Changing permafrost may have significant consequences on the hydrological regime of an alpine catchment. For an area abundant in unconsolidated sediments model parameters such as the spatial distribution of the effective storage volume, the permafrost distribution and the hydraulic conductivity are essential. In this work the first steps such as the quantification of the effective storage volume, the detection of permafrost, and the estimation of ground water storage are presented.
Sediment quantification and ground water storage in an alpine permafrost catchment: Krummgampen Valley, Ötztal Alps, Austria / H., Hausmann; E., Brückl; R., Illnar; S., Eipeldauer; K., Krainer; G., Blöschl; J., Komma; Chirico, GIOVANNI BATTISTA. - STAMPA. - (2010), pp. 56-56. (Intervento presentato al convegno Third European Conference on Permafrost tenutosi a Svalbard nel 13-17 Giugno 2010).
Sediment quantification and ground water storage in an alpine permafrost catchment: Krummgampen Valley, Ötztal Alps, Austria
CHIRICO, GIOVANNI BATTISTA
2010
Abstract
Changing permafrost may have significant consequences on the hydrological regime of an alpine catchment. For an area abundant in unconsolidated sediments model parameters such as the spatial distribution of the effective storage volume, the permafrost distribution and the hydraulic conductivity are essential. In this work the first steps such as the quantification of the effective storage volume, the detection of permafrost, and the estimation of ground water storage are presented.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.