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Measuring the Economic Impacts of Federal Investments in Research

Description: Measuring the Economic Impacts of Federal Investments in Research evaluates approaches to measuring the returns on federal research investments. This report identifies new methodologies and metrics that can be developed and used for assessing returns on research across a wide range of fields (biomedical, information technology, energy, agriculture, environment, and other biological and physical sciences, etc.), while using one or more background papers that review current methodologies as a starting point for the discussion. It focuses on tools that are able to exploit available data in the relatively near term rather than on methodologies that may require substantial new data collection. Over the last several years, there has been a growing interest in policy circles in identifying the payoffs from federal agency research investments, especially in terms of economic growth, competitiveness, and jobs. The extraordinary increase in research expenditures under the American Recovery and Reinvestment Act (ARRA) of 2009 and the President’s commitment to science and technology (S&T) funding increases going forward have heightened the need for measuring the impacts of research investments. Without a credible analysis of their outcomes, the recent and proposed increases in S&T funding may not be sustained, especially given competing claims for federal funding and pressures to reduce projected federal budget deficits. Motivated by these needs and requirements, Measuring the Economic Impacts of Federal Investments in Research reviews and discusses the use of quantitative and qualitative data to evaluate the returns on federal research and development (R&D) investments. Despite the job-focused mandate of the current ARRA reporting requirements, the impact of S&T funding extend well beyond employment. For instance, federal funding in energy research may lead to innovations that would reduce energy costs at the household level, energy imports at the national level, and greenhouse gas emissions at the global level. In principle, these benefits ...
Date: August 31, 2011
Creator: Olson, S & Merrill, S
Partner: UNT Libraries Government Documents Department

Critical Infrastructure for Ocean Research and Societal Needs in 2030

Description: The United States has jurisdiction over 3.4 million square miles of ocean—an expanse greater than the land area of all fifty states combined. This vast marine area offers researchers opportunities to investigate the ocean’s role in an integrated Earth system, but also presents challenges to society, including damaging tsunamis and hurricanes, industrial accidents, and outbreaks of waterborne diseases. The 2010 Gulf of Mexico Deepwater Horizon oil spill and 2011 Japanese earthquake and tsunami are vivid reminders that a broad range of infrastructure is needed to advance our still-incomplete understanding of the ocean. The National Research Council (NRC)’s Ocean Studies Board was asked by the National Science and Technology Council’s Subcommittee on Ocean Science and Technology, comprised of 25 U.S. government agencies, to examine infrastructure needs for ocean research in the year 2030. This request reflects concern, among a myriad of marine issues, over the present state of aging and obsolete infrastructure, insufficient capacity, growing technological gaps, and declining national leadership in marine technological development; issues brought to the nation’s attention in 2004 by the U.S. Commission on Ocean Policy. A 15-member committee of experts identified four themes that encompass 32 future ocean research questions–enabling stewardship of the environment, protecting life and property, promoting economic vitality, and increasing fundamental scientific understanding. Many of the questions in the report (e.g., sea level rise, sustainable fisheries, the global water cycle) reflect challenging, multidisciplinary science questions that are clearly relevant today, and are likely to take decades of effort to solve. As such, U.S. ocean research will require a growing suite of ocean infrastructure for a range of activities, such as high quality, sustained time series observations or autonomous monitoring at a broad range of spatial and temporal scales. Consequently, a coordinated national plan for making future strategic investments becomes an imperative to address ...
Date: April 22, 2011
Creator: National Research Council
Partner: UNT Libraries Government Documents Department

The Hydrogen Economy: Opportunities, Costs, Barriers, and R&D Needs

Description: The announcement of a hydrogen fuel initiative in the President’s 2003 State of the Union speech substantially increased interest in the potential for hydrogen to play a major role in the nation’s long-term energy future. Prior to that event, DOE asked the National Research Council to examine key technical issues about the hydrogen economy to assist in the development of its hydrogen R&D program. Included in the assessment were the current state of technology; future cost estimates; CO2 emissions; distribution, storage, and end use considerations; and the DOE RD&D program. The report provides an assessment of hydrogen as a fuel in the nation’s future energy economy and describes a number of important challenges that must be overcome if it is to make a major energy contribution. Topics covered include the hydrogen end-use technologies, transportation, hydrogen production technologies, and transition issues for hydrogen in vehicles.
Date: August 31, 2004
Creator: Use, Committee on Alternatives and Strategies for Future Hydrogen Production and
Partner: UNT Libraries Government Documents Department

Assessing the Importance and Impact of Glycomics and Glycosciences Phase II

Description: Glycans form one of the four basic classes of macromolecules in living systems, along with nucleic acids, proteins, and lipids. They are composed of individual sugar units that can be linked to one another in multiple ways, enabling them to form complex three-dimensional structures. In living systems, glycans are involved in myriad processes that are part of normal cellular physiology, development, and signaling, as well as in the development of both chronic and infectious diseases. Because of their ubiquity on cell surfaces, they are key components of biological interfaces and are involved in molecular recognition and signaling. They are also important molecules in cell adhesion and cell movement. Meanwhile, glycans on proteins inside cells participate in the cell’s responses to incoming signals, for example by helping to modulate gene expression and protein functions. Glycan polymers such as cellulose are important components of plant cell walls. Understanding how such walls are assembled and how they can be deconstructed is fundamental to basic plant biology, but also in the development of applications such as efficient conversion of biomass into fuels. Glycan polymers derived from plants and other organisms can also serve as sources of new materials with wide-ranging applications from tissue engineering scaffolds to flexible electronic displays. Achieving an understanding of the structures and functions of glycans is fundamental to understanding biology. The National Research Council report resulting from this project, Transforming Glycoscience: A Roadmap for the Future, discusses the impact glycoscience can have across health, energy, and materials science and lays out a roadmap of research goals whose achievement could help the field become a widely-recognized and integrated discipline rather than a niche area studied by a small number of specialists. Despite advances, gaps remain in the current suite of tools for investigating glycans and these tools often require expert users ...
Date: February 7, 2013
Creator: Zolandz, Dorothy
Partner: UNT Libraries Government Documents Department

A New Biology for the 21st Century; Ensuring the United States Leads the Coming Biology Revolution

Description: In July, 2008, the National Institutes of Health (NIH), National Science Foundation (NSF), and Department of Energy (DOE) asked the National Research Council’s Board on Life Sciences to convene a committee to examine the current state of biological research in the United States and recommend how best to capitalize on recent technological and scientific advances that have allowed biologists to integrate biological research findings, collect and interpret vastly increased amounts of data, and predict the behavior of complex biological systems. From September 2008 through July of 2009, a committee of 16 experts from the fields of biology, engineering and computational science undertook to delineate those scientific and technological advances and come to a consensus on how the U.S. might best capitalize on them. This report, authored by the Committee on a New Biology for the 21st Century, describes the committee’s work and conclusions.
Date: May 10, 2012
Creator: Committee on a New Biology for the 21st Century
Partner: UNT Libraries Government Documents Department

Visualizing Chemistry: The Progess and Promise of Advanced Chemical Imaging

Description: The field of chemical imaging can provide detailed structural, functional, and applicable information about chemistry and chemical engineering phenomena that have enormous impacts on medicine, materials, and technology. In recognizing the potential for more research development in the field of chemical imaging, the National Academies was asked by the National Science Foundation, Department of Energy, U.S. Army, and National Cancer Institute to complete a study that would review the current state of molecular imaging technology, point to promising future developments and their applications, and suggest a research and educational agenda to enable breakthrough improvements in the ability to image molecular processes simultaneously in multiple physical dimensions as well as time. The study resulted in a consensus report that provides guidance for a focused research and development program in chemical imaging and identifies research needs and possible applications of imaging technologies that can provide the breakthrough knowledge in chemistry, materials science, biology, and engineering for which we should strive. Public release of this report is expected in early October.
Date: September 1, 2006
Creator: Imaging, Committee on Revealing Chemistry Through Advanced Chemical
Partner: UNT Libraries Government Documents Department

Final Report to the Department of the Energy for Project Entitled Rare Isotope Science Assessment Committee

Description: The Rare Isotope Science Assessment Committee (RISAC) was convened by the National Research Council in response to an informal request from the DOE’s Office of Nuclear Physics and the White House Office of Management and Budget. The charge to the committee is to examine and assess the broader scientific and international contexts of a U.S.-based rare-isotope facility. The committee met for the first time on December 16-17, 2005, in Washington, DC, and held three subsequent meetings. The committee’s final report was publicly released in unedited, prepublication form on Friday, December 8, 2006. The report was published in full-color by the National Academies Press in April 2007. Copies of the report were distributed to key decision makers and stakeholders around the world.
Date: August 14, 2007
Creator: Shapero, Donald & Meyer, Timothy I.
Partner: UNT Libraries Government Documents Department

Final Progress Report for the activity called AMO2010 committee

Description: The committee was charged to produce a comprehensive report on the status of AMO Science. The committee was charged to produce a report that: 1. Reviewed the field of AMO science, emphasize recent accomplishments, and identify new opportunities and compelling scientific questions; 2. Identified the impact of AMO science on other scientific fields, emerging technologies, and national needs; 3. Identified future workforce, societal and educational needs for AMO science; and 4. Made recommendations on how the US research enterprise might realize the full potential of AMO science. The committee also produced an intermediate report addressing key research issues and themes facing the research community.
Date: December 31, 2006
Creator: Shapero, Donald & Moloney, Michael
Partner: UNT Libraries Government Documents Department

Grand Research Questions in the Solid-Earth Sciences Final Scientific/Technical Report

Description: Over the past three decades, Earth scientists have made great strides in understanding our planet’s workings and history. Yet this progress has served principally to lay bare more fundamental questions about the Earth. Expanding knowledge is generating new questions, while innovative technologies and new partnerships with other sciences provide new paths toward answers. A National Academies committee was established to frame some of the great intellectual challenges inherent in the study of the Earth and planets. The goal was to focus on science, not implementation issues, such as facilities or recommendations aimed at specific agencies. The committee canvassed the geological community and deliberated at length to arrive at 10 questions: 1. How did Earth and other planets form? 2. What happened during Earth’s “dark age” (the first 500 million years)? 3. How did life begin? 4. How does Earth’s interior work, and how does it affect the surface? 5. Why does Earth have plate tectonics and continents? 6. How are Earth processes controlled by material properties? 7. What causes climate to change—and how much can it change? 8. How has life shaped Earth—and how has Earth shaped life? 9. Can earthquakes, volcanic eruptions, and their consequences be predicted? 10. How do fluid flow and transport affect the human environment? Written for graduate students, colleagues in sister disciplines, and program managers funding Earth and planetary science research, the report describes where the field stands, how it got there, and where it might be headed. Our hope is that the report will spark new interest in and support for the field by showing how Earth science can contribute to a wide range of issues—including some not always associated with the solid Earth—from the formation of the solar system to climate change to the origin of life. Its reach goes beyond the United ...
Date: December 3, 2008
Creator: Linn, Anne M.
Partner: UNT Libraries Government Documents Department

An Assessment of New Materials Synthesis and Crystal Growth in United States

Description: The committee of 16 members was drawn from the broad community of condensed-matter physicists and materials researchers, and included experts in bulk materials synthesis and crystal growth (oxide, intermetallic, semiconductor, and organic synthesis) and both experimentalists and theorists. It prepared a report to address the following tasks: (1) Define the research area of new materials synthesis and crystal growth, framing the activities in the broader context of the condensed-matter and materials sciences; (2) Assess the health of the collective U.S. research activities in new materials synthesis and crystal growth; (3) Articulate the relationship between synthesis of bulk and thin-film materials and measurementbased research activities; identify appropriate trends; (4) Identify future opportunities for new materials synthesis and crystal growth research and discuss the potential impact on other sciences and society in general; and (5) Recommend strategies to address these opportunities, including discussion of the following issues: (a) Establishing new organizations to improve accessibility to and distribution of samples, (b) Technology transfer from basic research to commercial processes, and (c) Essential elements of national materials synthesis capabilities and considerations for nationally organized efforts.
Date: August 15, 2009
Creator: Shapero, Don C. & Lancaster, James C.
Partner: UNT Libraries Government Documents Department

Research Frontiers in Bioinspired Energy: Molecular-Level Learning from Natural Systems: A Workshop

Description: An interactive, multidisciplinary, public workshop, organized by a group of experts in biochemistry, biophysics, chemical and biomolecular engineering, chemistry, microbial metabolism, and protein structure and function, was held on January 6-7, 2011 in Washington, DC. Fundamental insights into the biological energy capture, storage, and transformation processes provided by speakers was featured in this workshop�which included topics such as microbes living in extreme environments such as hydrothermal vents or caustic soda lakes (extremophiles)� provided a fascinating basis for discussing the exploration and development of new energy systems. Breakout sessions and extended discussions among the multidisciplinary groups of participants in the workshop fostered information sharing and possible collaborations on future bioinspired research. Printed and web-based materials that summarize the committee�s assessment of what transpired at the workshop were prepared to advance further understanding of fundamental chemical properties of biological systems within and between the disciplines. In addition, webbased materials (including two animated videos) were developed to make the workshop content more accessible to a broad audience of students and researchers working across disciplinary boundaries. Key workshop discussion topics included: Exploring and identifying novel organisms; Identifying patterns and conserved biological structures in nature; Exploring and identifying fundamental properties and mechanisms of known biological systems; Supporting current, and creating new, opportunities for interdisciplinary education, training, and outreach; and Applying knowledge from biology to create new devices and sustainable technology.
Date: March 28, 2012
Creator: Zolandz, Dorothy
Partner: UNT Libraries Government Documents Department

Core Support of the Board on Mathematical Sciences

Description: This proposal summarizes activities conducted by the Board on Mathematical Sciences (BMS) during the period August 1, 1994 to July 31, 1995 and describes future plans of the Board for the period August 1, 1995 to July 31, 1998. We are requesting core support in the amount of $105,000 ($35,000 each year) from the Department of Energy for the additional three-year period. The BMS activities supported exclusively by core funding are the annual Department Chairs Colloquia, the National Science and Technology Symposia, specific reports, the initiation of all projects, continuous oversight of all activities, and partial core support of the Committee on Applied and Theoretical Statistics (CATS). Other activities of the Board include giving recommendations on research directions to federal agencies, and reports on education in the mathematical sciences, interaction of mathematical sciences with other areas, health of the mathematical sciences, and emerging research directions.
Date: April 4, 1995
Partner: UNT Libraries Government Documents Department

The impact of biology on risk assessment -- Workshop of the National Research Council`s board on radiation effects research. Meeting report

Description: The linear, nonthreshold extrapolation from a dose-response relationship for ionizing radiation derived at higher doses to doses for which regulatory standards are proposed is being challenged by some scientists and defended by others. It appears that the risks associated with exposures to doses of interest are below the risks that can be measured with epidemiologic studies. Therefore, many have looked to biology to provide information relevant to risk assessment. The workshop reported here, ``The Impact of biology on Risk Assessment,`` was planned to address the need for further information by bringing together scientists who have been working in key fields of biology and others who have been contemplating the issues associated specifically with this question. The goals of the workshop were to summarize and review the status of the relevant biology, to determine how the reported biologic data might influence risk assessment, and to identify subjects on which more data is needed.
Date: December 31, 1997
Creator: Fry, R. J. M.; Grosovsky, A.; Hanawalt, P. C.; Jostes, R. F.; Little, J. B.; Morgan, W. F. et al.
Partner: UNT Libraries Government Documents Department

Mathematical challenges from theoretical/computational chemistry

Description: The committee believes that this report has relevance and potentially valuable suggestions for a wide range of readers. Target audiences include: graduate departments in the mathematical and chemical sciences; federal and private agencies that fund research in the mathematical and chemical sciences; selected industrial and government research and development laboratories; developers of software and hardware for computational chemistry; and selected individual researchers. Chapter 2 of this report covers some history of computational chemistry for the nonspecialist, while Chapter 3 illustrates the fruits of some past successful cross-fertilization between mathematical scientists and computational/theoretical chemists. In Chapter 4 the committee has assembled a representative, but not exhaustive, survey of research opportunities. Most of these are descriptions of important open problems in computational/theoretical chemistry that could gain much from the efforts of innovative mathematical scientists, written so as to be accessible introductions to the nonspecialist. Chapter 5 is an assessment, necessarily subjective, of cultural differences that must be overcome if collaborative work is to be encouraged between the mathematical and the chemical communities. Finally, the report ends with a brief list of conclusions and recommendations that, if followed, could promote accelerated progress at this interface. Recognizing that bothersome language issues can inhibit prospects for collaborative research at the interface between distinctive disciplines, the committee has attempted throughout to maintain an accessible style, in part by using illustrative boxes, and has included at the end of the report a glossary of technical terms that may be familiar to only a subset of the target audiences listed above.
Date: December 31, 1995
Partner: UNT Libraries Government Documents Department

The Government-University-Industry Research Roundtable. Annual reports for 1997, 1998, 1999

Description: The Roundtable was created in 1984 to provide a unique forum for dialog among top government, university, and industry leaders of the national science and technology enterprise. The purpose is to facilitate personal working relationships and exchange of ideas regarding issues, problems, and promising opportunities that are facing those charged with developing and deploying science and technology resources. These annual reports begin by describing the purpose, structure, and mode of operation of the Roundtable. There follow sections devoted to the council activities, major projects, and follow-up planning, and the activities of the Roundtable working groups. Meeting agendas and publications lists are also included.
Date: December 31, 1999
Partner: UNT Libraries Government Documents Department

The Government-University-Industry Research Roundtable 1996 annual report

Description: The Government-University-Industry Research Roundtable was created just over a decade ago to provide a unique forum for dialogue among top government, university, and industry leaders in the national science and technology enterprise. The purpose is to facilitate personal working relationships and exchange of ideas about issues, problems, and promising opportunities facing those charged with developing and deploying science and technology resources. In 1996, Council meetings focused on the following: (1) the impact of information technology on the structure of research and educational organizations; (2) ways to improve communication between the science and engineering community and the public; and (3) new approaches both to measuring the results of research investments, and to communicating those metrics to non-technical decision-makers and to the public. Significant milestones were also achieved in four major projects, representing, impart, follow-up activity from previous Council Meeting discussions: (1) facilitating the Federal Demonstration Partnership, designed to maximize the efficiency of the federal research support system; (2) compiling results of a regional workshop on experiences in industry-university collaborative organization; (3) publishing the results of a study comparing the cost structures for research performed in the industrial, academic, and government laboratory sector; and (4) catalyzing, and participating in, a series of campus-based convocations on stresses being experienced in the research university environment.
Date: December 31, 1996
Partner: UNT Libraries Government Documents Department

U.S. National Committee for Rock Mechanics; and Conceptual model of fluid infiltration in fractured media. Project summary, July 28, 1997--July 27, 1998

Description: The title describes the two tasks summarized in this report. The remainder of the report contains information on meetings held or to be held on the subjects. The US National Committee for Rock Mechanics (USNC/RM) provides for US participation in international activities in rock mechanics, principally through adherence to the International Society for Rock Mechanics (ISRM). It also keeps the US rock mechanics community informed about new programs directed toward major areas of national concern in which rock mechanics problems represent critical or limiting factors, such as energy resources, excavation, underground storage and waste disposal, and reactor siting. The committee also guides or produces advisory studies and reports on problem areas in rock mechanics. A new panel under the auspices of the US National Committee for Rock Mechanics has been appointed to conduct a study on Conceptual Models of Fluid Infiltration in Fractured Media. The study has health and environmental applications related to the underground flow of pollutants through fractured rock in and around mines and waste repositories. Support of the study has been received from the US Nuclear Regulatory Commission and the Department of Energy`s Yucca Mountain Project Office. The new study builds on the success of a recent USNC/RM report entitled Rock Fractures and Fluid Flow: Contemporary Understanding and Applications (National Academy Press, 1996, 551 pp.). A summary of the new study is provided.
Date: September 1, 1998
Partner: UNT Libraries Government Documents Department

ABCC/RERF: Commemorating the First 50 Years and Looking to the Future [Symposium program]

Description: In 1946, President Harry Truman, in a document currently on display at the entrance to this auditorium, approved a directive to the National Academy of Sciences-National Research Council (NAS-NRC) to initiate a long-term investigation of the health effects associated with exposure to radiation from the atomic bombs. With funding provided by the Atomic Energy Commission, now the Department of Energy, NAS-NRC established the Atomic Bomb Casualty Commission (ABCC) in March 1947. The government of Japan through the Japanese National Institute of Health, became a partner in that endeavor in 1948. In 1975, the Radiation Effects Research Foundation (RERF) was established and assumed the responsibilities of ABCC. This symposium commemorates 50 years of ABCC/RERF. It is dedicated to the many survivors and their families without whose cooperation we would not have learned as much as we have about the effects of radiation. It is also dedicated to the thousands of employees of RERF and scientists around the world who have contributed through the years to the analysis and interpretation of the information emerging from this unique study.
Date: June 13, 1997
Partner: UNT Libraries Government Documents Department

Board on Earth Sciences and Resources and its activities

Description: The Board on Earth Sciences and Resources (BESR) coordinates, the National Research Council`s advice to the federal government on solid-earth science issues. The board identifies opportunities for advancing basic research and understanding, reports on applications of earth sciences in such areas as disaster mitigation and resource utilization, and analyzes the scientific underpinnings and credibility of earth science information for resource, environmental and other applications and policy decision. Committees operating under the guidance of the Board conducts studies addressing specific issues within the earth sciences. The current committees are as follows: Committee on Geophysical and Environmental Data; Mapping Sciences Committee; Committee on Seismology; Committee on Geodesy; Rediscovering Geography Committee; Committee on Research Programs of the US Bureau of Mines. The following recent reports are briefly described: research programs of the US Bureau of Mines, first assessment 1994; Mount Rainier, active cascade volcano; the national geomagnetic initiative; reservoir class field demonstration program; solid-earth sciences and society; data foundation for the national spatial infrastructure; promoting the national spatial data infrastructure through partnerships; toward a coordinated spatial data infrastructure for the nation; and charting a course into the digital era; guidance to the NOAA`s nautical charting mission.
Date: June 1, 1995
Partner: UNT Libraries Government Documents Department

The Government-University-Industry Research Roundtable 1995 annual report

Description: The Government-University-Industry Research Roundtable was created just over a decade ago to provide a unique forum for dialogue among top government, university, and industry leaders of the national science and technology enterprise. The purpose is to facilitate personal working relationships and exchange of ideas about issues, problems, and promising opportunities that are facing those charged with developing and deploying science and technology resources. The open dialogue and informal exchange of ideas preclude a process of making formal recommendations or offering specific advice. Instead, the Roundtable seeks to stimulate new approaches by dissemination of its discussions, and pro-active contacts with organizations that may want to build on the idea base it establishes. After introductory material on the structure and operation of the Roundtable, accomplishments on current projects are described. Projects include: Stresses on research and education at colleges and universities; Formulating US research policies within an international context; The Federal Demonstration project, designed to improve the management of federally-funded research; Analysis of the costs of research in industrial, academic, and federal labs; Industry-university research collaborations; and Public stakeholding in America`s investment in science and technology.
Date: December 31, 1995
Partner: UNT Libraries Government Documents Department

Drilling for energy resources

Description: Drilling is integral to the exploration, development, and production of most energy resources. Oil and natural gas, which are dependent on drilling technology, together account for about 77% of the energy sources consumed in the US. Thus, the limitations of current drilling technology also restrict the rate at which new energy supplies can be found, extracted, and brought to the marketplace. The purpose of the study reported was to examine current drilling technology, suggest areas where additional research and development (R and D) might significantly increase drilling rates and capabilities, and suggest a strategy for improving drilling technology. An overview is provided of the US drilling industry. The drilling equipment and techniques now used for finding and recovering oil, natural gas, coal, shale oil, nuclear fuels, and geothermal energy are described. Although by no means exhaustive, these descriptions provide the background necessary to adequately understand the problems inherent in attempts to increase instantaneous and overall drilling rates.
Date: January 1, 1976
Partner: UNT Libraries Government Documents Department

Geodynamics Project. US progress report, 1977

Description: Past work of the US Geodynamics Committee (USGC) is summarized. The USGC devoted considerable discussion at its November 1976, meeting to preparation of an up-to-date statement of the USGC actions developed by USGC reporters. That discussion ultimately led to a number of statements and recommendations, given here. The bulk of this document is comprised of the reporters' reports on the following topics: fine structure of the crust and upper mantle, evolution of oceanic lithosphere, internal processes and properties, crystal growing, large-volume experimentation, application of isotope geochemistry to geodynamics, geodynamic modeling, drilling for scientific purposes, plate boundaries, plate interiors, data centers and repositories, geodynamic activities in the Caribbean area, seismicity and deep structure of the continental margin, and aeromagnetic survey. Appendixes give project correspondents, participants, etc. 23 figures, 2 tables. (RWR)
Date: January 1, 1977
Partner: UNT Libraries Government Documents Department