2012
DOI: 10.3390/rs4061617
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Categorizing Wetland Vegetation by Airborne Laser Scanning on Lake Balaton and Kis-Balaton, Hungary

Abstract: Outlining patches dominated by different plants in wetland vegetation provides information on species succession, microhabitat patterns, wetland health and ecosystem services. Aerial photogrammetry and hyperspectral imaging are the usual data acquisition methods but the application of airborne laser scanning (ALS) as a standalone tool also holds promises for this field since it can be used to quantify 3-dimensional vegetation structure. Lake Balaton is a large shallow lake in western Hungary with shore wetland… Show more

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Cited by 56 publications
(59 citation statements)
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“…Airborne LIDAR has been identified to hold especially high potential for biodiversity monitoring (Simonson et al, 2014;Zlinszky et al, 2015b) due to its ability to capture three-dimensional spatial structure in high resolution together with radiometric properties in a spectral band relevant for ecophysiology. Studies have proven that LIDAR can be used even on its own for detailed phytosociological classification or vegetation health studies, both in forests (Maltamo et al, 2014) and in herbaceous vegetation (Zlinszky et al, , 2012. Meanwhile, data coverage continues to increase both through ongoing national survey projects and dedicated campaigns at individual sites serving a wide variety of purposes.…”
Section: Natura 2000 and Essential Biodiversity Variablesmentioning
confidence: 99%
“…Airborne LIDAR has been identified to hold especially high potential for biodiversity monitoring (Simonson et al, 2014;Zlinszky et al, 2015b) due to its ability to capture three-dimensional spatial structure in high resolution together with radiometric properties in a spectral band relevant for ecophysiology. Studies have proven that LIDAR can be used even on its own for detailed phytosociological classification or vegetation health studies, both in forests (Maltamo et al, 2014) and in herbaceous vegetation (Zlinszky et al, , 2012. Meanwhile, data coverage continues to increase both through ongoing national survey projects and dedicated campaigns at individual sites serving a wide variety of purposes.…”
Section: Natura 2000 and Essential Biodiversity Variablesmentioning
confidence: 99%
“…Artigas and Pechmann (2010) applied MinNF and SAM on airborne hyperspectral data and digital photos, to successfully map invasive Phragmites australis with 93% PA and 96% UA. Among other sensors, ALS data have shown high potential in discriminating wetland vegetation species (Zlinszky et al 2012). …”
Section: Plant Speciesmentioning
confidence: 99%
“…Important riverine vegetation characteristics to map are vegetation type, vegetation coverage, and changes in vegetation. ALS and TLS have been used to classify riverine vegetation [58][59][60]. However, MLS has not been widely used for vegetation mapping.…”
Section: Introductionmentioning
confidence: 99%