

Author

Nourie, Kristi

Subjects

COVID-19 pandemic, DIGITAL technology, ELECTRONIC textbooks, SECONDARY education, BIOLOGY education

Abstract

This paper presents partial findings from a larger mixed methods case study that explored a high school biology teaching team's pedagogical approaches to engaging with electronic textbooks (e-textbooks) in face-to-face, online, and hybrid teaching environments during the Covid-19 pandemic. Despite a growing body of literature on electronic textbooks, most researchers have used quantitative methods to understand users' implementation of and satisfaction with this technology, and have done so in higher education settings. Largely absent from the literature are accounts of how different affordances associated with e-textbooks are employed as pedagogical tools in general and their use in secondary schools more specifically. Conducted within the framework of cultural-historical activity theory, the project captured evidence of the tensions associated with three cycles with regard to the teachers' use of the e-textbook as classes moved from one learning environment to another. Data collection was conducted over an eleven month period that spanned two school years; data were generated through close- and open-ended questionnaires as well as document analyses. Two of the three documents occurred naturally in different phases of the teaching process while the third provided the historical context out of which one of the others developed and the social context in which it had been situated. The preliminary findings presented in this paper suggest that technical competence and content knowledge do not guarantee pedagogical prowess with education technologies, even those that teachers have used for years, as was the case in this study. The findings further suggest that there is a need for robust pedagogical practices that support the use of e-textbooks and their tools beyond replicating the use of physical textbooks. Such practices did not develop as a result of familiarity with the e-textbook or changes to the environment that positioned the e-textbook for a more prominent role, suggesting a need for specialised training. [ABSTRACT FROM AUTHOR]

Published

2021

23. The Effect of Web-Based Biology Learning Environment on Academic Performance: A Meta-analysis Study.

Author

Vekli, Gülşah Sezen and Çalik, Muammer

Subjects

CLASSROOM environment, ACADEMIC achievement, PERFORMANCE theory, BIOLOGY education, EXTREME value theory, INTERNET in education

Abstract

The purpose of this study was to investigate the effectiveness of web-based biology learning environment in improving academic performance via a meta-analysis. In looking for the studies on web-based biology learning environment, several keyword patterns from the abstracts (e.g., Pattern 1: web-based learning and biology education) were recruited in well-known databases (e.g., ERIC, EBSCO, Springer Link). Finally, 22 papers were apparent for the current meta-analysis examining the effect of web-based biology learning environment on academic performance. All statistical data from the studies were initially inserted into an Excel sheet and then imported into comprehensive meta-analysis (CMA) statistics software to calculate Hedges' g values. The overall effect-size of web-based biology learning environment pointed to a medium effect. Also, it was found that the educational level and type of experimental design, as moderator variables, did not positively affect the students' academic performance along with web-based biology learning environment. In light of the findings, it can be concluded that web-based biology learning environment is somewhat effective at improving the students' academic performance. The current study recommends that further studies should be undertaken to deepen the implementation processes of the studies with extreme values and explore what makes them unique. [ABSTRACT FROM AUTHOR]

Published

2023

24. Don't Reinvent the Wheel: Capitalizing on What Others Already Know about Teaching Topics in Evolution.

Author

ZIADIE, MICHELLE A. and ANDREWS, TESSA C.

Subjects

EVOLUTIONARY theories, PEDAGOGICAL content knowledge, NATURAL selection, BIOLOGY education, BIOLOGY students

Abstract

What knowledge do you need to be an effective instructor? One key type of knowledge is pedagogical content knowledge (PCK), which includes awareness of how students are likely to think about a topic and where they will struggle as they learn that topic. We propose PCK as a valuable framework for reflecting on your own knowledge for teaching topics in evolution. We have created a searchable file that uses PCK as a framework to organize over 400 peer-reviewed papers from 40+ journals to give you better access to relevant resources for teaching evolution to undergraduates and advanced high school students. None of us have time to read 400 papers to inform our teaching, so we provide tips to maximize your use of this collective knowledge in the time you have available. We have written these to be useful to instructors across career stages. [ABSTRACT FROM AUTHOR]

Published

2019

25. Systems thinking in biology education research bibliometric analysis.

Author

Taufik, Leo Muhammad, Widodo, Ari, Samsudin, Achmad, Hasanah, Lilik, Yuliani, Galuh, Iryanti, Mimin, Kasi, Yohanes Freadyanus, Shidiq, Ari Syahidul, and Rusyati, Lilit

Subjects

BIBLIOMETRICS, BIOLOGY education, SYSTEMS theory, EDUCATION research, SYSTEMS biology, WEB databases, SYNTHETIC biology

Abstract

The goal of this study is to establish how research on the issue of systems thinking in biology education has progressed over the last ten years, from 2011 to 2020. The research method combines qualitative research with a review of the literature as we know as literature review. Data was gathered by searching Scopus journals for 29 citation publications published between 2011 and 2020. VOSviewer were used to analyse the data. The findings revealed that 29 publications published articles on systems thinking in biology education from 2011 to 2020. The articles reviewed for this study were only collected from the Scopus database, therefore they did not have similar data. As a result, there are some research gaps in biology education to be study in future about systems thinking. For further results, study must employ a comparative analytical strategy that includes the Scopus database and the Web of Sciences (WoS). [ABSTRACT FROM AUTHOR]

Published

2022

26. Analysis of Non-Parametric Qualities of Undergraduate Biology Examination Questions in a Nigeria University: Implications for Quality Assurance and Students' Learning Outcome Tajor Ago?

Author

Mustapha, M. T.

Subjects

UNDERGRADUATE education, EDUCATIONAL tests & measurements, QUALITY assurance, BIOLOGY education, TEST validity

Abstract

This study was carried out to ascertain non-parametric qualities of past undergraduate biology examinations questions in one Nigeria university. The study employed ex-post facto research design and involved document analysis procedure. It surveyed one hundred and seven examination question papers with a total One thousand one hundred and ninety eight mainly essay and sub-essay questions for a period of five years examination sessions from 2012/2013 to 2017/2018 but excluded 2016/2017. Using descriptive content analysis method, the study analysed the content validity and the cognitive content of the biology examination papers. Descriptive statistics, mainly percentage was used to determine the proportion of the questions set on the content of each course in context of the National Universities Commission (NUC), Abuja, Nigeria, Benchmark for Minimum Academic Standard (BMAS, 2007) and the in-use university academic prospectus undergraduate biology curriculum. The analysis revealed that 80% of the content of the biology curriculum was tested but the examination tested more of lower order cognitive abilities (knowledge and comprehensive) which constituted 76.11% with deviation +36.11, than higher order questions (23.85%) with application/problem solving constituting only1.83% The overall finding calls for further improvement in the qualities of the examination questions. Appropriate recommendations that could lead to improvement of the content validity of the examinations questions, increasing proportion of problem solving/application and broad range of higher level analytical, creative and evaluative thinking questions were made. It was concluded that the examination question papers could be considered suitable assessment tool that satisfy content validity but low towards the attainment of higher cognitive objectives of biology of the undergraduate program. [ABSTRACT FROM AUTHOR]

Published

2020

27. The Disappearance of Natural History, Fieldwork, and Live Organism Study from American Biology Teacher Education

Author

Entress, Cole

Published

2023

28. 'Biology is easy, physics is hard': Student perceptions of the ideal and the typical student across STEM higher education.

Author

Wong, Billy, Chiu, Yuan-Li Tiffany, Murray, Órla Meadhbh, Horsburgh, Jo, and Copsey-Blake, Meggie

Subjects

BIOLOGY education, STEM education, HIGHER education, SOCIAL dominance, UNDERGRADUATES

Abstract

This paper draws upon in-depth interviews with 89 students from two UK universities to explore how students from Science, Technology, Engineering and Mathematics (STEM) degrees describe the ideal as well as the typical student in their respective disciplines. We provide a comparative insight into the similarities and differences between disciplinary identities based on student perceptions. More specifically, we consider how undergraduates from biology, engineering, mathematics and physics construct the ideal and the typical student in their degree, highlighting the popular discourses and desirable traits that appear to characterise students in these disciplines. In addition to a masculinised construction of students in engineering, mathematics and physics, we found a social hierarchy within STEM degrees where biology was perceived as the easier STEM subject. We conclude with a discussion of the impact of such hierarchies on student identities in STEM, and potential implications for equality, diversity and inclusion. [ABSTRACT FROM AUTHOR]

Published

2023

29. The Effectiveness of an Interdisciplinary Approach in Biology Teaching in Primary School: A Comparison With Monodisciplinary Approach.

Author

Županec, Vera, Lazarević, Tihomir, Sekulić, Vanja, and Pribićević, Tijana

Subjects

INTERDISCIPLINARY approach to knowledge, BIOLOGY education, CONTROL groups, PROFESSIONAL education, DATABASES

Abstract

Interdisciplinary teaching and learning is an approach that synthesizes the curricular objectives and methods of two or more disciplines or subjects focusing on a specific topic or issue. While it is being increasingly implemented in universities, at lower levels of education there are still countries where science subjects are taught and learned fragmentarily. To assess the significance of the interdisciplinary approach in primary school biology teaching, the paper aims at an experimental verification of the effectiveness of this method in relation to the quality and retention of student knowledge, compared to the monodisciplinary approach to teaching and learning biology. The paper also describes a scenario for teaching a topic in which biological and geographical contents correlate. The study applied a pedagogical experiment with parallel groups. In total, 180 students attending two primary schools in the city of Novi Sad participated in the experiment and were divided into an experimental and a control group. The findings suggest that the interdisciplinary approach improved the quality and retention of student knowledge. The experimental group was more successful in completing tasks that required comprehension and practical application of knowledge. The study thus emphasizes the need for a professional curriculum development that would enhance the interdisciplinary correlation of various disciplines. [ABSTRACT FROM AUTHOR]

Published

2023

30. Representing biodiversity in science museums: perspectives from an STSE lens.

Author

Marandino, Martha, Pedretti, Erminia, and Iannini, Ana Maria Navas

Subjects

SCIENCE museums, MUSEUM studies, LENSES, ENVIRONMENTAL ethics, HUMAN beings, BIODIVERSITY, ACQUISITION of data

Abstract

This paper explores how biodiversity is represented at the Life in Crisis Schad Gallery of Biodiversity (Royal Ontario Museum, Toronto). Using theoretical perspectives related to science, technology, society and environment (STSE), and biodiversity in science museums, we conducted a qualitative case study of the exhibit. Data collection included records of the exhibit through photos and videos; field notes; in-depth interviews with two museum professionals; and collection of documents and artifacts. The first analytical stage, based on inductive analysis, revealed that biodiversity is being represented as an 'unknown' topic, a loss and an unfinished narrative. The second analytical stage, deductively supported by the STSE framework, reflected a prominent logical reasoning angle, through which biological perspectives are routinary reflected in the exhibit. Our analyses also revealed hints of environmental ethics, stewardship, socio-ecojustice and value-centered views often associated in the exhibit with worldwide environmental issues and the idea of generic human beings. Our study suggests that the STSE lens can provide a framework to support the work of science museums around topics like biodiversity. It also highlights the importance of bringing local perspectives to the exhibit content, engaging with critical pedagogical strategies and amplifying the concept of sociobiodiversity. [ABSTRACT FROM AUTHOR]

Published

2023

31. “Black Boxes, full of them”: Biology Teachers’ Perception of the Role of Explanatory Black Boxes in Their Classroom

Author

Livni Alcasid, Gur Arie and Haskel-Ittah, Michal

Published

2024

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

Author

Smith, Kevin G. and Paradise, Christopher J.

Subjects

SCIENCE in literature, SCIENTIFIC literature, ACTIVE learning, BIOLOGY education, MOLECULAR biology

Abstract

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 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. The CREATE approach and other evidence‐based pedagogical best practices lead to strong learning gains and more inclusive learning environments. [ABSTRACT FROM AUTHOR]

Published

2022

33. Authentic Research Investigations of a Controversial Question: Can Plants Learn?

Author

Shin, Jessica, Serbe, Étienne, and Gage, Gregory J.

Subjects

PEAS, SENSITIVE plant, BIOLOGY students, CHEMICAL laboratories, SCIENTIFIC community, BIOLOGY education

Abstract

Can plants learn? This question stirs up controversy and speculation in the classroom, as it is currently doing in the scientific community at large. We leverage the controversy to ask students to contribute tu the greater body of knowledge by using scient(fic principles in creative research projects. Ninth-grade honors biology students became familiar with original research and the surrounding controversy, and performed experiments testing two distinct forms Of plant learning in Pisum sativum (pea) and Mimosa pudica (sensitive plant). [ABSTRACT FROM AUTHOR]

Published

2021

34. Identification of students' metacognition in designing higher order thinking skill questions.

Author

Nura, Amalia, Saefudin, and Nurjhani, Mimin

Subjects

*METACOGNITION, *SEMI-structured interviews, *BLOOM'S taxonomy, *BIOLOGY education, *BIOLOGY students

Abstract

Students who are aware of their cognition can control and show better performance than students who are not metacognition that includes cognition about how to design the assessment to measure understanding of concepts or student's higher order thinking skill before and after learning in the class. This paper describes student's metacognitive awareness when designing HOTS questions based on Bloom's taxonomy revised. This study involved 56 undergraduate students in the Biology Education Program at UIN Ar-raniry. The students' metacognitive awareness in designing HOTS questions was measured by Metacognitive Awareness Inventory (MAI), the rubric was utilized and the task of designing HOTS questions was collected to measure student's skill in designing HOTS questions. Then, conducted semi structured interviews to collect rich qualitative data from students who get a low and high grade. The result showed that many students not only lack metacognition, limited knowledge of metacognitive regulation, or limited ability to implement them but also lack knowledge of designing HOTS questions which can impact their quality questions. [ABSTRACT FROM AUTHOR]

Published

2024

35. Leveraging complexity frameworks to refine theories of engagement: Advancing self‐regulated learning in the age of artificial intelligence.

Author

Hilpert, Jonathan C., Greene, Jeffrey A., and Bernacki, Matthew

Subjects

AUTODIDACTICISM, ARTIFICIAL intelligence in education, BIOLOGY education, STEM education, POSTSECONDARY education

Abstract

Capturing evidence for dynamic changes in self‐regulated learning (SRL) behaviours resulting from interventions is challenging for researchers. In the current study, we identified students who were likely to do poorly in a biology course and those who were likely to do well. Then, we randomly assigned a portion of the students predicted to perform poorly to a science of learning to learn intervention where they were taught SRL study strategies. Learning outcome and log data (257 K events) were collected from n = 226 students. We used a complex systems framework to model the differences in SRL including the amount, interrelatedness, density and regularity of engagement captured in digital trace data (ie, logs). Differences were compared between students who were predicted to (1) perform poorly (control, n = 48), (2) perform poorly and received intervention (treatment, n = 95) and (3) perform well (not flagged, n = 83). Results indicated that the regularity of students' engagement was predictive of course grade, and that the intervention group exhibited increased regularity in engagement over the control group immediately after the intervention and maintained that increase over the course of the semester. We discuss the implications of these findings in relation to the future of artificial intelligence and potential uses for monitoring student learning in online environments. Practitioner notesWhat is already known about this topic Self‐regulated learning (SRL) knowledge and skills are strong predictors of postsecondary STEM student success.SRL is a dynamic, temporal process that leads to purposeful student engagement.Methods and metrics for measuring dynamic SRL behaviours in learning contexts are needed.What this paper adds A Markov process for measuring dynamic SRL processes using log data.Evidence that dynamic, interaction‐dominant aspects of SRL predict student achievement.Evidence that SRL processes can be meaningfully impacted through educational intervention.Implications for theory and practice Complexity approaches inform theory and measurement of dynamic SRL processes.Static representations of dynamic SRL processes are promising learning analytics metrics.Engineered features of LMS usage are valuable contributions to AI models. [ABSTRACT FROM AUTHOR]

Published

2023

36. AN ASSESSMENT OF THE CHALLENGES FACED BY GRADE 11 AND 12 TEACHERS IN THE TEACHING OF BIOLOGY IN SELECTED SCHOOLS IN THE KATIMA MULILO EDUCATION CIRCUIT.

Author

Ayiawung, Mirabel Moakong, Ncube, Dingindawo, and Nkengbeza, David

Subjects

BIOLOGY education, BIOLOGY teachers, BIOLOGY students, QUALITATIVE research, TEXTBOOKS

Abstract

The aim of this paper was to investigate the challenges, faced by grade 11 and 12 teachers in the teaching of Biology in selected schools. The training of science teachers after independence till today has not succeeded in fully addressing the challenges teachers faced in the teaching of Biology. The study was guided by researchers like Lebata and Mudau [1], Makeleni, and Sethusha [2] who discovered that teachers faced challenges in the teaching of Biology because of the lack of well-equipped laboratories, limited prescribed textbooks, and overcrowded classes. The researchers use a case study design and a qualitative research approach in executing this study. A qualitative research approach was used in this study. The major findings include the lack of well-equipped laboratories and libraries, which have hindered the teaching and learning of Biology in the selected schools. The lack of adequate prescribed textbooks and overcrowded classrooms further hindered the teachers' ability to impart knowledge to their learners. Large Biology syllabus content and learners' poor attitude among others, are other challenges hindering the quality of teaching in the selected schools. We recommend that the Ministry of Education should build modern libraries and equip them with computers and internet connectivity, textbooks, and e-learning tools to help learners and teachers inculcate a culture of reading and studying. Teachers should introduce shared personal practice, and collective learning and application as used in professional learning communities. Teachers and principals should request for sponsors to build well-equipped laboratories and libraries for the schools. Teachers and principals can also request to temporally use the laboratories in other schools that have the needed facilities. [ABSTRACT FROM AUTHOR]

Published

2023

37. The relationship between biological function and teleology: Implications for biology education.

Author

Trommler, Friederike and Hammann, Marcus

Subjects

BIOLOGY education, TELEOLOGY, PHENOMENOLOGICAL biology, BIOLOGY students, POTENTIAL functions

Abstract

This paper explicates the relationship between biological function and teleology by focusing not only on difference but also on conceptual overlap. By doing so, this paper is meant to increase awareness of the misleading potential of biological function and the educational necessity to explicate the meaning of biological function to biology students to prevent them from drawing inadequate teleological conclusions about biological phenomena. The conceptual overlap between teleology and biological function lies in the notion of telos (end, goal). Biologically inadequate teleology assumes that teloi (ends, goals) exist in nature and that natural mechanisms are directed towards teloi. Such inadequate teleological assumptions have been documented in students' reasoning about biological phenomena. Biological function, however, does not involve the assumption that teloi exist in nature. Rather, biologists use the notion of telos as an epistemological tool whenever they consider a structure or mechanism functional because they view this structure or mechanism as a means to an end (telos). Whereas for biologists such means-ends conceptualizations represent a productive tool for identifying biological phenomena functionally, for students, such means-ends considerations can be misleading. Therefore, this paper explicates how far the concept of biological function involves reference to ends (teloi) and how it relates to biological mechanisms. The paper draws implications on how to prevent students from slipping from functional reasoning into inadequate teleological reasoning. [ABSTRACT FROM AUTHOR]

Published

2020

38. Animating the Primary Literature for Students and Other Curious People.

Author

Scholl, Joshua P., Ryan, Will H., and Mutz, Jessie

Subjects

BIOLOGY education, EDUCATIONAL technology, ANIMATED film production & direction, ENVIRONMENTAL education, ECOLOGY, ECOLOGICAL research

Abstract

The increasing availability of digital technology in biology classrooms has facilitated an on-going transition from traditional lectures to the use of multimedia tools such as videos and interactive software. While most existing educational multimedia focus on illustrating textbook concepts, few address the process of science by linking those concepts with the researchers and their studies as reported and received in the primary literature. With the support of a 2015 ESA Centennial grant, we teamed up with students and university-affiliated artists to create four original animated videos of classic ecology papers of the last century. The videos were showcased at the 2015 Centennial Meeting Sunday Plenary and continue to be available for free viewing and sharing at http://ecomotionstudios.com/. Since their debut, the videos have received over 8000 views, have been employed as educational tools in undergraduate classrooms, and have been promoted as outreach tools by science media outlets including on the homepage for the journal, The American Naturalist. Here, we argue that the potential for artistry, narrative structure, and connection to the research process make animation an invaluable and underutilized medium for sharing primary literature with students and public audiences. We envision the future of ecology as one where decreasing video production costs and the opportunities for interdisciplinary collaboration available at universities lead to increased production of visual media to supplement education and broadly communicate primary ecological research. [ABSTRACT FROM AUTHOR]

Published

2016

39. New biological rationalities in education.

Author

Gulson, Kalervo N. and Baker, Bernadette M.

Subjects

BIOLOGY education, SOCIAL theory

Abstract

An introduction is presented in which the editor discusses relationship between biology and education, biological rationalities and social theory.

Published

2018

40. Plant blindness and sustainability.

Author

Thomas, Howard, Ougham, Helen, and Sanders, Dawn

Subjects

SUSTAINABILITY, COMMUNITY-school relationships, INTERDISCIPLINARY education, BIOLOGY education, PLANTS

Abstract

Purpose: The present paper aims to examine the concept of "plant blindness" in the context of current sustainability debates. "Plant blindness" was the term introduced in 1999 by the botanists and educators James H Wandersee and Elisabeth E Schussler to describe what they saw as a pervasive insensitivity to the green environment and a general neglect of plants on the part of biology education. Design/methodology/approach: The fundamental importance of plants for life on Earth and the socio-educational challenges of redacted awareness of this importance are considered. Also, the diverse physiological, psychological, philosophical, cultural and geopolitical origins and consequences of indifference to plants in relation to aspects of sustainability agendas are examined with special reference to education. Findings: An examination of the outcomes of a range of research and practical initiatives reveals how multidisciplinary approaches to education and public engagement have the potential to address the challenge of "plant blindness". The need for these opportunities to be reflected in curriculums is not widely appreciated, and the socio-economic forces of resistance to confronting plant neglect continue to be formidable. Originality/value: Plant blindness is a relatively new field of research, and the full breadth of its implications are only gradually becoming apparent. If the present paper contributes to positioning plants as an essential element in sustainability education and practice, it will have met its objective. [ABSTRACT FROM AUTHOR]

Published

2022

41. Machine Learning and Hebrew NLP for Automated Assessment of Open-Ended Questions in Biology

Author

Ariely, Moriah, Nazaretsky, Tanya, and Alexandron, Giora

Published

2023

42. One Health education for criticality on vaccination in teacher training

Author

Inés Martínez-Pena, Blanca Puig, and Araitz Uskola

Subjects

One Health, vaccines, criticality, critical ignoring, biology education, teacher training, Public aspects of medicine, RA1-1270

Abstract

IntroductionVaccines are the basis of health of our communities since they prevent severe infectious diseases. However vaccination rates continue to decrease due to the spread of misinformation about their side effects, which enhances vaccine hesitancy and puts at risk public health. Introducing vaccines from the One Health approach can help to develop an integral understanding of their role and to apply critical ignorance as part of criticality to avoid vaccine hesitancy and raise trust in science. This paper presents a design on vaccination for secondary-education teacher training developed toward this goal.MethodsThe design presented in this paper draws from previous studies on critical thinking, on vaccine rejection, and the One Health approach on other health issues in Secondary Education. The focus of this design is engaging secondary-education pre-service teachers in the practice of critical ignorance and criticality to assess diverse pieces of information on vaccination from the One Health approach.ResultsThis study discusses the design principles and the activities of an original design that aims to provide Secondary Education teachers with some tools to introduce critical ignorance and criticality for addressing misinformation on vaccines by using the One Health approach.DiscussionIf secondary science teachers are going to successfully confront misinformation on vaccination in their science instruction, we need to develop and test designs and approaches that prepare them for this purpose. Critical ignorance plays a central role in managing misinformation; thus, such instruction should engage future teachers in critical evaluation of information on vaccination, as well as in the application of the One Health approach to take responsible actions.

Published

2024

43. A Model for Teaching About the Nature of Science in the Context of Biological Education.

Author

Inêz, Tiago Guimarães, de Lacerda Brito, Breno Pascal, and El-Hani, Charbel N.

Subjects

BIOLOGY education, TEACHING methods, CYTOLOGY, TEACHER attitudes, TEACHER effectiveness

Abstract

It has been shown that many people do not understand how scientific knowledge is built and accepted, even after scientific education. One way to deal with this problem is through teaching about the Nature of Science (NOS). NOS can be understood as a pedagogical construct aiming to foster the understanding of the main characteristics of scientific work. Recently, several researchers have advocated that we should consider pluralism within science when teaching about NOS. Accordingly, there have been efforts to develop ways of promoting instruction on NOS considering the specificity of distinct scientific fields. Aligned with this perspective, this paper aims to put forward a model for teaching NOS in the context of biological education. This model, named "Integrative Model for Teaching NOS in Biological Education" (IM-NOSBIO), is based on three pillars. The first is the Family Resemblance Approach to Nature of Science (FRA), developed by Erduran and Dagher. The second consists in the Conceptual Framework of Biology proposed by Scheiner. The third is the Pragmatic Conception of Models as Epistemic Artifacts put forward by Knuuttila. We propose that IM-NOSBIO has the potential to promote teaching and learning about different aspects of scientific knowledge and practice by taking advantage of how they present themselves in biological sciences teaching. To illustrate this potential, we offer an example of how this model can be used for teaching about certain aspects of NOS based on the history of the cell theory. [ABSTRACT FROM AUTHOR]

Published

2023

44. Formative assessment strategies for students' conceptions—The potential of learning analytics.

Author

Stanja, Judith, Gritz, Wolfgang, Krugel, Johannes, Hoppe, Anett, and Dannemann, Sarah

Subjects

*FORMATIVE tests, *ACADEMIC achievement, *LEARNING ability, *RATING of students, *BIOLOGY education, *COMPUTER science education, *YOUNG adults, *HIGHER education

Abstract

Formative assessment is considered to be helpful in students' learning support and teaching design. Following Aufschnaiter's and Alonzo's framework, formative assessment practices of teachers can be subdivided into three practices: eliciting evidence, interpreting evidence and responding. Since students' conceptions are judged to be important for meaningful learning across disciplines, teachers are required to assess their students' conceptions. The focus of this article lies on the discussion of learning analytics for supporting the assessment of students' conceptions in class. The existing and potential contributions of learning analytics are discussed related to the named formative assessment framework in order to enhance the teachers' options to consider individual students' conceptions. We refer to findings from biology and computer science education on existing assessment tools and identify limitations and potentials with respect to the assessment of students' conceptions. Practitioner notesWhat is already known about this topic Students' conceptions are considered to be important for learning processes, but interpreting evidence for learning with respect to students' conceptions is challenging for teachers.Assessment tools have been developed in different educational domains for teaching practice.Techniques from artificial intelligence and machine learning have been applied for automated assessment of specific aspects of learning.What does the paper add Findings on existing assessment tools from two educational domains are summarised and limitations with respect to assessment of students' conceptions are identified.Relevent data that needs to be analysed for insights into students' conceptions is identified from an educational perspective.Potential contributions of learning analytics to support the challenging task to elicit students' conceptions are discussed.Implications for practice and/or policy Learning analytics can enhance the eliciting of students' conceptions.Based on the analysis of existing works, further exploration and developments of analysis techniques for unstructured text and multimodal data are desirable to support the eliciting of students' conceptions. [ABSTRACT FROM AUTHOR]

Published

2023

45. Automated content analysis as a tool to compare content in sexual selection research with examples of sexual selection in evolutionary biology textbooks: implications for teaching the nature of science.

Author

Jackson, J. Kasi, Fuselier, Linda, and Eason, Perri

Subjects

SEXUAL selection, GENDER role, CONTENT analysis, ANIMAL sexual behavior, TEXTBOOKS, SCIENTIFIC literature

Abstract

Background: We used college-level evolution textbooks to examine the presentation of sexual selection research—a field with ongoing debates related to sex, sexuality and gender identity. Many classic sexual selection concepts have been criticized for androcentrism and other forms of gender-sex bias, specifically for de-emphasizing the female role in reproductive behaviors and over-reliance on gender-sex binaries. These classic concepts are fundamentally captured in the idea that animal reproductive-related behaviors can be grouped in sex roles (e.g. competitive males and selective females). Recently developed alternative concepts provide a more nuanced understanding of the flexibility of sexual and reproductive-related behaviors, stemming in part from growing attention to a broader range of female behavior. To assess whether students are receiving content reflecting these insights, we measured the congruence between textbook content and the scientific literature, using insects as a case study because of the importance of this group in the development of sexual selection theory, its prevalence in current sexual selection research, and the number of insect examples included in textbooks. We first coded textbook content for sexual selection concepts. We used automated content analysis to analyze a database of citations, keywords and abstracts in sexual selection research published between 1990 and 2014, inclusive of the period covered by the textbooks. Results: The textbooks and research literatures prioritized the same taxa (e.g., fruit flies) and sex roles as embodied in classic sexual selection theory. Both the research literature and some textbooks acknowledge androcentrism and other forms of gender-sex bias in classic sexual selection paradigms, especially competitive male and selective female sex roles. Yet, while the research literature included alternative models, textbooks neglected these alternatives, even when researchers had studied both classic and alternative views in the same insect. Conclusions: We recommend using this kind of analysis of textbook content to engage students in a conversation around the social factors that impact knowledge construction, a key part of the epistemological understanding they need for a robust grasp of the Nature of Science and of evolutionary theory. [ABSTRACT FROM AUTHOR]

Published

2024

46. Investigating the dimensions of modeling competence among preservice science teachers: Meta‐modeling knowledge, modeling practice, and modeling product.

Author

Göhner, Maximilian Felix, Bielik, Tom, and Krell, Moritz

Subjects

SCIENCE teachers, BIOLOGY teachers, DIMENSIONS, BIOLOGY education, QUALITY of service, TEACHER education, TEACHERS

Abstract

Worldwide, teachers are expected to engage their students in authentic practices, like scientific modeling. Research suggests that teachers experience challenges when integrating modeling in their classroom instruction, with one explanation that teachers themselves lack the necessary modeling competence. Currently, theoretical conceptualizations structure the modeling competence into three dimensions: meta‐modeling knowledge, modeling practice, and modeling products. While each of these dimensions is well researched on its own and the three dimensions are commonly expected to be highly positively related, studies investigating their specific relationships are widely lacking. Aiming to fill this gap, the present study investigated the meta‐modeling knowledge, modeling practice, and modeling products of 35 secondary preservice biology teachers engaging in a black box modeling task. Data were collected with an established pen‐and‐paper questionnaire consisting of five constructed response items assessing meta‐modeling knowledge and by videotaping the participants engaging in the black box modeling task. Herein, the three dimensions of modeling competence were operationalized as five variables including decontextualized and contextualized meta‐modeling knowledge, complexity, and homogeneity of the modeling processes and a modeling product score. In contrast to our expectations and common assumptions in the literature, significant relationships between the five variables were widely lacking. Only the complexity of the modeling processes correlated significantly with the quality of the modeling products. To investigate this relationship further, a qualitative in‐depth analysis of two cases is presented. Implications for biology teacher education are discussed. [ABSTRACT FROM AUTHOR]

Published

2022

47. How to Teach the Hardy-Weinberg Principle Using Engaging, Non-trivial Evolutionary Scenarios.

Author

Wise, Michael J.

Subjects

HARDY-Weinberg formula, CHI-squared test, POPULATION genetics, BIOLOGY education, GENOTYPES

Abstract

As a foundational evolutionary concept, the Hardy-Weinberg principle should be taught enthusiastically in introductory biology courses. In a companion Perspectives paper, I made the case that students are often given limited or incorrect information on the HW principle due to a lack of mastery or confidence on the part of their teachers. The purpose of this Innovations paper is to identify where errors are most-often made in the set-up and solutions of HW problems. The centerpiece of this paper is a set of six biological scenarios to which students need to apply the HW principle to answer interesting evolutionary questions. I provide explanations for solving the problems (including Excel instructions with formulas to perform chi-square tests), and I identify several teachable moments that are likely to arise in the discussion of the solutions. The use of this problem set and the pedagogical strategy described in this paper significantly improved students' performance on HW problems in my introductory biology class, and I expect that they can benefit other teachers at least as much. [ABSTRACT FROM AUTHOR]

Published

2018

48. An Authentic Research Experience for Undergraduates in the Developmental Biology and Physiology Laboratory Using the Chick Embryonic Heart.

Author

McLAUGHLIN, JACQUELINE S. and PATEL, A.

Subjects

PEDAGOGICAL content knowledge, TEACHER effectiveness, TEACHING methods, BIOLOGY education, BIOLOGY teachers

Abstract

The lab presented in this paper utilizes a proven four-step pedagogical framework (McLaughlin & Coyle, 2016) to redesign a classic Association of Biology Laboratory Education (ABLE) undergraduate lab (McLaughlin & McCain, 1999) into an authentic research experience on vertebrate fourchambered heart development and physiology. The model system is the chicken embryo. Through their research, students are also exposed to the embryonic anatomy and physiology of the vertebrate heart, the electrical circuitry of the developing heart, and the effects of pharmacological drugs on heart rate and contractility. Classical embryological micro-techniques, explantation of the embryo, surgical removal of the beating heart, isolation of the heart chambers, and more advanced tissue culture methods are also conducted. In this laboratory paradigm, students work in pairs to ask their own questions concerning the effects of two human cardiovascular drugs, denopamine? and acebutolol? on both in vivo and in vitro chicken embryonic heart rate and contractility, develop testable hypotheses based on information gathered from relevant scientific literature, devise and carry out a controlled experiment, and present the data in a professional scientific manner pertaining to a topic of clinical significance. [ABSTRACT FROM AUTHOR]

Published

2017

49. Empowering faculty to initiate STEM education transformation: Efficacy of a systems thinking approach.

Author

Stavrianeas, Stasinos, Bangera, Gita, Bronson, Claire, Byers, Steven, Davis, William, DeMarais, Alyce, Fitzhugh, Ginger, Linder, Nalani, Liston, Carrie, McFarland, Jenny, Otto, Joann, Pape-Lindstrom, Pamela, Pollock, Carol, Reiness, C. Gary, and Offerdahl, Erika G.

Subjects

SYSTEMS theory, STEM education, LIFE science education, UNIVERSITIES & colleges, BIOLOGY education

Abstract

Just a decade ago Vision and Change in Undergraduate Biology Education: A Call to Action was released, catalyzing several initiatives to transform undergraduate life sciences education. Among these was the Partnership for Undergraduate Life Sciences Education (PULSE), a national organization commissioned to increase the adoption of Vision and Change recommendations within academic life sciences departments. PULSE activities have been designed based on the recognition that life sciences departments and faculty are embedded within institutions of higher education which, similar to other large organizations, are complex systems composed of multiple, interconnected subsystems. The organizational change research suggests that effecting large-scale changes (e.g., undergraduate STEM education transformation) may be facilitated by applying systems thinking to change efforts. In this paper we introduce the approach of systems thinking as a professional development tool to empower individual STEM faculty to effect department-level transformation. We briefly describe a professional development experience designed to increase life sciences faculty members' understanding of systems thinking, present evidence that faculty applied a systems thinking approach to initiate department-level change, and discuss the degree to which transformation efforts were perceived to be successful. Though focused on faculty in the life sciences, our findings are broadly transferable to other efforts seeking to effect change in undergraduate STEM education. [ABSTRACT FROM AUTHOR]

Published

2022

50. COMPUTERS MEET BIOLOGY - AN INTERDISCIPLINARY AND COLLABORATIVE APPROACH.

Author

Urban, Joanna and Kwiatkowska, Mila

Subjects

COMPUTERS in education, BIOLOGY education, INTERDISCIPLINARY education, COLLABORATIVE learning, NUCLEOTIDE sequence

Abstract

Interdisciplinary methods create connections between traditionally distinct disciplines such as sciences, social studies, arts, or languages. This paper presents the experience of team-teaching Bioinformatics by faculty from Computing Science (MK) and Biological Sciences (JU) in a Computing Science undergraduate course, "Introduction to Biomedical Informatics." The main purpose, to involve students, with little or no biological background, in actual research projects related to Biology and Medicine, was accomplished by hands-on exercises and assignments using real data from a medical clinic, and real DNA and RNA data from the sequencing of genes related to seed dispersal of a parasitic plant, Dwarf Mistletoe. [ABSTRACT FROM AUTHOR]

Published

2016