Sensitivity of the initiation of debris flow to initial soil moisture

W. Hu; Q. Xu; G. H. Wang; T. W J van Asch; P. Y. Hicher

doi:10.1007/s10346-014-0529-2

Sensitivity of the initiation of debris flow to initial soil moisture

W. Hu, Q. Xu^*, G. H. Wang, T. W J van Asch, P. Y. Hicher

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The initiation of debris flows is commonly attributed either to fluidization as a result of rainfall-induced landslides or to gully erosion induced by concentrated runoffs. A series of flume tests have been performed to show how the initial soil moisture influences the initiation of debris flows. At the start of each experiment, surface runoff was generated over loose granular deposits, triggering debris flows. These experimental debris flows enacted different scenarios according to the small variations among the initial soil moistures. In the loose granular deposits with initial soil moistures ranging from 1 to 5 %, most runoff water could infiltrate and trigger a landslide, which accelerated within 1 s to speed over 1 ms⁻¹ and then transformed into a debris flow. In the same soil deposits with initial moistures >5 or

Original language	English
Pages (from-to)	1139-1145
Number of pages	7
Journal	Landslides
Volume	12
Issue number	6
DOIs	https://doi.org/10.1007/s10346-014-0529-2
Publication status	Published - 1 Dec 2015

Keywords

Debris flow
Initial moisture
Internal erosion
Runoff

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10.1007/s10346-014-0529-2

landslidesFinal published version, 1.67 MBLicence: Taverne

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title = "Sensitivity of the initiation of debris flow to initial soil moisture",

abstract = "The initiation of debris flows is commonly attributed either to fluidization as a result of rainfall-induced landslides or to gully erosion induced by concentrated runoffs. A series of flume tests have been performed to show how the initial soil moisture influences the initiation of debris flows. At the start of each experiment, surface runoff was generated over loose granular deposits, triggering debris flows. These experimental debris flows enacted different scenarios according to the small variations among the initial soil moistures. In the loose granular deposits with initial soil moistures ranging from 1 to 5 %, most runoff water could infiltrate and trigger a landslide, which accelerated within 1 s to speed over 1 ms−1 and then transformed into a debris flow. In the same soil deposits with initial moistures >5 or ",

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AU - Hu, W.

AU - Xu, Q.

AU - Wang, G. H.

AU - van Asch, T. W J

AU - Hicher, P. Y.

PY - 2015/12/1

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N2 - The initiation of debris flows is commonly attributed either to fluidization as a result of rainfall-induced landslides or to gully erosion induced by concentrated runoffs. A series of flume tests have been performed to show how the initial soil moisture influences the initiation of debris flows. At the start of each experiment, surface runoff was generated over loose granular deposits, triggering debris flows. These experimental debris flows enacted different scenarios according to the small variations among the initial soil moistures. In the loose granular deposits with initial soil moistures ranging from 1 to 5 %, most runoff water could infiltrate and trigger a landslide, which accelerated within 1 s to speed over 1 ms−1 and then transformed into a debris flow. In the same soil deposits with initial moistures >5 or

AB - The initiation of debris flows is commonly attributed either to fluidization as a result of rainfall-induced landslides or to gully erosion induced by concentrated runoffs. A series of flume tests have been performed to show how the initial soil moisture influences the initiation of debris flows. At the start of each experiment, surface runoff was generated over loose granular deposits, triggering debris flows. These experimental debris flows enacted different scenarios according to the small variations among the initial soil moistures. In the loose granular deposits with initial soil moistures ranging from 1 to 5 %, most runoff water could infiltrate and trigger a landslide, which accelerated within 1 s to speed over 1 ms−1 and then transformed into a debris flow. In the same soil deposits with initial moistures >5 or

KW - Debris flow

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Sensitivity of the initiation of debris flow to initial soil moisture

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