Potential uses of TerraSAR-X for mapping herbaceous halophytes over salt marsh and tidal flats
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Joong-Sun Won | Jong-Kuk Choi | Yisok Oh | Jeong-Won Park | Yoon-Kyung Lee | Y. Oh | Jong-Kuk Choi | Yoon-Kyung Lee | Jeong-Won Park | Joong-Sun Won
[1] R. Lunetta,et al. Remote Sensing Change Detection: Environmental Monitoring Methods and Applications , 1999 .
[2] Zhiming Lu,et al. Multi-temporal RADARSAT-1 and ERS Backscattering Signatures of Coastal Wetlands in Southeastern Louisiana , 2009 .
[3] Paul M. Mather,et al. An assessment of the effectiveness of decision tree methods for land cover classification , 2003 .
[4] Tazio Strozzi,et al. TerraSAR-X reveals the impact of the mobile barrier works on Venice coastland stability , 2009 .
[5] Tal Svoray,et al. Herbaceous biomass retrieval in habitats of complex composition: a model merging SAR images with unmixed landsat TM data , 2003, IEEE Trans. Geosci. Remote. Sens..
[6] Sandra Englhart,et al. Aboveground biomass retrieval in tropical forests — The potential of combined X- and L-band SAR data use , 2011 .
[7] Helko Breit,et al. TerraSAR-X Ground Segment Basic Product Specification Document , 2008 .
[8] Philip A. Townsend,et al. Relationships between forest structure and the detection of flood inundation in forested wetlands using C-band SAR , 2002 .
[9] K. Clint Slatton,et al. Modeling temporal variations in multipolarized radar scattering from intertidal coastal wetlands , 2008 .
[10] Sang-Wan Kim,et al. Evaluation of TerraSAR-X Observations for Wetland InSAR Application , 2010, IEEE Trans. Geosci. Remote. Sens..
[11] Kevin B. Smith,et al. Analysis of space-borne SAR data for wetland mapping in Virginia riparian ecosystems , 2001 .
[12] E. Nezry,et al. Adaptive speckle filters and scene heterogeneity , 1990 .
[13] M. Kirwan,et al. A coupled geomorphic and ecological model of tidal marsh evolution , 2007, Proceedings of the National Academy of Sciences.
[14] Han Jun Woo,et al. Changes of Sedimentary Environments in the Southern Tidal Flat of Kanghwa Island , 2002 .
[15] J. Ryu,et al. Waterline extraction from Landsat TM data in a tidal flat: a case study in Gomso Bay, Korea , 2002 .
[16] Floyd M. Henderson,et al. Radar detection of wetland ecosystems: a review , 2008 .
[17] Haydee Karszenbaum,et al. Mapping wetlands using multi-temporal RADARSAT-1 data and a decision-based classifier , 2002 .
[18] Christopher Potter,et al. Fusing optical and radar data to estimate sagebrush, herbaceous, and bare ground cover in Yellowstone , 2010 .
[19] L. Tosi,et al. Rapid response of tidal channel networks to sea-level variations (Venice Lagoon, Italy) , 2012 .
[20] Thierry Toutin,et al. Temporal Analysis of ERS-1 SAR Backscatter for Hydrology Applications , 1996 .
[21] Eric S. Kasischke,et al. Assessment of C-band synthetic aperture radar data for mapping and monitoring Coastal Plain forested wetlands in the Mid-Atlantic Region, U.S.A. , 2008 .
[22] Yoshio Yamaguchi,et al. Polarimetric Features of Oyster Farm Observed by AIRSAR and JERS-1 , 2006, IEEE Transactions on Geoscience and Remote Sensing.
[23] Mehrez Zribi,et al. Assessment of the ASAR sensor radiometric quality in comparison to ERS‐2 and RADARSAT‐1 SAR data , 2008 .
[24] Richard K. Moore,et al. Radar remote sensing and surface scattering and emission theory , 1986 .
[25] C. Wright,et al. Improved wetland remote sensing in Yellowstone National Park using classification trees to combine TM imagery and ancillary environmental data , 2007 .
[26] Fabio Rocca,et al. Permanent scatterers in SAR interferometry , 2001, IEEE Trans. Geosci. Remote. Sens..
[27] Luigi Tosi,et al. Aptitude of modern salt marshes to counteract relative sea-level rise, Venice Lagoon (Italy) , 2011 .
[28] U. Neumeier. Quantification of vertical density variations of salt-marsh vegetation , 2005 .
[29] R. Lawrence,et al. Mapping wetlands and riparian areas using Landsat ETM+ imagery and decision-tree-based models , 2006, Wetlands.
[30] Stacy L. Ozesmi,et al. Satellite remote sensing of wetlands , 2002, Wetlands Ecology and Management.
[31] R. Field,et al. Phragmites australis expansion in Delaware Bay salt marshes , 2005 .
[32] Zhiming Lu,et al. Study of high SAR backscattering caused by an increase of soil moisture over a sparsely vegetated area: Implications for characteristics of backscattering , 2002 .
[33] D. Porter,et al. Stratigraphy and geologic history of a southeastern salt marsh basin, North Inlet, South Carolina, USA , 2001, Wetlands Ecology and Management.
[34] Jeom-Sook Lee,et al. Growth strategies of four salt marsh plants on Mankyung River estuary in Korea , 2004, Ecological Research.
[35] O. Mutanga,et al. Multispectral and hyperspectral remote sensing for identification and mapping of wetland vegetation: a review , 2010, Wetlands Ecology and Management.
[36] Martin Gade,et al. Classification of sediments on exposed tidal flats in the German Bight using multi-frequency radar data , 2008 .
[37] B. Min. Ecological characteristics of aSuaeda japonica population and the effects of early-season air temperatures on population formation , 2005, Journal of Plant Biology.
[38] Susan L. Ustin,et al. MONITORING PACIFIC COAST SALT MARSHES USING REMOTE SENSING , 1997 .
[39] Jong-Kuk Choi,et al. Spatial relationships between surface sedimentary facies distribution and topography using remotely sensed data: Example from the Ganghwa tidal flat, Korea , 2011 .
[40] I. Ungar,et al. COMPARISON OF SEED PROTEINS IN THE GENUS SUAEDA (CHENOPODIACEAE) BY MEANS OF DISC GEL ELECTROPHORESIS , 1974 .
[41] Keisuke Hayakawa,et al. Physiological Roles of Betacyanin in a Halophyte, Suaeda japonica Makino , 2010 .
[42] Catherine Ticehurst,et al. The potential of L‐band SAR for quantifying mangrove characteristics and change: case studies from the tropics , 2007 .
[43] M. Bertness,et al. Anthropogenic modification of New England salt marsh landscapes , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[44] Brigitte Poulin,et al. Desiccation and cracking behaviour of clay layer from slurry state 1 under wetting-drying cycles 2 3 , 2011 .
[45] P. Rosen,et al. Atmospheric effects in interferometric synthetic aperture radar surface deformation and topographic maps , 1997 .
[46] M. Dobson,et al. The use of Imaging radars for ecological applications : A review , 1997 .
[47] J. Clevers. The Derivation of a Simplified Reflectance Model for the Estimation of Leaf Area Index , 1988 .
[48] W. Niering,et al. Vegetation Change on a Northeast Tidal Marsh: Interaction of Sea‐Level Rise and Marsh Accretion , 1993 .
[49] Eric S. Kasischke,et al. Monitoring South Florida Wetlands Using ERS-1 SAR Imagery , 1997 .
[50] Jungho Im,et al. Synergistic use of QuickBird multispectral imagery and LIDAR data for object-based forest species classification , 2010 .
[51] A. Huete. A soil-adjusted vegetation index (SAVI) , 1988 .