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http://dx.doi.org/10.3741/JKWRA.2017.50.6.429

West seacoast wetland monitoring using KOMPSAT series imageries in high spatial resolution  

Sunwoo, Wooyeon (Graduate School of Water Resources, Sungkyunkwan University)
Kim, Daeun (Graduate School of Water Resources, Sungkyunkwan University)
Kim, Seongkyun (Graduate School of Water Resources, Sungkyunkwan University)
Choi, Minha (Graduate School of Water Resources, Sungkyunkwan University)
Publication Information
Journal of Korea Water Resources Association / v.50, no.6, 2017 , pp. 429-440 More about this Journal
Abstract
A series of multispectral high-resolution Korean Multi-Purpose Satellite (KOMPSAT) images were analyzed to detect the geographical changes in four different tidal flats in the west coast of South Korea. The method of unsupervised classification was used to generate a series of land use/land cover (LULC) maps from the satellite images, which were used as the input of the temporal trajectory analysis to detect the temporal change of coastal wetlands and its association with natural and anthropogenic activities. The accurately classified LULC maps extracted from the KOMPSAT images indicate that these multispectral high-resolution satellite data is highly applicable to generate good quality thematic maps for extracting wetlands. The result of the trajectory analysis showed that, while the tidal flat area of Gyeonggi and Jeollabuk provinces was estimated to have changed due to tidal effects, the reductive trajectory of the wetland areas belonging to the Saemangeum province was caused by a high degree of human-induced activities including large reclamation and urbanization. The conservation of the Jeungdo Wetland Protected Area in Jeollanam province revealed that the social and environmental policies can effectively protect coastal wetlands from degradation. Therefore, monitoring for wetland change using high resolution KOMPSAT is expected to be useful to coastal environment management and policy making.
Keywords
KOMPSAT; Coastal wetlands monitoring; Change detection; Temporal trajectory analysis;
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