It is well documented that deforestation results in an increase in landslide frequency due to the control that forest roots have on slope stability. The loss of forest vegetation leads to a reduction in soil cohesion and a decrease in the shear strength of the soil profile. As a result, the slope becomes more susceptible to landsliding and the return time of landslides decreases. When a landslide removes the soil profile, there may not be adequate time for seedlings to grow and enhance soil stability. In this study, we investigate whether bistable dynamics emerge from the interaction of forest vegetation with the formation and accumulation of colluvial deposits in soil-mantled landscapes. To that end, we develop deterministic and stochastic models of landslide occurrence with a dynamic vegetation component. Results show that bistability exists for the deterministic case for both steep and shallow hollows under event and supply limited conditions. However, for the stochastic case, the randomness of landslide occurrence largely changed the states of the system such that the system only exhibited one stable state, which was the fully vegetated condition. Examining different management practices under stochastic conditions showed that the system eventually recovered; however, management practices influenced the recovery time of the forest. Thus, different management practices could render the land in a state of low vegetation over economically significant time periods. Key Points We examine if bistability results after deforestation in landslide prone areas Bistability was observed for the deterministic dynamics The randomness of landslides changed the stochastic system states ©2014. American Geophysical Union. All Rights Reserved.
CITATION STYLE
Runyan, C. W., & D’Odorico, P. (2014). Bistable dynamics between forest removal and landslide occurrence. Water Resources Research, 50(2), 1112–1130. https://doi.org/10.1002/2013WR014819
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