Blue marlin are widely distributed throughout tropical and temperate waters in the Pacific Ocean. However, the preference of this species for particular habitats may impact its vulnerability to being caught. The relationship between spatio-temporal patterns of blue marlin abundance and environmental factors is examined using generalized additive models (GAMs) fitted to catch and effort data from longline fisheries. Spatial distributions of relative density of blue marlin indicate that there is seasonal variation in the distribution of blue marlin, which appears to be related to shifts in sea surface temperature (SST). However, previous stock assessments for blue marlin in the Pacific Ocean have ignored the possible impacts of seasonal movement and sexual dimorphism in growth. A spatially sex-specific age-structured population dynamics model was therefore constructed and fitted to the catch-rate and length- frequency data for the Japanese and Taiwanese pelagic tuna longline fisheries, along with information on the relative density of the population over space derived from the GAM. Assessments that account for seasonal movement and sexual dimorphism indicate that the blue marlin population in the Pacific Ocean is in a healthy condition, with the current spawning stock biomass (S2006) at a fairly high fraction of its unfished level (S2006/S0 = 0.81) and larger than that corresponding to maximum sustainable yield (MSY) (S2006/SMSY = 1.66) and the current fishing mortality (F2006) less than that needed to achieve MSY (F2006/FMSY = 0.51). A risk analysis suggests that the status of this population will remain optimistic if exploitation rates are maintained at the current level. The estimation performance of the assessment model is examined using Monte Carlo simulation. This shows that the outcomes of the assessment are sensitive to the values assumed for natural mortality and stock-recruitment steepness. The uncertainty related to these two parameters could be reduced through fishery-independent abundance surveys and tagging studies. Although estimates of biomass, MSY, and fishing intensity are substantially biased when the assessment method ignores seasonal movement and sexual dimorphism, the relative biomass measure S2006/S0 appears to be the most robust among the quantities considered. Therefore, assessment methods for blue marlin in the Pacific Ocean need to take seasonal migration and sex-structure into account to reduce the uncertainty of parameter estimates, and thus improve the accuracy of stock assessments.