4.6 Article

Storage-discharge characteristics of an active rock glacier catchment in the Innere olgrube, Austrian Alps

Journal

HYDROLOGICAL PROCESSES
Volume 35, Issue 5, Pages -

Publisher

WILEY
DOI: 10.1002/hyp.14210

Keywords

Austrian Alps; catchment characterization; isotopes; permafrost; rainfall-runoff modelling; rock glacier

Funding

  1. Austrian Federal Ministry of Agriculture, Regions and Tourism [101561, 101093]
  2. Federal State of Tyrol [101561, 101093]
  3. Federal State of Carinthia [101561, 101093]
  4. Federal State of Styria [101561, 101093]
  5. Federal State of Vorarlberg [101561, 101093]
  6. Federal State of Salzburg [101561, 101093]

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Various hydro(geo)logical tools were used to assess the active rock glacier Innere olgrube and its catchment area in the Otztal Alps, Austria. The study found that snowmelt, ice melt, and rainfall contribute 35.8%, 27.6%, and 36.6%, respectively, to the catchment. Isotopic data revealed that water derived from ice melt mainly comes from two small cirque glaciers within the catchment.
The active rock glacier Innere olgrube and its catchment area (otztal Alps, Austria) are assessed using various hydro(geo)logical tools to provide a thorough catchment characterization and to quantify temporal variations in recharge and discharge components. During the period from June 2014 to July 2018, an average contribution derived from snowmelt, ice melt and rainfall of 35.8%, 27.6% and 36.6%, respectively, is modelled for the catchment using a rainfall-runoff model. Discharge components of the rock glacier springs are distinguished using isotopic data as well as other natural and artificial tracer data, when considering the potential sources rainfall, snowmelt, ice melt and longer stored groundwater. Seasonal as well as diurnal variations in runoff are quantified and the importance of shallow groundwater within this rock glacier-influenced catchment is emphasized. Water derived from ice melt is suggested to be provided mainly by melting of two small cirque glaciers within the catchment and subordinately by melting of permafrost ice of the rock glacier. The active rock glacier is characterized by a layered internal structure with an unfrozen base layer responsible for groundwater storage and retarded runoff, a main permafrost body contributing little to the discharge (at the moment) by permafrost thaw and an active layer responsible for fast lateral flow on top of the permafrost body. Snowmelt contributes at least 1/3rd of the annual recharge. During droughts, meltwater derived from two cirque glaciers provides runoff with diurnal runoff variations; however, this discharge pattern will change as these cirque glaciers will ultimately disappear in the future. The storage-discharge characteristics of the investigated active rock glacier catchment are an example of a shallow groundwater aquifer in alpine catchments that ought to be considered when analysing (future) river runoff characteristics in alpine catchments as these provide retarded runoff during periods with little or no recharge.

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