Download Free Nature Aims And Policy Book in PDF and EPUB Free Download. You can read online Nature Aims And Policy and write the review.

An Artforum Best Book of the Year A Legal Theory Bookworm Book of the Year Nature no longer exists apart from humanity. Henceforth, the world we will inhabit is the one we have made. Geologists have called this new planetary epoch the Anthropocene, the Age of Humans. The geological strata we are now creating record industrial emissions, industrial-scale crop pollens, and the disappearance of species driven to extinction. Climate change is planetary engineering without design. These facts of the Anthropocene are scientific, but its shape and meaning are questions for politics—a politics that does not yet exist. After Nature develops a politics for this post-natural world. “After Nature argues that we will deserve the future only because it will be the one we made. We will live, or die, by our mistakes.” —Christine Smallwood, Harper’s “Dazzling...Purdy hopes that climate change might spur yet another change in how we think about the natural world, but he insists that such a shift will be inescapably political... For a relatively slim volume, this book distills an incredible amount of scholarship—about Americans’ changing attitudes toward the natural world, and about how those attitudes might change in the future.” —Ross Andersen, The Atlantic
Prompted by the ongoing debate among science educators over ‘nature of science’, and its importance in school and university curricula, this book is a clarion call for a broad re-conceptualizing of nature of science in science education. The authors draw on the ‘family resemblance’ approach popularized by Wittgenstein, defining science as a cognitive-epistemic and social-institutional system whose heterogeneous characteristics and influences should be more thoroughly reflected in science education. They seek wherever possible to clarify their developing thesis with visual tools that illustrate how their ideas can be practically applied in science education. The volume’s holistic representation of science, which includes the aims and values, knowledge, practices, techniques, and methodological rules (as well as science’s social and institutional contexts), mirrors its core aim to synthesize perspectives from the fields of philosophy of science and science education. The authors believe that this more integrated conception of nature of science in science education is both innovative and beneficial. They discuss in detail the implications for curriculum content, pedagogy, and learning outcomes, deploy numerous real-life examples, and detail the links between their ideas and curriculum policy more generally.
J. D. Bernal's important and ambitious work, The Social Function of Science, was first published in January 1939. As the subtitle -What Science Does, What Science Could Do - suggests it is in two parts. Both have eight chapters. Part 1: What Science Does: Introductory, Historical, The Existing Organization of Scientific Research in Britain, Science in Education, The Efficiency of Scientific Research, The Application of Science, Science and War and International Science. Part 11: What Science Could Do: The Training of the Scientist, The Reorganization of Research, Scientific Communication, The Finance of Science, The Strategy of Scientific Advance; Science in the Service of Man, Science and Social Transformation and The Social Function of Science. To quote Bernal's biographer, Andrew Brown, 'The Social Function of Science . . . was Bernal's attempt to ensure that science would no longer be just a protected area of intellectual inquiry, but would have as an inherent function the improvement of life for mankind everywhere. It was a groundbreaking treatise both in exploring the scope of science and technology in fashioning public policy, with Bernal arguing that science is the chief agent of change in society, and in devising policies that would optimize the way science was organized. The sense of impending war clearly emerges. Bernal deplored the application of scientific discoveries in making war ever more destructive, while acknowledging that the majority of scientific and technical breakthroughs have their origins in military exigencies, both because of the willingness to spend money and the premium placed on novelty during wartime.' Anticipating by two decades the schism C. P. Snow termed 'The Two Cultures', Bernal remarked that 'highly developed science stands almost isolated from a traditional literary culture.' He found that wrong. Again, quoting Andrew Brown, 'to him, science was a creative endeavour that still depended on inspiration and talent, just as much as in painting, writing or composing.' The importance of this book was such that twenty-five years after its publication, a collection of essays, The Science of Science, was published, in part in celebration, but also to explore many of the themes Bernal had first developed.
In addition, they examine how various environmental knowledge claims are generated, packaged, promoted, and accepted (or rejected) by the different actors involved in specific cases of environmental management, conservation, and development.
This white paper sets out proposals for a detailed programme of action to repair damage done to the environment in the past, and urges everyone to get involved in helping nature to flourish at all levels - from neighbourhoods to national parks. The plans are directly linked to the groundbreaking research in the National Ecosystem Assessment that showed the strong economic arguments for safeguarding and enhancing the natural environment. They also act on the recommendations of 'Making Space for Nature', a report into the state of England's wildlife sites, led by Professor John Lawton and published in September 2010, which showed that England's wildlife sites are fragmented and not able to respond to the pressures of climate change and other pressures we put on our land. Key measures proposed include: i) Reconnecting nature with New Nature Improvement Areas (NIAs) with a £7.5 million fund for 12 initial NIAs, biodiversity offsetting, New Local Nature Partnerships with £1 million available this year, phasing out peat, ii) Connecting people and nature for better quality of life with Green Areas Designation, better urban green spaces; more children experiencing nature by learning outdoors, strengthening local public health activities, the new environmental volunteering initiative "Muck in 4 Life" to improve places in towns and countryside for people and nature to enjoy and iii) Capturing and improving the value of nature with a Natural Capital Committee; an annual statement of green accounts for UK Plc, a business-led Task Force to expand the UK business opportunities from new products and services which are good for the economy and nature alike.
Updated in its 3rd edition, Basic Methods of Policy Analysis and Planning presents quickly applied methods for analyzing and resolving planning and policy issues at state, regional, and urban levels. Divided into two parts, Methods which presents quick methods in nine chapters and is organized around the steps in the policy analysis process, and Cases which presents seven policy cases, ranging in degree of complexity, the text provides readers with the resources they need for effective policy planning and analysis. Quantitative and qualitative methods are systematically combined to address policy dilemmas and urban planning problems. Readers and analysts utilizing this text gain comprehensive skills and background needed to impact public policy.
This volume focuses on the breakdown in sustainabilityâ€"the capacity of the planet to provide quality of life now and in the futureâ€"that is signaled by disaster. The authors bring to light why land use and sustainability have been ignored in devising public policies to deal with natural hazards. They lay out a vision of sustainability, concrete suggestions for policy reform, and procedures for planning. The book chronicles the long evolution of land-use planning and identifies key components of sustainable planning for hazards. Stressing the importance of balance in land use, the authors offer principles and specific reforms for achieving their visions of sustainability.
The report highlights the crucial role of engineering in achieving each of the 17 SDGs. It shows how equal opportunities for all is key to ensuring an inclusive and gender balanced profession that can better respond to the shortage of engineers for implementing the SDGs. It provides a snapshot of the engineering innovations that are shaping our world, especially emerging technologies such as big data and AI, which are crucial for addressing the pressing challenges facing humankind and the planet. It analyses the transformation of engineering education and capacity-building at the dawn of the Fourth Industrial Revolution that will enable engineers to tackle the challenges ahead. It highlights the global effort needed to address the specific regional disparities, while summarizing the trends of engineering across the different regions of the world.