Life cycle of intertidal organisms often consist a planktonic larval stage and followed by a sessile adult stage. Supply side ecology highlighted the relationship between larval supply, settlement and post-settlement mortality and their subsequent effect on the distribution and abundance of adults. The present study investigated larval supply using a newly designed plankton trap, which can efficiently sample larvae and quantify their supply patterns. The present study also focused on the early life history pattern of the abundant mid-shore barnacle Tetraclita kuroshioensis, to study the subsequent events of larval supply, settlement and post-settlement mortality on the population structure of adults at the NE Coast, Taiwan. The new designed trap in the present study can collect plankton during the splash and submerged period of the tidal cycle and yielded high diversity of catches, in which the sampling time is longer than the previously designed traps. Multivariate analysis showed that catch composition collected by the traps and the catches collected from hand-held plankton trawl net was similar, suggesting this trap was not selective. Using the new trap, the present study assessed the spatial and temporal variation in the supply of barnacle, bivalve and gastropod larvae in the NE Coast, Taiwan. Supply pattern of these larvae was affected by daily tidal range and wind speed. Diversity of larval supply of Taiwan intertidal barnacles was further investigated using this trap in ~12-month period (October, 2008 – October, 2009) at two sites (Shen Ao Kang and He Ping Dao) in the NE Coast. Morphological characters and molecular markers (CO1) are combined to identify barnacle cypris larvae. In morphological methods, carapace length, width and posterior carapace angle and antennules morphology was used to identify species. The result showed that morphological method can not identify barnacle cypris larvae to species level correctly. However, using the mitochondria CO1 molecular markers, we can identify barnacle species and proved that molecular method is more reliable to identify small-size barnacle cypris larvae in larval supply studies. The present study revealed the supply pattern of 19 common local barnacles which showed both spatial and temporal variations between these two sites. We also collected larvae of non-native barnacle species. Larval supply of the intertidal barnacle T. kuroshioensis had several supply pulses during the reproductive seasons. There were several small pulses in early summer but no settlement was followed. In summer, there was a single pulse, followed by sparse settlement and most of the settler can enter the populations as recruits (> 1 month old). Results suggesting the larvae and settlement density of Tetraclita sp. were not very high in Taiwan, as compared to the previous reported pattern in Hong Kong. Such variations can be attributed by difference in oceanographic current and climates between Taiwan and Hong Kong in the NW Pacific waters.