Suspended sediment and discharge dynamics in a glaciated alpine environment: identifying crucial areas and time periods on several spatial and temporal scales in the Ötztal, Austria

Suspended sediment and discharge dynamics in a glaciated alpine environment: identifying crucial areas and time periods on several spatial and temporal scales in the Ötztal, Austria

Glaciated high-alpine areas are fundamentally altered by climate change, with well-known implications for hydrology, e.g., due to glacier retreat, longer snow-free periods, and more frequent and intense summer rainstorms. While knowledge on how these hydrological changes will propagate to suspended...

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Veröffentlicht in:Earth surface dynamics 2022-07, Vol.10 (3), p.653-669
Hauptverfasser: Schmidt, Lena Katharina, Francke, Till, Rottler, Erwin, Blume, Theresa, Schöber, Johannes, Bronstert, Axel
Format: Artikel
Sprache:eng
Schlagworte:
Alpine environments
Analysis
Catchment area
Catchments
Climate change
Discharge
Gauges
Glaciers
Global temperature changes
Headwaters
Hydroelectric power
Hydrologic data
Hydrology
Microbalances
Mitigation
Precipitation
Precipitation (Meteorology)
Rainfall
Rainstorms
Resolution
Satellite observation
Satellites
Seasonal distribution
Seasonal variations
Seasonality
Sediment
Sediment concentration
Sediment dynamics
Sediment yield
Sediment, Suspended
Sediments
Snow
Snow cover
Snowmelt
Spatial variations
Spring
Spring (season)
Summer
Suspended sediments
System dynamics
Temporal resolution
Water quality
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Beschreibung
Zusammenfassung:Glaciated high-alpine areas are fundamentally altered by climate change, with well-known implications for hydrology, e.g., due to glacier retreat, longer snow-free periods, and more frequent and intense summer rainstorms. While knowledge on how these hydrological changes will propagate to suspended sediment dynamics is still scarce, it is needed to inform mitigation and adaptation strategies. To understand the processes and source areas most relevant to sediment dynamics, we analyzed discharge and sediment dynamics in high temporal resolution as well as their patterns on several spatial scales, which to date few studies have done.
ISSN:2196-632X
2196-6311
2196-632X
DOI:10.5194/esurf-10-653-2022