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Technology Transfer: Use of Federally Funded Research and Development
No Description Available.
Technology Transfer: Use of Federally Funded Research and Development
No Description Available.
Technology Transfer: Use of Federally Funded Research and Development
No Description Available.
Technology Transfer: Use of Federally Funded Research and Development
No Description Available.
Technology Transfer: Use of Federally Funded Research and Development
No Description Available.
Technology Transfer: Use of Federally Funded Research and Development
No Description Available.
Technology Transfer: Use of Federally Funded Research and Development
No Description Available.
Technology Transfer: Use of Federally Funded Research and Development
The federal government spends approximately one-third of its annual research and development budget for intramural R&D to meet mission requirements in over 700 government laboratories (including Federally Funded Research and Development Centers). The technology and expertise generated by this endeavor may have application beyond the immediate goals or intent of federally funded R&D. Congress has established a system to facilitate the transfer of technology to the private sector and to state and local governments. Critics of this policy argue that working with the agencies and laboratories continues to be difficult and time-consuming. Proponents of the current effort assert that while the laboratories are open to interested parties, the industrial community is making little effort to use them.
Technology Transfer: Use of Federally Funded Research and Development
The government spends approximately one third of the $83 billion federal R&D budget for intramural research and development to meet mission requirements in over 700 government laboratories. Congress has established a system to facilitate the transfer of technology to the private sector and to state and local governments. Despite this, use of federal R&D results has remained restrained, although there has been a significant increase in private sector interest and activities over the past several years. At issue is whether incentives for technology transfer remain necessary, if additional legislative initiatives are needed to encourage increased technology transfer, or if the responsibility to use the available resources now rests with the private sector.
Technology Transfer: Use of Federally Funded Research and Development
The federal government spends approximately one-third of its annual research and development budget for intramural R&D to meet mission requirements in over 700 government laboratories (including Federally Funded Research and Development Centers). The technology and expertise generated by this endeavor may have application beyond the immediate goals or intent of federally funded R&D. Congress has established a system to facilitate the transfer of technology to the private sector and to state and local governments. Critics of this policy argue that working with the agencies and laboratories continues to be difficult and time-consuming. Proponents of the current effort assert that while the laboratories are open to interested parties, the industrial community is making little effort to use them.
U.S. Agricultural Biotechnology in Global Markets: An Introduction
No Description Available.
U.S. Agricultural Biotechnology in Global Markets: An Introduction
No Description Available.
Genetically Engineered Fish and Seafood
Genetic engineering techniques allow the manipulation of inherited traits to modify organisms. Genetically modified (GM) fish and seafood products are currently under development and may offer potential benefits such as increasing aquaculture productivity and addressing human health concerns. However, some critics of this rapidly evolving field are concerned that current technological and regulatory safeguards are inadequate to protect the environment and ensure public acceptance of these products. This report discusses various regulatory and environmental concerns regarding GM fish and seafood, then discusses the possible benefits and disadvantages of their use.
Regulation of Plant-Based Pharmaceuticals
No Description Available.
Fishery, Aquaculture, and Marine Mammal Online News and Information Sources
No Description Available.
Fishery, Aquaculture, and Marine Mammal Online News and Information Sources
No Description Available.
The National Institutes of Health: An Overview
The National Institutes of Health is the focal point of federal health research. It uses its $17.8 billion budget to support more than 50,000 scientists working at 2,000 institutions across the United States, as well as to conduct biomedical and behavioral research and research training at its own facilities.
Department of Energy Research and Development Budget for FY2001: Description and Analysis
This report focuses on the R&D programs. It divides the programs into four categories: energy resources R&D, science, national security R&D, and environmental management R&D. Those categories, which approximate the way DOE has divided up its programs, are set up to keep similar research activities together.1 This arrangement is somewhat different from the way the R&D budget is approached by the congressional appropriations committees. This report gives a description of the programs within each category including their research objectives and the activities where significant budget changes were requested for FY2001. It then describes the request and congressional actions on the request.
Climate Change: Federal Expenditures for Science and Technology
This report identifies and discusses direct climate-focused scientific and research programs of the federal government, as well as an array of energy programs that relate indirectly to climate change.
Balancing Scientific Publication and National Security Concerns: Issues for Congress
There is a lack of consensus regarding the best method of balancing scientific publishing and national security. The current federal policy, as described in National Security Decision Directive 189, is that fundamental research should remain unrestricted and that in the rare case where it is necessary to restrict such information, classification is the appropriate vehicle to do so. Other mechanisms restrict international information flow, where Export Administration Regulations (EAR) and International Traffic in Arms Regulations (ITAR) control export of items and technical information on specific lists. Both EAR and ITAR contain a fundamental research exclusion, but this exclusion is lost if prepublication review of research results for sensitive information occurs.
Balancing Scientific Publication and National Security Concerns: Issues for Congress
There is a lack of consensus regarding the best method of balancing scientific publishing and national security. The current federal policy, as described in National Security Decision Directive 189, is that fundamental research should remain unrestricted and that in the rare case where it is necessary to restrict such information, classification is the appropriate vehicle to do so. Other mechanisms restrict international information flow, where Export Administration Regulations (EAR) and International Traffic in Arms Regulations (ITAR) control export of items and technical information on specific lists. Both EAR and ITAR contain a fundamental research exclusion, but this exclusion is lost if prepublication review of research results for sensitive information occurs.
Balancing Scientific Publication and National Security Concerns: Issues for Congress
There is a lack of consensus regarding the best method of balancing scientific publishing and national security. The current federal policy, as described in National Security Decision Directive 189, is that fundamental research should remain unrestricted and that in the rare case where it is necessary to restrict such information, classification is the appropriate vehicle to do so. Other mechanisms restrict international information flow, where Export Administration Regulations (EAR) and International Traffic in Arms Regulations (ITAR) control export of items and technical information on specific lists. Both EAR and ITAR contain a fundamental research exclusion, but this exclusion is lost if prepublication review of research results for sensitive information occurs.
Balancing Scientific Publication and National Security Concerns: Issues for Congress
There is a lack of consensus regarding the best method of balancing scientific publishing and national security. The current federal policy, as described in National Security Decision Directive 189, is that fundamental research should remain unrestricted and that in the rare case where it is necessary to restrict such information, classification is the appropriate vehicle to do so. Other mechanisms restrict international information flow, where Export Administration Regulations (EAR) and International Traffic in Arms Regulations (ITAR) control export of items and technical information on specific lists. Both EAR and ITAR contain a fundamental research exclusion, but this exclusion is lost if prepublication review of research results for sensitive information occurs.
Balancing Scientific Publication and National Security Concerns: Issues for Congress
There is a lack of consensus regarding the best method of balancing scientific publishing and national security. The current federal policy, as described in National Security Decision Directive 189, is that fundamental research should remain unrestricted and that in the rare case where it is necessary to restrict such information, classification is the appropriate vehicle to do so. Other mechanisms restrict international information flow, where Export Administration Regulations (EAR) and International Traffic in Arms Regulations (ITAR) control export of items and technical information on specific lists. Both EAR and ITAR contain a fundamental research exclusion, but this exclusion is lost if prepublication review of research results for sensitive information occurs.
Cooperative R&D: Federal Efforts to Promote Industrial Competitiveness
In response to the foreign challenge in the global marketplace, the United States Congress has explored ways to stimulate technological advancement in the private sector. The government has supported various efforts to promote cooperative research and development activities among industry, universities, and the federal R&D establishment. Among the issues before Congress are whether joint ventures contribute to industrial competitiveness and what role, if any, the government has in facilitating such agreements. Collaborative ventures are intended to accommodate the strengths and responsibilities of all sectors involved innovation and technology development. Given the increased popularity of cooperative programs, questions might be raised as to whether they are meeting expectations. These include questions about the emphasis on collaborative ventures in research rather than in technology development; cooperative manufacturing; defense vs. civilian support; and access by foreign companies.
Foreign Science and Engineering Presence in U.S. Institutions and the Labor Force
The increased presence of foreign students in graduate science and engineering programs and in the scientific workforce has been and continues to be of concern to some in the scientific community. Enrollment of U.S. citizens in graduate science and engineering programs has not kept pace with that of foreign students in those programs. Many in the scientific community maintain that in order to compete with countries that are rapidly expanding their scientific and technological capabilities, the country needs to bring to the United States those whose skills will benefit society and will enable us to compete in the new-technology based global economy. This report analyzes this issue in detail and includes discussion of related legislation.
Foreign Science and Engineering Presence in U.S. Institutions and the Labor Force
The increased presence of foreign students in graduate science and engineering programs and in the scientific workforce has been and continues to be of concern to some in the scientific community. Enrollment of U.S. citizens in graduate science and engineering programs has not kept pace with that of foreign students in those programs. In addition to the number of foreign students in graduate science and engineering programs, a significant number of university faculty in the scientific disciplines are foreign, and foreign doctorates are employed in large numbers by industry. This report explains this issue in detail, as well as probable causes of said incongruity.
Foreign Science and Engineering Presence in U.S. Institutions and the Labor Force
The increased presence of foreign students in graduate science and engineering programs and in the scientific workforce has been and continues to be of concern to some in the scientific community. Enrollment of U.S. citizens in graduate science and engineering programs has not kept pace with that of foreign students in those programs. In addition to the number of foreign students in graduate science and engineering programs, a significant number of university faculty in the scientific disciplines are foreign, and foreign doctorates are employed in large numbers by industry. This report examines these issues and discusses their policy implications.
Foreign Science and Engineering Presence in U.S. Institutions and the Labor Force
The increased presence of foreign students in graduate science and engineering programs and in the scientific workforce has been and continues to be of concern to some in the scientific community. Enrollment of U.S. citizens in graduate science and engineering programs has not kept pace with that of foreign students in those programs. In addition to the number of foreign students in graduate science and engineering programs, a significant number of university faculty in the scientific disciplines are foreign, and foreign doctorates are employed in large numbers by industry. This report examines these issues and discusses their policy implications.
Foreign Science and Engineering Presence in U.S. Institutions and the Labor Force
The increased presence of foreign students in graduate science and engineering programs and in the scientific workforce has been and continues to be of concern to some in the scientific community. Enrollment of U.S. citizens in graduate science and engineering programs has not kept pace with that of foreign students in those programs. In addition to the number of foreign students in graduate science and engineering programs, a significant number of university faculty in the scientific disciplines are foreign, and foreign doctorates are employed in large numbers by industry. This report examines these issues and discusses their policy implications.
Foreign Science and Engineering Presence in U.S. Institutions and the Labor Force
The scientific community has been divided over proposals to impose stricter immigration limits on people with scientific and technical skills. Attempts to settle upon the balance between the needs for a highly skilled scientific and technical workforce, and the need to protect and ensure job opportunities, salaries, and working conditions of U.S. scientific personnel, will continue to be debated. This report addresses these issues and their implications.
NASA's Earth Science Enterprise
No Description Available.
Agricultural Biotechnology: Background and Recent Issues
Since the first genetically engineered (GE) crops (also called GM [genetically modified] crops, or GMOs, genetically modified organisms) became commercially available in the mid-1990s, U.S. soybean, cotton, and corn farmers have rapidly adopted them. As adoption has spread, there have been policy debates over the costs and benefits of GE products. Issues include the impacts of GE crops on the environment and food safety, and whether GE foods should be specially labeled. Congress generally has been supportive of GE agricultural products, although some Members have expressed wariness about their adoption and regulation. The 109th Congress will likely continue to follow trade developments, particularly the U.S.-EU dispute, as well as U.S. regulatory mechanisms for approving biotech foods.
Oversight of Dual-Use Biological Research: The National Science Advisory Board for Biosecurity
No Description Available.
The National Biodefense Analysis and Countermeasures Center: Issues for Congress
No Description Available.
Scientific Research and the Experimental Use Privilege in Patent Law
No Description Available.
Climate Change: Federal Research, Technology, and Related Programs
A major focus of efforts to address possible global climate change has been on energy use, given that carbon dioxide, the major “greenhouse gas,” is added to the atmosphere when fossil fuels are burned. Federal programs to increase energy efficiency and the use of renewable energy resources have a history that goes back well over two decades. While many of these efforts were aimed at reducing U.S. dependence on oil imports and addressing electricity needs, they also are relevant to environmental concerns, including climate change.
Climate Change Technology Initiative (CCTI): Research, Technology, and Related Programs
The Climate Change Technology Initiative (CCTI) was the Clinton Administration's package of R&D (to develop renewable energy sources and more energy efficient technologies), targeted tax credits (to encourage purchase and deployment of more efficient technologies), and voluntary information programs (to help businesses and schools be better informed when making purchasing and operating decisions that involve energy use and emissions). This report describes the R&D, voluntary information programs, and funding aspects of the CCTI.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.
The Role of Risk Analysis and Risk Management in Environmental Protection
No Description Available.