Download Free The Impact Of Spending Cuts On Science And Scientific Research Book in PDF and EPUB Free Download. You can read online The Impact Of Spending Cuts On Science And Scientific Research and write the review.

The pressure to be seen to be making cuts across the public sector is threatening to undermine both the Government's good record on investment in science and the economic recovery. Whilst the contribution of a strong domestic science base is widely acknowledged, methodological problems with quantifying its precise value to the economy mean that it is in danger of losing out in Whitehall negotiations. Scientists are under increasing pressure to demonstrate the impact of their work and there is concern that areas without immediate technology applications are being undervalued. The Committee believes the Government faced a strategic choice: invest in areas with the greatest potential to influence and improve other areas of spending, or make cuts of little significance now, but that will have a devastating effect upon British science and the economy in the years to come.
The United States faces a new challengeâ€"maintaining the vitality of its system for supporting science and technology despite fiscal stringency during the next several years. To address this change, the Senate Appropriations Committee requested a report from the National Academies of Sciences and Engineering and the Institute of Medicine to address "the criteria that should be used in judging the appropriate allocation of funds to research and development activities; to examine the appropriate balance among different types of institutions that conduct such research; and to look at the means of assuring continued objectivity in the allocation process." In this eagerly-awaited book, a committee of experts selected by the National Academies and the Institute responds with 13 recommendations that propose a new budgeting process and formulates a series of questions to address during that process. The committee also makes corollary recommendations about merit review, government oversight, linking research and development to government missions, the synergy between research and education, and other topics. The recommendations are aimed at rooting out obsolete and inadequate activities to free resources from good programs for even better ones, in the belief that "science and technology will be at least as important in the future as they have been in the past in dealing with problems that confront the nation." The authoring committee of this book was chaired by Frank Press, former President of the National Academy of Sciences (1981-1993) and Presidential Science and Technology Advisor (1977-1981).
Margaret Thatcher was prime minister from 1979 to 1990, during which time her Conservative administration transformed the political landscape of Britain. Science Policy under Thatcher is the first book to examine systematically the interplay of science and government under her leadership. Thatcher was a working scientist before she became a professional politician, and she maintained a close watch on science matters as prime minister. Scientific knowledge and advice were important to many urgent issues of the 1980s, from late Cold War questions of defence to emerging environmental problems such as acid rain and climate change. Drawing on newly released primary sources, Jon Agar explores how Thatcher worked with and occasionally against the structures of scientific advice, as the scientific aspects of such issues were balanced or conflicted with other demands and values. To what extent, for example, was the freedom of the individual scientist to choose research projects balanced against the desire to secure more commercial applications? What was Thatcher’s stance towards European scientific collaboration and commitments? How did cuts in public expenditure affect the publicly funded research and teaching of universities? In weaving together numerous topics, including AIDS and bioethics, the nuclear industry and strategic defence, Agar adds to the picture we have of Thatcher and her radically Conservative agenda, and argues that the science policy devised under her leadership, not least in relation to industrial strategy, had a prolonged influence on the culture of British science.
The classic case for why government must support science—with a new essay by physicist and former congressman Rush Holt on what democracy needs from science today Science, the Endless Frontier is recognized as the landmark argument for the essential role of science in society and government’s responsibility to support scientific endeavors. First issued when Vannevar Bush was the director of the US Office of Scientific Research and Development during the Second World War, this classic remains vital in making the case that scientific progress is necessary to a nation’s health, security, and prosperity. Bush’s vision set the course for US science policy for more than half a century, building the world’s most productive scientific enterprise. Today, amid a changing funding landscape and challenges to science’s very credibility, Science, the Endless Frontier resonates as a powerful reminder that scientific progress and public well-being alike depend on the successful symbiosis between science and government. This timely new edition presents this iconic text alongside a new companion essay from scientist and former congressman Rush Holt, who offers a brief introduction and consideration of what society needs most from science now. Reflecting on the report’s legacy and relevance along with its limitations, Holt contends that the public’s ability to cope with today’s issues—such as public health, the changing climate and environment, and challenging technologies in modern society—requires a more capacious understanding of what science can contribute. Holt considers how scientists should think of their obligation to society and what the public should demand from science, and he calls for a renewed understanding of science’s value for democracy and society at large. A touchstone for concerned citizens, scientists, and policymakers, Science, the Endless Frontier endures as a passionate articulation of the power and potential of science.
Following a two-year absence the Science and Technology Committee was re-formed in October 2009 to conduct cross-departmental scrutiny of science and technology. This report summarises the Committee's work of this session. It also reviews the historical landscape of science scrutiny in Parliament across the work of predecessor committees, and documents the impacts they have had on policy and the culture of scientific debate within Westminster. The Committee highlight several inquiries and reports that have had significant impact in informing legislative decisions and holding government to the standard of evidence based policy making.
Exploring the growing division among academic scientists over a profit motive in research. The commercialization of research is one of the most significant contemporary features of US higher education, yet we know surprisingly little about how scientists perceive and experience commercial rewards. A Fractured Profession is the first book to systematically examine the implications of commercialization for both universities and faculty members from the perspective of academic scientists. Drawing on richly detailed interviews with sixty-one scientists at four universities across the United States, sociologist David R. Johnson explores how an ideology of commercialism produces intraprofessional conflict in academia. The words of scientists themselves reveal competing constructions of status, conflicting norms, and divergent career paths and professional identities. Commercialist scientists embrace a professional ideology that emphasizes the creation of technologies that control societal uncertainties and advancing knowledge toward particular—and financial—ends. Traditionalist scientists, on the other hand, often find themselves embattled and threatened by university and federal emphasis on commercialization. They are less concerned about issues such as conflicts of interest and corruption than they are about unequal rewards, unequal conditions of work, and conflicts of commitment to university roles and basic science. Arguing that the division between commercialists and traditionalists represents a new form of inequality in the academic profession, this book offers an incisive look into the changing conditions of work in an era of academic capitalism. Focusing on how the profit motive is reshaping higher education and redefining what faculty are supposed to do, this book will appeal to scientists and academics, higher education scholars, university administrators and policy makers, and students considering a career in science.

Bioengineering

Great Britain: Parliament: House of Commons: Science and Technology Committee

Published: 2010-03-25

Total Pages: 240


Get eBook

This report finds that the UK has an excellent research base but is still failing to maximise its potential by translating research into wealth and health. The road to economic recovery will depend, in part, on exploitation of the UK's research base, which in turn requires efficient translation to generate returns on investments. Some areas of bioengineering, such as stem cells, have clearly benefited from strong Government leadership and support, backed up by generous levels of funding from both the public and private sectors. Others, such as genetically modified (GM) crops, are less well supported and funded. This is curious when GM crops are considered by the Government to be safe and offer potential benefits. GM crops are certainly the poor cousin in the bioengineering family, and we strongly urge the Government to signal its support for GM crops as well as improving the regulatory situation in Europe. Regulation of bioengineering is complex and researchers have found that regulations inhibit research and translation, either because of regulatory complexity (stem cells) or a flawed operation of the regulatory process (GM crops). There are good indications that the UK is learning from past experiences in bioengineering when handling new emerging technologies, such as synthetic biology. The Government and Research Councils have recognised the value of synthetic biology early, and are providing funding. The Committee is also concerned that while research is well funded there is not enough forethought about synthetic biology translation, for example developing DNA synthesis capability, which would provide the UK with an excellent opportunity to get ahead internationally. If this is not addressed, synthetic biology runs the risk of becoming yet another story of the UK failing to capitalise on a strong research base and falling behind internationally.
How the NSF became an important yet controversial patron for the social sciences, influencing debates over their scientific status and social relevance. In the early Cold War years, the U.S. government established the National Science Foundation (NSF), a civilian agency that soon became widely known for its dedication to supporting first-rate science. The agency's 1950 enabling legislation made no mention of the social sciences, although it included a vague reference to "other sciences." Nevertheless, as Mark Solovey shows in this book, the NSF also soon became a major--albeit controversial--source of public funding for them.
Scores of talented and dedicated people serve the forensic science community, performing vitally important work. However, they are often constrained by lack of adequate resources, sound policies, and national support. It is clear that change and advancements, both systematic and scientific, are needed in a number of forensic science disciplines to ensure the reliability of work, establish enforceable standards, and promote best practices with consistent application. Strengthening Forensic Science in the United States: A Path Forward provides a detailed plan for addressing these needs and suggests the creation of a new government entity, the National Institute of Forensic Science, to establish and enforce standards within the forensic science community. The benefits of improving and regulating the forensic science disciplines are clear: assisting law enforcement officials, enhancing homeland security, and reducing the risk of wrongful conviction and exoneration. Strengthening Forensic Science in the United States gives a full account of what is needed to advance the forensic science disciplines, including upgrading of systems and organizational structures, better training, widespread adoption of uniform and enforceable best practices, and mandatory certification and accreditation programs. While this book provides an essential call-to-action for congress and policy makers, it also serves as a vital tool for law enforcement agencies, criminal prosecutors and attorneys, and forensic science educators.