EGU21-4682, updated on 12 Jan 2022
https://doi.org/10.5194/egusphere-egu21-4682
EGU General Assembly 2021
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Terrestrial hydroclimatic variability in basins of Southern Siberia driven by different states of permafrost degradation

Li Han and Lucas Menzel
Li Han and Lucas Menzel
  • Heidelberg University, Professorship in Hydrology and Climatology, Department of Geography, Heidelberg, Germany (li.han@uni-heidelberg.de)

Changes in the cryosphere caused by global warming are expected to alter the hydrologic system, with inevitable consequences for freshwater availability to humans and ecosystems. Quantitative understandings of the historical hydrologic changes in response to permafrost degradation is essential for projecting future changes with respect to the continuing and possibly intensifying warming. Here we investigate past hydro-climatic changes over three southern Siberian basins with diverse permafrost properties: in the Selenga catchment, all three permafrost types occur, i.e., discontinuous, sporadic and isolated permafrost; the Lena Basin (at gauge Tabaga) is mostly underlain by discontinuous permafrost, while the Aldan is dominated by continuous permafrost.

Based on the reconstruction of terrestrial water storage changes (TWS) from the GRACE satellite mission and hydro-climatic time series over the period 1984-2013, our results show very different change patterns in the TWS among these three basins. There is an unprecedented reduction of TWS (-9.8 km3) in the Selenga basin, but remarkable increases (14.4 km3 and 13.1 km3) in the Lena-Tabaga and Aldan basins, respectively. The diverse changes in TWS, runoff and precipitation over each basin suggest different hydrologic response mechanisms to permafrost degradation under a warming climate. The Selenga, dominated by lateral degradation (i.e., decreasing permafrost extent), suffers severe water loss via deep infiltration of water that was previously stored close to the surface, which induces a drier surface and subsurface drainage system. In contrast, in the Aldan basin, determined by vertical degradation, thicker active layers develop which sustain a water-rich surface and subsurface environment. In the Lena-Tabaga basin finally, which is characterized by both lateral and vertical degradations, the further development of lateral degradation has led to a stronger increase in groundwater storage in comparison to surface runoff during the increased precipitation states, suggesting a potentially groundwater-dominated hydrologic system in this basin. Our findings are of great importance for the regional water management in permafrost-affected regions under ongoing warming.

How to cite: Han, L. and Menzel, L.: Terrestrial hydroclimatic variability in basins of Southern Siberia driven by different states of permafrost degradation, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-4682, https://doi.org/10.5194/egusphere-egu21-4682, 2021.

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