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1
NASA’s Earth Science Update
Dr. Jack Kaye,Associate Director for Research
Earth Science DivisionScience Mission Directorate
NASA Headquarters
ESIP Federation Meeting: January 9 - January 10, 2008
Washington, DC
2
NASA’s Mission and Vision
NASA will continue the objectives for space exploration established in the National Aeronautics and Space Act of 1958.
To pioneer the future in space exploration,Scientific discovery, and aeronautics research.
NASA has embraced President George W. Bush’s directive, A Renewed Spirit of Discovery: The President’s Vision for Space Exploration, as the Agency’s Vision.• Explore the solar system and beyond;• Return humans to the Moon in the next decade; • Ultimately send humans to Mars and beyond;• Enhance understanding of the planets; and• Ask new questions and answer questions as old
as humankind.
3
NASA’s Strategic Goals: 2006 Through 2016
Strategic Goal 1: Fly the Shuttle as safely as possible until its retirement, not later than 2010.Strategic Goal 2: Complete the International Space Station in a manner consistent with NASA’s International Partner commitments and the needs of human exploration.Strategic Goal 3: Develop a balanced overall program of science, exploration, and aeronautics consistent with the redirection of the human spaceflight program to focus on exploration.
• Study Earth from space to advance scientific understanding and meet societal needs. (Earth Science)
Strategic Goal 4: Bring a new Crew Exploration Vehicle into service as soon as possible after Shuttle retirement.
Strategic Goal 5: Encourage the pursuit of appropriate partnerships with the emerging commercial space sector.
Strategic Goal 6: Establish a lunar return program having the maximum possible utility for later missions to Mars and other destinations.
4
Broader Governmental Context for Earth Science
• NASA Earth Science Supports Multiple Presidential Initiatives• Climate Change Science Program• Earth Observations• Ocean Action Plan
• Congressional Direction Addresses Several Aspects, most notably linkage between NASA and NOAA, but also other areas (ozone, land cover)
• NASA is part of NPOESS program, in particular through the NPOESS Preparatory Project (NPP) mission
5
SMD Program Summary
$5.4B/YEAR BUDGET. LARGE EARTH SCIENCE, HELIOPHYSICS,
PLANETARY SCIENCE, & ASTROPHYSICS PROGRAMS. 53 FLIGHT MISSIONS IN OPERATION. 41 FLIGHT MISSIONS IN DEVELOPMENT. 3000+ ACTIVE R&A GRANTS.
THESE NUMBERS EXCEED THE COMBINED EFFORTS OF ALL OTHER SPACE SCIENCE PROGRAMS WORLD WIDE.
6
SMD Leadership Team
Chief Scientist (J. Mather)DCS for ES (Randy Friedl) DCS for SS (Andy Cheng)
Management &Policy DivisionDir. (R. Maizel)
Deputy (Vacant)
HeliophysicsDivision
Dir. (R. Fisher)Deputy (V. Elsbernd-Act)
AstrophysicsDivision
Dir. (J. Morse)Deputy (R. Howard)
Planetary ScienceDivision
Dir. (J. Green)Dep. (J. Adams)
Associate Administrator (AA) (Alan Stern)Deputy AA (Colleen Hartman)*
Deputy AA for Programs(Todd May - Detailee)
Senior Advisor for R & A (Yvonne Pendleton)
Earth ScienceDivision
Dir. (M. Freilich)Deputy (B. Cramer)
Dep - Programs (M. Luther)
Budget (C. Tupper)
Policy & Administration (G. Williams- Act) Applied Science
(T. Fryberger)
Research (J. Kaye)
Flight (S. Volz)
Mars Program(D. McCuistion)
Draft: November 29, 2007
Senior Advisor for Science Process & Ethics
(Paul Hertz)Chief of Staff
(Jens Feeley - Act)
Chief Engineer (K. Ledbetter)
Safety & Mission Assurance(P. Martin)
Special Asst for NEOs and Exploration (Dan Durda)
AAA for Strategy, Policy & International(Marc Allen)
Blue dashed boxes denote individuals who report to other organizations, but support SMD
*Going out on IPA 1/08
7
New Horizons
ST-5
STEREO
Cloudsat
CALIPSO
GOES-N
ST-6
TWINS-A
Hinode
THEMIS
AIM
Phoenix
Dawn
TWINS-B
GLAST
IBEX
SDO
OCO
Glory
HST SM-4
OSTM
GOES-O
CINDI
Chandrayan 1
Herschel
Planck
NPP
SOFIA*
MSL
WISE
Kepler
GOES-P
NOAA-N’
ST-7 Aquarius
2006 2007 2008 2009 2010
NASA Mission on STS
DoD Mission with Substantial NASA Contribution
International Mission with Substantial NASA Contribution
Joint NASA - International Partner Mission
Reimbursable for NOAA
SMD LAUNCH CALENDAR
2011
NuSTAR
Juno
LDCM
Mars Scout 2
20132012
SMEX-12
RBSP
RBSP MOO
Discovery 11
SMEX-13
MSO
GPM Core
JWST
As of 11/16/07
MMS
GPM Const
ES Decadal-1
Discovery-12
2014
= Successfully launched to date
* = Shared risk science flight
NASA Mission on US ELV
ExoMars
8
Earth Science Opportunities in ROSES 2007
Appendix Science Program Element (Ann Fund $) NOI/Step-1* Due Proposal Due
A.2 Land Cover/Land Use Change (~$3.5M) 6/11/2007 10/1/2007 A.3 Carbon Cycle Science (~$7M-$9M) 4/6/2007 6/6/2007A.4 Terrestrial Ecology ($2M-$3M) 6/15/2007 9/20/2007A.5 Ocean Biology and Biogeochemistry (TBD) TBD TBDA.6 Physical Oceanography (~$2M) 4/27/2007 6/18/2007A.7 Ocean Surface Topography Science Team (~$4.5M) 8/31/2007 10/31/2007A.8 Cryospheric Science (~$3M) 5/15/2007 8/16/2007A.9 NASA Energy and Water Cycle Study (~$1.5M) 4/18/2007 TBDA.10 Terrestrial Hydrology (~$1M) 8/1/2007 TBDA.11 Atmospheric Composition: Aura Science Team (~$5.5M) 4/15/2007 6/15/2007A.12 Atmospheric Composition: Science Advisory Group for Glory (~$0.6M) NA 5/1/2007A.13 Tropospheric Chemistry: ARCTAS (~$6M-$8M) 4/16/2007 6/15/2007A.14 Wind Lidar Science (~$1M) 3/16/2007 5/16/2007A.15 Accelerating Operational Use of Research Data (<$2M) 7/6/2007 9/18/2007A.16 Earth Surface and Interior (~$3.5M) 5/25/2007 10/25/2007A.17 EarthScope: the INSAR and Geodetic Imaging Component (~$1.8M) 6/8/2007 119/2007A.18 Airborne Instrument Technology Transition ($2.5M->$1M) 3/16/2007 5/16/2007A.19 Space Archaeology (~$0.5M) 5/15/2007 7/25/2007 A.20 Decision Support Through Earth Science Research ($5M-$12.5M) 3/15/2007 5/25/2007A.21 New Investigator Program in Earth Science (~$2M) 6/29/2007 8/31/2007A.22 Advancing Collaborative Connections in Earth System Sci. 3/15/2007 6/1/2007A.26 Instrument Incubator 10/12/07 11/12/07
Primary Funding Lines:R&AMission Science TeamEOS ScienceR&A-like (includes tech., Appl. Sci., EPO, Data )
9
NPOESS Preparatory Project^Strategic mission - Systematic measurement
Required for continuity of several key climate measurements between EOS and NPOESS
Landsat Data Continuity MissionStrategic mission - Systematic measurement
Required for continuity of long-term global land cover change data; plan for post-LDCM acquisition operational agency in work
Ocean Surface Topography Mission*^Strategic mission - Systematic measurement
Required for continuity ocean altimetry; planned as part of a transition to operational agencies
GloryStrategic
Addresses high priority objective of the US Climate Change Science Program
Orbiting Carbon Observatory Competed mission - Earth System Science Pathfinder
First dedicated global measurement of CO2 from space
Aquarius*Competed mission - Earth System Science Pathfinder
First dedicated global measurement of sea surface salinity from space
Global Precipitation Measurement*Initializes a systematic measurement
Extend spatial coverage to global and temporal coverage to every 3 hours with constellation
Earth Science Mission Priorities and Rationale
* Represents International Partnership
^ Represents Interagency Partnership
1010
Decadal Survey Recommendations
• Overarching Recommendation- The U.S. government, working in concert with the private sector,
academe, the public, and its international partners, should renew its investment in Earth observing systems and restore its leadership in Earth science and applications.
• NOAA and NASA should undertake a set of 17 recommended missions, phased over the next decade
• NOAA research to operations- Vector ocean winds- GPS radio occultation temperature, water vapor and electron density
profiles- Total solar irradiance/and Earth Radiation (NPP) and restored to
NPOESS
• NASA- 15 missions in small, medium and large categories- Also need to invest in R&A, applied sciences, technology, ground
networks
1111
Decadal Survey Mission Mission Description Orbit Instruments
$ Estimate
Timeframe 2010 – 2013, Missions listed by cost
CLARREO (NASA portion)
Solar and Earth radiation: spectrally resolved forcing and response of the climate system
LEO, Precessing
Absolute, spectrally-resolved interferometer
$200 M
SMAP Soil moisture and freeze/thaw for weather and water cycle processes
LEO, SSO
L-band radarL-band radiometer
$300 M
ICESat-II Ice sheet height changes for climate change diagnosis
LEO, Non-SSO
Laser altimeter $300 M
DESDynI
Surface and ice sheet deformation for understanding natural hazards and climate; vegetation structure for ecosystem health
LEO, SSO
L-band InSARLaser altimeter
$700 M
Timeframe: 2013 – 2016, Missions listed by cost
HyspIRI Land surface composition for agriculture and mineral characterization; vegetation types for ecosystem health
LEO, SSO
Hyperspectral spectrometer
$300 M
ASCENDS
Day/night, all-latitude, all-season CO2 column integrals for climate emissions
LEO, SSO
Multifrequency laser
$400 M
SWOT Ocean, lake, and river water levels for ocean and inland water dynamics
LEO, SSO
Ka-band wide swath radarC-band radar
$450 M
GEO-CAPE
Atmospheric gas columns for air quality forecasts; ocean color for coastal ecosystem health and climate emissions
GEO High and low spatial resolution hyperspectral imagers
$550 M
ACE Aerosol and cloud profiles for climate and water cycle; ocean color for open ocean biogeochemistry
LEO, SSO
Backscatter lidarMultiangle polarimeterDoppler radar
$800 M
17 Missions (Pink = <$900 M; Green = $300-$600 M; Blue = <$300 M)
1212 *Cloud-independent, high temporal resolution, lower accuracy SST to complement, not replace, global operational high-accuracy SST measurement
Timeframe: 2016 -2020, Missions listed by cost
LIST Land surface topography for landslide hazards and water runoff
LEO, SSO
Laser altimeter $300 M
PATH High frequency, all-weather temperature and humidity soundings for weather forecasting and SST*
GEO MW array spectrometer
$450 M
GRACE-II
High temporal resolution gravity fields for tracking large-scale water movement
LEO, SSO
Microwave or laser ranging system
$450 M
SCLP Snow accumulation for fresh water availability
LEO, SSO
Ku and X-band radarsK and Ka-band radiometers
$500 M
GACM Ozone and related gases for intercontinental air quality and stratospheric ozone layer prediction
LEO, SSO
UV spectrometerIR spectrometerMicrowave limb sounder
$600 M
3D-Winds(Demo)
Tropospheric winds for weather forecasting and pollution transport
LEO, SSO
Doppler lidar $650 M
17 Missions (Pink = <$900 M; Green = $300-$600 M; Blue = <$300 M)
13
Decadal Survey Ongoing Actvities
• Completing “building block” calibrations of NRC missions– Ensure consistent, rational basis for costs– Full (LCC) mission cost (including NASA science teams/analyses, mission extension)– 2 additional independent cost-estimation efforts (Aerospace, LaRC IPAO)
• Developing joint (with NOAA) mitigation strategies for NPOESS climate sensors– NASA-NOAA study for OSTP– NRC/SSB Workshop (science impacts, priorities, approaches)
• Discussions with International Partners (Spring/Summer 07)– Determine common interests, complementary capabilities– JAXA/METI, CNES, CSA, ESA, CEOSS, WMO/SP, DLR meetings held
– Bilateral new mission working groups initiating (CNES, JAXA, DLR) • Implementing “Early Mission” workshops
– Confirm/refine match between science objective and notional mission– Determine necessary “context” measurements for science objective– Community involvement, HQ lead– Late June--late July for SMAP, CLARREO, ICESat-II, DESDynI - reports under
development• Developing integrated NASA mission plan
– Revised NASA Earth Science Plan– Identify specific near-term missions to be initiated – Mature plan to be coordinated with NOAA
14
Continuity for Current Measurements
o NPOESS has key role to play in continuing current measurement capability, although significant climate-related capability was lost with the Nunn-McCurdy certification while continuity with operational sensors was protected
– Terra/Aqua imaging/sounding to be continued with - NPP, C1, … (but note loss of MODIS-class imagery in AM orbit)
– Aura ozone column - NPPo Climate Observing Capability lost with N-M process:
– SORCE Total Solar Irradiance - TSIS (but NASA has Glory for 2008)– CERES Earth Radiation Budget - ERBS (last NASA CERES instrument to fly
aboard C-1, likely with gap from Aqua) but consider changes (e.g., CERES FM-5 on NPP)
– Ozone vertical profile - OMPS limb instrument (restored to NPP)– Jason/OSTM Sea Surface Altimetry - ALT (gap after OSTM in 2008)– QuikScat Ocean Surface Winds - CMIS instrument to be replaced by MIS
starting on C-2; expect passive wind sensing capability– Aerosol Polarimetry - APS (no follow-on to Glory)
o OSTP has asked NASA (with NOAA) to prepare white paper on climate impact of N-M certification - this was briefed to them and agencies are evaluating potential implementation approaches, as well as what is needed for successful development of Climate Data Records (CDRs) for climate-related environmental variables
o NRC group is addressing climate observations with workshop report released in late 2007
15
NASA’s Earth Science Data Centers
16
EOSDIS Key Metrics
EOSDIS Metrics (Oct 1, 06 to Sept 30, 07)
Unique Data Products >2700
Distinct Users at Data Centers ~3.0M
Daily Archive Growth 3.2 TB/day
Total Archive Volume 4.9 PB
End User Distribution Products >100M
End User Daily Distribution Volume
4.2 TB/day
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(in 1000's)
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ESDIS Project Supports
Science System Elements
Data Centers 11
SIPS 14
Interfaces Interface Control Documents 41
PartnershipsUS 8
International 18
Missions
Science Data Processing 7
Archiving and Distribution 51
Instruments Supported 75
Products DeliveredUser Accesses
17
MEaSUREs Making Earth System data records for Use in Research Environments
• Overall objective of MEaSUREs is to select projects to provide Earth science data products and services driven by NASA’s Earth science goals and contributing to advancing Earth system “missions to measurements” concept.
• For creating these basic records, a science measurement focus brings together expertise in multiple instrument characterization and calibration, data processing, science-based product generation and distribution, science tools, and interactive relationships with the broader science community.
• MEaSUREs may also solicit infusion or deployment of applicable science tools that contribute to data product quality improvement, consistency, merging or fusion, or understanding.
• Initial MEaSUREs solicitation focused on the creation of Earth System Data Records (ESDRs), including Climate Data Records. An ESDR is defined as a unified and coherent set of observations of a given parameter of the Earth system, which is optimized to meet specific requirements in addressing science questions.
18
MEaSURES Awards - 2007
• NASA received a total of 86 proposals in response to the solicitation and selected 29 for funding in October 2007 (15M/year).
• Selection Category– Atmospheric Dynamics 9– Carbon and Ecosystems 11– Oceans, Ice & Solid Earth 10
19
ACCESSAdvancing Collaborative Connections for Earth System Science
• The objective of NASA’s Advancing Collaborative Connections for Earth System Science (ACCESS) program is to enhance and improve existing components of the distributed and heterogeneous data and information systems infrastructure that support NASA’s Earth science research goals. The Program also seeks to:
– … increase the interconnectedness and reuse of key information technology software and services in use across the broad spectrum of Earth system science investigations.
– … enable the freer movement of data and information within a distributed environment of providers and users, and the exploitation of needed tools and services to aid in measurable improvements of Earth science data access and data usability.
• A 2007 call resulted in 30 proposals of which 10 were selected for funding (~3.5M/year).
20
Technology Program Objectives Reduce risk, cost, size, and development time of space and
ground based information systems Increase access and use of Earth science data Enable new Earth observation measurements and information
products
• Solicits component, subsystem or system technologies in the development range of ~ TRL1(basic research) to TRL6 (system prototype)
• Research topics tied to Earth Science research requirements (NASA science plan, 2007 NRC decadal survey), technology needs and gaps.
• Three year awards: new solicitation every 3 years. To date, four AIST solicitations have been released. Next AIST call in ROSES-08 (spring/summer 2008)
esto.nasa.gov
Advanced Info Systems Technology (AIST)
21
NASA’s Applied Sciences Program
• Program Goals:
– Extend NASA Earth science capabilities and results by
addressing issues with substantial social and economic
benefits.
– Enhance decision making through the incorporation of
NASA capabilities - observations, measurements,
predictive models and Earth science research results
into operational decision support systems.
22
Applications Areas - NASA, NRC and GEOSS
NASA ASP NRC Decadal Survey GEOSSAgricultural Water Resources AgricultureAir Quality Climate BiodiversityAviation Human Health ClimateCarbon Management & Security DisastersCoastal Management Weather EcosystemsDisaster Management Solid Earth Hazards, EnergyEcological Forecasting resources, & HealthEnergy Management dynamics WaterHomeland Security Land-use change, WeatherInvasive Species ecoystem dynamicsPublic Health & biodiversityWater Management
23
SERVIR
• Mesoamerican Data • Online Maps • Decision Support • Visualizations
Mesoamerican Regional Visualization and Monitoring System
SERVIR provides easy access to a range of thematic products based on NASA data and models, as well as tools for visualization and analyses, all for the general benefit of society.
Utilizing a variety of NASA data assets, SERVIR publishes a rich suite of decision support tools for policy makers and other entities. Algae bloom maps guide fleets toward a healthy catch. Fire maps show hot spots in remote areas. Basic weather products fill data gaps and assist day-to-day forecasting. Change detection allows analysis of natural and anthropogenic modifications of the land surface.
The SERVIR web site makes available a variety of spatial data sets. Building upon NASA’s WorldWind, the SERVIR Viz toolkit provides sophisticated data display and integration on a global canvas.
During natural disasters, all aspects of SERVIR can be brought to bear. SERVIR facilities serve as a nerve center for response efforts. Custom data and synthesized products facilitate the decision process.
Panamanian President Martin Torrijos