2018
DOI: 10.3390/w10020171
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Continuously Tracking the Annual Changes of the Hengsha and Changxing Islands at the Yangtze River Estuary from 1987 to 2016 Using Landsat Imagery

Abstract: Abstract:The evolution of estuarine islands is potentially controlled by sediment discharge, tidal currents, sea level rise, and intensive human activities. An understanding of the spatial and temporal changes of estuarine islands is needed for environmental change monitoring and assessment in estuarine and coastal areas. Such information can also help us better understand how estuarine islands respond to sea level rise in the context of global warming. The temporal changes of two estuarine islands in Shanghai… Show more

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Cited by 8 publications
(8 citation statements)
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“…Based on water body identification results, many efforts have been spent on delineating tidal flats from the satellite images. The conventional methods include linear regression [36], Gaussian function [37], Otsu thresholding [38,39], and frequency thresh-olding [29,40,41]. Compared with the above conventional methods, the RF could classify the cells with respect to multiple indices and their statistical distributions and provide higher robustness [42].…”
Section: Tidal Flat Cell Delineationmentioning
confidence: 99%
“…Based on water body identification results, many efforts have been spent on delineating tidal flats from the satellite images. The conventional methods include linear regression [36], Gaussian function [37], Otsu thresholding [38,39], and frequency thresh-olding [29,40,41]. Compared with the above conventional methods, the RF could classify the cells with respect to multiple indices and their statistical distributions and provide higher robustness [42].…”
Section: Tidal Flat Cell Delineationmentioning
confidence: 99%
“…In particular, Google Earth Engine (GEE) provides access to large satellite image archives from different sensors in both optical and nonoptical wavelengths, environmental variables, land-cover datasets, topographic and socio-economic datasets and an application programming interface that can be used to access the information contained within the large datasets with high-performance computing resources (Gorelick et al, 2017). GEE has been applied to mapping global water occurrence, global distribution and trajectory of tidal flats, human settlement, urbanization and land-cover changes (Gerben Hagenaars, 2017;Jean-François Pekel, Gorelick, & Belward, 2016;Linli Cui, 2012;Murray et al, 2019;Nan & Lei Ding, 2018;Ran Goldblatt, 2016). To assess shoreline changes, GEE has been used to map the sandy beaches in the world (Arjen Luijendijk et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…Some studies have used pixel-based supervised classification to assess the status of global sandy beaches (Arjen Luijendijk et al, 2018). Long-term analysis of satellite imagery revealed the link between erosion and sediment load in the two islands in the Yangtze River estuarine (Nan & Lei Ding, 2018). Recently, the Tasseled Cap Wetness-Greenness Difference (TCWGD) index has been used within GEE for detecting inundation in wetlands in Landsat imagery (Tang et al, 2016).…”
Section: Introductionmentioning
confidence: 99%
“…The GEE platform provides a good opportunity to obtain more insight into the longterm changes in the surfaces land of river islands. A simple cloud score function was applied to avoid the effect of clouds/shadows of Landsat data [27]. A reduction function provided by the GEE was used to generate the annual Landsat images over 1986-2017.…”
Section: A Annual Landsat Images Generationmentioning
confidence: 99%
“…Actually, some other factors can also influence the observation result of Yangtze River island changes [50]. Extensive human activities such as reclamation and water conservation projects, can alter morphologies of Yangtze islands, such as Chongming Island and Changxing Island [27]. Although sea level rise has been observed around the Yangtze River delta, those coastal islands exhibited expansions owing to coastal reclamations [27]- [31].…”
Section: B Influencing Factors Analysismentioning
confidence: 99%