TH3.L5: Forest Biomass

Session Type: Oral
Time: Thursday, July 14, 13:30 - 15:10
Location: Room 301A+B
Session Chair: Marco Lavalle, NASA Jet Propulsion Laboratory
 
13:30 - 13:50
TH3.L5.1: ESTIMATION OF FOREST STEM VOLUME USING ALOS-2 PALSAR-2 SATELLITE IMAGES
         Johan E. S. Fransson; Swedish University of Agricultural Sciences
         Maurizio Santoro; Gamma Remote Sensing
         Jörgen Wallerman; Swedish University of Agricultural Sciences
         Henrik J. Persson; Swedish University of Agricultural Sciences
         Albert R. Monteith; Chalmers University of Technology
         Leif E. B. Eriksson; Chalmers University of Technology
         Mats Nilsson; Swedish University of Agricultural Sciences
         Håkan Olsson; Swedish University of Agricultural Sciences
         Maciej J. Soja; Chalmers University of Technology
         Lars M. H. Ulander; Chalmers University of Technology
 
13:50 - 14:10
TH3.L5.2: AUTOMATED DETECTION OF FOREST DISTURBANCES USING MULTITEMPORAL RADARSAT-2 DATA
         Gordon Staples; MDA
         Marco van der Kooij; MDA
         David G. Goodenough; University of Victoria
 
14:10 - 14:30
TH3.L5.3: ABOVEGROUND BIOMASS ESTIMATION IN TROPICAL FORESTS AT SINGLE TREE LEVEL WITH ALS DATA
         Michele Dalponte; Fondazione E. Mach
         Tommaso Jucker; University of Cambridge
         David F. R. P. Burslem; University of Aberdeen
         Simon L. Lewis; University of Leeds
         Reuben Nilus; Forest Research Centre, Sepilok
         Oliver Phillips; University of Leeds
         Lan Qie; University of Leeds
         David A. Coomes; University of Cambridge
 
14:30 - 14:50
TH3.L5.4: ACCESS THE SPATIOTEMPORAL VARIATION OF NET PRIMARY PRODUCTIVITY IN CHINA USING MODIS AND METEOROLOGY DATA
         Xue Wang; China University of Mining and Technology
         Kun Tan; China University of Mining and Technology
         Yaqin Sun; China University of Mining and Technology
 
14:50 - 15:10
TH3.L5.5: GENERATION OF LARGE-SCALE FOREST HEIGHT MOSAIC AND FOREST DISTURBANCE MAP THROUGH THE COMBINATION OF SPACEBORNE REPEAT-PASS INSAR COHERENCE AND AIRBORNE LIDAR
         Yang Lei; University of Massachusetts Amherst
         Paul Siqueira; University of Massachusetts Amherst
         Diya Chowdhury; Applied GeoSolutions
         Nathan Torbick; Applied GeoSolutions