With data from Taiwanese jiggers that targeted the Argentine shortfin squid (Illex argentinus) in the southwest Atlantic between 1986 and 2013, the log-transformed catch per unit of effort (logU) was used as an index of the abundance of this squid to explore squid recruitment fluctuation in response to environmental conditions in temporal and spatial scales. The results indicated that the logU exhibited no inter-annual interaction. The logU were negatively correlated with subsurface seawater temperature (at 5-m depth) in the southern Patagonian Shelf in February, March and April (r = -0.573, -0.596 and -0.573, respectively; all P values were less than 0.05). The logU also negatively correlated with subsurface seawater temperature in the Patagonian Shelf in previous March. The logU was also correlated with the Antarctic Oscillation (AAO), negatively correlated in November and December of the previous 2 years (r = -0.478, and -0.564, respectively; all P values were less than 0.05), and positively correlated in March and May of the previous 2 years l(r = 0.565 and 0.436, respectively; all P values were less than 0.05). GLM analysis selected AAOs in November and March of the previous two years and subsurface seawater temperature in March of the current and previous year, in which coefficient of multiple determination was 0.83. A low seawater temperature in the Argentine shortfin squid habitat in previous 1 year and in fishing season was important conditions of high resource abundance. Because the Argentina shortfin squid was no overlapping groups, AAO can’t directly affect the amount of resources of the Argentine shortfin squid after two years, therefore associated with certain biological or non-biological variation may exist between the Argentina shortfin squid resources and atmospheric circulation. In terms of spatial dimensions, semi-variance analysis showed that the distribution of the Argentine shortfin squid in the Southwest Atlantic had different spatial structures, due to the different of abundance. In all years except 2010, spherical model for semi-variograms extracted the most spatial information from annual distribution maps of the squid abundance. The Kriging interpolation map exhibited a general pattern of aggregation of the squid along the 200-m depth from 40°S to as far as 50°S. The shape of abundance isopleth lines was elliptical, that extended its long axis further from the 200-m isobath toward shelf side in high abundance years, such as 1999 and 2007. Scattered patches of low values were observed in the very low-abundance year of 2004. In Kriging method to estimate the total biomass of the Argentine shortfin squid showed that the exploitation rate of the Argentine short squid in the Southwest Atlantic fishing ground was between 2-34%, which was still a healthy stock status. This study shows that empirical models and geostatistical procedures can be applied to predict the Argentine shortfin squid resource, describe the annual spatial distribution, and estimate the total biomass. The models and parameters can estimate the total biomass of the Argentine shortfin squid and possible annual resource trends in next year.