ENSO (El Nino-Southern Oscillation) is a quasi-periodic climate pattern, which includes two large-scale meteorological events of the El Nino and La Nina. ENSO variations can be seen significantly in the alterations of atmosphere and surface water temperature in the tropical Pacific. The effects from ENSO events on ocean ecology and fisheries have long been noticeable with pretty studied. In this study, I try to estimate the relationship between ENSO and the catch composition of Taiwanese larval fisheries, which are important economic practices in the inshore waters. The main targets of Taiwanese larval fishery are anchovies and herrings, which all live to pelagic life in coastal waters. Japanese anchovy (Engraulis japonica), shorthead anchovy (Encrasicholina heteroloba) and Buccaneer anchovy (Encrasicholina punctifer) are the most commonly species. The migration of these three species are by-and-large associated with 3 different prevailing currents around Taiwan, thus their composition patterns may correspond to the shifts of the prevailing currents. Besides, by-catch is also inevitably interested to illustrate non-pelagic species in response to ENSO variations. In my study, the ENSO event is determined following the Ocean Nino Index (ONI). According to the ONI, I took the spring sample of 2008 stands for La Nina, 2009 as neutral and 2010 as El Nino. My research sites include the northeastern (NE), northwestern (NW) and southwestern (SW) waters of Taiwan. Identified of fish samples were grouped into 3 categories of target, by-catch pelagic and by-catch non-pelagic. I compared the composition of the abundance of the species, using spearman’s rank correlation to test the areal difference in each climatic condition. Cluster analysis was used to the similarity of the categories. The diversity of the samples was also calculated. It turns out that in the ENSO condition, the target species composition reflected a similarity between NW and SW, but the pattern did not reflect the by-catch species. The compositions of non-pelagic species were vague, in response to the ENSO shifts, partly due to the later took place primarily in surface water. The compositions of target species of NE and SW were positively correlated in the neutral condition; but situations shift to NE and NW in the El Nino condition, and NW and SW in the La Nina condition. The explainable reasons for the composition shift may ascribe to the changing pattern of the surface currents. Clustering analyses indicated that the target species presented a clear grouping following prevailing currents, but not non-pelagic species, supports that the ENSO effect took placed in marine surface fish species. Finally, owing to substantial amounts of extreme measurements were taken in the neutral condition, the fish assemblages around Taiwan in these two extreme meteorological conditions may not be simply mirrored to the opposite conditions.