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Mid-Decadal Global Land SurveyMid-Decadal Global Land Survey
Jeff MasekBiospheric Sciences Branch, NASA GSFC
Steve CovingtonAerospace Corporation / USGS
November 1, 2006
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Mid-Decadal Global Land Survey (MDGLS)Mid-Decadal Global Land Survey (MDGLS)
Follow-on to the GeoCover orthorectified global data sets (1975, 1990, and 2000 epochs)
The objective of the Mid-Decadal Global Land Survey (MDGLS) is to extend this series with a new global land survey centered on a 2005-2006 epoch
Initiated through CCSP, to support global assessments of land-cover, land-cover change, and ecosystem dynamics (disturbance, vegetation health, etc)
Landsat-5 TM and Landsat-7 imagery Additional Terra ASTER, EO-1 ALI as needed
The Project has 3 Phases: Phase 1: identify candidate scenes and ingest into the USGS archive Phase 2: Process the collected data into an ortho-rectified dataset
compatible with previous surveys Phase 3: Analyze data set to quantify trends in land cover and
vegetation dynamics
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Mid-Decadal Global Land Survey (MDGLS)
Phase I: Identify and Acquire L5 and L7 Data
Phase II: Process MDGLS Data
Phase III: Analyze MDGLS Dataset for Land Cover/ Land Cover Change
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Where do we want data?Where do we want data?
Green = GeoCover 2000 CoverageRed = New MDGLS Coverage
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When do we want data?When do we want data?
Green = NH Summer (Jun, Jul, Aug, Sep)Red = NH Spring (Apr, May)Violet = NH Fall (Oct, Nov)YellowYellow = NH Winter (Jan, Feb, Mar, Dec)
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What data are available? Landsat-7What data are available? Landsat-7
WhiteWhite = = Base Scene < 1%, Fill < 05%YellowYellow = Base Scene < 1%, Fill < 10%Green = Base Scene < 5%, Fill < 10%Red = Base Scene < 5%, Fill < 20%
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What Data Are Available? Landsat-5What Data Are Available? Landsat-5
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Status of Foreign-Source DataStatus of Foreign-Source Data
8 of 10 International Cooperators (IC) have agreed to support the MDGLS
6 of 10 ICs have submitted metadata Campaign Station Status
Kiruna (ESA) – Offline due to L5 Fixed-Array Con Ops. 72 tapes are at EROS to be ingested
Moscow and Irkutsk (ScanEx) – Stations are online and providing data operationally
Chetumal, Mexico (DLR) – Station under construction and due to begin operations in early 2007
Maspalomas (ESA) – Just beginning station certification. Malindi (ESA) – Implementation schedule to be worked Hobart (GeoScience Australia) – Coordinating data transfer
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Mid-Decadal Global Land Survey (MDGLS)
Phase I: Identify and Acquire L5 and L7 Data
Phase II: Process MDGLS Data
Phase III: Analyze MDGLS Dataset for Land Cover/ Land Cover Change
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• Select data source and scenes (where multiple options are available)
• Process selected data- Orthorectification- Gap-filling (for Landsat-7)- Product format
• Distribute MDGLS data
Complete dataset available Fall 2008
Phase II Tasks
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Data Source Selection: Issues
Landsat-7 Landsat-5
• Better radiometry• 60m TIR band, pan band• Gaps can be filled in cloud-free conditions
• No gaps• L7 gap filling can result in radiometric artifacts• L5 calibration improved for ~2000 to present
Tested ETM+ gap-filled products for change detection- Jim Vogelmann – mapping pivot irrigation- Matt Hansen – tropical deforestation- Chengquan Huang – temperate forest disturbance
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Northern Siberia (p159r15)
Landsat-7 Gap-filling: The Good
EROS Gap-filling works very well in cloud free conditions
primary
fill
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2005L5-1999GeoCover
2005L7GF-1999GeoCover
Overall agreement = (145710/160000) 91.0687%
Agreement matrix
Class forestnon-forest
forest loss
forest gain Total
Producer's (%)
forest 67808 2 1821 355 69986 96.9
non-forest 46 51664 111 4484 56305 91.8
forest loss 2364 123 7095 180 9762 72.7
forest gain 999 3547 258 19143 23947 79.9
Total 71217 55336 9285 24162 160000
User's (%) 95.2 93.4 76.4 79.2Overall
(%) = 91.1
Example: 1999-2005 forest disturbance, VAExample: 1999-2005 forest disturbance, VA
Towards SE of scene edge, no obvious visual artifacts in gap filled areas
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L7 Geocover
L5 from INPE
L7 gap-filled from EROS
Example: Amazonian Example: Amazonian Forest ClearingForest Clearing
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L7 to L5 L7 to L7 slc-off
For cloud-free areas, results are very similar
Green=forest to forest, beige=non-forest to non-forest, red=forest to non-forest
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Landsat-7 Gap-filling: The Bad and the Ugly
Honduras (p18r50)
Gap-filling with cloudy scenes can introduce radiometric artifacts; small residual gaps are possible
primary
fill
residual gap
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2005L5-1999GeoCover
2005L7GF-1999GeoCover
Overall agreement = (123482/158223) 78.0430%
Agreement matrix
Class forestnon-forest
forest loss
forest gain Total
Producer's (%)
forest 59803 174 12384 2311 74672 80.1
non-forest 6 21942 212 6011 28171 77.9
forest loss 2719 188 7038 502 10447 67.4
forest gain 549 9065 1136 34183 44933 76.1
Total 63077 31369 20770 43007 158223
User's (%) 94.8 69.9 33.9 79.5 Overall (%) = 77.7
Towards SW of scene edge, gap filled with cloud/shadow contaminated pixels
Example: 1999-2005 forest disturbance, VAExample: 1999-2005 forest disturbance, VA
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Data Source Selection: Status
Recommendation: - For cloud-free scenes: lean toward Landsat-7 ETM+ - Cloudier scenes: lean toward Landsat-5 TM - Humid Tropics: multiple ETM+ acquisitions for compositing
Sensor choice must be balanced against acquisition date, overall cloud cover, and acquisition date of 2000 Geocover - Optimization algorithm being developed to assist selection
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MDGLS Product Specification (Draft)
• UTM / WGS-84 projection• 14.25 / 28.5/ 57 meter resolution• Cubic Convolution resampling (1 step)• GeoTiff format• Orthorectified, Gap-filled
Processing by USGS EROS
FTP distribution of individual MDGLS scenes at no cost, with limited provision for bulk distribution of entire dataset (e.g. via hard disk transfer).
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MDGLS Orthorectification
Use 2000 GeoCover chips as geodetic control, SRTM 30/90m for terrain correction
- L7 automated 1Gt processing available Feb 2007- L5 automated 1Gt processing available late 2007
Also recommend reprocessing of previous GeoCover datasets in high-relief areas to maintain continuity with MDGLS
- model absolute error due to Geocover DEM choice- reprocess locations with errors >60m using SRTM
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MDGLS ScheduleMDGLS Schedule
CY 2007 CY 2008
Image Acquisition
Phase 1 Activities
Scene Selection
*IC = International Cooperator
IC Data Collection
Phase 2 Activities
Phase 2 Planning
Product Generation
IC* Metadata Collection
Product GenerationPrime Acquisition Period
CY 2006CY 2005CY 2004
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Near-Term Schedule
November 2006 Post draft MDGLS Data Product Specification and Implementation Plan for public comment
Final Spec and Implementation Plan
Finalize scene selection for North America
Begin processing North American ETM+
December 2006
February 2007
February 2007
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Mid-Decadal Global Land Survey (MDGLS)
Phase I: Identify and Acquire L5 and L7 Data
Phase II: Process MDGLS Data
Phase III: Analyze MDGLS Dataset for Land Cover/ Land Cover Change
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Phase III: Land Cover Dynamics
Following Jan 2006 MODIS meeting, a small team put together a draft white paper describing a requirements for a Land Cover / Land Cover Change Earth Science Data Record (ESDR).
Four elements described:Global 1km land cover type @ 5 yearsGlobal 1km continuous fields @ yearGlobal 30m land cover type @ 5 yearsRegional -> global 30m land cover change/disturbance
The MDGLS dataset offers a “pilot” opportunity to assess global rates of land cover change for 2000-2005.
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Recommended Approaches
Produce products via independent teams, but coordinate tools and class definitions - regional to continental scales - thematic projects (e.g. global urbanization)
Prioritize regions with known LC dynamics of critical import for carbon, water, biodiversity, and societal services
Land cover is necessary but not sufficient; include vegetation dynamics (disturbance, recovery, fragmentation, biome migration, etc).
Establish concurrent validation program
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Wasco
Clackamas
Marion
0 2 4 6 81Miles
Year disturbednon-forest
undisturbed forest
pre-1987
1987
1988
1989
1991
1993
1995
1996
1998
1999
2001
2003
2005
0% 100%
Woody Plant Cover, N. Texas1937 1999
Forest Disturbance, Oregon
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