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Testimony:

Before the Subcommittee on Technology, Information Policy, 
Intergovernmental Relations and the Census, Committee on Government 
Reform, House of Representatives:

United States General Accounting Office:

GAO:

For Release on Delivery Expected at 10:00 a.m. EDT:

Tuesday, June 10, 2003:

Geographic Information Systems:

Challenges to Effective Data Sharing:

Statement of Linda D. Koontz Director, Information Management Issues:

GAO-03-874T:

GAO Highlights:

Highlights of GAO-03-874T, a testimony before the Subcommittee on 
Technology, Information Policy, Intergovernmental Relations and the 
Census, Committee on Government Reform, House of Representatives 

Why GAO Did This Study:

Geographic information systems (GIS) manipulate, analyze, and 
graphically present an array of information associated with geographic 
locations, have been invaluable to all levels of government. Their 
usefulness in disaster response was recently demonstrated during the 
Space Shuttle Columbia recovery effort. GIS provided precise maps and 
search grids to guide crews to the debris that was strewn across 41 
counties in Texas and Louisiana.

The federal government has long been attempting to develop an 
integrated nationwide GIS network. The information available through 
such a network could significantly enhance decision-making in myriad 
public-service areas, including emergency response, national security, 
law enforcement, health care, and the environment.

Among GAO’s objectives were to describe the federal government’s 
efforts to coordinate GIS activities, the long-standing challenges of 
adopting and implementing federal GIS standards, and the role of 
Geospatial One-Stop. 

What GAO Found:

For decades, the federal government has tried to reduce duplicative 
geospatial data collection by coordinating GIS activities within and 
outside the federal government. For example, in 1990, the Office of 
Management and Budget established the Federal Geographic Data 
Committee to promote the coordinated use, sharing, and dissemination 
of geospatial data nationwide. In 1994, the National Spatial Data 
Infrastructure (NSDI) program was established by executive order to 
address the problem of the redundancy and incompatibility of 
geospatial information on a national basis. More recently, Geospatial 
One-Stop, a component of NSDI, was initiated (see below).

Although efforts to build the NSDI are progressing, achieving the 
vision of a nationwide GIS network remains a formidable challenge. 
Developing standards that meet stakeholders’ needs remains a 
challenging and time-consuming task, and achieving full participation 
across governments in their development has also been difficult.

Geospatial One-Stop is aimed at promoting coordinated geospatial data 
collection and maintenance across all levels of government. Among its 
objectives are (1) deploying an Internet portal for one-stop access to 
geospatial data; (2) developing data standards; and (3) encouraging 
greater coordination among federal, state, and local agencies. While 
these objectives are important, Geospatial One-Stop has focused on 
limited, near-term tasks and was not intended to fully address the 
longer-term challenges of implementing the NSDI. A much more 
substantial effort will be required to attain the broader vision of 
seamless integration of GIS data nationwide. Existing draft standards 
may need further revision, and more extensive coordination efforts may 
be required to ensure broad adoption at all levels of government. 
Further, the effort is likely to require a continuing effort over an 
extended period of time, due to the fact that significant investments 
have already been made in existing non-standard systems.

www.gao.gov/cgi-bin/getrpt?GAO-03-874T.

To view the full product, click on the link above.
For more information, contact Linda D. Koontz at (202) 512-6240 or 
Koontzl@gao.gov.

[End of section]

Mr. Chairman and Members of the Subcommittee:

I appreciate the opportunity to participate in the Subcommittee's 
hearing regarding the challenges of developing an integrated nationwide 
network of geographic information systems (GIS). A GIS is a system of 
computer software, hardware, and data used to manipulate, analyze, and 
graphically present a potentially wide array of information associated 
with geographic locations. GIS's powerful ability to integrate 
different kinds of information about a physical location can lead to 
better-informed decisions about public investments in infrastructure 
and services--including national security, law enforcement, health 
care, and the environment--as well as a more effective and timely 
response in emergency situations. However, long-standing challenges to 
data sharing and integration need to be addressed before the benefits 
of geographic information systems can be fully realized.

As requested, in my remarks today, I will discuss the many GIS 
activities under way throughout the federal government, the federal 
government's efforts to coordinate these activities, and the long-
standing challenges of adopting and implementing federal GIS standards. 
I will also discuss the role of Geospatial One-Stop, one of 25 high-
profile e-government[Footnote 1] initiatives sponsored by the Office of 
Management and Budget (OMB). To supplement my remarks, I have included 
an attachment that lists examples of the numerous GIS activities led by 
various federal agencies.

Background:

The primary function of a GIS is to link multiple sets of geospatial 
data and graphically display that information as maps with potentially 
many different layers of information. Assuming that all the information 
is at the same scale and has been formatted according to the same 
standards, users can potentially overlay spatial information about any 
number of specific topics to examine how the layers interrelate. Each 
layer of a GIS map represents a particular "theme" or feature, and one 
layer could be derived from a data source completely different from the 
other layers. For example, one theme could represent all the streets in 
a specified area. Another theme could correspond to all the buildings 
in the same area, and others could show vegetation or water resources. 
As long as standard processes and formats have been arranged to 
facilitate integration, each of these themes could be based on data 
originally collected and maintained by a separate organization. 
Analyzing this layered information as an integrated whole can 
significantly aid decision makers in considering complex choices, such 
as where to locate a new Department of Motor Vehicles building to best 
serve the greatest number of citizens. Figure 1 portrays the concept of 
data themes in GIS.

Figure 1: GIS Layers or "Themes":

[See PDF for image]

[End of figure]

The expansion of Internet connectivity in recent years has 
substantially enhanced the potential value of GIS because now it is 
possible to locate and harness data from many disparate GIS databases 
to develop very rich analytical information on almost any topic that is 
associated with physical locations. Data that were once collected and 
used only for a single purpose could now have much broader 
applications. Further, the community of GIS users has been broadened to 
include potentially anyone with an Internet connection. For example, 
citizens can now use home computers to obtain answers to specific 
questions about land use in their state or local jurisdiction. 
Commercial entrepreneurs can combine GIS data about zoning and tax-
incentive areas to determine what parts of a city are best suited for 
establishing a new business.

Federal, state, and local government agencies are using GIS today to 
provide vital services to their customers. For example, local fire 
departments can use geographic information systems to determine the 
quickest and most efficient route from a firehouse to a specific 
location, taking into account changing traffic patterns that occur at 
various times of day. Highway departments use GIS to identify 
intersections that have had a significant number of personal injury 
accidents to determine needs for improved traffic signaling or signage. 
GIS can also be an invaluable tool in ensuring homeland security by 
facilitating preparedness, prevention, detection, and recovery and 
response to terrorist attacks.

Many federal departments and agencies use GIS technology to help carry 
out their primary missions. For example, the Department of Housing and 
Urban Development (HUD) worked with the Environmental Protection Agency 
(EPA) to develop E-MAPS, which combines information on HUD's community 
development and housing programs with EPA's environmental data. The 
program provides homeowners and prospective homebuyers with ready 
access to detailed local information about environmental hazards that 
otherwise would likely have been very difficult to obtain. In another 
example, the Department of Health and Human Services uses GIS 
technology to analyze data on population and topography (including 
roads, streams, and land elevation), as well as information gathered 
from residents. These data are used to track the spread of 
environmental contamination through a community, to identify geographic 
areas of particular health concern, and to identify susceptible 
populations, such as children or the elderly.

The usefulness of GIS in disaster response was demonstrated recently in 
connection with the Space Shuttle Columbia recovery effort. After the 
loss of Columbia on February 1, 2003, debris was spread over at least 
41 counties in Texas and Louisiana. Analysis of GIS data was critical 
to the efficient recovery and documentation of that debris. The Texas 
state GIS program provided authorities with precise maps and search 
grids to guide field reconnaissance and collection crews. Officials in 
charge of the effort used maps of debris fields combined with GIS data 
about the physical terrain to carefully track every piece of debris 
found. This information not only contributed to an efficient recovery 
effort but also may help experts to refine theories about why Columbia 
perished.

In developing this testimony, our objectives were to describe the many 
GIS activities under way throughout the federal government and the 
federal government's efforts to coordinate these activities, the long-
standing challenges of adopting and implementing federal GIS standards, 
and the role of Geospatial One-Stop. To address these objectives, we 
obtained relevant documentation from the Department of the Interior and 
interviewed Geospatial One-Stop project officials as well as 
representatives from state agencies and private sector organizations 
involved in GIS activities with the federal government. We also 
analyzed the accomplishments and planned activities of the Geospatial 
One-Stop initiative in light of identified challenges to geospatial 
data sharing. We performed our work between May 2003 and June 2003, in 
accordance with generally accepted auditing standards.

Many Federal Government GIS Activities Overlap:

According to the Department of the Interior, about 80 percent of all 
government information has a geospatial data component, such as an 
address or other reference to a physical location.[Footnote 2] It is 
not surprising, then, that a wide variety of geospatial data collection 
efforts are ongoing throughout the federal government, each established 
for a different purpose but often collecting and maintaining the same 
or similar information. In fact, according to the 2001 initial business 
case for Geospatial One-Stop, about 50 percent of the federal 
government's geospatial data investment is redundant.

For every GIS application, federal agencies must manage the geospatial 
data that are at the heart of that application. In many cases, agencies 
maintain the same data that are referenced to the same geographic 
location. For example, both HUD and the Census Bureau maintain 
essentially the same geospatial data regarding congressional districts, 
city boundaries, railroads, interstate highways, and state highways. 
The two agencies maintain separate GIS systems for storing and 
analyzing this information.

In many cases, agencies independently collect data that, while not 
identical, is similar and potentially duplicative in many respects. For 
example, both the Department of Energy (DOE) and the Nuclear Regulatory 
Commission (NRC) collect and analyze information regarding uranium-
milling facilities, and they both cover the same geographic areas. DOE 
concentrates on tracking the status of former uranium processing sites, 
whereas NRC gathers and maintains information on current uranium 
milling facilities in the same mid-western locations. In cases such as 
this, significant efficiencies may be gained by coordinating the two 
collection efforts.

In other cases, data may be collected in different resolutions or with 
different degrees of accuracy but still essentially cover the same 
theme over the same geographic area. Local governments often possess 
the most recent and highest resolution geographic data; however, these 
data often are collected to serve specific missions and may be 
difficult to use for other purposes. For instance, when the Forest 
Service created a national-level GIS for the forest ecosystem, it was 
faced with reconciling data from a variety of incompatible locally 
developed systems. Local agencies had used a variety of standards for 
each forest and district. In assembling these data into a unified, 
coherent database, the Forest Service had to adopt the lowest-
resolution format in order to maintain full coverage of all forests. As 
a result, much of the higher-resolution content of the local data could 
not be used. Much of the effort in building this system was spent 
reconciling data sets to make them usable in an integrated database.

The biggest problem with collecting this duplicative geospatial data is 
its cost. According to a recent study, up to 80 percent of GIS costs 
are related to the collection and management of geospatial 
data.[Footnote 3] In 1993, OMB performed a data call in which it 
estimated that $4.1 billion was spent annually, at the federal level, 
on collection and management of geographically referenced data. In 
addition, state and local governments are estimated to spend twice that 
of the federal government on collection and management of geographic 
referenced data.[Footnote 4]

Many Attempts Have Been Made to Coordinate GIS Activities:

The federal government has tried for years to reduce duplicative 
geospatial data collection by coordinating GIS activities both within 
and outside the federal government. In 1953 the Bureau of the Budget 
first issued its Circular A-16, encouraging expeditious surveying and 
mapping activities across all levels of government and avoidance of 
duplicative efforts. More recently, the E-Government Act of 
2002[Footnote 5] directed the Office of Management and Budget to 
coordinate the development of standard protocols for sharing geographic 
information to reduce redundant data collection and promote 
collaboration and the use of standards. Although progress has been made 
over this 50-year span, much work still remains to be done.

Over the past several decades we and others, such as the National 
Research Council[Footnote 6] and the National Academy of Public 
Administration,[Footnote 7] have made a set of recommendations aimed at 
promoting the coordination of GIS efforts and data. In 1969, we 
recommended that mapping by state and local agencies under federal 
programs should be accomplished, where appropriate, in a manner 
enabling such work to contribute to the national mapping 
program.[Footnote 8] In 1982, we issued another report recommending 
interagency coordination to prevent duplicative computer-mapping 
programs.[Footnote 9] In response to this and other recommendations, 
OMB revised Circular A-16 in 1990, to, among other things, establish a 
Federal Geographic Data Committee (FGDC), chaired by the Department of 
the Interior, to promote the coordinated use, sharing, and 
dissemination of geospatial data nationwide. Building on that effort, a 
program was established by Executive Order 12906 in 1994 to develop a 
National Spatial Data Infrastructure (NSDI) to address the problem of 
the redundancy and incompatibility of geospatial information collected 
by many different organizations and stored and maintained at many 
different physical locations. Figure 2 provides a federal GIS 
coordination timeline.

Figure 2: Federal GIS Coordination Timeline:

[See PDF for image]

[End of figure]

As a result of these federal geospatial coordination efforts, the 
federal government has begun to establish the NSDI through a number of 
component programs.[Footnote 10] These include the Geospatial Data 
Clearinghouse to promote data sharing on a national level, a collection 
of voluntary "I-Teams" to foster community-level data collection and 
sharing, a Cooperative Agreements Program to provide seed money for 
initiatives aimed at better data integration and use, and--most 
recently--the Geospatial One-Stop initiative, aimed at promoting 
coordination and alignment of geospatial data collection and 
maintenance across all levels of government. Table 1 gives more details 
about the components of the NSDI. I will discuss the Geospatial One-
Stop initiative at greater length later in my remarks.

Table 1: Components of the National Spatial Data Infrastructure:

Name: National Spatial Data Infrastructure (NSDI);  Description: A 
structure of practices and relationships among data producers and users 
that facilitates geospatial data sharing and use throughout government, 
the private and nonprofit sectors, and academia. As discussed below, 
key GIS initiatives within the NSDI, which are coordinated by the 
Federal Geographic Data Committee, include the Geospatial Data 
Clearinghouse, I-Teams, Cooperative Agreements Program, and Geospatial 
One-Stop.

Name: Geospatial Data Clearinghouse;  Description: A decentralized 
system of Internet servers containing field-level descriptions or 
metadata of available digital geospatial data. The clearinghouse allows 
individual agencies, consortia, and geographically defined communities 
to coordinate and promote the use of their available geospatial data.

Name: I-Teams;  Description: Voluntary bodies of leaders representing 
all sectors of the geospatial community that meet in open forums to 
plan, steward, and implement the production, maintenance, and exchange 
of community information resources. The I-Team Initiative helps to 
address the institutional and financial barriers to development of the 
NSDI.

Name: Cooperative Agreements Program funds;  Description: Funds 
intended to provide seed money to engage organizations in building the 
NSDI through metadata implementation, training and outreach, and 
clearinghouse implementation of OpenGIS Web services.

Name: Geospatial One-Stop;  Description: An initiative to promote 
coordination and alignment of geospatial data collection and 
maintenance among all levels of government by (1) developing a portal 
for seamless access to geospatial information, (2) providing standards 
and models for geospatial data, (3) creating an interactive index to 
geospatial data holdings at federal and nonfederal levels, and 
(4) encouraging greater coordination among federal, state, and local 
agencies about existing and planned geospatial data collections.

Source: GAO.

[End of table]

Although efforts to build the NSDI are progressing, achieving the 
vision of a nationwide GIS network remains a formidable challenge. 
Notwithstanding federal attempts to promote interagency and 
intergovernmental collaboration, the difficulty in developing and 
implementing effective standards remains a barrier to effective data 
sharing and to achieving the level of integration that would lead to 
full development of the NSDI.

Developing and Implementing GIS Standards Have Posed Long-Standing 
Challenges:

Developing common geospatial standards to support vital public services 
has proven to be a complex and time-consuming effort. The number of 
types of geospatial data and the complexity of those data make 
developing geospatial standards a daunting task. For example, 34 
different broad categories of geospatial data, called "data themes," 
were identified in OMB Circular A-16 as a necessary foundation for the 
NSDI. These basic themes relate to all types of services provided by 
the federal government--including climate, flood hazards, federal land 
ownership, public health, soils, and transportation. Each of these 
themes, in turn, may have any number of subthemes. The transportation 
theme, for example, includes such divergent subthemes as road, 
railroad, air, transit, and waterway, each the domain of a different 
organization or group of organizations. For data associated with the 
NSDI's themes and subthemes to be effectively shared, standards must be 
developed that allow interoperability and integration of the many 
disparate formats of data that are currently collected for each theme 
and subtheme. Circular A-16 further identifies seven of the themes as 
the core set of most commonly used data, called "framework 
themes."[Footnote 11] FGDC has been working to coordinate the 
development of these themes as well as other standards since it was 
established 13 years ago. Although FGDC has developed versions of 
several of these standards, it has not attempted to finalize a complete 
set of the seven framework standards. These framework standards would 
define the simplest level of geographic data commonly used in most 
geospatial data sets.

OMB Circular A-16 calls for a well-coordinated effort among federal, 
state, local, and tribal governments, academic institutions, and the 
private sector to build an effective NSDI.[Footnote 12] Yet in the 
capital asset plan for the Geospatial One-Stop project published in 
January 2003, the Department of the Interior noted that the risk was 
high that agencies would be unwilling to adopt framework data 
standards. Given that most federal agencies--including large agencies 
such as DOE, Justice, and Health and Human Services--have not 
participated in the NSDI framework standards development process, the 
risk is substantial that the proposed standards will not meet their 
needs. In addition, agencies could be faced with a potentially 
expensive effort at "migrating" to the new standard. Substantial 
investments have already been made to independently develop geospatial 
systems using formats and standards that meet the specific needs of the 
agencies that developed them. The potential for agencies to continue to 
deploy agency-specific, noninteroperable geospatial systems was 
another high risk identified by Interior in its January 2003 Geospatial 
One-Stop plan.

Many states and localities have established Web sites that provide a 
variety of location-related information services, such as updated 
traffic and transportation information, land ownership and tax records, 
and information on housing for the elderly. Existing commercial 
products using a variety of formats are already meeting the needs of 
the states and localities in providing this information. Hence these 
organizations are likely to have little incentive to adopt potentially 
incompatible federal standards that could require substantial new 
investments. According to Arizona's state cartographer, many local 
governments currently do not comply with existing FGDC standards 
because most of their GIS applications were created primarily to meet 
their internal needs, with little concern for data sharing with federal 
systems.

Geospatial One-Stop's Objectives Are Limited:

Geospatial One-Stop is intended to accelerate the development and 
implementation of the NSDI by promoting coordination and alignment of 
geospatial data collection and maintenance across all levels of 
government. Specifically, its objectives include (1) deploying an 
Internet portal for one-stop access to geospatial data as an extension 
to the NSDI Clearinghouse network (see figure 3); (2) developing data 
standards for the seven NSDI framework data themes; (3) creating an 
inventory of federal data holdings related to the seven framework 
themes; and (4) encouraging greater coordination among federal, state, 
and local agencies about existing and planned geospatial data 
collection projects.

Figure 3: Geospatial One-Stop Portal Concept:

[See PDF for image]

[End of figure]

* Deploying an Internet portal. This task was to design and implement 
an Internet portal to serve as a one-stop interface for users seeking 
links to geospatial data that were already available and cataloged in 
the NSDI clearinghouse. A demonstration version of the portal has been 
developed, and the first publicly available version is expected to be 
implemented by the end of June 2003. Plans are to begin adding new data 
to the portal, now that it has been developed. Project officials are 
also considering future enhancements to the functionality of the 
portal; however, no milestones have been set for any specific 
enhancements.

* Developing data standards. The specific objective was to draft the 
seven NSDI framework standards. Drafts of these seven framework 
standards, as well as five transportation subthemes and a base standard 
have now been completed. Project officials plan to submit these drafts 
to the American National Standards Institute by the end of September 
2003.

* Creating an inventory of federal data holdings. To meet this 
objective, metadata[Footnote 13] for all relevant federal data sets 
must first be collected and made available in the NSDI Clearinghouse. 
Users need metadata to determine whether a data set is useful for their 
purposes and to be aware of any special stipulations about processing 
and interpreting the data. Accordingly, OMB Circular A-11 required that 
all federal data sets with a replacement value exceeding $1 million be 
documented in FGDC metadata and the metadata be accessible and 
searchable in the NSDI Clearinghouse network by February 10, 2003.

* Encouraging greater coordination among federal, state, and local 
agencies. To support this objective, a process has been established to 
coordinate Geospatial One-Stop's activities across these various 
government levels. According to the project's cooperating states 
coordinator, eight federal agencies are participating in developing and 
implementing the initiative. In addition, an intergovernmental board of 
directors was established with two-thirds of the vote held by state, 
local and tribal representatives. The purpose of the board was to help 
ensure collaboration among potential stakeholders from all government 
sectors. According to the National States Geographic Information 
Council's (NSGIC) representative, state, county, and municipal levels 
of government are well represented and play a useful role in providing 
alternative views about the direction of the initiative.[Footnote 14]

While Geospatial One-Stop's objectives are important, they do not 
represent a significantly new or different approach to the GIS 
integration problem that the government has been struggling with for 
more than a decade. First, while developing and implementing an 
Internet portal may offer users additional functionality over the 
existing Clearinghouse, unless the underlying geospatial data offered 
through the portal are standardized across data providers, the 
additional functionality offered by the portal may be of limited value.

Second, the objective of finalizing the seven framework standards, 
while important, is limited. As I discussed earlier, a total of 34 data 
themes was identified in OMB Circular A-16 as a necessary foundation 
for the NSDI. Geospatial One-Stop's objectives do not include plans to 
address any of the remaining 27 themes. Before the broader vision of a 
unified nationwide network of geospatial data and systems can be 
achieved, standards for all of NSDI's foundation data themes will need 
to be established. Further, definition of the standards is only the 
first step in gaining their benefits; Geospatial One-Stop has not yet 
addressed the challenge of gaining consistent implementation of the 
standards across government, which I have already discussed. In order 
to attain the broader vision of seamless integration of GIS data on a 
nationwide basis, a longer-term effort will be required.

Third, creating a complete and useful inventory of federal data 
holdings will require much more substantial work than is planned 
through the Geospatial One-Stop initiative. For example, according to 
the FGDC Metadata Coordinator, the extent to which agencies have posted 
metadata about their geospatial data sets is unknown. In addition, 
obtaining complete metadata from all federal sources is likely to be 
very challenging. If the metadata were not created when the data were 
originally captured, they could be expensive and time-consuming to 
generate after the fact, and agencies may not have resources available 
for the effort. Accordingly, unless Geospatial One-Stop devotes more 
resources to working with agencies on generating and posting metadata, 
its objective of creating an inventory of federal data holdings may be 
delayed.

Finally, despite the creation of the Board of Directors, questions have 
been raised about the breadth of participation in Geospatial One-Stop. 
The chair of the board acknowledged that the small group of nonfederal 
representatives on the board may not be able to speak for all the 
states and thousands of local governments. It is also not known how 
well these representatives are disseminating information about the 
initiative and encouraging collaboration among the states and 
localities that are not directly represented. As with the initiative's 
other objectives, limited actions have been taken aimed at achieving 
near-term results that only partially address the broader objective of 
building the NSDI. To fully achieve that broader objective, Geospatial 
One-Stop will need to better ensure that it has coordinated with all 
relevant governmental entities and that they understand the initiative 
and their role in it.

In summary, a coordinated nationwide network of geographic information 
systems offers many opportunities to better serve the public, make 
government more efficient and effective, and reduce costs. As a 
sophisticated decision making tool, GIS provides the capability to 
strengthen national security, enhance law enforcement, increase public 
health, and protect the environment. However, to date, the potential of 
GIS has not been fully realized. While steps have been taken to improve 
the coordination of government GIS efforts, much more work still needs 
to be done to round out a comprehensive set of standards and to ensure 
that they are being broadly applied. Geospatial One-Stop, in 
particular, while addressing useful near-term tasks, has not focused on 
the need for a longer-term strategy for facing the challenges of 
implementing the NSDI.

While it may be appropriate for many systems, especially at the state 
and local level, to retain non-standard approaches to geospatial data 
collection and analysis, priority should now be given to ensuring that 
the federal government promotes common GIS standards wherever 
practicable, facilitates participation by all stakeholders, and as a 
result reduces redundant systems and data collection efforts. Adoption 
of a core set of framework standards by the GIS community should lay 
the groundwork for achieving the goals of the NSDI. However, additional 
work may be needed. Existing draft standards may need revision to 
accommodate the needs of major federal agency users, and more extensive 
coordination efforts may be required to ensure broad adoption at all 
levels of government. Further, the effort is likely to require a 
continuing effort over an extended period of time, due to the fact that 
significant investments have already been made in existing non-standard 
systems, and the task of replacing those systems and migrating their 
data to new standards cannot be accomplished overnight. Nevertheless, 
we believe that until these challenges are addressed, the goal of a 
single, coordinated, nationwide system of geospatial data will remain 
out of reach.

Mr. Chairman, this concludes my statement. I would be pleased to answer 
any questions that you or other members of the subcommittee may have at 
this time.

Contact and Acknowledgements:

If you should have any questions about this testimony, please contact 
me at (202) 512-6240 or via E-mail at koontzl@gao.gov. Other major 
contributors to this testimony included Shannin Addison, John de 
Ferrari, Sophia Harrison, and Elizabeth Roach.

[End of section]

Attachment I: Examples of Federal Geographic Information System (GIS) 
Activities:

Agency: Natural Resources Conservation Service (Department of 
Agriculture); Description: Geospatial Data Gateway provides easy and 
consistent access to natural resource data by geographic area such as 
county or state. Users can search for data by theme, such as digital 
ortho imagery, digital elevation models, or soils.

Agency: National Cartography and Geospatial Center (Department of 
Agriculture); Description: NCGC Internet Mapping offers Web access to 
view samples of hydrography, digital orthophotography, digital 
topographic data, and other integrated data layers.

Agency: Fort Sill (Department of the Army); Description: Integrated 
Training Area Management GIS program provides training area maps, 
contour maps, and environmental coordination maps at a desired scale to 
installation personnel for use in management and training activities.

Agency: National Oceanic and Atmospheric Administration (Department of 
Commerce); Description: NOAA makes extensive use of a GIS to store the 
large quantity of data it collects. For example, the Pacific Marine 
Environmental Laboratory and the Alaska Fisheries Science Center 
collect a wealth of data about the physical and biological 
characteristics of the Bering Sea and the Gulf of Alaska, which are 
then stored in a GIS.

Agency: U.S. Census Bureau (Department of Commerce); Description: 
Provides online maps based on Census data that can be manipulated in 
many different ways.

Agency: National Aeronautical and Space Administration & National 
Imagery and Mapping Agency (Department of Defense); Description: 
Shuttle Radar Topography Mission employs a specially modified radar 
system to capture the elevation data, synthetic aperture radar, and 
single-pass radar interferometry. The objective of this project is to 
produce digital topographic data for 80% of the Earth's land surface.

Agency: National Imagery and Mapping Agency (Department of Defense); 
Description: Provides timely, accurate, global aeronautical, 
topographical, and maritime, geospatial information in support of 
national security objectives.

Agency: National Renewable Energy Laboratory (Department of Energy); 
Description: GIS site provides dynamically generated maps of renewable 
energy resources that determine which energy technologies are viable 
solutions in the United States. These maps include GIS Clean Cities 
Map, Wind Map, Transportation Technologies Map, Map of Indian Lands, 
Solar Maps, and Federal Energy Management Program Maps.

Agency: Los Alamos National Laboratory (Department of Energy); 
Description: GISLab supplies geospatial information for internal and 
external users of geospatial data. Current projects include fire-
related spatial data, floodplain mapping and hydrological modeling, 
field mapping for forest management, and mesoscale climate change 
modeling.

Agency: Centers for Disease Control and Prevention (Department of 
Health and Human Services); Description: Uses GIS to provide maps and 
data on public health issues in the United States.

Agency: Federal Emergency Management Agency (Department of Homeland 
Security); Description: Provides a full range of GIS services to all 
FEMA program offices which include storm tracking and damage prediction 
maps, remote sensing maps, maps of federally declared counties in an 
affected state, basic census demographics about an affected area by 
county and census block, street locations, and summaries of 
teleregistered and service center applicants, housing inspection 
numbers, Help-line calls, disaster unemployment claims, Small Business 
Administration applicants, etc.

Agency: Department of Housing and Urban Development & the Environmental 
Protection Agency; Description: E-Maps combines information on HUD's 
community development and housing programs with EPA's environmental 
data to provide location, type, and performance of HUD-funded 
activities in every neighborhood across the country and select EPA 
information on brownfields, hazardous wastes, air pollution and waste 
water discharges.

Agency: US Geological Survey (USGS) (Department of the Interior); 
Description: Provides a site that serves as a node of the National 
Spatial Data Infrastructure for finding and accessing USGS spatial data 
related to hydrography.

Agency: Bureau of Land Management (Department of the Interior); 
Description: Uses GIS to store and analyze public land and 
administrative jurisdiction information.

Agency: U.S. Forest Service (Department of Agriculture); Description: 
Uses GIS to provide information on vegetation, water, fire, and soil 
for specified forests.

Agency: National Park Service (Department of the Interior); 
Description: Strives to have a comprehensive automated information 
system for each national park that will integrate spatial (geographic) 
and tabular data from a variety of sources to enable modeling of real 
and theoretical situations for managing all park resources.

Agency: Justice Programs Office for Victims of Crime (Department of 
Justice); Description: Uses GIS to map crime victim services.

Agency: Volpe National Transportation Systems Center (Department of 
Transportation); Description: Uses GIS to identify data such as county 
boundaries, roadways, and railroads, measure ambient noise levels, 
search for locations such as historic beacon sites and environmental 
data.

Agency: The Environmental Protection Agency; Description: The EPA 
provides a wide variety of spatial data such as information regarding 
air, water, land, deposition, emissions, climate, sensitive resources, 
and demographics to support environmental analysis and uses GIS to aid 
decision-making.

Agency: Tennessee Valley Authority; Description: Provides an 
interactive map of the entire TVA power system, a network of reservoirs 
and power plants.

FOOTNOTES

[1] E-Government or Electronic Government refers to the use of 
technology, particularly Web-based Internet applications, to enhance 
the access to and delivery of government information and services to 
citizens, business partners, employees, other agencies, and other 
entities. 

[2] Geospatial One-Stop, Office of Management and Budget Capital Asset 
Plan and Business Case (Exhibit 300) (Jan. 27, 2003), p. 7.

[3] Center for Technology in Government, Sharing the Costs, Sharing the 
Benefits: The New York State GIS Cooperative Project (2001).

[4] Office of Management and Budget, Geospatial One-Stop Capital Asset 
Plan and Business Case (Exhibit 300) (Jan. 27, 2003).

[5] E-Government Act of 2002, P.L. 107-347 (Dec. 17, 2002).

[6] National Research Council, Mapping Science Committee, Toward a 
Coordinated Spatial Data Infrastructure for the Nation (Washington, 
D.C.: National Academy Press, 1993).

[7] National Academy of Public Administration, Geographic Information 
for the 21st Century: Building a Strategy for the Nation (Washington, 
D.C.: Jan. 1998).

[8] U.S. General Accounting Office, Opportunity for Savings and Better 
Service to Map Users Through Improved Coordination of Federally 
Financed Mapping Activities, 759 Un317o (Washington, D.C.: Dec. 17, 
1969).

[9] U.S. General Accounting Office, Duplicative Federal Computer-
Mapping Programs: A Growing Problem, GAO/RCED-83-19 (Washington, D.C.: 
Nov. 22, 1982).

[10] The FGDC is responsible for coordinating all of these components.

[11] The seven framework themes are transportation, hydrography, 
government units, geodetic control, elevation, digital ortho imagery, 
and cadastral (relating to land ownership).

[12] OMB Circular A-16, Coordination of Geographic Information and 
Related Spatial Data Activities, Revised August 19, 2002. The Circular 
applies to any executive agency that collects, produces, acquires, 
maintains, distributes, uses, or preserves paper maps or digital 
spatial data to fulfill its mission.

[13] Metadata is information describing the content, quality, 
condition, and other characteristics of data.

[14] The National States Geographic Information Council is an 
organization of states that promotes the adoption and use of geographic 
information technologies, including the NSDI and GOS. Members include 
state GIS coordinators, senior state GIS managers, and representatives 
from federal agencies, local government, the private sector, academia 
and other professional organizations.