Kelvin-Helmholtz (KH) billows can drive microscale turbulent mixing around seamounts in the oligotrophic Kuroshio. This study sought to describe the influence of billow intensity, i.e., “intermittent and small” (small billow case; SBC) and “steady and large” billows (large billow case; LBC), on vertical nitrate fluxes, and to illustrate the responses of picoplankton and zooplankton assemblages to the varying environmental conditions on seamounts (Chapter 1). KH billows led to turbulent kinetic energy dissipation rates (ε = O (10-7–10-6) W kg-1) and eddy diffusivities (Kρ = O (10-4–10-3) m2 s-1) that were significantly stronger than those outside the billow depths. The mean nitrate flux estimated using Kρ in the billow depths had a maximal value of 10.0 mmol m-2 day-1, which was much higher than estimates for the open ocean (Chapter 2). The nitrate flux associated with the shallow KH billows contributed to subsurface enrichment by entraining existing nutrients, while the flux of deeper billows closer to the summit were more effective in vertically transporting nitrates directly from the deeper water. On the other hand, the picoplankton around the seamount area was consistently dominated by heterotrophic bacteria (>50%; Chapter 3). The on-seamount station showed similar carbon biomass in comparison with those in onshore areas due to the increase in Synechococcus biomass. This suggests that a small area along the Kuroshio features coastal water-like properties near and around the seamount in oligotrophic waters. In addition, the zooplankton biomass was over 60% larger during the winter cruise when the Kuroshio’s velocity was strong (SKC; 104.5 ml 100m-3) than in the summer cruise when the Kuroshio was weaker (WKC; 33.7 ml 100m-3), and this variation was more likely influenced by the sampling season (Chapter 4). Furthermore, the distribution pattern of zooplankton concentrations revealed a seamount-induced “blocking effect”, which aggregates them within the impeding seamount and its flanks. However, a strong Kuroshio current can dismantle the blocking effect and quickly sweep the plankton away (i.e., SKC). Moreover, the high relative contributions of very early ontogenetic stages of larval fish underscored the importance of the seamount as an isolated habitat good for spawning and as a source of fish recruits. Overall, this study showed that KH billows make important contributions to seamount ecosystems, particularly in the cycling and vertical mixing of nutrients to make them available for local production and potential downstream transport. At the same time, this study exemplified the role of seamounts as the oasis of life in oligotrophic areas.