Combating Nuclear Terrorism
Preliminary Observations on Preparedness to Recover from Possible Attacks Using Radiological or Nuclear Materials Gao ID: GAO-09-996T September 14, 2009A terrorist's use of a radiological dispersal device (RDD) or improvised nuclear device (IND) to release radioactive materials into the environment could have devastating consequences. The timely cleanup of contaminated areas, however, could speed the restoration of normal operations, thus reducing the adverse consequences from an incident. This testimony examines (1) the extent to which federal agencies are planning to fulfill their responsibilities to assist cities and their states in cleaning up areas contaminated with radioactive materials from RDD and IND incidents; (2) what is known about the federal government's capability to effectively cleanup areas contaminated with radioactive materials from RDD and IND incidents, and (3) suggestions from government emergency management officials on ways to improve federal preparedness to provide assistance to recover from RDD and IND incidents. We also discuss recovery activities in the United Kingdom. This testimony is based on our ongoing review of recovery preparedness issues for which we examined applicable federal laws and guidance; interviewed officials from the Department of Homeland Security (DHS), Federal Emergency Management Agency (FEMA), Department of Energy (DOE), and Environmental Protection Agency (EPA); and surveyed emergency management officials from 13 large cities and their states, as well as FEMA and EPA regional office officials.
DHS, through FEMA, is responsible for developing a comprehensive emergency management system to respond to and recover from natural disasters and terrorists attacks, including RDD and IND attacks. The response phase would involve evacuations and providing medical treatment to those who were injured; the recovery phase would include cleaning up the radioactive contamination from an attack in order to permit people to return to their homes and businesses. To date, much federal attention has been given to developing a response framework, with less attention to recovery. Our survey found that almost all cities and states would be so overwhelmed by an RDD or IND incident that they would rely on the federal government to conduct almost all analysis and cleanup activities that are essential first steps towards recovery. However, we found that the federal government has not sufficiently planned to undertake these activities. For example, FEMA has not issued a national disaster recovery strategy or plans for RDD and IND incidents as required by law. Existing federal guidance provides only limited direction for federal agencies to develop their own recovery plans and conduct exercises to test preparedness. Out of over 70 RDD and IND exercises conducted in the last 5 years, only three have included interagency recovery discussions following a response exercise. Although DOE and EPA have experience in the cleanup of small-scale radiation-contaminated areas, their lack of knowledge and capability to apply approaches to address the magnitude of an RDD or an IND incident could increase recovery costs and delay completion. According to anexpert at Idaho National Laboratory, experience has shown that not selecting the appropriate decontamination technologies can generate waste types that are more difficult to remove than the original material and can create more debris requiring disposal--leading to increased costs. Limitations in laboratory capacity to rapidly test thousands of material samples during cleanup, and uncertainty regarding where to dispose of radioactive debris could also slow the recovery process. At least two-thirds of the city, state, and federal respondents expressed concern about federal capability to provide the necessary analysis and cleanup actions to promote recovery after these incidents. Nearly all survey respondents had suggestions to improve federal recovery preparedness for RDD and IND incidents. For example, almost all the cities and states identified the need for a national disaster recovery strategy to address gaps and overlaps in federal guidance. All but three cities wanted additional guidance, for example, on monitoring radioactivity levels, cleanup standards, and management of radioactive waste. Most cities wanted more interaction with federal agencies and joint exercising to test recovery preparedness. Finally, our review of the United Kingdom's preparedness to recover from radiological terrorism showed that that country has already taken actions similar to those suggested by our survey respondents, such as issuing national recovery guidance, conducting a full-scale recovery exercise, and publishing a national handbook for radiation incidents.
GAO-09-996T, Combating Nuclear Terrorism: Preliminary Observations on Preparedness to Recover from Possible Attacks Using Radiological or Nuclear Materials
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Testimony:
Before the Subcommittee on Emerging Threats, Cybersecurity, and Science
and Technology, Committee on Homeland Security, House of
Representatives:
United States Government Accountability Office:
GAO:
For Release on Delivery:
Expected at 9:30 a.m. EDT:
Monday, September 14, 2009:
Combating Nuclear Terrorism:
Preliminary Observations on Preparedness to Recover from Possible
Attacks Using Radiological or Nuclear Materials:
Statement of Gene Aloise, Director:
Natural Resources and Environment:
GAO-09-996T:
GAO Highlights:
Highlights of GAO-09-996T, a testimony to Subcommittee on Emerging
Threats, Cybersecurity, and Science and Technology, Committee on
Homeland Security, House of Representatives.
Why GAO Did This Study:
A terrorist‘s use of a radiological dispersal device (RDD) or
improvised nuclear device (IND) to release radioactive materials into
the environment could have devastating consequences. The timely cleanup
of contaminated areas, however, could speed the restoration of normal
operations, thus reducing the adverse consequences from an incident.
This testimony examines (1) the extent to which federal agencies are
planning to fulfill their responsibilities to assist cities and their
states in cleaning up areas contaminated with radioactive materials
from RDD and IND incidents; (2) what is known about the federal
government‘s capability to effectively cleanup areas contaminated with
radioactive materials from RDD and IND incidents, and (3) suggestions
from government emergency management officials on ways to improve
federal preparedness to provide assistance to recover from RDD and IND
incidents. We also discuss recovery activities in the United Kingdom.
This testimony is based on our ongoing review of recovery preparedness
issues for which we examined applicable federal laws and guidance;
interviewed officials from the Department of Homeland Security (DHS),
Federal Emergency Management Agency (FEMA), Department of Energy (DOE),
and Environmental Protection Agency (EPA); and surveyed emergency
management officials from 13 large cities and their states, as well as
FEMA and EPA regional office officials.
What GAO Found:
DHS, through FEMA, is responsible for developing a comprehensive
emergency management system to respond to and recover from natural
disasters and terrorists attacks, including RDD and IND attacks. The
response phase would involve evacuations and providing medical
treatment to those who were injured; the recovery phase would include
cleaning up the radioactive contamination from an attack in order to
permit people to return to their homes and businesses. To date, much
federal attention has been given to developing a response framework,
with less attention to recovery. Our survey found that almost all
cities and states would be so overwhelmed by an RDD or IND incident
that they would rely on the federal government to conduct almost all
analysis and cleanup activities that are essential first steps towards
recovery. However, we found that the federal government has not
sufficiently planned to undertake these activities. For example, FEMA
has not issued a national disaster recovery strategy or plans for RDD
and IND incidents as required by law. Existing federal guidance
provides only limited direction for federal agencies to develop their
own recovery plans and conduct exercises to test preparedness. Out of
over 70 RDD and IND exercises conducted in the last 5 years, only three
have included interagency recovery discussions following a response
exercise.
Although DOE and EPA have experience in the cleanup of small-scale
radiation-contaminated areas, their lack of knowledge and capability to
apply approaches to address the magnitude of an RDD or an IND incident
could increase recovery costs and delay completion. According to an
expert at Idaho National Laboratory, experience has shown that not
selecting the appropriate decontamination technologies can generate
waste types that are more difficult to remove than the original
material and can create more debris requiring disposal”leading to
increased costs. Limitations in laboratory capacity to rapidly test
thousands of material samples during cleanup, and uncertainty regarding
where to dispose of radioactive debris could also slow the recovery
process. At least two-thirds of the city, state, and federal
respondents expressed concern about federal capability to provide the
necessary analysis and cleanup actions to promote recovery after these
incidents.
Nearly all survey respondents had suggestions to improve federal
recovery preparedness for RDD and IND incidents. For example, almost
all the cities and states identified the need for a national disaster
recovery strategy to address gaps and overlaps in federal guidance. All
but three cities wanted additional guidance, for example, on monitoring
radioactivity levels, cleanup standards, and management of radioactive
waste. Most cities wanted more interaction with federal agencies and
joint exercising to test recovery preparedness. Finally, our review of
the United Kingdom‘s preparedness to recover from radiological
terrorism showed that that country has already taken actions similar to
those suggested by our survey respondents, such as issuing national
recovery guidance, conducting a full-scale recovery exercise, and
publishing a national handbook for radiation incidents.
View [hyperlink, http://www.gao.gov/products/GAO-09-996T] or key
components. For more information, contact Gene Aloise at (202) 512-3841
or aloisee@gao.gov.
[End of section]
Madam Chairwoman and Members of the Subcommittee:
I am pleased to be here today to discuss preliminary observations from
our ongoing work reviewing the federal government's preparedness to
assist localities in recovering from a terrorist attack involving
either a radiological dispersal device (RDD)--frequently referred to as
a dirty bomb--or an improvised nuclear device (IND). Responding to such
an attack would involve evacuations, providing medical treatment to
those who were injured, and protecting property; recovery would include
cleaning up the radioactive contamination from an attack in order to
permit people to return to their homes and businesses.[Footnote 1] A
terrorist's use of an RDD or IND to release radioactive materials into
the environment could have devastating consequences. However, quickly
analyzing and cleaning up contaminated areas after a deliberate release
of radioactive materials could speed the recovery from such an attack
by restoring normal operations of critical infrastructure, services,
businesses, and public activities, and thus reducing the many adverse
consequences from an attack. According to a recent report of the
National Science and Technology Council, which coordinates science and
technology policy within the Executive Office of the President, the
ability of government to quickly and decisively respond to and recover
from an RDD or IND incident is key to national resiliency.[Footnote 2]
Importantly, the Council noted that being prepared to recover from
these incidents may even provide an element of deterrence if the
adversary perceives less potential for long-lasting harm.
The consequences of a terrorist attack using an RDD or IND would not
only include loss of life but also enormous psychological and economic
impacts. An RDD would disperse radioactive materials into the
environment through a conventional explosive or through other means.
Depending on the type of RDD, the area contaminated could be as small
as part of a building or city block or as large as several square
miles. An IND would create a nuclear explosion producing extreme heat,
powerful shockwaves, and intense radiation that would be immediately
lethal to individuals within miles of the explosion, as well as
radioactive fallout over thousands of square miles. Thus, the
consequences of RDD and IND incidents would vary in magnitude, with an
RDD expected to cause few deaths but produce significant economic and
psychological impacts, and an IND causing thousands of deaths and more
extensive destruction. An RDD is thought to be a more likely terrorist
weapon than an IND given the prevalent commercial use of radioactive
source material--for example, in some medical and industrial equipment-
-and the relatively uncomplicated way in which this material could be
dispersed. In contrast, detonating an IND would require a terrorist
group to obtain nuclear weapons material--which is generally heavily
secured--and have highly sophisticated expertise and equipment to
fabricate this material into a weapon.
If an RDD or IND incident occurred, a number of federal, state, and
local government departments and agencies would be involved in the
analysis and cleanup of areas contaminated with radioactive material as
part of the recovery process.[Footnote 3] Generally, state and local
governments have primary responsibility for recovering from disasters,
but the federal government may provide assistance when an incident
exceeds state and local resources or when an incident is managed by
federal agencies under their own authorities. The Department of
Homeland Security (DHS) is the principal federal agency for domestic
incident management. The primary mission of its Federal Emergency
Management Agency (FEMA) is to develop a comprehensive emergency
management system of preparedness, protection, response, recovery, and
mitigation. For an RDD or IND incident, DHS would be the lead agency in
coordinating federal assistance to state and local governments. For
these incidents, DHS would rely on other federal agencies that have
more experience with the analysis and cleanup of areas contaminated
with radioactive materials. For example, in certain circumstances, the
Department of Energy (DOE) would have primary responsibilities for the
initial analysis of areas contaminated with radioactive materials, and
the Environmental Protection Agency (EPA) would have primary
responsibility for cleaning up the radiation-contaminated
areas.[Footnote 4] The Department of Defense (DOD) would act in support
of the primary federal agencies. Federal agencies, including EPA, DOE,
the Nuclear Regulatory Commission, as well as state regulatory agencies
have set various cleanup standards for decontaminating affected areas.
The risk of terrorists using an RDD or IND is, in large part,
determined by their ability to gain access to the materials needed to
construct these devices. Over the past few years, we have issued a
number of reports on the security of nuclear and radiological
materials, and facilities that house them. Overall, our work has shown
that despite investing billions of dollars in new technology to upgrade
security procedures, gaps continue to exist in our nation's ability to
prevent terrorists from accessing or smuggling dangerous quantities of
radioactive material into the country. For example, in 2007, we
testified before Congress that our own investigators were able to set
up phony businesses and obtain a legitimate NRC license that would have
permitted us to obtain dangerous quantities of radioactive material.
[Footnote 5] Our investigators were able to obtain this NRC license
just months after NRC had completed a lengthy process to strengthen its
licensing procedures. In 2008, we reported that NRC, in developing its
security requirements for research reactors, had not fully considered
the risks associated with terrorists attacking these facilities--many
of which are located on college campuses.[Footnote 6] Such an attack
could involve terrorists sabotaging a reactor in order to disperse
radioactive material over neighboring communities--similar to an RDD.
We have also reported on DHS's and FEMA's preparedness for, response
to, and recovery from disasters in 2007, 2008, and 2009.[Footnote 7]
Our testimony today presents preliminary observations from our ongoing
effort to examine (1) the extent to which federal agencies are planning
to fulfill their responsibilities to assist cities and their states in
cleaning up areas contaminated with radioactive material from RDD and
IND incidents; (2) what is known about the federal government's
capability to effectively cleanup areas contaminated with radioactive
material from RDD and IND incidents; and (3) suggestions from
government emergency management officials on ways to improve federal
preparedness to assist state and local governments in recovering from
RDD and IND incidents. In addition, we are providing information on our
review of actions taken in the United Kingdom to prepare for recovering
from RDD and IND incidents. We expect to issue our final report on this
topic in November 2009.
To address these objectives, we examined pertinent federal law,
presidential directives, and other executive guidance; interviewed
cognizant officials from DHS, DOE, EPA, FEMA, NRC, and national
laboratories; and conducted a survey of emergency management officials
in 13 cities considered to be at high-or medium-risk of such attacks,
officials in these cities' states, and similar officials in all federal
FEMA and EPA regional offices.[Footnote 8] We also reviewed information
on the number and type of RDD and IND response and recovery exercises
that have been conducted in the last 5 years. Finally, we visited the
United Kingdom to review its preparedness to recover from RDD and IND
incidents at the suggestion of EPA officials and because it has
addressed a fairly recent radiological release incident in a large
urban area.
Background:
In the aftermath of September 11, 2001, there is heightened concern
that terrorists may try to smuggle nuclear or radiological materials
into the United States. These materials could be used to produce either
an IND or an RDD. An IND is a crude nuclear bomb made with highly
enriched uranium or plutonium. Nonproliferation experts estimate that a
successful IND could have a yield in the 10 to 20 kiloton range (the
equivalent to 10,000 to 20,000 tons of TNT). An IND with a 20-kiloton
yield would have the same force as the equivalent of the yield of the
bomb that destroyed Nagasaki; it could devastate the heart of a medium-
sized U.S. city and result in thousands of casualties and radiation
contamination over a wide area.
Security experts have also raised concerns that terrorists could obtain
radioactive material used in medicine, research, agriculture, and
industry to construct an RDD, or dirty bomb. This radioactive material
is encapsulated, or sealed in metal, such as stainless steel, titanium,
or platinum, to prevent its dispersal and is commonly called a sealed
radioactive source. These sealed sources are used throughout the United
States and other countries in equipment designed to, among other
things, diagnose and treat illnesses, preserve food, detect flaws in
pipeline welds, and determine the moisture content of soil. Depending
on their use, sealed sources contain different types of radioactive
material, such as strontium-90, cobalt-60, cesium-137, plutonium-238,
and plutonium-239. If these sealed sources fell into the hands of
terrorists, they could use them to produce a simple, but potentially
dangerous weapon, by packaging explosives, such as dynamite, with the
radioactive material, which would be dispersed when the bomb went off.
Depending on its type, amount, and form (powder or solid), the
dispersed radioactive material could cause radiation sickness in people
nearby and produce serious economic costs and the psychological and
social disruption associated with the evacuation and subsequent cleanup
of the contaminated area. While no terrorists have detonated a dirty
bomb in a city, Chechen separatists placed a canister containing cesium-
137 in a Moscow park in the mid-1990s. Although the device was not
detonated and no radioactive material was dispersed, the incident
demonstrated that terrorists have the capability and willingness to use
radiological materials as weapons of terrorism.
Another form of nuclear terrorism occurred with the release of
radioactive materials in London. In November 2006, Alexander
Litvinenko, a former officer of the Russian Federal Security Service,
was poisoned with a gram of polonium-210--about the size of a grain of
salt.[Footnote 9] His poisoning was detected only after he was
hospitalized for a few weeks and tested for symptoms of radiation
exposure because of hair loss. Following the poisoning, forensic
investigators identified, with the help of the victim, 47 sites across
London where he had been during the few days between his poisoning and
death. Of these locations, about 20 showed signs of this radioactive
material. Investigators identified over 900 people who might have been
exposed to the polonium, including some who may have been exposed while
aboard airplanes. After a thorough examination, a few of these
individuals turned out to have significant exposure levels. The
decontamination activities at these sites, including a hotel room,
spanned 19 days, involved a number of methods and technologies, and
cost in excess of $200,000.
Cities and States Would Likely Request Federal Assistance for Cleanup
of Radiation-Contaminated Areas after RDD and IND Incidents, but
Limited Federal Planning Exists for Recovering from Such Incidents:
While state and local government responders would be expected to
respond first to a terrorist incident within their jurisdiction, they
would also expect that the federal government would be prepared to
provide the necessary assistance for them to expedite the recovery from
such an incident. Emergency management officials from 13 cities and the
majority of their respective states indicated in our survey that they
would rely on the federal government to conduct and fund all or almost
all analysis and cleanup activities associated with recovering from an
RDD or IND incident of the magnitude described in the National Planning
Scenarios.[Footnote 10] However, when asked which federal agencies they
would turn to for this assistance, city and state respondents replied
inconsistently and frequently listed several federal agencies for the
same activity. In our view, these responses indicate that there is
confusion among city and state officials regarding federal
responsibilities for these activities in the event of a terrorist
incident. This confusion, if not addressed, could hamper the timely
recovery from an RDD or IND incident. Emergency management officials
from all the cities and most of their respective states told us they
would rely on the federal government because their technical and
financial resources would be overwhelmed by a large RDD incident--and
certainly by an IND incident. Most of these officials believe they
could adequately address a smaller RDD incident, such as one that is
confined to a city block or inside a building. Despite this anticipated
reliance on the federal government, we obtained mixed responses as to
whether these RDD and IND recovery activities should be primarily a
federal responsibility. Fewer than half of the respondents from the
cities (6 of 13), but most of those from states (8 of 10) indicated
that it should be primarily a federal responsibility. The others
stressed the need for shared responsibilities with the federal
government.
Despite the anticipated reliance by city and state governments on the
federal government for analysis and cleanup activities following an RDD
or IND incident, FEMA has not developed a national disaster recovery
strategy or related plans to guide involvement of federal agencies in
these recovery activities, as directed by federal law and executive
guidance.[Footnote 11] To date, much federal attention has been given
to developing a response framework, with less attention to recovery.
The new FEMA coordinator for the development of a national disaster
recovery strategy told us that while the previous administration had
drafted a "white paper" addressing this strategy, the new
administration has decided to rethink the entire approach.[Footnote 12]
She also told us that FEMA recognizes its responsibility to prepare a
national disaster recovery strategy but she could not provide a time
frame for its completion. However, she stated that when a recovery
strategy is issued it should provide guidance to revise state, local,
and other federal agency operational plans to fulfill their respective
responsibilities. Moreover, the FEMA official in charge of planning
told us that the agency has put on hold issuing component plans that
describe how federal capabilities would be integrated to support state
and local planning for response to and recovery from RDD and IND
incidents.
Some existing federal guidance documents addressing the assets and
responsibilities of federal agencies for both response and to a lesser
extent recovery-related activities have been issued as annexes to the
National Response Framework and in other documents.[Footnote 13] For
example, there is a nuclear and radiological incident annex, which
describes the policies, situations, concept of operations, and
responsibilities of the federal departments and agencies for the
immediate response and short-term recovery from incidents involving the
release of radiological materials. There are also emergency support
function annexes that provide a structure for coordinating federal
interagency support in response to domestic incidents.
In addition, two other sources of guidance have been issued that,
according to FEMA officials, represent stop-gap measures until it can
issue more integrated planning guidance. In 2008, FEMA issued updated
guidance for protection and recovery following RDD and IND incidents.
[Footnote 14] This guidance was to provide some direction to federal,
state, and local emergency response officials in developing operational
plans and response protocols for protection of emergency workers after
such an incident. In regard to recovery, this document recommended a
process to involve the affected public, state and local officials, and
other important stakeholders in the identification of acceptable
cleanup criteria, given the specifics of the incident. The other
document, issued by the Homeland Security Council, pertains to
responding to an IND in the first few days prior to the arrival of
other necessary federal resources. This document was prepared because
the prior FEMA guidance did not sufficiently prepare state and local
emergency response authorities for managing the catastrophic
consequences of a nuclear detonation.[Footnote 15] Moreover, DOE, EPA
and DOD are developing more detailed operational guidance on their own
based on the existing federal guidance. For example, DOE has supported
research on operational guidelines for implementation of protective
actions described in the FEMA guidance,[Footnote 16] EPA has drafted
guidance for the optimization process following RDD and IND
incidents,[Footnote 17] and DOD has established operational plans for
consequence management following terrorist incidents, including RDD and
IND attacks.[Footnote 18]
Federal agencies and local jurisdictions have been using the available
guidance as a basis for planning RDD and IND exercises to test the
adequacy of their plans and skills in a real-time, realistic
environment to evaluate their level of preparedness. We identified more
than 70 RDD and IND response exercises planned and carried out by
federal, state and local agencies since mid-2003. However, officials
with FEMA's National Exercise Directorate told us that only three of
the RDD response exercises had a recovery component. According to these
officials, recovery discussions following an RDD or IND response
exercise have typically not occurred because of the time needed to
fully address the response objectives of the exercise, which are seen
as a higher priority. The most recent response exercise, based in
Albany, New York, and planned by DOE, set aside 2 days for federal,
state, and local agencies to discuss operational recovery issues. One
unresolved operational issue discussed during this exercise pertained
to the transition of the leadership of the Federal Radiological
Monitoring and Assessment Center (FRMAC) from the initial analysis of
the contaminated area, led by DOE, to the later cleanup phase, led by
EPA. For example, there are remaining questions regarding the level and
quality of the monitoring data necessary for EPA to accept the
leadership of FRMAC. While we were told that this transitional issue
has been discussed in exercises dating back to the development of the
Federal Radiological Emergency Response Plan in 1984, it has only
recently been discussed in RDD or IND response exercises. Another
unresolved operational recovery issue pertains to the distribution of
responsibilities for the ownership, removal, and disposal of
radioactive debris from an RDD or IND incident. Both of these
operational issues are to be examined again in the first full-scale RDD
recovery exercise, planned and led by EPA, to take place April 2010.
Insufficient Knowledge and Capability to Use Available Approaches for
Cleanup of Radiation-Contaminated Areas Could Impede Efforts to Recover
from RDD and IND Incidents:
Although some federal agencies, such as DOE and EPA, have substantial
experience using various cleanup methods and technologies to address
radiation-contaminated areas, little is known about how these
approaches might be applied in an RDD or IND incident. For example, DOE
has invested hundreds of millions of dollars in research, development,
and testing of methods and technologies for cleaning up and
decommissioning contaminated structures and soils--legacies of the Cold
War. In addition, since the passage of the Comprehensive Environmental
Response, Compensation, and Liability Act in 1980, which established
the Superfund program, EPA has undertaken significant efforts to study,
develop, and use technologies that can address radioactive
contamination. DOD has also played a major role in studying potential
applications for innovative technologies for its Superfund sites.
Not much is known, however, about the application to RDD and IND
incidents of available cleanup methods and technologies because such an
incident has never occurred in this country, although research is
currently underway to gain a better understanding of potential
applications. According to decontamination experts at Lawrence
Livermore National Laboratory, current research has focused on
predicting the effects of radiation release in urban settings through
simulation, small scale testing, and theory. In addition, researchers
at EPA's National Homeland Security Research Center informed us that
while there are standard methods and technologies for cleaning up
radiation-contaminated areas, more research is needed to develop
standard national guidance for their application in urban environments.
The lack of guidance for identifying cost-effective cleanup methods and
technologies in the event of an RDD or IND incident might mean that the
cleanup approach taken could unnecessarily increase the cost of
recovery. According to a decontamination expert at Idaho National
Laboratory, for example, experience has shown that not selecting the
appropriate decontamination technologies can generate waste types that
are more difficult to remove than the original material and can create
more debris requiring disposal--leading to increased costs. Moreover,
he told us that without guidance and discussion early in the response
phase, a contractor might use an approach for no other reason than it
was used before in an unrelated situation. In addition, the Lawrence
Livermore National Laboratory decontamination experts told us that
decontamination costs can increase dramatically depending on the
selection of an initial approach and the length of time before
remediation actions are taken. For example, they said that the
conventional use of high pressure water hosing to decontaminate a
building is effective under normal conditions but could be the wrong
cleanup approach for an RDD using cesium-137 because the force of the
water would actually cause this radioactive isotope to penetrate even
further into porous surfaces. A senior EPA official with the Office of
Radiation and Indoor Air told us that studies are currently underway to
determine the efficacy of pressure washing for removing contamination
from porous urban surfaces.
In addition to the lack of knowledge about the application of cleanup
methods and technologies for wide-area urban contamination from an RDD
or IND incident, there are also limitations in federal capabilities to
handle in a timely manner the magnitude of tasks and challenges that
would be associated with these incidents. For example, we found that
limitations in federal capabilities to complete some analysis and
cleanup activities might slow the recovery from an RDD or IND incident,
including: (1) characterizing the full extent of areas contaminated
with radioactive materials; (2) completing laboratory validation of
contaminated areas and levels of cleanup after applying decontamination
approaches; and (3) removing and disposing of radioactive debris and
waste. Respondents representing most of the cities (9 of 13) and states
(7 of 10), and respondents from most FEMA regional offices (6 of 9) and
almost all EPA regional offices (9 of 10) expressed concerns about the
capabilities of federal agencies to provide the assistance needed to
complete the necessary analysis and cleanup activities in the event of
an RDD or IND incident.
City, State, and Federal Emergency Management Officials Have Several
Suggestions to Improve Federal Recovery Preparedness for RDD and IND
Incidents:
Respondents from nearly all the cities and states we surveyed expressed
the need for a national disaster recovery strategy to address gaps and
overlaps in current federal guidance. According to one city official,
"recovery is what it is all about." In developing such a recovery
strategy, respondents from the cities, like those from their states,
want the federal government to consult with them in the initial
formulation of a recovery strategy through working and focus groups,
perhaps organized on a regional basis. Respondents representing most
cities (10 of 13) and states (7 of 10) also provided specifics on the
type of planning guidance necessary, including integration and
clarification of responsibilities among federal, state, and local
governments. For example, respondents from some of the cities sought
better guidance on monitoring radioactivity levels, acceptable cleanup
standards, and management of radioactive waste. Most respondents from
cities expressed the need for greater planning interactions with the
federal government and more exercises to test recovery plans. One city
respondent cited the need for recovery exercises on a regional basis so
the cities within the region might better exchange lessons learned.
Respondents from most cities (11 of 13) and their states (7 of 10) said
that they planned to conduct RDD and IND recovery exercises in the
future. Finally, emergency management officials representing almost all
cities and states in our survey offered some opinions on the need for
intelligence information on RDD and IND threats. They said that sharing
information with law enforcement agencies is necessary for appropriate
planning for an RDD or IND incident--which they generally consider as
low-level threats--but only half of the respondents indicated that they
were getting sufficient intelligence information. Emergency management
officials from FEMA and EPA regional offices generally concurred with
these observations and suggestions of the city and state respondents.
The United Kingdom's Handling of the 2006 Polonium Incident and
Subsequent Actions to Better Prepare for an RDD or IND Incident:
While it was more limited in scope than what is usually envisioned as
an RDD incident, the aftermath of the 2006 polonium poisoning incident
in London had many of the characteristics of an RDD including testing
hundreds of people who may have been exposed to radiation and a cleanup
of numerous radiation-contaminated areas. All this activity resulted
from an amount of radioactive material the size of a grain of salt--
many times smaller than the amount of radioactive material found in
certain common medical devices that could be used in an RDD. Because of
its experience in dealing with the cleanup from the 2006 polonium
incident and other actions the United Kingdom has taken to prepare for
an RDD or IND attack, we visited that country to examine its recovery
preparedness programs. United Kingdom officials told us that the
attention to recovery in their country is rooted in decades of
experience with the conflict in Northern Ireland, dealing with
widespread contamination from the Chernobyl nuclear power plant
accident, and a national history of resilience--that is, the ability to
manage and recover from hardship. We found that actions the United
Kingdom reported taking to prepare for recovery from RDD and IND
incidents are similar to many of the suggestions for improvement in
federal preparedness that we obtained through our survey of city,
state, and federal regional office emergency management officials in
the United States. For example, we found that the United Kingdom
reported taking the following actions:
* Enacted civil protection legislation in 2004, with subsequent non-
statutory emergency response and recovery guidance to complement this
emergency preparedness legislation. The emergency response and recovery
guidance describes the generic framework for multi-agency response and
recovery for all levels of government. The guidance emphasizes that
response and recovery are not discrete activities and do not occur
sequentially, rather recovery should be an integral part of response
from the very beginning, as actions taken at all times can influence
longer-term outcomes of the communities.
* Developed on-line, updatable national recovery guidance in 2007. This
guidance reinforces and updates the early emergency response and
recovery guidance by establishing, among other things, a recovery
planning process during the response phase so that the potential
impacts of early advice and actions are explored and understood for the
future recovery of the affected areas.
* Issued a national handbook for radiation incidents in 2008. This
handbook provides scientific information, including checklists for
planning in advance of an incident, fact sheets on decontamination
approaches, and advice on how to select and combine management of these
approaches.
* Conducted a full-scale RDD recovery exercise in 2008. This exercise,
involving several hundred participants, provided a unique opportunity
to examine and test the recovery planning process within the urgency of
a compressed time frame. The lessons learned from this exercise were
incorporated into the United Kingdom's recovery strategy.
* Issued updated nuclear recovery plan guidance in 2009. This guidance
provides direction on recovery from events involving a radiological
release from a civil or defense nuclear reactor, as well as the
malicious use of radiological or nuclear materials. Among other things,
it requires that all high-risk cities in the United Kingdom prepare
recovery plans for such incidents.
In addition to these initiatives, in 2005, the United Kingdom
established a special Government Decontamination Service. This
organization was created out of recognition that it would not be cost-
effective for each entity--national, regional, and local government--to
maintain the level of expertise needed for cleaning up chemical,
biological, radiological, and nuclear materials, given that such events
are rare.[Footnote 19]
Finally, according to United Kingdom officials, the 2006 polonium
incident in London showed the value of recovery planning. In
particular, through this incident United Kingdom officials gained an
appreciation for the need to have an established cleanup plan,
including a process for determining cleanup levels, sufficient
laboratory capacity to analyze a large quantity of samples for
radiation, and procedures for handling the radioactive waste.
Furthermore, they found that implementing cleanup plans in the polonium
poisoning incident and testing plans in the November 2008 recovery
exercise have helped the United Kingdom to better prepare for a larger
RDD or IND incident.
Madam Chairwoman, this completes my prepared statement. I would be
happy to respond to any questions that you or other Members of the
Subcommittee may have at this time.
For further information about this testimony, please contact me at
(202) 512-3841 or aloisee@gao.gov. Individuals who made important
contributions to this testimony were Ned Woodward (Assistant Director),
Nancy Crothers, James Espinoza, Tracey King, Thomas Laetz, Tim Persons,
Jay Smale, and Keo Vongvanith.
[End of section]
Footnotes:
[1] For the purpose of this testimony, analysis activities include
efforts to sample and analyze affected areas to determine the type and
location of contamination, and cleanup activities include efforts to
contain radioactive materials, decontaminate affected areas, and manage
the radioactive waste.
[2] National Science and Technology Council, Roadmap for Nuclear
Defense Research and Development: Fiscal Years 2010-2014 (Washington,
D.C.: July 2008).
[3] The Robert T. Stafford Disaster Relief and Emergency Assistance Act
primarily establishes the programs and processes for the federal
government to provide major disaster and emergency assistance to state
and local governments, as well as to tribal nations, individuals, and
qualified nonprofit organizations. Pub. L. No. 100-107, 102 Stat. 4689
(1988) (codified as amended at 42 U.S.C. § 5121 et. seq.)
[4] The Federal Radiological Monitoring and Assessment Center (FRMAC)
is a DOE-led interagency asset that is available on request to respond
to an RDD or IND incident. The FRMAC is responsible for coordinating
all environmental radiological monitoring, sampling, and assessment
activities for the response. DOE leads the FRMAC for the initial
response phase and EPA assumes leadership for the cleanup phase.
[5] GAO, Nuclear Security: Actions Taken by NRC to Strengthen Its
Licensing Process for Sealed Radioactive Sources Are Not Effective,
[hyperlink, http://www.gao.gov/products/GAO-07-1038T] (Washington,
D.C.: July 12, 2007).
[6] GAO, Nuclear Security: Action May be Needed to Reassess the
Security of NRC-Licensed Research Reactors, [hyperlink,
http://www.gao.gov/products/GAO-08-403] (Washington, D.C.: Jan. 31,
2008).
[7] GAO, Observations on DHS and FEMA Efforts to Prepare for and
Respond to Major and Catastrophic Disasters and Address Related
Recommendations and Legislation, [hyperlink,
http://www.gao.gov/products/GAO-07-1143T] (Washington, D.C.: July 31,
2007); Actions Taken to Implement the Post-Katrina Emergency Management
Reform Act of 2006, [hyperlink, http://www.gao.gov/products/GAO-09-59R]
(Washington, D.C.: Nov. 21, 2008); and National Preparedness: FEMA Has
Made Progress, but Needs to Complete and Integrate Planning, Exercise,
and Assessment Efforts, [hyperlink,
http://www.gao.gov/products/GAO-09-369] (Washington, D.C.: Apr. 30,
2009).
[8] The high-and medium-risk cities are Boston, Chicago, Dallas,
Denver, Detroit, Houston, Los Angeles, Miami, New York, Philadelphia,
San Francisco, Seattle, and St. Louis. While Washington, D.C., is
considered a high-risk city, we excluded it from our survey because it
is unlike other cities in its reliance on the federal government and
the federal agencies that would take over analysis and cleanup
activities.
[9] Investigators believe that this pure polonium was probably produced
in a Russian research reactor.
[10] The National Preparedness Guidelines (Sept. 2007) developed 15
national planning scenarios, including scenarios for RDD and IND
incidents. The scenarios form the basis for coordinated federal
planning, training, exercises, and grant investments to prepare for
emergencies of all types.
[11] The Post-Katrina Emergency Management Reform Act requires FEMA to
report back to the Congress within 270 days of enactment of this 2006
legislation describing the details of a national disaster recovery
strategy. Pub. L. No. 109-295, § 682, 120 Stat. 1355, 1445-46 (2006).
In addition, the National Security Council, National Strategy for
Homeland Security (Washington, D.C., Oct. 2007), states that the
federal government will prepare a framework for recovery.
[12] In our November 21, 2008 report [hyperlink,
http://www.gao.gov/products/GAO-09-59R], we found that FEMA had drafted
a national disaster recovery strategy but that it was under review at
the time with no timeframe for completion.
[13] DHS, National Response Framework (Washington, D.C., Jan. 2008).
This document provides a guide for how the nation should conduct all-
hazards response, including the roles and responsibilities of agencies
involved in response efforts. It does not address long-term recovery
issues, including cleaning up areas contaminated with radioactive
materials.
[14] DHS, Planning Guidance for Protection and Recovery Following
Radiological Dispersal Device (RDD) and Improvised Nuclear Device (IND)
Incidents, 73 Fed. Reg. 45,029 (Aug. 1, 2008).
[15] Homeland Security Council, Planning Guidance for Response to a
Nuclear Detonation (Washington, D.C.: Jan. 16, 2009).
[16] C.Yu, et al. Preliminary Report on Operational Guidelines
Developed for Use in Emergency Preparedness and Response to a
Radiological Dispersal Device Incident, DOE/HS-0001 (Washington, D.C.:
DOE, Office of Health Safety, and Security, February 2009). This
document does not represent official policy, methods, or agency
guidance.
[17] EPA, EPA Guidance on the Optimization Process Following a
Radiological Dispersal Device or Improvised Nuclear Device Incident
(Washington, D.C.: September 2009 Draft).
[18] We provided testimony on this DOD initiative in GAO, Homeland
Defense: Preliminary Observations on Defense Chemical, Biological,
Radiological, Nuclear, and High-Explosive Consequence Management Plans
and Preparedness, [hyperlink, http://www.gao.gov/products/GAO-09-927T]
(Washington, D.C.: July 28, 2009).
[19] The Government Decontamination Service is similar in size and
responsibilities to EPA's National Decontamination Team, which became
fully operational in August 2007.
[End of section]
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