More Like this

1. Learning the ropes: How do mentors support students through the scientific publication process?

   Tanya Bhagatwala, Trisha Minocha (March 2024, National Association for Research in Science Teaching)

   In the last two decades, research experiences for pre-college students have gone from the exception of a typical experience of a high school student, to the norm. Often, these research experiences include distinct disciplinary literacy outputs that mimic those of professionals. And while much attention has been paid to supporting students in scientific writing, other disciplinary literacy practices, such as peer-review and publication, are often part of the hidden-curriculum of science research, thus excluding students from fully understanding ways in which scientific knowledge is constructed, refined, and disseminated (Authors, 2022). As more students participate in research experiences and the dissemination of their work, it is important to understand how mentors support the development of disciplinary literacies, including those that are deemed “professional”. To this end, we used a mixed-methods study of interviews and surveys to examine the experience and conceptions of the mentors who guided precollege students through the writing and publication of their scientific research projects. Using the construct of cognitive apprenticeship to evaluate our findings, we find that although mentors highly value peer-review and publication within science, they are not intentional about bringing these practices to the forefront of the research process for their student. Additionally, mentors report a range of involvement level in guiding students through the publication process. Our findings suggest that more work is needed to help reveal professional disciplinary literacy practices to students. mentors could benefit from resources to help them more intentionally involve students in such disciplinary literacy practices. 

   more » « less
2. Writing for Identity? Exploring the Motivation of Pre-College Students to Participate in Science Publication

   Sarah C. Fankhauser (March 2024, National Association for Research in Science Teaching)

   In a typical science class, communication exercises may include a variety of outputs including lab reports, posters, reflective writing, or research proposals. However, a growing number of students are engaging in more complex and professional communication endeavors, including scientific publication. The chance to write a research paper and experience the peer-review and publication processes may provide students the opportunity to integrate several practices from the Next Generation Science Standards, as well as share their research in a more public setting. Although we have some limited understanding in terms of the outcomes that students experience when engaging in peer-review and publication of their science research papers, we have no information or data regarding why students want to participate in these processes. As such, the purpose of this study is to investigate the motivations of pre-college students to pursue peer-review and publication of their scientific research papers. Using the theory of science identity to analyze the data, I found that students view publication as a mechanism to grow their scientific skills and be recognized as a scientist. The findings suggest that providing students the opportunity to share their research in more public settings could be a factor in developing their science identity. 

   more » « less
3. “Well that's how the kids feel!”—Epistemic empathy as a driver of responsive teaching

   https://doi.org/10.1002/tea.21726  

   Jaber, Lama_Z; Dini, Vesal; Hammer, David (August 2021, Journal of Research in Science Teaching)

   Abstract While research shows that responsive teaching fosters students' disciplinary learning and equitable opportunities for participation, there is yet much to know about how teachers come to be responsive to their students' experiences in the science classroom. In this work, we set out to examine whether and how engaging teachersas learnersin doing science may support responsive instructional practices. We draw on data from a year‐long blended‐online science professional development (PD) program that began with an emphasis on teachers' doing science and progressed to supporting their attention to their students' doing science. By analyzing videos from teachers' classrooms collected throughout the PD, we found that teachers became more stable in attending and responding to their students' thinking. In this article, we present evidence from teachers' reflections that this stability was supported by the teachers' intellectual and emotional experiences as learners. Specifically, we argue that engaging in extended scientific inquiry provided a basis for the teachers havingepistemic empathyfor their students—their tuning into and appreciating their students'intellectualandemotionalexperiences in science, which in turn supported teachers' responsiveness in the classroom. 

   more » « less
4. Increasing Student Confidence in Writing: Integrating Authentic Manuscript Writing into an Online 8-Week Research Program

   https://doi.org/10.1128/jmbe.00199-22  

   Kim, Choah; Preston, Kiam; Braga, Alice; Fankhauser, Sarah C. (April 2023, Journal of Microbiology & Biology Education)

   McCartney, Melissa (Ed.)

   ABSTRACT In various formats, students at the secondary and postsecondary levels participate in multiweek authentic science research projects. There have been many papers explaining the operations of such programs, but few have provided explicit instruction on how to incorporate authentic communication practices into the student research process. In this paper, we describe how we integrated primary literature into an 8-week online research program for 8th to 11th graders. Each week, students were introduced to a specific section of a primary research article reflecting different stages of their research project, and they were guided on how to write that specific section for their own research paper. By the end of the program, students had an outline or first draft of a primary research paper based on their research. Following completion of the program, student participants reported greater self-efficacy and confidence in scientific writing. Here, we describe our approach and provide an adaptable framework for integrating primary literature into research projects. 

   more » « less
5. Using computational thinking and modeling to build water and watershed literacy

   Caplan, B.; Covitt, B.; Love, G.; Berkowitz, A.R.; Gunckel, K.L.; McClure, C.; Moore, J.C. (January 2021, Connected science learning)

   null (Ed.)

   Engaging students in science learning that integrates disciplinary knowledge and practices such as computational thinking (CT) is a challenge that may represent unfamiliar territory for many teachers. CompHydro Baltimore is a collaborative partnership aimed at enacting Next Generation Science Standards (NGSS)–aligned instruction to support students in developing knowledge and practice reflective of the goals laid out in A Framework for K–12 Science Education (National Research Council 2012) “... that by the end of 12th grade, all students possess sufficient knowledge of science and engineering to engage in public discussion on related issues … and are careful consumers of scientific and technological information related to their everyday lives.” This article presents the results of a partnership that generated a new high school level curriculum and teacher professional development program that tackled the challenge of integrating hydrologic learning with computational thinking as applied to a real-world issue of flooding. CompHydro Baltimore produced Baltimore Floods, a six-lesson high school unit that builds students’ water literacy by engaging them in computational thinking (CT) and modeling practices as they learn about water system processes involved in urban flooding (See Computational Thinking and Associated Science Practices). CompHydro demonstrates that broad partnerships can address these challenges, bringing together the diverse expertise necessary to develop innovative CT-infused science curriculum materials and the teacher supports needed for successful implementation. 

   more » « less