Abstract
This paper discusses the joint impact of catchment complexity in topography, tectonics, climate, landuse patterns, and lithology on the suspended sediment yield (SSY, t km−2 year−1) in the Caucasus region using measurements from 244 gauging stations (GS). A Partial Least Square Regression (PLSR) was used to reveal the relationships between SSY and explanatory variables. Despite possible significant uncertainties on the SSY values, analysis of this database indicates clear spatial patterns of SSY in the Caucasus. Most catchments in the Lesser Caucasia and Ciscaucasia are characterized by relatively low SSY values (<100–150 t km−2 year−1), the Greater Caucasus region generally have higher SSY values (more than 150–300 t km−2 year−1). Partial correlation analyses demonstrated that such proxies of topography as height above nearest drainage (HAND) and normalized steepness index (Ksn) tend to be among the most important ones. However, a PLSR analysis suggested that these variables’ influence is likely associated with peak ground acceleration (PGA). We also found a strong relationship between land cover types (e.g., barren areas and cropland) and SSY in different elevation zones. Nonetheless, adding more gauging stations into analyses and more refined characterizations of the catchments may reveal additional trends.
Highlights
Water erosion is the primary mechanism of sediment transport from the catchment area and, at the global level, determines the flow of pollutants into permanent streams and reservoirs [1,2]
This paper discusses the joint impact of catchment complexity in topography, tectonics, climate, landuse patterns, and lithology on the suspended sediment yield (SSY, t km−2 year−1) in the Caucasus region using measurements from 244 gauging stations (GS)
Most catchments in the Lesser Caucasia and Ciscaucasia are characterized by relatively low Suspended sediment yield (SSY) values (
Summary
Water erosion is the primary mechanism of sediment transport from the catchment area and, at the global level, determines the flow of pollutants into permanent streams and reservoirs [1,2]. The suspended sediment yield is an integral characteristic of the erosion processes in river basins, considering the stream and watershed connectivity, which varies significantly depending on the combination of natural and anthropogenic factors [7,8]. These variations are especially noticeable in the mountains and foothill zone, where the most pronounced relief and lithology differences. A climate that controls the bedrock weathering rates and the surface runoff significantly contribute to the sediment yield and the pollutant flux [9]
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