Paper Info
Title
Interferometric Coherence Analysis of the Everglades Wetlands, South Florida
Abstract
Interferometric synthetic aperture radar (InSAR) observations of wetlands reveal spatially detailed measurements of water-level changes and quantitative images of flow dynamics. However, lateral variability of wetland vegetation results in a heterogeneous scattering medium, which can affect interferometric coherence levels and can even limit the applicability of the technique. Here, we analyze coherence variations in Southern Florida, which consist of various wetland vegetation types, including sawgrass, graminoid, cypress, mixed shrubs, and mangrove marsh. We use JERS-1, ERS-1/2, ENVISAT, and RADARSAT-1 data, to investigate the effect of acquisition parameters and temporal baseline (time span between acquisitions) on the coherence level in the various wetland vegetation environments. The main findings of our coherence analysis are as follows: (1) Woody wetlands, such as cypress and mixed shrubs swamps, have higher coherence levels than herbaceous wetlands of sawgrass and graminoid (cattail) in all SAR data types; (2) the coherence level of C-band data is strongly dependent on temporal baseline, whereas the coherence level of L-band data depends mainly on perpendicular baseline, but to some degree also on temporal baseline; (3) backscatter from JERS-1 and RADARSAT-1 is correlated with coherence in four wetland vegetation types (sawgrass, cypress, mixed shrubs, and mangrove), but ERS backscatter has no relation to coherence, except over sawgrass marsh. Finally, our study clearly indicates that high resolution, HH polarization, and small incidence angle observations are most suitable for wetland InSAR applications.
Year
DOI
Venue
2013
10.1109/TGRS.2012.2231418
IEEE T. Geoscience and Remote Sensing
Keywords
Field
DocType
coherence,synthetic aperture radar,temporal baseline,water-level changes,coherence variations,sawgrass marsh,ers-1 data,mangrove marsh,c-band data,synthetic aperture radar (sar) interferometry,high resolution hh polarization,sar data types,wetland insar applications,south florida,mixed shrub swamps,l-band data,graminoid,jers-1 data,everglades,everglades wetlands,interferometric synthetic aperture radar observations,data acquisition,envisat data,wetland,radarsat-1 data,interferometric coherence levels,wetland vegetation environments,wetland vegetation types,heterogeneous scattering medium,spatially detailed measurements,cypress,interferometric coherence analysis,cattail,lateral variability,quantitative images,woody wetlands,radar interferometry,vegetation mapping,ers-2 data,radar imaging,vegetation,flow dynamics,radar polarimetry,ers backscatter,wetland vegetation,backscatter,small incidence angle observations,acquisition parameters
Swamp,Cypress,Vegetation,Interferometric synthetic aperture radar,Hydrology,Remote sensing,Wetland,Graminoid,Marsh,Coherence (physics),Mathematics
Journal
Volume
Issue
ISSN
51
12
0196-2892
Citations 
PageRank 
References 
4
0.47
14
Authors
5
Name
Order
Citations
PageRank
sangwan kim15412.14
Shimon Wdowinski2658.80
Falk Amelung3163.29
Timothy H. Dixon440.47
Joong-Sun Won58016.84