Assessment,Analytics, and Analysis: Demonstrating the Impact of LMS Embedded Librarians on Student Learning

Librarians are committed to supporting teaching, learning, and research. They are equally committed to supporting student success and retention. Demonstrating the impact that learning management system (LMS) embedded librarians make on student learning has been difficult to correlate, however. Studies that assess this connection, using qualitative and quantitative data have been undertaken in recent years. In a university regional campus library study conducted in 2016–2017, LMS embedded librarians explored the relationship between student learning and information literacy instruction, relying primarily on a customized LMS embedded librarian page of library resources and learning objects. They used a rubric to assess student research papers and bibliographies, LMS course analytics, instructors’ grades, and student feedback. This article reviews the literature and their methodology, challenges, and findings. They wish to guide colleagues, committed to assessing how librarians contribute to student learning, in selecting assessment approaches and validate their instructional role.     

Introduction to the special issue on practitioner knowledge to support reading and writing: new directions and approaches

Reading and Writing -     

Making the Move to Online Teaching: One Reluctant Professor’s Informal Self-Study

In my search for my identity as an online teacher, I did an informal self-study to determine if my online classes are equivalent to my face-toface classes. I compared student work and student evaluations from 14 courses: seven online and seven face-to-face. When I compared the quality of student work from both formats, I found it indistinguishable. When I compared the type of comments on student evaluations, they were indistinguishable as well. There seemed to be no discernible difference between me as a face-toface teacher and me as an online teacher. Based on the students’ perceptions and coursework, their learning and enjoyment of learning did not seem to be tied to whether I was in the room with them or not.     

Mathematics teachers’ representations of authority

Issues of authority abound in education and schooling but have not been interrogated sufficiently. We describe a tool that we have developed to initiate dialogue with teachers about authority in their classrooms—using a diagram to represent authority in their classrooms. Our analysis of the diagrams mathematics teachers created and discussed in our work with them illustrates the importance of understanding teachers’ perspectives about authority. To understand better how mathematics teachers think about the authority in their classrooms, we investigated what sources of authority they represented in their diagrams, and how the teachers related these sources to each other. The diversity in the teachers’ representations exceeded our anticipations, indicating that research on authority in classrooms has merely scratched the surface of understanding the ways mathematics teachers think about authority in their classrooms.     

A learning progression for water in socio‐ecological systems

Providing model‐based accounts (explanations and predictions) of water and substances in water moving through environmental systems is an important practice for environmental science literacy and necessary for citizens confronting global and local water quantity and quality issues. In this article we present a learning progression for water in environmental systems for students in elementary through high school grades. We investigated student accounts of water and substances in water moving through atmospheric, surface, and soil/groundwater systems, including human‐engineered components of these systems. Using an iterative process of model design, assessment, and interpretation, we identified four levels of achievement in student reasoning. Levels 1 and 2 force‐dynamic accounts explain movement of water as interactions between natural tendencies of water and countervailing powers. Level 3 incomplete school science accounts put events in order and trace water and substance along multiple pathways that include hidden and invisible components. Only Level 4 qualitative model‐based accounts include driving forces and constraining factors to explain or predict where water and substances in water move in given situations. The majority of high school students on average provide accounts between levels 2 and 3. We discuss the significance of these results for citizen participation in addressing common water issues. We end with suggestions for how the water learning progression can be used to inform changes to curricula, assessment, and instruction to support students in achieving level 4 performance. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 843–868, 2012     

Flipping the laboratory: improving student engagement and learning outcomes in second year science courses

The flipped classroom pedagogy was implemented in two core undergraduate science courses; Animal and Plant Biochemistry II (APB) and Microbiology and Invertebrate Biology II (MIB) to encourage students to prepare for laboratory classes. Students often attend class without little understanding or appreciation of what they are going to learn in the laboratory, the types of techniques they are going to use or the safety precautions required. This is not only hazardous for students but also requires detailed explanations from teaching staff at the start of class, overloading students with information. This disconnection between theory and practice was overcome by ‘flipping the laboratory’ to integrate online, interactive pre-laboratory activities into the curriculum. The aims of this study were to: (1) evaluate student engagement with pre-laboratory content; (2) investigate student performance and learning outcomes; (3) review failure rates following implementation of pre-laboratory activities. Students agreed that the pre-laboratory activities bridged the gap between theory and practice (65%) and enhanced their engagement with course material (79%). The integration of pre-laboratory activities significantly increased student learning outcomes immediately after implementation into the curriculum, despite a 26.8% increase in enrolments from 2011 to 2017. Failure rates significantly decreased in both APB and MIB over three consecutive years.     

Anatomists provide the foundation for learning pathophysiology

The need for interdisciplinary graduate training programs which prepare students to conceptualize the application of their research in clinical settings continues to grow. Though several programs have been cultivated to address this need, demand still outweighs supply. The following describes a curriculum developed with the intent of incorporating medical knowledge into a PhD graduate training program. Development of this Molecular Medicine program by the Cleveland Clinic Lerner College of Medicine in collaboration with Case Western Reserve University was funded by the Howard Hughes Medical Institute "Med into Grad" initiative. The core curriculum of this program begins with a foundation in Human Physiology and Disease course in which anatomy faculty introduce students to a basic overview of gross anatomy structure and function. This course is followed by five fundamental basic science courses, a composite course focusing on principles of clinical and translation research, a course on laboratory techniques and three, 12-week research rotations. In the second year of the program, students begin their dissertation research, complete their qualifying examination, and partake in an individually tailored Clinical Experience course. Interdisciplinary graduate programs like this provide another venue for faculty in anatomical sciences to help aspiring translational scientists relate basic science knowledge to human pathophysiology and health.     

Adolescent boys' and girls' block constructions differ in structural balance: A block-building characteristic related to math achievement

Two studies were conducted on block building in adolescents, assessing middle school (Study 1) and high school students (Study 2). Students were asked to build something interesting with blocks. In both samples, the same pattern of gender differences were found; boys built taller structures than girls, and balanced a larger number of blocks on a small base of upright blocks (a new measure developed for this study). Gender differences in the height of structures were fully mediated by this measure of structural balance. These findings suggest that balance elements are key to understanding gender differences in block building. In Study 2, high-school students were given a second task, requiring them to apply structural balance principles (only four upright blocks were provided on which to build), and instructing them to build a tall, complex, well-balanced structure. Gender differences again were found, suggesting that gender differences in block building may be skill-based as well as stylistic. A separate question was whether block-building characteristics at this age have any relevance to math achievement. In both studies, the measure of structural balance was the only block-building characteristic that predicted math achievement. Additional research is needed to understand the cognitive underpinnings of this new spatial measure, how malleable it is, and its further practical significance for adolescent learners.