News Release

Report identifies health, environmental issues and best practices

Peer-Reviewed Publication

National Academies of Sciences, Engineering, and Medicine

WASHINGTON — A number of health and environmental issues and related risks need to be addressed when considering whether to lift the almost 30-year moratorium on uranium mining in Virginia, says a new report from the National Research Council, the operating arm of the National Academy of Sciences and National Academy of Engineering.

"Internationally accepted best practices, which include timely and meaningful public participation, are available to mitigate some of the risks involved," said Paul Locke, chair of the committee that wrote the report and associate professor, Johns Hopkins Bloomberg School of Public Health, Baltimore. "However, there are still many unknowns."

The committee concluded that if Virginia lifts its moratorium, there are "steep hurdles to be surmounted" before mining and processing could take place within a regulatory setting that appropriately protects workers, the public, and the environment, especially given that the state has no experience regulating mining and processing of the radioactive element.

The study was requested by the Commonwealth of Virginia after owners of a large uranium deposit at Coles Hill in southern Virginia and other groups began in recent years to call for an end to the moratorium. The committee was asked to assess the physical and social context in which uranium mining and processing might occur; national and global uranium markets; technical options and best practices for uranium mining, processing, and reclamation; and potential impacts on public health, worker safety, and the environment. It was also requested to review the state and federal regulatory framework for uranium mining, milling, processing, and reclamation.

The committee was not asked to recommend whether uranium mining should be permitted, or to consider the potential benefits to the state were uranium mining to be pursued. It also was not asked to compare the relative risks of uranium mining to the mining of other fuels such as coal.

Should the ban be lifted, uranium mining and processing are unlikely to begin for at least five to eight years after the initial granting of a license, the report says. This period of time should be used to build a robust regulatory and management culture focused on safety and citizen involvement. The experience of Canada and Colorado -- who have both enacted laws and promulgated regulations in recent years that are based on modern practices -- may be helpful to Virginia.

Although the committee was not asked to specifically assess the suitability of the Coles Hill site, it said the Coles Hill uranium deposit is large enough and of a high enough grade to have the potential to be economically viable. The United States produces just 3 percent of the world's uranium supply, most of which comes from eight countries. Last year the United States imported 92 percent of the uranium that it needed to fuel domestic reactors. Known sources of uranium are sufficient to meet demand at today's rate of usage for 50 years.

Extensive site-specific evaluations would be required to determine the most appropriate mining and processing methods for each uranium deposit, the committee said. Geological exploration to date indicates that uranium deposits in Virginia are likely found in hard rock rather than "soft" rock as coal is. Underground mining or open-pit mining would be the probable methods of extraction for any uranium deposits in Virginia. The committee noted that Virginia is susceptible to extreme natural events, including heavy precipitation and earthquakes, which need to be taken into account when evaluating a site's suitability for mining and processing. Many of the technical aspects of uranium mining would be essentially the same as for other types of hard rock mining. However, uranium mining would carry the extra risk of exposure to ionizing radiation from uranium and its decay products.

Some of the worker and public health risks could be mitigated or better controlled through modern internationally accepted best practices, the report says. In addition, if uranium mining, processing, and reclamation were designed, constructed, operated, and monitored according to best practices, near- to moderate-term environmental effects should be substantially reduced, the report says. Nevertheless, such activities in Virginia would have the potential to impact water, soil, and air quality. The degree of impact would depend on site-specific conditions, how early a contaminant release is detected by monitoring systems, and the effectiveness of mitigation steps.

The report says less is known about the long-term environmental risks of uranium tailings, the solid waste left after processing. Tailings disposal sites represent potential sources of contamination for thousands of years. While it is likely that tailings impoundment sites would be safe for at least 200 years if designed and built according to modern best practices, the long-term risks of radioactive contaminant release are unknown.

Taking the full life cycle of uranium mining and cleanup into consideration when planning a uranium mining and processing facility is one of three overarching best-practice concepts that are recognized and applied by the international uranium mining and processing community, according to the committee. The second is that any uranium mining project should use the expertise and experience of professionals familiar with internationally accepted best practices and who represent all aspects of a project including legal, environmental, health, monitoring, safety, and engineering elements. The third concept is the need for meaningful and timely public participation throughout the life cycle of a project. This would require creating an environment in which members of the public are both informed about, and can comment upon, any decisions that could impact their community.

###

The study questions were provided by the Commonwealth of Virginia. The study was funded under a contract between the National Research Council and the Virginia Polytechnic Institute and State University. Funding was provided to the university by Virginia Uranium Inc.

Pre-publication copies of Uranium Mining in Virginia are available from the National Academies Press; tel. 202-334-3313 or 1-800-624-6242 or on the Internet at http://www.nap.edu. Reporters may obtain a copy from the Office of News and Public Information (contacts listed above).

NATIONAL RESEARCH COUNCIL
Division on Earth and Life Studies Board on Earth Sciences and Resources and Water Science and Technology Board

Committee on Uranium Mining in Virginia

Paul A. Locke (chair)
Associate Professor
Department of Environmental Health Sciences
Johns Hopkins Bloomberg School of Public Health
Baltimore, Md.

Dr. Corby G. Anderson
Harrison Western Professor
Kroll Institute for Extractive Metallurgy
George S. Ansell Dept. of Metallurgical and Materials Engineering
Golden, Colorado

Lawrence W. Barnthouse
President and Principal Scientist
LWB Environmental Services Inc.
Hamilton, Ohio

Paul D. Blanc
Professor of Medicine and
Endowed Chair of Occupational and Environmental Medicine
School of Medicine
University of California
San Francisco

Scott C. Brooks
Senior Scientist
Environmental Sciences Division
Oak Ridge National Laboratory
Oak Ridge, TN

Patricia A. Buffler
Professor of Epidemiology;
Dean Emerita; and
Kenneth and Marjorie Kaiser Endowed Chair
School of Public Health
University of California
Berkeley

Michel Cuney
Research Director
Genesis Management of Mineral Resources
CNRS
Nancy, France

Peter L. deFur
President
Environmental Stewardship Concepts
Henrico, Va.

Mary R. English
Senior Fellow
Institute for a Secure and Sustainable Environment
University of Tennessee
Knoxville

Keith N. Eshleman
Professor
Appalachian Laboratory
University of Maryland Center for Environmental Science
Frostburg.

R. William Field
Professor
Departments of Occupational and Environmental Health and Epidemiology
College of Public Health
University of Iowa
Iowa City

Jill Lipoti
Director
Division of Water Monitoring and Standards
New Jersey Department of Environmental Protection
Trenton

Henry Schnell
Technical Authority Senior Expert
Expertise and Technical Department
Mining Business Unit
Areva Inc. (Retired)
Paris, France

Jeffrey J. Wong
Chief Scientist
Department of Toxic Substances Control
California Environmental Protection Agency
Sacramento

RESEARCH COUNCIL STAFF

David Feary
Study Director


Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.