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Identifies important areas for Federal investment, & specific research in agriculture, environmental biotechnology, manufacturing & bioprocessing, marine biotechnology & aquaculture, & infrastructure. Includes 13 Federal agency overviews: USAID, USDA, DoC, DoD, DoE, DHHS, DoI, DoJ, DoS, DVA, EPA, NASA, & NSF. Stresses the need to research the effects that biotechnology can have on society before going ahead with new advances. Discusses the impact of biotechnology in legal, societal, & economic issues. Glossary. Photos & charts.
Dramatic developments in understanding the fundamental underpinnings of life have provided exciting opportunities to make marine bioproducts an important part of the U.S. economy. Several marine based pharmaceuticals are under active commercial development, ecosystem health is high on the public's list of concerns, and aquaculture is providing an ever greater proportion of the seafood on our tables. Nevertheless, marine biotechnology has not yet caught the public's, or investor's, attention. Two workshops, held in October 1999 and November 2001 at the National Academies, were successful in highlighting new developments and opportunities in environmental and biomedical applications of marine biotechnology, and also in identifying factors that are impeding commercial exploitation of these products. This report includes a synthesis of the 2001 sessions addressing drug discovery and development, applications of genomics and proteomics to marine biotechnology, biomaterials and bioengineering, and public policy and essays contributed by the workshop speakers.
The strategic framework outlined in this report is a coordinated, interagency effort intended to develop and implement a national Biotechnology Research Program to assure the nation of a vigorous base of science and engineering for future development of this critical technology. Covers 11 biotechnology research areas and 12 federal agencies. B/W & color photos.
Now more than ever, biology has the potential to contribute practical solutions to many of the major challenges confronting the United States and the world. A New Biology for the 21st Century recommends that a "New Biology" approach-one that depends on greater integration within biology, and closer collaboration with physical, computational, and earth scientists, mathematicians and engineers-be used to find solutions to four key societal needs: sustainable food production, ecosystem restoration, optimized biofuel production, and improvement in human health. The approach calls for a coordinated effort to leverage resources across the federal, private, and academic sectors to help meet challenges and improve the return on life science research in general.
This contributed volume compiles the latest improvements in the field of biotechnology. It focuses on topics that comprises industrial, environment, agricultural and medical related issues to technology and biological studies and exhibits the correlation between the biological world and the dependence of humans on it. The book is organized into five parts covering the role of biotechnology in industrial products, environmental remediation, agriculture and pharmacological agents. Ranging from micro-scale studies to macro, it covers a huge domain of agricultural biotechnology and focuses on important commercial crops (e.g. cacao and coffee), arbuscular mycorrhizal fungi, flow and distribution of phosphorus in agricultural soils in the Latin American region. Overall, the book portrays the importance of modern biotechnology and its role in solving the problems in modern day life. The book is a ready reference for practicing students, researchers of environmental engineering, chemical engineering, agricultural engineering, and other allied fields likewise.
As the oldest and largest human intervention in nature, the science of agriculture is one of the most intensely studied practices. From manipulation of plant gene structure to the use of plants for bioenergy, biotechnology interventions in plant and agricultural science have been rapidly developing over the past ten years with immense forward leaps on an annual basis. This book begins by laying the foundations for plant biotechnology by outlining the biological aspects including gene structure and expression, and the basic procedures in plant biotechnology of genomics, metabolomics, transcriptomics and proteomics. It then focuses on a discussion of the impacts of biotechnology on plant breeding technologies and germplasm sustainability. The role of biotechnology in the improvement of agricultural traits, production of industrial products and pharmaceuticals as well as biomaterials and biomass provide a historical perspective and a look to the future. Sections addressing intellectual property rights and sociological and food safety issues round out the holistic discussion of this important topic. Includes specific emphasis on the inter-relationships between basic plant biotechnologies and applied agricultural applications, and the way they contribute to each other Provides an updated review of the major plant biotechnology procedures and techniques, their impact on novel agricultural development and crop plant improvement Takes a broad view of the topic with discussions of practices in many countries
Biotechnologyâ€"the manipulation of the basic building blocks of lifeâ€"is rapidly advancing in laboratories around the world. It has become routine to refer to DNA fingerprints and genetically engineered foods. Yet the "how to" of biotechnology is only the beginning. For every report of new therapies or better ways to produce food, there is a Jurassic Park scenario to remind us of the potential pitfalls. Biotechnology raises serious issues for scientists and nonscientists alike: Who will decide what is safe? Who will have access to our personal genetic information? What are the risks when advanced science becomes big business? In Biotechnology, experts from science, law, industry, and government explore a cross-section of emerging issues. This book offers straightforward explanations of basic science and provides insight into the serious social questions raised by these findings. The discussions explore five key areas: The state of the art in biotechnology-including an overview of the genetic revolution, the development of recombinant DNA technology, and the possibilities for applying the new techniques. Potential benefits to medicine and the environment-including gene therapy, the emerging area of tissue engineering and biomaterials, and the development of therapeutic proteins. Issues in technology transfer-focusing on the sometimes controversial relationship between university research centers and industry. Ethics, behavior, and values-exploring the ethical issues that surround basic research and applications of new technology, with a discussion of scientific misconduct and a penetrating look at the social impact of genetic discoveries. Government's role-including a comparison of U.S., European, and Japanese policies on pharmaceutical and biotechnology development. Biotechnology is here to stay, and this volume adds immeasurably to understanding its multiple aspects and far-reaching implications. This book will be of interest to scientists and industry leaders involved in biotechnology issues-and it will be welcomed by the concerned lay reader. Frederick B. Rudolph, Ph.D., is a professor of biochemistry and cell biology at Rice University and is executive director of the Institute of Biosciences and Bioengineering. Larry V. McIntire, Ph.D., is the E. D. Butcher Professor of Chemical and Biomedical Engineering at Rice University and is chair of the Institute of Biosciences and Bioengineering.
In recent years much has happened to justify an examination of biological research in light of national security concerns. The destructive application of biotechnology research includes activities such as spreading common pathogens or transforming them into even more lethal forms. Policymakers and the scientific community at large must put forth a vigorous and immediate response to this challenge. This new book by the National Research Council recommends that the government expand existing regulations and rely on self-governance by scientists rather than adopt intrusive new policies. One key recommendation of the report is that the government should not attempt to regulate scientific publishing but should trust scientists and journals to screen their papers for security risks, a task some journals have already taken up. With biological information and tools widely distributed, regulating only U.S. researchers would have little effect. A new International Forum on Biosecurity should encourage the adoption of similar measures around the world. Seven types of risky studies would require approval by the Institutional Biosafety Committees that already oversee recombinant DNA research at some 400 U.S. institutions. These "experiments of concern" include making an infectious agent more lethal and rendering vaccines powerless.
A theorization of how the bioeconomy and biotechnology remake 'life itself,' creating crises in ethics and governance.
Explores current developments in the fields of biochips, cloning, and genetic mapping.