Plastic products have become more necessary in human society. When plastics are discarded and mishandled, they have high possibilities to enter the ocean, and after physical and chemical decompositions, their sizes would range from 5 mm to 1μm, which are then called “microplastics”. Microplastics are transported by ocean currents and arrived at various sea areas. Many studies had shown that marine organisms can ingest microplastics. Larvae are ichthyoplankton, whose fins have not fully developed, and are also passively transported by ocean currents. When microplastics and larvae co-occur, the larvae may increase the risk of ingestion and cause harm. Although microplastics are an emerging environmental issue, little is known about their distribution characteristics in the waters around Taiwan. The objectives of this study included: (1) to investigate microplastics density in the four water layers (surface layer, chlorophyll maximum layer, middle layer, and bottom layer, respectively), (2) to compare differences in microplastic distributions between seasons and distance from shore, and (3) to understand spatial correlations between microplastics and larvae. In this study, I collected a total of 100 microplastic samples from 39 stations in spring (April) and summer (August-September), 2021. The results showed that microparticles (including both plastic materials and cellulose.) were observed in all stations around Taiwan. The microplastics could be found in at least one water layer in each station. The average density of microparticles was significantly higher in spring than in summer in all water layers. A higher density of microparticles at the chlorophyll-a maximum layer in the nearshore was found than other water layers, despite no significant differences among water layers. There were no significant density differences of microparticles when comparing distances to shore, although a slightly higher density of microparticles was observed in the offshore stations than those in the nearshore. Moreover, merely a limited spatial correlation between microparticles and larvae existed that may be affected by calculation methods of the water layers or due to different dispersal mechanisms. This study improves our understandings of microplastic pollution at different depths in the waters around Taiwan and interactions between marine organisms and environmental contaminants, and can further provide critical references for managing and conserving marine environments around Taiwan.