Offshore eastern Taiwan, Huatung Basin is the most western part of the Philippine Sea Plate (PSP). Surrounding by the Yaeyama Ridge to the north, Gagua Ridge to the east, and Luzon Arc to the south and west, it forms a special sedimentary environment adjacent to Taiwan. It may also heavily influence by the collision and subduction processes of the Luzon Arc, this is important in tectonic studies. Due to lack of geophysical data in the southern Huatung Basin (SHB), previous studies often discussed southern and northern Huatung Basin as a whole. In this study, recently acquired multichannel seismic reflection data in the SHB were used to study the evolution of sedimentary environment and tectonics in Huatung Basin. Two major sequence boundaries, namely X and Y are identified on the seismic profiles which divided basin sediments into three seismic sequences. Similar stratigraphy could extend to northern Huatung Basin. In the SHB, Y is interpreted to be the time when the old Luzon Arc volcanism ceased at about 4~5 Ma, while X represents the time when the new Luzon volcanic arc started to form. Thus, S1 is the oldest sediment sequence in the Huatung Basin which lay directly above the basement. The sediment sources are likely to be derived from the North Luzon Arc when it was still an intra-ocean arc. Sequence S2 is the sediment deposited after the old Luzon volcanism stopped, and sequence S3 was deposited after a new volcanic chain erupted, with additional source from Taiwan arc-continent collision zone. In both northern and southern Huatung Basin, most of the sediments came from North Luzon Arc and the Taiwan mountain belt to the west. In the SHB, North Luzon Arc has not collided with the Eurasia continental margin yet, sediment input was mainly influenced by the volcanic activities of the North Luzon Arc. In the north Huatung Basin, North Luzon Arc has already collided with the Eurasia continental margin, the influence of orogenic sediments therefore were be controlled by the evolution of the Taiwan orogen. Just beneath the eastern flank of the North Luzon Arc, we observed on the seismic profiles that there exists a buried ridge which widens the east flank of the Luzon arc slope to the south. This ridge is named the East Ridge of Luzon Arc （ERLA）in this study. East of ERLA, sediment sequences in the Huatung Basin appear to be subsided with minor faults. The depocenters changed with time in the Huatung Basin, and there are 2~3 north-south trending small ridges lie to the west of the Gagua Ridge, these ridges could be formed along old fracture zones in the Huatung Basin, and has been uplifting through time. The main factor influences the sedimentary environment in SHB is the volcanic activities of the North Luzon Arc. The Huatung Basin basement, the small ridges west of the Gagua Ridge, and the ERLA, have all been influenced by the flexure of the Philippine Sea Plate due to loading of the North Luzon Arc. Locations of the depocenters at different times were affected by the loading processes. When the North Luzon Arc formed, a depression in southwestern Huatung Basin was formed just east of the volcanic arc due to loading of the arc, and moat and bulge developed where the small ridges west of the Gagua Ridge lie. As these ridges were uplifted, old faults which were associated with the ridge formation reactivated and formed ridge-trough systems west of the Gagua Ridge. The sedimentary processed in SHB is controlled by the evolution of the North Luzon Arc, plate flexure and evolution of the Luzon Arc volcanic activities strongly influenced these strata.