2019
DOI: 10.1007/s00027-019-0624-5
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Integrating catchment land cover data to remotely assess freshwater quality: a step forward in heterogeneity analysis of river networks

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Cited by 10 publications
(9 citation statements)
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“…Moreover, with the development of remote sensing technology, many researchers are focusing on remote water quality assessment. For example, Li et al used remote sensing and the spatial simulated annealing integrated approach to assess the water quality of high dynamic lakes [8].Şandric et al, based on land cover data, defined a remote measure of the potential of pollution, named RWQ, and showed a good result in water quality assessment [9].…”
Section: Introductionmentioning
confidence: 99%
“…Moreover, with the development of remote sensing technology, many researchers are focusing on remote water quality assessment. For example, Li et al used remote sensing and the spatial simulated annealing integrated approach to assess the water quality of high dynamic lakes [8].Şandric et al, based on land cover data, defined a remote measure of the potential of pollution, named RWQ, and showed a good result in water quality assessment [9].…”
Section: Introductionmentioning
confidence: 99%
“…A good quality and the right amount of surface water have been crucial for human well-being and life in general ever since (Water Framework Directive 2000). These two aspects: quality and quantity, are determined to a significant degree by the ecosystems surrounding the water bodies (Dingman 2015;Erős et al 2019;Şandric et al 2019). The quality of water can be impaired by processes within the catchment area.…”
Section: Introductionmentioning
confidence: 99%
“…We used RIVERenhancer to remotely estimate water quality by using the variable RWQ as defined by ref. 34 , based on land cover data extracted from remote sensing images. Considering that each cell in the river raster collects environmental influences from its upstream drainage basin, RWQ is defined using the Corine Land Cover (version 18.5.1; https://land.copernicus.eu ) categories found in the catchment area of each cell in the river network grouped by anthropogenic influence potential 35 and weighted by their respective areas in the catchment 34 .…”
Section: Methodsmentioning
confidence: 99%
“… 34 , based on land cover data extracted from remote sensing images. Considering that each cell in the river raster collects environmental influences from its upstream drainage basin, RWQ is defined using the Corine Land Cover (version 18.5.1; https://land.copernicus.eu ) categories found in the catchment area of each cell in the river network grouped by anthropogenic influence potential 35 and weighted by their respective areas in the catchment 34 . Flash-flood potential (FFP) was used to quantify the riverbed stability 32 ; it estimates the potential for flood-related disturbance to streams by taking into account the potential drainage velocity both upstream and at the site.…”
Section: Methodsmentioning
confidence: 99%