Abstract
Catastrophic mudflows and landslides triggered by rainfall can occur suddenly and move with high speed, damaging electrical and civil infrastructure and threatening human and wildlife. Due to the climate change and extreme weather increase, it is likely that wildfires and consequently mudflows will increase in frequency in the future. The risk of mudflows and landslides increases in post-wildfire areas mainly because of water repellent soil which forms on slopes. Water repellency, or hydrophobicity, can occur due to the burning of the accumulated organic matter in soil. Hydrophobicity repels water and prevents infiltration of water into the soil, which results in soil erosion, mudflows and landslides. In this study, a series of experimental laboratory tests are conducted on regular, hydrophobic and Xanthan gum-treated hydrophobic sand. Xanthan gum, which is an environmentally friendly biopolymer, can be substituted for chemical material used for soil improvement and decrease the CO2 emissions and enhance environmental slope protection. Xanthan gum can enhance the inter-particle cohesion and can hold a large amount of water and consequently help the recovery of the vegetation. Contact angle, direct shear and rain simulation tests are conducted on samples. Results show that in Xanthan gum treated slope the rate of erosion and the risk of mudflow decreases. It is also observed that the Xanthan gum treated sample can retain more water and consequently decreases the rate of wind erosion and helps the dust-control in burned areas.
Highlights
Water repellency or hydrophobicity is a chemical modification of soil grain surface property which affects the wetting process, hydrological process of water flow, drainage and infiltration in soil
On the other slope, which is treated by Xanthan gum, the water cannot infiltrate due to the formation of a protective layer
Fire induced hydrophobicity has a significant effect on granular soil erosion on slopes, loss of vegetation, flooding and catastrophic mudslides
Summary
Water repellency or hydrophobicity is a chemical modification of soil grain surface property which affects the wetting process, hydrological process of water flow, drainage and infiltration in soil. It is believed that repellency is caused by volatilization of (hydrophobic) waxes originated from incomplete combustion of organic matter subsequently condensing and coating soil particles [1,2]. Water-repellent soil is aroused by dry periods. Wildfires or intense heating of soil are known to be a primary reason of water repellency of soil. Other reasons are plant roots exudates, certain fungal species and surface wax from plant leaves and oil spills. In California, [3] reported wildfires on chaparral watersheds produced water repellent soil
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