Earth and Mind II


Book Description

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.




Teaching and Learning in Higher Education


Book Description

In today′s higher education climate academic staff are encouraged to focus not only on the up-to-date content of their teaching, but also to identify the most effective ways to engage students in learning, often alongside other key transferrable skills. This had led to a growing requirement for staff to adopt a scholarly approach to learning and teaching practice, and to undertake scholarship of learning and teaching as part of ongoing professional development. This text explores broad best practice approaches to undertaking enquiry into learning and teaching in higher education. It provides an introduction for staff who have been educated within a range of academic disciplines, often with high-level but very focused knowledge about, and understandings of, research processes to the potentially new world of educational enquiry. This is complemented by chapters exploring what educational enquiry means in the context of different academic disciplines, including physical sciences, mathematics, engineering, the life sciences, the arts, the humanities, the health professions, and law. It also includes: An overview of research methodology including data collection, literature reviews, good ethical practice, and research dissemination Case studies of actual research projects to support understanding of how to carry out educational enquiry in practice. Lecturers, why waste time waiting for the post arrive? Request and receive your e-inspection copy today!




Geoscience Research and Education


Book Description

Focusing on geoscience, this book applies a uniquely cross-disciplinary perspective to its examination of the relationship between scientific research and teaching at universities. Contributions show how the use of technology and innovative pedagogical design allows students at different stages of their university studies to develop skills and experience in geoscience research. The book offers wide-ranging insight from academics in geoscience, science education and higher education policy and pedagogy, as well as from students and industry experts. The opening section sets the context, with a chapter on teaching and research in the contemporary university by a world-leading academic in higher education, and an essay by the editor on the case of moving from research-implicit to research-enhanced teaching. Part Two addresses the research-teaching nexus in geoscience, offering chapters entitled The Challenge of Combining Research and Teaching: A Young Geoscientist’s Perspective; Teaching on the High Seas: How Field Research Enhances Teaching at All Levels; Curricula and Departmental Strategies to Link Teaching and Geoscience Research; and Geoscience Internships in the Oil and Gas Industry, among others. In Part Three, the use of technology is discussed in chapters such as Using Interactive Virtual Field Guides and Linked Data in Geoscience Teaching and Learning; and Towards Technology- and Research-enhanced Education (TREE): Electronic Feedback as a Teaching Tool in Geoscience. The Program Design section includes chapters on Introducing University Students to Authentic, Hands-on Undergraduate Geoscience Research, and the opportunity to link research and teaching in students’ final projects and more. Geoscience Research and Education: Teaching at Universities is a useful resource for understanding the research-teaching nexus and how it has been implemented in different types of universities and in different countries. Science academics seeking to integrate research into teaching will find the book highly relevant to their work. The emphasis on using technology as a means to link research and teaching will be of great interest and practical benefit to learning technologists, science educators and university policymakers. Together with the companion volume Geoscience Research and Outreach: Schools and Public Engagement, this book showcases the key role that geoscience research plays in a wide spectrum of educational settings.







Geoscience Research and Outreach


Book Description

From energy and water resources to natural disasters, and from changing climatic patterns to the evolution of the Earth’s deep interior, geoscience research affects people’s lives in many ways and on many levels. This book offers a stimulating cross-disciplinary perspective on the important relationship between geoscience research and outreach activities for schools and for the general public. The contributors – academics, research scientists, science educators and outreach program educators – describe and evaluate outreach programs from around the world. A section entitled Field-based Approaches includes a chapter describing an initiative to engage Alaskan communities and students in research, and another on problem-based learning in the field setting. The Online Approaches section discusses ways to connect students and scientists using online forums; use of the web and social media, including the United Nations University and its experience with the design of a web magazine featuring geoscience research; and video clips on marine geoscience created by students and scientists. The section on Workshop and Laboratory-based Approaches includes a chapter on teaching geochronology to high school students, and another describing an extracurricular school activity program on meteorology. The Program Design section presents chapters on Integrating Geoscience Research in Primary and Secondary Education, on ways to bridge research with science education at the high school level, and on use of online geoscience data from the Great Lakes. The concluding section, Promoting Research-enhanced Outreach, offers chapters on Geoscience Outreach Education with the local community by a leading research-intensive university, and on the use of research to promote action in Earth science professional development for schoolteachers.Geoscience Research and Outreach: Schools and Public Engagement will benefit geoscience researchers who wish to promote their work beyond academia. It offers guidance to those seeking research funding from agencies, which increasingly request detailed plans for outreach activities in research proposals. Policymakers, educators and scientists working in museums, learned societies and public organizations who wish to widen participation will also find this book useful. Together with the companion volume Geoscience Research and Education: Teaching at Universities, this book showcases the key role that geoscience research plays in a wide spectrum of educational settings.




Handbook of Geotourism


Book Description

Ross Dowling and David Newsome present an original, substantial and much-needed contribution to the field which will further our understanding of geotourism in theory and practice. This Handbook defines, characterizes and explores the subject through a range of international perspectives and case studies, identifying geotourism as a rapidly emerging form of urban and regional sustainable development. With extensive case studies from North and South America, Europe, Asia, Australasia and Africa, this global Handbook examines and explains the relationship between geology and tourism. Thematically arranged sections cover the relationship of geology with tourism, sustainability and society, geotourism in urban areas, and interpretation and education strategies. The final two sections assess geotourism?s impact through wide-ranging case studies of UNESCO global geoparks and geotourism in a range of countries. The eminent academics and practitioners demonstrate how geotourism is a vehicle future for engaging the public and protecting geosites, as well as emphasising the importance of sustainability. An essential resource for students and educators, this Handbook provides an international perspective for those interested in tourism, environmental geography, ecology and geology. Written with practitioners in mind, this book reveals how tourism professionals and geologists can build a common vision by working together in sharing knowledge at the nexus of geology and tourism. Contributors include: M. Allan, E. Aparecida Del Lama, R.S. Aquino, A. Asrat, N. Azman, T. Brown, M. Burlando, H.S. Cahyadi, R.M. Clary, K. Crawford, E. da Silva Guimarães, R. Dowling, A. Dumaliang, B.C. Dumaliang, P. Erfurt, S. Espiner, N.T. Farsani, M. Garofano, A. Gates, C. Gomez, J.E. Gordon, M. Gray, N. Grünert, S.A. Halim, Herlina, Y. Jeon, J. Johnston, H.T. Kobryn, I. Komoo, L. Kubalíková, U. Lagally, J. Larwood, E.A. Lima, M. Machado, P. Migon, R. Miller, C. Neto de Carvalho, D. Newsome, R. Peña, H. Purdie, A. Riganti, J.P.R. Rivera, D.A. Ruban, H. Samodra, L. Sheydder de Oliveira Lopes, R.C. Soares, K. Takenouchi, M. Thomas, H. Torigoe, M. Van Kranendonk, J. Weber, G. Worton, K. Xu




Global Geographical Heritage, Geoparks and Geotourism


Book Description

This book explores the geographical, geomorphological, ecological, touristic and socioeconomic aspects of natural heritage, argues for the dynamic conservation of that heritage and explains its key characteristics, promotion, conservation and management to achieve sustainable development goals. Emerging concepts such as geodiversity, geographical heritage sites, geomonuments, geoparks and geotourism are increasingly being used by conservationists. At present, the development of geoparks is a major global theme involving the application of geosciences to promote the inclusive growth of society and the protection and conservation of our unique geoheritage. Currently, there are 147 UNESCO global geoparks across 41 countries, in addition to a number of national-level geoparks. Pursuing a holistic approach towards such sites will sensitise the general public to the need for geoconservation of significant geosites and promote it through geotourism. It is a crucial issue, as various countries around the world are eager to develop their geoparks and are working for the conservation of geoheritage sites at the national level. This unique book gathers contributions from 15 countries in the form of case studies analysing the realities on of geographical heritage, geoparks and geotourism. The respective chapters address the role of geoparks as essential tools for education, recreation and nature conservation. Given its scope, the book offers a valuable guide for geoscientists, planners, policymakers, civil society and anyone concerned about the conservation of geoheritage sites and geoparks for a sustainable future Earth.




Earth Science Puzzles


Book Description

Teachers of Earth and environmental sciences in grades 8OCo12 will welcome this activity book centered on six OC data puzzlesOCO that foster critical-thinking skills in students and support science and math standards. Earth Science Puzzles presents professionally gathered Earth science dataOCoincluding graphs, maps, tables, images, and narrativesOCoand asks students to step into scientistsOCO shoes to use temporal, spatial, quantitative, and concept-based reasoning to draw inferences from the data."




Approaches and Strategies in Next Generation Science Learning


Book Description

Approaches and Strategies in Next Generation Science Learning examines the challenges involved in the development of modern curriculum models, teaching strategies, and assessments in science education in order to prepare future students in the 21st century economies. This comprehensive collection of research brings together science educators, researchers and administrators interested in enhancing the teaching and learning of next generation science.