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This edited volume explores 21st century stories of hunting, foraging, and fishing for food as unique forms of place-based learning. Through the authors’ narratives, it reveals complex social and ecological relationships while readers sample the flavors of foraging in Portland, Oregon; feel some of what it’s like to grow up hunting and gathering as a person of Oglala Lakota and Shoshone-Bannock descent; track the immersive process of learning to communicate with rocky mountain elk; encounter a road-killed deer as a spontaneous source of local meat, and more. Other topics in the collection connect place, food, and learning to issues of identity, activism, spirituality, food movements, conservation, traditional and elder knowledge, and the ethics related to eating the more-than-human world. This volume will bring lively discussion to courses on place-based learning, food studies, environmental education, outdoor recreation, experiential education, holistic learning, human dimensions of natural resource management, sustainability, food systems, environmental ethics, and others.
Gathering contributions from leading scholars around the world, this handbook offers a comprehensive resource on the most recent advances in research surrounding the theories, methodologies, and applications of science learning progressions. Researchers and educators have used learning progressions to guide the design and alignment of curriculum, instruction, and assessment, and to help students learn scientific knowledge and practices in a coherent and connected way across multiple years. This handbook lays out the development and current state of research in this field across four sections: learning progression theories and methodologies; learning progressions to promote student learning; teachers’ learning and use of learning progressions; and new technology in learning progression research. Featuring internationally-recognized experts in learning progression research as well as up-and-coming voices, the Handbook of Research on Science Learning Progressions offers a defining new resource for researchers, teachers and teacher educators, and curriculum and assessment developers in science education.
"Polished, clear, insightful, and meaningful.... This volume amounts to nothing less than a complete rethinking of what progressive education can be at its best and how education can be reconceptualized as one of the central practices of a genuinely democratic and sustainable society.... It is the kind of book that has the potential to be transformative." Stephen Preskill, University of New Mexico "The editors and contributors are pioneers in the field of educational theory, policy, and philosophy.... They are opening new areas of inquiry and educational reform in ways that promise to make this book in very short time into a classic.... The practical applications and experiments included reveal the richness of grassroots initiatives already underway to bring educational theory and policy down to earth. While spanning the richest and deepest intellectual ideas and concepts, the stories told are the types that practitioners and teachers will be able to relate to in their daily undertakings." Madhu Suri Prakash, The Pennsylvania State University This volume – a landmark contribution to the burgeoning theory and practice of place-based education – enriches the field in three ways: First, it frames place-based pedagogy not just as an alternative teaching methodology or novel approach to environmental education but as part of a broader social movement known as the "Anew localism", which aims toward reclaiming the significance of the local in the global age. Second, it links the development of ecological awareness and stewardship to concerns about equity and cultural diversity. Third, it presents examples of place-based education in action. The relationship between the new localism and place-based education is clarified and the process of making connections between learners and their wider communities is demonstrated. The book is organized around three themes: Reclaiming Broader Meanings of Education; Models for Place-Based Learning; and Global Visions of the Local in Higher Education This is a powerfully relevant volume for researchers, teacher educators, and students across the fields of curriculum theory, educational foundations, critical pedagogy, multicultural education, and environmental education.
Originally published in 1982 Resource-Based Learning for Higher and Continuing Education was written with the needs in mind of educationists who are responsible for the support of resource-based learning in higher and continuing education. The rationale for this mode of learning is explored and the implications for an institution seeking to provide teaching and learning resources which may well be used by an individual student. To place the reviews of the techniques that follow into a working context, a brief case-history of the Dundee College of Education Learning Resources Project, a major implementation of resource based learning in higher education is presented. The accent throughout the book is on the practical aspects of resource provision. Special attention is given to the problems inherent in the initial preparation by teaching staff of such items as manuscripts for printed works and shooting scripts for visual materials. Economic methods of production and reliable and effective means of presentation for audio-visual materials are also considered, both for use within institutions as well as by home-based students.
For nearly a decade, scientists, educators and policy makers have issued a call to college biology professors to transform undergraduate life sciences education. As a gateway science for many undergraduate students, biology courses are crucial to addressing many of the challenges we face, such as climate change, sustainable food supply and fresh water and emerging public health issues. While canned laboratories and cook-book approaches to college science education do teach students to operate equipment, make accurate measurements and work well with numbers, they do not teach students how to take a scientific approach to an area of interest about the natural world. Science is more than just techniques, measurements and facts; science is critical thinking and interpretation, which are essential to scientific research. Discovery-Based Learning in the Life Sciences presents a different way of organizing and developing biology teaching laboratories, to promote both deep learning and understanding of core concepts, while still teaching the creative process of science. In eight chapters, the text guides undergraduate instructors in creating their own discovery-based experiments. The first chapter introduces the text, delving into the necessity of science education reform. The chapters that follow address pedagogical goals and desired outcomes, incorporating discovery-based laboratory experiences, realistic constraints on such lab experiments, model scenarios, and alternate ways to enhance student understanding. The book concludes with a reflection on four imperatives in life science research-- climate, food, energy and health-- and how we can use these laboratory experiments to address them. Discovery-Based Learning in the Life Sciences is an invaluable guide for undergraduate instructors in the life sciences aiming to revamp their curriculum, inspire their students and prepare them for careers as educated global citizens.
Educators must both respond to the impact of trauma, and prevent trauma at school. Trauma-informed initiatives tend to focus on the challenging behaviors of students and ascribe them to circumstances that students are facing outside of school. This approach ignores the reality that inequity itself causes trauma, and that schools often heighten inequities when implementing trauma-informed practices that are not based in educational equity. In this fresh look at trauma-informed practice, Alex Shevrin Venet urges educators to shift equity to the center as they consider policies and professional development. Using a framework of six principles for equity-centered trauma-informed education, Venet offers practical action steps that teachers and school leaders can take from any starting point, using the resources and influence at their disposal to make shifts in practice, pedagogy, and policy. Overthrowing inequitable systems is a process, not an overnight change. But transformation is possible when educators work together, and teachers can do more than they realize from within their own classrooms.
Visualization, meaning both the perception of an object that is seen or touched and the mental imagery that is the product of that perception, is believed to be a major strategy in all thought. It is particularly important in science, which seeks causal explanations for phenomena in the world-as-experienced. Visualization must therefore play a major role in science education. This book addresses key issues concerning visualization in the teaching and learning of science at any level in educational systems. ‘Visualization in Science Education’ draws on the insights from cognitive psychology, science, and education, by experts from Australia, Israel, Slovenia, UK, and USA. It unites these with the practice of science education, particularly the ever-increasing use of computer-managed modelling packages, especially in chemistry. The first section explores the significance and intellectual standing of visualization. The second section shows how the skills of visualization have been developed practically in science education. This is followed by accounts of how the educational value of visualization has been integrated into university courses in physics, genomics, and geology. The fourth section documents experimental work on the classroom assessment of visualization. An endpiece summarises some of the research and development needed if the contribution of this set of universal skills is to be fully exploited at all levels and in all science subjects.
Articles refer to teaching at various different levels from kindergarten to graduate school, with sections on teaching: geologic time, space, complex systems, and field-work. Each section includes an introduction, a thematic paper, and commentaries.