Abstract Coral skeletal geochemical tracers have been used as proxies to retrieve paleo-conditions. Interpretation of coral-inferred environmental and climatic records relies on accurate dating. Our newly-developed 230Th dating technique offers a precision better than 1 year for corals, younger than 100 years, superior to 2-3 years given by previous methods (after Edwards et al., 1988). To approach this objective, chemistry has been refined and only brings about an equivalent age uncertainty of 2-3 months. The most important parameter limiting precision and accuracy of coral 230Th dating is the content of non-radiogenic 230Th (230Thnr) not due to closed system decay within the coral skeletal matrix, so called the initial 230Th level. It can be evaluated with an initial 230Th/232Th ratio earned from a 230Th/232Th vs. 234U/232Th isochron plot. The initial 230Th/232Th ratio for modern Porites corals, collected from Nanwan, southern Taiwan, is 5.2 ± 1.1 × 10-6 (atomic ratio, hereafter), consistent with a value of 4.0 ± 0.5 × 10-6 in the dissolved fraction of seawater and higher than that of 3.0 ± 0.7 × 10-6 in the suspended particulate matter. The initial 230Th/232Th ratio addressed in Porites corals in North Pagai, Sumatra, also captures the dissolved seawater values. The results indicate that 230Thnr is mainly attributed to the dissolved phase of seawater. Isochron plots for modern and fossil corals from Nanwan and from island South Pagai of Sumatra display little spatial variations of initial 230Th/232Th ratio at local settings. No significant temporal variation is found between initial 230Th/232Th values inferred from modern and 475-year-old corals from island North Pagai, Sumatra. Applications of this well-established 230Th dating technique given in this study include (1) a precise age determination of an earthquake in 1935 AD and (2) a discovery of a 250-year recurrence of giant earthquakes in the Sumatran Islands, and 2 (3) a precise age model for long-term climatic reconstruction with coral tracer records in the western equatorial Pacific Ocean.