the role of remote sensing in climate change mitigation and adaptation
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The role of remote sensing in Climate Change
Mitigation and Adaptation
SPOT 2001 NDVI SPOT 2001
Landsat Bands
Remote Sensing System Resolutions
• Spectral - Energy
• Spatial - Pixel size
• Temporal - Repeat time
• Radiometric
Cost vs Accuracy tradeoffSome areas will be more costly to monitor- clouds, hilly
terrain, other drivers of deforestation.Need for cost effective solutions
Satellites for Remote Sensing of the Environment
Satellite Resolution #Spectral bands Repeat time
QuickBird2 0.6, 2.5 5 taskedIKONOS2 1,4 5 3daysOrbView3 1,5,1000 5 1 dayLandsat (TM,ETM+) 15,30,60 7–8 14daysIRS (LISS III) 5,23,70 5EOS(ASTER) 15,30,90 14 45daysAVIRIS 224 26 daySPOT 2.5,5,10 5 taskedEOS(Hyperion) 30 220 taskedEOS(MODIS) 250,500,1000 36 1-2daysNOAA (AVHRR) 1100 5 1 day
Spatial Coverage
Forest
Eucalyptus
Remote Sensing plays a key role in climate change research
–combined with ground measurements
Extrapolation of plot measurements to the regional or national level
Integrated approach
Landscape level Landscape level Landscape level
Species level field data
1726
Meso level – 30 m 2 90 m 2
20 34
13 1927
1517
26
Meso level – 30 m 2 90 m 2
20 34
13 1927
15
Meso level - 225m 2 -72900m 2
Quality field data
Develop a method to link species level data with MODIS/Landsat/SPOT image.
SPOT 2001 NDVI SPOT 2001
Landsat MSS TM ETM+MODIS
Landsat most widely used sensor for studies of the environment•Both free, Easy to obtain•30m Resolution, 500m•Landsat time series back to the 1970’s
Landsat 7 Spectral Bands•Blue•Green•Red•Near Infrared•Mid Infrared1•Mid Infrared 2•Thermal
Indices
•NDVI•NDMI•VI• EVI• Develop new indices/models
Climate Change
• Integrated approach• Scales• Landscapes• Regional processes
• Students/faculty trained in both remote sensing and ecology
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