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1. Advancing Hydroinformatics and Water Data Science Instruction: Community Perspectives and Online Learning Resources

   https://doi.org/10.3389/frwa.2022.901393  

   Jones, Amber Spackman; Horsburgh, Jeffery S.; Bastidas Pacheco, Camilo J.; Flint, Courtney G.; Lane, Belize A. (June 2022, Frontiers in Water)

   Hydroinformatics and water data science topics are increasingly common in university graduate settings through dedicated courses and programs as well as incorporation into traditional water science courses. The technical tools and techniques emphasized by hydroinformatics and water data science involve distinctive instructional styles, which may be facilitated by online formats and materials. In the broader hydrologic sciences, there has been a simultaneous push for instructors to develop, share, and reuse content and instructional modules, particularly as the COVID-19 pandemic necessitated a wide scale pivot to online instruction. The experiences of hydroinformatics and water data science instructors in the effectiveness of content formats, instructional tools and techniques, and key topics can inform educational practice not only for those subjects, but for water science generally. This paper reports the results of surveys and interviews with hydroinformatics and water data science instructors. We address the effectiveness of instructional tools, impacts of the pandemic on education, important hydroinformatics topics, and challenges and gaps in hydroinformatics education. Guided by lessons learned from the surveys and interviews and a review of existing online learning platforms, we developed four educational modules designed to address shared topics of interest and to demonstrate the effectiveness of available tools to help overcome identified challenges. The modules are community resources that can be incorporated into courses and modified to address specific class and institutional needs or different geographic locations. Our experience with module implementation can inform development of online educational resources, which will advance and enhance instruction for hydroinformatics and broader hydrologic sciences for which students increasingly need informatics experience and technical skills. 

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2. Orchestrating a culture-aligned adoption and adaptation of an instructional innovation: A story of an engineering professor’s pedagogical decisions between innovation and school culture

   Lee, Y.; Evenhouse, D.; DeBoer, J.; Rhoads, J.; Berger, E. (June 2022, ASEE 2022)

   Engineering education researchers and practitioners have driven instructional innovation in undergraduate engineering instruction. Much of the research about educational innovation has focused on undergraduate classrooms in large enrollment courses and/or research-intensive institutions. Propagation of innovations across settings, especially those quite unlike the original context, has received less attention in the literature. This includes liberal arts institutions, which collectively educate a large number of undergraduate engineering students in various contexts. Therefore, this study focuses on the implementation of an instructional innovation in a liberal arts institution that started a new engineering program to educate a regional engineering workforce. This qualitative study documented the experiences of one engineering instructor who adopted and adapted a blended learning environment for undergraduate dynamics designed to promote active and collaborative learning in undergraduate engineering courses. We analyzed interviews, documents, artifacts, visual materials, and field notes to examine the propagation of the instructional system in context with cultural features in local institution settings. Our findings show how an engineering instructor orchestrated a culture-aligned adoption and adaptation of an instructional innovation. Using reflective practice, the research participant adapted the implemented innovative instruction to their hands-on institution culture, such as adjusting expectations in content, adapting resources to students’ individual needs, adjusting uncertainty of problem solving, and adapting to a hands-on institution culture. This research highlights the important role of institutional culture in local adaptations of educational innovations, and it provides the community with an expanded way to think about innovation propagation. 

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3. Investigating the Development of Preservice Science Teachers’ Nature of Science Instructional Views Across Rings of the Family Resemblance Approach Wheel

   https://doi.org/10.1007/s11191-023-00418-7  

   Voss, Sarah; Kent-Schneider, Isaiah; Kruse, Jerrid; Daemicke, Ren (February 2023, Science & Education)

   While much is known about teacher learning of nature of science (NOS) concepts, less is known about how teachers develop an understanding of how to effectively teach NOS or how instructional views might differ across levels of the Family Resemblance Approach (FRA) wheel. Therefore, this study investigated the NOS instructional views related to different levels of the FRA wheel of preservice secondary science teachers as they completed a semester-long NOS course. At four times during the semester, data was collected through written documents and interviews about NOS instructional views. Participant NOS instructional views were evaluated in terms of three aspects of NOS teaching: explicit, reflective, and role of context (McComas et al., 2020). In terms of the explicit and reflective components of NOS instruction, participants generally progressed from utilizing inaccurate representations of NOS to inclusion of accurate implicit messages, and finally to explicit reflective instruction often mimicking course activities. As the semester progressed, their questioning also moved toward targeting more specific NOS aspects. As far as the role of context, participants moved from treating NOS as its own topic to a more embedded approach. Other findings include that preservice teachers tended to use more abstract and contextualized activities for social institutional aspects of NOS as opposed to concrete and moderately contextualized activities for cognitive-epistemic NOS. Features of the NOS course may account for some aspects of the learning progressions observed. 

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4. Design-Based Research: A Methodology to Extend and Enrich Biology Education Research

   https://doi.org/10.1187/cbe.19-11-0245  

   Scott, Emily E.; Wenderoth, Mary Pat; Doherty, Jennifer H. (September 2020, CBE—Life Sciences Education)

   Tanner (Ed.)

   Recent calls in biology education research (BER) have recommended that researchers leverage learning theories and methodologies from other disciplines to investigate the mechanisms by which students to develop sophisticated ideas. We suggest design-based research from the learning sciences is a compelling methodology for achieving this aim. Design-based research investigates the “learning ecologies” that move student thinking toward mastery. These “learning ecologies” are grounded in theories of learning, produce measurable changes in student learning, generate design principles that guide the development of instructional tools, and are enacted using extended, iterative teaching experiments. In this essay, we introduce readers to the key elements of design-based research, using our own research into student learning in undergraduate physiology as an example of design-based research in BER. Then, we discuss how design-based research can extend work already done in BER and foster interdisciplinary collaborations among cognitive and learning scientists, biology education researchers, and instructors. We also explore some of the challenges associated with this methodological approach. 

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5. Student Experience with COVID-19 and Online Learning: Impact of Faculty’s Ability to Successfully Navigate Technological Platforms for Remote Instruction

   Shuey, Melissa; Akera, Atsushi; Appelhans, Sarah; Cheville, R. Alan; De Pree, Thomas; Fatehibouroujeni, Soheil (July 2021, ASEE annual conference exposition)

   null (Ed.)

   This paper is based on a series of semi-structured, qualitative interviews that were conducted with students, by an undergraduate student and lead author of this paper, that focused on their experiences with educational technologies and online teaching pedagogy in the wake of the COVID-19 pandemic. As U.S. educators scrambled to adapt to online course delivery modes as a result of the first wave of the pandemic in the spring 2020 semester, those in the educational technology and online learning community saw the potential of this movement to vastly accelerate the implementation of online systems in higher education. A shift that may have taken 20 years to accomplish was implemented in two waves, first with the immediate forced shift to online learning in March 2020; and second, a less immediate shift to hybrid and online instruction designed to accommodate the different geographic variation in COVID-19 intensity, along with varied political and institutional ecologies surrounding online versus in-person instruction for the 2020-2021 academic year. With all of the rapid changes that were occurring during the spring of 2020, we wanted to investigate how students experienced and perceived faculty use of technology during this particular moment in time. This study documents this transition through the eyes of undergraduate students, and demonstrates the varied ways in which faculty navigated the transition to online learning. According to our interviewees, some faculty were thoughtful and competent and provided a supportive environment that paid attention to a students’ capacity for online learning, rather than maintaining traditional instructional practices. Others relied on practices from in-person instruction that were familiar, but appeared to be nervous in the new online teaching environment. Then there were those who seemed occupied by other concerns, where a focus on effective undergraduate teaching remained limited to begin with, and their approach to online instruction was driven by convenience. Our qualitative data clearly reveals that the ways in which faculty conducted their online courses directly impacted student learning experiences. In this study, we set out to document both the faculty instructional strategies in a hybrid/online environment and student accounts of those choices and their resulting experiences. While we continue to analyze this unique data set on this moment of transition in engineering education, we hope that this paper will also lead to policy recommendations regarding faculty adaptations to online instruction in general. We include some initial thoughts and recommendations below. 

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