Along the Manila trench, the South China Sea Plate subducts eastward beneath the Philippine Sea Plate in the southern Taiwan. However, the geometrical feature of the Manila Trench becomes indistinguishable as approaching the Taiwan Island. This area is considered as the transition zone between the South China Sea Basin and the southeast continental shelf of the Eurasian Plate.　In this study, we used 9 short-period OBS (Ocean Bottom Seismometer) deployed along the northernmost Manila Trench (20.5~21°N, 119.8~120.2°E), from November 20th to November 25th in 2006. Over 2,700 events were relocated during the OBS deployment. The hypocenters reveal focal depths ranging from the seafloor surface to 40 km depth and in two distinct seismic clusters. One distributes vertically with its surface projection tend to be parallel of the neighboring Manila Trench; whereas the other seismic cluster is confined inside an horizontal swarm at a depth of about 30 km. In order to compare our solutions with other seismic observation networks, we constructed an empirical equation to determine the local magnitude for our study. We also determined the 1-D velocity model via the inversion program VELEST; it reveals a thick oceanic crust with of around 16 km. Compared to the typical continental and oceanic lithosphere our model proved that our study area is located at the beginning of oceanic-continental transition zone (oceanic side). Moreover, in order to extract more information on the offshore seismic sources, we performed the near-field waveform inversion program FASTMECA, to determine focal mechanisms with events which ML are larger than 2.5. Focal mechanism solutions are mainly strike-slip in type but secondary normal events are observed to the north of the network while reverse events distribute to the south. We suggested this distribution could be either caused by local structures as the LRTPB (Luzon Ryukyu Transform Plate Boundary) at the scale of our network (but not revealing the tectonic process of the whole LRTPB), or by the process of the subduction of the Eurasian Plate in front of the Manila Trench.