Status Report

NASA FY 2003 Budget Background: Office of Earth Science Enterprise (Code Y)

By SpaceRef Editor
February 4, 2002
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Office of Earth Science Enterprise (Code Y)

Associate Administrator: Dr. Ghassem R. Asrar

Public Affairs Contact: David E. Steitz, dsteitz@hq.nasa.gov, 202/358-1730


The total Fiscal Year 2003 Appropriations budget request for the Office of
Earth Science is $1,628 million: this is comprised of $1,310 million in
direct program funding and $318 million for institutional support. There
are an estimated 1,848 direct Full Time Equivalent employees included
within the Earth Science Enterprise in Fiscal Year 2003.

PROGRAM GOALS

The NASA Earth Science Enterprise (ESE) carries out its mission through three broad
goals:

1) Science: Observe, understand, and model the Earth system to learn how it is
changing, and the consequences for life on Earth;

2) Applications: Expand and accelerate the realization of economic and societal
benefits from Earth science, information, and technology;

3) Technology: Develop and adopt advanced technologies to enable mission
success and serve national priorities.

These goals are articulated in the ESE Strategic Plan, available at:

http://www.earth.nasa.gov

The ESE is working to improve scientific understanding of the Earth system and its
response to natural and human-induced changes. This knowledge will enhance the
ability to predict climate change, better understand variant weather patterns and help
mitigate future natural hazards. The ESE will develop and demonstrate new
technologies on airborne and space-based platforms. In addition, the ESE will
develop computer models to analyze and assimilate data, carry out focused scientific
research studies. The ESE will utilize this information to better inform policy- and
decision-makers in both the public and private sectors. The ESE activities constitute a
unique national resource.

The Administration is conducting a review of the interagency U.S. Global Change
Research Program (USGCRP) to determine the best government-wide approach to
climate change research. It would not be prudent for NASA to pursue development of
another major new Earth Science mission until the Administration has completed this
review. The fiscal 2003 budget funds the continued development of the National Polar-orbiting
Operational Environmental Satellite System (NPOESS) Preparatory Project
(NPP) as well as the Landsat Data Continuity Mission (LDCM). The LDCM is being
implemented as a commercial data purchase.

Also funded is formulation of an ocean topography mission to follow the Jason mission
launched in 2001. This mission is being implemented in a partnership among NASA,
NOAA and their European counterparts. The ocean topography mission is a transition
mission (along with NPP) between research and operational mission agencies. NASA
will also undertake the study of a potential global precipitation mission. If approved,
the global precipitation mission will measure rainfall worldwide for both climate
research and assessment of impacts on fresh water availability around the world.

Last year was a record year for the NASA Earth Science Enterprise. With the
successful launch of the Jason oceanography mission and other research and
application milestones, the Enterprise is well on its way to delivering vital data that
leaders around the world need to make informed decisions about the health and well
being of our planet. As NASA moves into this next budget cycle, the Agency intends to
take time to both evaluate future missions and begin to reap the benefits of its recent
success stories.

The ESE has deployed the first in a series of Earth Observing System (EOS) satellites
that will concurrently observe the major interactions of the land, oceans, atmosphere,
ice, and life that comprise the Earth system. The ESE activities have a direct and
indirect impact upon long-term climate forecasting, disaster mitigation, wildfire
prevention, environmental monitoring, disease prevention, increased agricultural
productivity, as well as improved urban and suburban planning.

The ESE provides scientific answers to the fundamental question:

How is the Earth changing, and what are the consequences for life on
Earth?

Highlights of the Fiscal Year 2003 budget request include:

MAJOR DEVELOPMENT AND MISSION OPERATIONS — $804 million

The spacecraft development (including algorithms development) portion of the ESE
request is comprised of EOS ($411 million) and Earth Explorers ($71 million) satellite
missions and information systems. The EOS and Earth Explorers programs consist of
multiple spacecraft designed to improve understanding of global climate change.

In 2001, 2 spacecraft were launched:

  • Jason (December 7) — a collaborative mission with the French space agency; is
    studying ocean topography and continuing the data set gathered by
    TOPEX/Poseidon
  • SAGE III (December 10) — is studying stratospheric aerosols and gases as part of a
    cooperative mission with Russia

    EOS and Earth Explorer missions in development or preparation for launch through
    calendar year 2004, with launch year in parentheses, include:

  • Aqua (2002) — will study atmospheric temperature and humidity, clouds, sea surface
    temperature, and the biosphere; partnering with Japan and Brazil
  • GRACE (2002) — will observe time and geographic variations of Earth’s gravity field;
    partnering with the German space program; riding to space aboard a Russian rocket
  • ICEsat (2002) — will examine ice sheet topography
  • SORCE (2002) — will explore solar irradiance, complementing data from ACRIMSAT
    and UARS, both now in orbit
  • SeaWinds (2002) — an instrument on Japan’s ADEOS II satellite, will examine ocean
    surface winds as the successor to ongoing QuikSCAT
  • Aura (2004) — will explore tropospheric and stratospheric atmospheric chemistry
  • Cloudsat (2004) — will provide three-dimensional cloud profiles
  • CALIPSO (2004) Ð joint NASA/French mission; will develop three dimensional
    aerosol profiles

    Starting in fiscal 2003 the EOS Data information System (EOSDIS) operations
    requirements have been transferred to Mission Operations. This change reflects the
    near-completion of EOSDIS development and the shift in emphasis to operations and
    technology evolution. The EOSDIS development requirements are $74 million. The
    total Mission Operations requirements (including the transfer from EOSDIS) are $248
    million.

    The EOSDIS has been serving thousands of government and private-sector users by
    providing data and information from NASA satellite programs since September 1995.
    In addition to operating spacecraft the EOSDIS acquires, processes, and distributes
    data gathered by the EOS missions. This data will lay the groundwork for the
    government as well as commercial and academic partners to generate the higher-level
    data products. These higher-level data products will make it easier for
    researchers, educators, policy-makers and the public to understand and use ESE
    satellite data and information.

    The Mission Operations Program acquires, processes and archives long-term data
    sets and validated data products. The requested funding provides for the operation of
    ongoing spacecraft missions and the processing of acquired data. In addition, the
    2003 request includes funding for the support of the spacecraft communications and
    data acquisition network of ground stations. Funding for this in previous years was
    carried under the Space Communications budget in the SAT appropriation and most
    recently in the Human Space Flight appropriation. This funding responsibility transfer
    allows for a better depiction of the full costs supporting the Earth Science mission
    operations.

    Research and Technology — $506 million

    The ESE science research effort ($354 million) is designed to address the following
    (five) fundamental questions. Each of the fundamental questions is tied to the
    overarching global environmental question:

    How is the Earth system changing, and what are the consequences for
    life on Earth?

  • How is the global Earth system changing? (Variability)
  • What are the primary forcings of the Earth system? (Forcing)
  • How does the Earth system respond to natural and human-induced changes?
    (Response)
  • What are the consequences of changes in the Earth system for human civilization?
    (Consequences)
  • How well can we predict future changes to the Earth system? (Prediction)

    The ESE examines questions in a wide variety of disciplines including the areas of
    atmospheric chemistry and physics, oceanography, ecology and cryospheric science.
    The ESE also explores the use of orbital platforms, suborbital platforms and high-end
    computers, while calibrating and validating observational data. Through long-term
    examination of the global environment and sound science, the ESE provides decision-makers
    with insight into the answers to the above questions.

    A robust future science program requires advances in a number of critical instrument,
    spacecraft and information system technologies. This budget request includes $87
    million to carry out a vigorous Advanced Technology program to develop technologies
    for future science missions. In addition to the baseline technology program, the
    Advanced Technology Initiative program will identify and invest in various critical
    technologies.

    The ESE technology strategy seeks to leverage the entire range of technology
    development programs offering benefits in cost, performance, and timeliness of future
    Earth science missions. The ESE strategy is to use open competitions for ESE-sponsored
    technology programs to attract the best ideas and capabilities from the
    broad technology community, including industry and academia.

    Technology investments will be made in the following areas:

  • Advanced instrument and measurement technologies for new and/or lower-cost
    scientific investigations into the global environment;
  • Cutting-edge technologies, processes, techniques and engineering capabilities
    that reduce development time, operations costs and mission risk. In addition, these
    technologies will support rapid implementation of productive, economical, and
    timely missions;
  • Advanced end-to-end mission information-system technologies affecting data flow
    from origination at the instrument/detector through data archiving. These
    technologies will collect and disseminate information about the Earth system that
    will enable productive use of ESE science and technology in the public and private
    sectors.

    ESE celebrated a major milestone in 2001 with the completion of all mission
    objectives aboard the Earth Observing-1 (EO-1) satellite. The EO-1 spacecraft tested
    new technologies that will be used in future Landsat-continuity missions. The EO-1
    instruments are a fraction of the size of previous remote-sensing instruments and were
    built at a fraction of the cost. The EO-1 mission has out-performed all expectations and
    has provided technologists new insights into next-generation remote sensing
    instruments.

    Applications, Education and Outreach — $62 million

    Expanded scientific knowledge of the Earth will result in practical applications
    beneficial to all Americans. Examples of these applications include: weather and
    hydrologic forecasts; prediction of seasonal or longer-range climate changes;
    prediction of the impacts of environmental changes upon fisheries, agriculture and
    water resources; global air-quality forecasts; and natural hazards risk-assessm

    ents.
    The ESE performs a key role in demonstrating these potential applications.
    The ESE goal is to expand and accelerate the realization of economic and societal
    benefits from Earth science, information and technology. The ESE emphasizes the
    development of solutions to problems of national and international importance that
    confront federal agencies, as well as state, local and tribal governments, and private
    industry. Solutions are drawn from ESE science results, data and technology that are
    developed in partnership with agencies that will implement them.

    ESE is also training the next generation of Earth scientists and enabling K-12 teachers
    to incorporate remote sensing information into their science curricula. This interagency
    research and education program is enabling a better understanding of global
    environmental change while helping all students reach higher levels of achievement
    in science and mathematics.

    February 2002

  • SpaceRef staff editor.