Taiwan for nearly 30 years, finds t

Taiwan for nearly 30 years, finds the average annual sediment
discharge from the 1,584 km2 Peinan catchment in southwestern
Taiwan to be 87.7 Mt, the largest amount recorded for any river in
Taiwan. We posit several reasons for this finding. The impact of road
density – less than 0.1 km/km2 in both catchments on landscape and
ecosystem – is limited (Seiler, 2001). Additionally, the population
density is under 10/km2 and the recent population decrease in both
catchments also supports that human activities in the study areas are
minimal (population information from Taitung County Government,
Taiwan). Therefore, the factor of anthropogenic impact can be ruled
out in advance. In addition, 44% of the typhoons during the study
period attacked Taiwan from the southeast coast (CWB, 2008),
reflecting that the climate in southeast Taiwan is dominated by
typhoon-induced rainstorms. Besides the impact of typhoons, the
frequent earthquake activities in southeastern Taiwan also are factors
that shake or weaken geomaterial and are conductive to landsliding.
From 1999 through 2007, nine major typhoons, which delivered
cumulative rainfall in excess of 400 mm, and 2 earthquakes over 6.0 in
magnitude, occurred in the Peinan catchment. This series of typhoons
and earthquakes triggered a sequence of disastrous landslides
(Table 1). Each of these typhoons caused peak 24 h rainfalls of over
200 mm.
The present study attempts to explain the mechanisms of
landsliding as well as sediment discharge triggered by these three
earthquakes and eight typhoons in the study areas. Moreover, we
analyze the landsliding and sediment discharge in order to understand
the relationship between landsliding and sediment transport
and, further, to identify the roles of the principal natural erosion
triggers, including topography, lithology, rainfall and earthquake.