EO-1 Funded proposals

and

their relation to the EOS Land Validation Core Sites

as interpreted by the MODIS Land Validation Team

The following table lists the PI for a funded EO-1 Proposal and the relationship of that proposal with and EOS Land Validation Core Site, the "Relation to Core Site" is based on the understand of the proposing team's previous and planned study areas and is not meant to imply on commitment on behalf of the investigators. The relation to Core Sites is summarized as follows:

Likely: previous activity and communication with the investigators indicates that their future study areas will be on or very near EOS Land Validation Core Sites
Possible: Either previous activity, communication, or the proposal title indicate that the study areas could be on or very near EOS Land Validation Core Sites.
Unlikely: Either previous communication or the proposal title indicate the study are will not be covered by an area surrounding an EOS Land Validation Core Site
Unknown: The location to be studied by the EO-1 proposal is not know to the MODIS Land validation team.

PI	Focus	Relation to Core Sites	Related Core Site(s)
Abrams, M. J	Oceanography, Pollution and Urban Mapping	Unlikely
Asner, G. P.	Biophysical Characterization of Forest Logging in Amazonia	Likely	Ji-Parana Tapajos
Asner, G. P.,	Vegetation Structure and Function in Arid Ecosystems	Likely	Sevilleta Jornada
Bigger, S. F.	Radiometric Calibration, Spatial Characterization, and Spectral Evaluation of ALI and Hyperion	Possible	Jornada
Bindschadler, R	Glaciological	Unlikely	(likely to correspond to EOS "Snow and Ice" Validation sites)
Boardman, J. W	Ecological Applications in Yellowstone National Park	Unlikely
Carlson, B. E	Correlative Analysis of EO-1, Landsat, and Terra Data of the DOE ARM CART Sites	Likely	ARM CART, Southern Great Plains
Cassady, P. E.	Earth Observation Commercial Applications Program	Unknown
Crowley, J. K.	Volcanic Debris flow Hazards	Unlikely
Flynn, L.	Quantitative Analysis of Hot Spots	Possible	Skukuza Mongu (may correspond to EOS "Fire/Burn Scar" Validation sites)
Goetz, A. F. H.	Land-use and Land-use Change: Atmospheric correction, Soils and Sparse Vegetation Mapping	Unknown	(may correspond to EOS "LCLUC" Validation sites)
Gong, P.	Monitoring California's Conifer Forest and Hardwood Rangeland	Unlikely
Goodenough, D. G.	Sustainable Development of National Forests	Possible	(Boreas NSA? and Boreas SSA?)
Huete, A. R.	Vegetation Indices for Monitoring and Continuity Studies	Likely	Jornada Maricopa (Mandalgovi?, LBA sites?)
Jupp, D. L. B.	Hyperion Performance at Australian Hyperspectral Calibration and Validation Sites	Possible	Uardry
Kieffer, H.	Characterization and Calibration	Unknown
Kruse, F. A.	Geologic Validation of EO-1 Hyperion	Unknown
Liang, S.	Agricultural Monitoring	Likely (Certain)	USDA ARS, BARC
Liew, S. C.	Tropical Forest Classification and Burn Scars Mapping	Possible	Tapajos Ji Parana (may correspond to EOS "Fire/Burn Scar" Validation sites)
Martin, M.	Forest Ecosystem Composition and Function	Possible	(Howland? Harvard Forest?)
Matsunaga, T.	Coastal and Inland Water Environmental Monitoring in Japan	Unlikely
McGwire, K.	Hyperspectral Monitoring of Invasive, Non-Native Plant Species	Possible
Meyer, D. J.	Integrated Assessment of the EO-1 and Landsat 7 ETM+	Likely	Konza Prairie
Moran, M. S.	EO-1 and Landsat Inter-Satellite Comparison at Two Established Arizona Field Sites	Likely	Salsa, San Pedro
Mustard, J. F.	Determination of Vegetation Abundance	Unknown
Roberts, D. A.	Fire Hazard Assessment in the Santa Monica Mountains	Unlikely	(could contribute to EOS "Fire" validation activities)
Smith, J. A.	Canopy Temperature Estimation	Unknowns	(could contribute to EOS "LST" validation activites)
Townsend, P. A.	Forest Composition and Structure in the Central Appalachians	Unlikely
White, W. A.	Land Cover/Land Use and Rates of Deforestation in Belize	Unlikely

The following were proposals selected Under NRA-99-OES-01 for the EO-1 Validation Program
(source: http://www.earth.nasa.gov/nra/archive/nra99oes01/winners.html)

Abrams, M. J., Jet Propulsion Laboratory; R. Bianchi and L. Alberotanza, National Research Council, Italy.
Applications and Validation of EO-1 Data for Oceanography, Pollution and Urban Mapping.

Asner, G. P., University of Colorado and M. Keller, United States Department of Agriculture Forest Service.
Low-Cost Evaluation of EO-1 Hyperion and ALI for Detection and Biophysical Characterization of Forest Logging in
Amazonia.

Asner, G. P., C. A. Wessman, and C. A. Bateson, University of Colorado.
Analysis of EO-1, Landsat 7, and AVIRIS for Estimating Vegetation Structure and Function in Arid Ecosystems.

Bigger, S. F., R. Schowengerdt, E. Zalewski, and K. Thome, University of Arizona, and G. Lemeshewsky, United States Geological
Survey.
Radiometric Calibration, Spatial Characterization, and Spectral Evaluation of the Advanced Land Imager and
Hyperion Sensors.

Bindschadler, R. and D. Hall, NASA Goddard Space Flight Center; M. Fahnestock, University of Maryland; and A. Nolin, T.
Scambos, and J. Stroeve, University of Colorado.
Advancing Glaciological Applications of Remote Sensing with EO-1.

Boardman, J. W., Analytical Imaging and Geophysics, LLC; R. Crabtree, Yellowstone Ecosystem Studies; and D. Despain, United
States Geological Survey.
Validation and Application of Hyperion Imaging Spectrometry Data via Ecological Applications in Yellowstone
National Park.

Carlson, B. E., A. Lacis, and M. Mishchenko, NASA Goddard Institute of Space Studies; and M. Alexandrov and B. Cairns,
Columbia University.
Correlative Analysis of EO-1, Landsat, and Terra Data of the DOE ARM CART Sites: An Investigation of Instrument
Performance and Atmospheric Correction.

Cassady, P. E. and D. Nichols, Boeing Phantom Works; E. M. Perry, Battelle Pacific Northwest Division; and D. Roberts,
University of California, Santa Barbara.
Hyperspectral EO-1 Data Request for Earth Observation Commercial Applications Program.

Crowley, J. K., United States Geological Survey; R. J. Watters, University of Nevada at Reno; and D. R. Zimbelman, G. O. Logic,
Inc.
Global Assessment of Volcanic Debris flow Hazards from Space: Evaluation of New Multispectral and Hyperspectral
Satellite Systems.

Flynn, L. and A. Harris, University of Hawaii.
Quantitative Analysis of Hot Spots Using EO-1 and Landsat 7.

Goetz, A. F. H., and Z. Qu , University of Colorado.
EO-1 Evaluation and Verification for Application to Land-use and Land-use Change: Atmospheric Correction, Soils
and Sparse Vegetation Mapping.

Gong, P. and G. S. Biging, University of California, Berkeley.
EO-1 and Landsat Imagery for Monitoring California's Conifer Forest and Hardwood Rangeland.

Goodenough, D. G., R. Hall, J. Iisaka, D. Leckie, K. Staenz, A. S. Bhogal, and A. Dyk, Natural Resources Canada; A. Hollinger,
Canadian Space Agency; J. Miller, York University; K. O. Niemann, University of Victoria; and H. Zwick, MacDonald Dettwiler.
Evaluation and Validation of EO-1 for Sustainable Development of National Forests (EVEOSD).

Huete, A. R., D. X. Kerola, and M. Susan Moran, University of Arizona.
Inter-Sensor Calibration of Vegetation Indices for Monitoring and Continuity Studies.

Jupp, D. L. B., J. Huntington, T. Cudahy, A. Held, D. Graetz, and G. Pickup, Commonwealth Scientific and Industrial Research
Organisation (Australia); C. Smith, Australian Centre for Remote Sensing; and T. Cocks, Integrated Spectronics Ltd.
Evaluation of Hyperion Performance at Australian Hyperspectral Calibration and Validation Sites.

Kieffer, H., United States Geological Survey.
Participation in the Characterization and Calibration of New Millennia Spacecraft.

Kruse, F. A. and J. W. Boardman, Analytical Imaging and Geophysics LLC and J. F. Huntington, Commonwealth Scientific and
Industrial Research Organisation.
Evaluation and Geologic Validation of EO-1 Hyperion.

Liang, S., F. Huemmrich, and J. Morisette, University of Maryland and C. Walthall and C. Daughtry, United States Department of
Agriculture Agricultural Research Service.
EO-1 Validation and Evaluation for Agricultural Monitoring.

Liew, S. C., G. Lee, and O. K. Lim, National University of Singapore and L. Chan and I. M. Turner, National Parks Board,
Singapore.
Applications of EO-1 Hyperion and ALI Data in Tropical Forest Classification and Burn Scars Mapping.

Martin, M. and J. Aber, University of New Hampshire and M. L. Smith, United States Department of Agriculture Forest Service.
Evaluation of Hyperspectral Requirements for Remote Estimation of Forest Ecosystem Composition and Function.

Matsunaga, T., Tokyo Institute of Technology; A. Iwasaki, Electro-Technical Laboratory; and S. Tsuchida, Geological Survey of
Japan.
Coastal and Inland Water Environmental Monitoring in Japan Using Hyperion Data.

McGwire, K. and B. Schultz, Desert Research Institute.
     A Combined Investigation: Hyperspectral Monitoring of Invasive, Non-Native Plant Species with EO-1 Hyperion
     Imagery. (with: R. Root, United States Geological Survey; S. Hagar, National Park Service; S. Ustin, University of California,
     Davis; and G. Anderson, Agricultural Research Service, Detection and Mapping or Invasive Leafy Spurge Using Orbital
     Hyperspectral Imagery from the EO-1 Mission and E. W. Ramsey III, United States Geological Survey, Integrating
     Hyperspectral and Landsat TM Data for Mapping the Invasive Species Chinese Tallow.)

Meyer, D. J., T. DeFelice, J. Storey, D. Steinwand, R. Morfitt, M. Choate, and J. Vogelmann, United States Geological
Survey/EROS Data Center (Raytheon); D. Helder and S. Schiller, South Dakota State University; and T. Loveland, United States
Geological Survey/EROS Data Center.
An Integrated Assessment of the Earth Observer -1 Instrument Suite and the Landsat 7 Enhanced Thematic Mapper
Plus.

Moran, M. S. and D. Goodrich, United States Department of Agriculture Agricultural Research Service and A. Huete, University of
Arizona.
EO-1 and Landsat Inter-Satellite Comparison at Two Established Arizona Field Sites.

Mustard, J. F., Brown University.
Precision and Accuracy of ALl Data for the Determination of Vegetation Abundance.

Roberts, D. A., University of California, Santa Barbara; S. L. Ustin, University of California, Davis; and C. T. Lee, California State
University, Dominguez Hills.
Hyperion Applications and Validation for Fire Hazard Assessment in the Santa Monica Mountains, California.

Smith, J. A., NASA Goddard Space Flight Center.
Synergistic Application of EO-1 and Landsat-7 for Canopy Temperature Estimation.

Townsend, P. A., University of Maryland Center for Environmental Science Appalachian Laboratory.
Remote Sensing of Forest Composition and Structure in the Central Appalachians using EO-1 Hyperspectral Data.

White, W. A., J. A. Raney, and M. Crawford, The University of Texas at Austin.
Evaluation and Validation of EO-1 and Landsat 7 Imagery through an Analysis of Land Cover/Land Use and Rates of
Deforestation in Belize, Central America.