Abstract
Abstract. Snow avalanches break, uproot and overturn trees causing damage to forests. The extent of forest damage provides useful information on avalanche frequency and intensity. However, impact forces depend on avalanche flow regime. In this paper, we define avalanche loading cases representing four different avalanche flow regimes: powder, intermittent, dry and wet. Using a numerical model that simulates both powder and wet snow avalanches, we study documented events with forest damage. First we show that in the powder regime, although the applied impact pressures can be small, large bending moments in the tree stem can be produced due to the torque action of the blast. The impact area of the blast extends over the entire tree crown. We find that, powder clouds with velocities over 20 m s-1 can break tree stems. Second we demonstrate that intermittent granular loadings are equivalent to low-density uniform dry snow loadings under the assumption of homogeneous particle distributions. The intermittent regime seldom controls tree breakage. Third we calculate quasi-static pressures of wet snow avalanches and show that they can be much higher than pressures calculated using dynamic pressure formulas. Wet snow pressure depends both on avalanche volume and terrain features upstream of the tree.
Highlights
Forest damage caused by avalanches reveals the complex and variable nature of avalanche flow
In this paper we relate forest damage to different avalanche flow regimes with the goal of quantifying the protective capacity of mountain forests
To investigate how snow avalanches destroy forests, we developed four flow regime dependent impact formulas
Summary
Forest damage caused by avalanches reveals the complex and variable nature of avalanche flow. Forest destruction provides important information concerning the avalanche frequency and the spatial extent of avalanche impact pressure. This information helps hazard engineers construct impact scenarios for different avalanche release conditions. Impact pressures are related to avalanche flow regime (Faug et al, 2010; Sovilla et al, 2014; Vera et al, 2015). Both fast-moving dry avalanches and slow moving wet snow flows can lead to widespread forest destruction. In this paper we relate forest damage to different avalanche flow regimes with the goal of quantifying the protective capacity of mountain forests
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