Controls of preferential orientation of earthquake‐ and rainfall‐triggered landslides in Taiwan's orogenic mountain belt

Landsliding usually occurs on specific hillslope aspect, which may reflect the control of specific geo‐environmental factors, triggering factors, or their interaction. To explore this notion, this study used island‐wide landslide inventories of the Chi‐Chi earthquake in 1999 (MW = 7.6) and Typhoon M...

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Bibliographic Details
Published in:Earth surface processes and landforms 2019-07, Vol.44 (9), p.1661-1674
Main Authors: Chen, Yi‐Chin, Chang, Kang‐Tsung, Wang, Su‐Fen, Huang, Jr‐Chuan, Yu, Cheng‐Ku, Tu, Jien‐Yi, Chu, Hone‐Jay, Liu, Cheng‐Chien
Format: Article
Language:English
Subjects:
Acceleration
earthquake
Earthquakes
Environmental factors
Evolution
geological settings
Geology
Hurricanes
landslide orientation
Landslides
Landslides & mudslides
Mass wasting
Orientation
Orogeny
Rain
Rainfall
Seismic activity
Seismic propagation
Seismic wave propagation
Seismic waves
Slope
Slopes
Taiwan
Typhoons
Wave propagation
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Summary:Landsliding usually occurs on specific hillslope aspect, which may reflect the control of specific geo‐environmental factors, triggering factors, or their interaction. To explore this notion, this study used island‐wide landslide inventories of the Chi‐Chi earthquake in 1999 (MW = 7.6) and Typhoon Morakot in 2009 in Taiwan to investigate the preferential orientation of landslides and the controls of landslide triggers and geological settings. The results showed two patterns. The orientations of earthquake‐triggered landslides were toward the aspect facing away from the epicenter in areas with peak ground acceleration (PGA) ≥ 0.6 g and landslide ratio ≥ 1%, suggesting that the orientations were controlled by seismic wave propagation. Rainfall‐triggered landslides tended to occur on dip slopes, instead of the windward slopes, suggesting that geological settings were a more effective control of the mass wasting processes on hillslope scale than the rainfall condition. This study highlights the importance of the endogenic processes, namely seismic wave and geological settings, on the predesigned orientation of landslides triggered by either earthquake or rainfall, which can in turn improve our knowledge of landscape evolution and landslide prediction. © 2019 John Wiley & Sons, Ltd. The orientations of earthquake‐triggered landslides were toward the aspect facing away from the epicenter within the areas with peak ground acceleration (PGA) ≥ 0.6 g and landslide ratio ≥ 1%, suggesting that the orientations were controlled by seismic wave propagation. Rainfall‐triggered landslides tended to occur on dip slopes, instead of the windward slopes. Endogenic processes control the orientation of earthquake‐ and rainfall‐triggered landslides in Taiwan's orogenic mountain belt.
ISSN:0197-9337
1096-9837
DOI:10.1002/esp.4601