Caused by the oblique collision between the Eurasian and Philippine Sea Plates, Taiwan Island has to face the threat of frequent and severe earthquake activities inevitably. Thus, earthquake-induced sediment gravity flows also become a regular marine geo-hazard in the offshore area of Taiwan. The Pingtung earthquake doublet, occurred on December 26th, 2006, is one of the most impact earthquake events off southwestern Taiwan in the past 100 years. More than ten submarine cables were broken by the Pingtung earthquake and its aftershocks. After the earthquake, local fishermen immediately reported they were trapped in disturbed water at the west side of the Fangliao Submarine Canyon (FLSC) head. For figuring out the linkage between the earthquake and disturbed water, and further understanding the transportation process of the sediment gravity flows induced by the Pingtung earthquake, series of core and geophysical survey works were conducted in the past couple of years. On the east side of the FLSC head, the linear depressions which might be caused by earthquake induced liquefactions were a source area of gravity flows triggered by the Pingtung earthquake, and subsequently these gravity flows may transport northwestward into the FLSC by following the topography of the depressions. In this study, observation of chirp sonar profiles didn’t reveal any significant seafloor changes on the west side of the FLSC head, while a traceable event layer about one meter thick with fine grain size relative to the Pingtung earthquake was discovered in series of cores collected in this area. All results on both sides of the FLSC suggest that the event layer on the west side of the FLSC head would be the result of the cross-canyon transport of the suspended sediments in the gravity flow which was induced by the Pingtung earthquake and originated on the east side of the canyon. Furthermore, comparing with the long-term sedimentation rate at Gaoping Shelf (~ 0.1 cm/yr), our results point out the sedimentation process on the west side of the FLSC head might be dominated by extreme events like the Pingtung earthquake and largely influenced by lateral transportation, i.e., the cross-canyon movement, of inherent deposits on the shelf area instead of delivering sediments from rivers.