Abstract
In fluvial geomorphology as well as in freshwater ecology, rivers are commonly seen as nested hierarchical systems functioning over a range of spatial and temporal scales. Thus, for a comprehensive assessment, information on various scales is required. Over the past decade, remote sensing-based approaches have become increasingly popular in river science to increase the spatial scale of analysis. However, data-scarce areas have been widely ignored so far, even if most remaining free flowing rivers are located in such areas. In this study, we suggest an approach for river corridor mapping based on open access data only, in order to foster large-scale analysis of river systems in data-scarce areas. We take the more than 600 km long Naryn River in Kyrgyzstan as an example, and demonstrate the potential of the SRTM-1 elevation model and Landsat OLI imagery in the automated mapping of various riverscape parameters, like the riparian zone extent, distribution of riparian vegetation, active channel width and confinement, as well as stream power. For each parameter, a rigor validation is performed to evaluate the performance of the applied datasets. The results demonstrate that our approach to riverscape mapping is capable of providing sufficiently accurate results for reach-averaged parameters, and is thus well-suited to large-scale river corridor assessment in data-scarce regions. Rather than an ultimate solution, we see this remote sensing approach as part of a multi-scale analysis framework with more detailed investigation in selected study reaches.
Highlights
Rivers are increasingly under pressure worldwide due to anthropogenic activities like hydropower exploitation, and only very few free flowing rivers remain worldwide, most of them located in remote regions of the world [1,2]
Considering the Naryn River and its main tributaries, the entire river network has a length of 4872 km
We use the case of the Naryn River in Kyrgyzstan, and demonstrate the derivation of geomorphological and ecological information for this river using a combination of terrain analysis (SRTM-1 DEM) and multispectral remote sensing (Landsat 8 OLI)
Summary
Rivers are increasingly under pressure worldwide due to anthropogenic activities like hydropower exploitation, and only very few free flowing rivers remain worldwide, most of them located in remote regions of the world [1,2]. Results from remote sensing studies suggest that the structure of rivers is more complex, and is a result of multiple controlling factors (see for example Notebaert et al [14], for a discussion) One consequence of this complex nature of river corridors is that the modern perspective on river science and management sees rivers as complex systems operating over a range of spatial and temporal scales. A comprehensive analysis of a particular river system requires well-planned investigations on multiple scales [15]
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