Clonal breeding programs of Pinus maximinoi require the establishment of a robust somatic embryogenesis (SE) protocol to produce enough cell lines to accelerate the effective continuous deployment of elite planting stocks to research and commercial compartments. Somatic embryogenesis was induced from immature zygotic embryo explants enclosed in megagametophytes of P. maximinoi collected from two plantations located in different climatic conditions. Cones were collected during the winter months from July to August and the influence of seed family, cone collection date and culture medium formulation, with emphasis on the organic and inorganic nitrogen supply, were studied. Ammonium to nitrate molar ratios of 1:1 and 1:2 in modified Litvay’s medium (mLV) produced the highest numbers of extrusions, while a 1:4 ratio mostly produced unhealthy, non-embryogenic extrusions. The formation of a tissue showing a rapidly-proliferating, spiky morphotype was produced in a medium supplemented with 1.5 g/L of L-glutamine. Morphologically advanced cultures with nodular structures were produced in megagametophytes from both plantations in a 1:2 NH4+:NO3− medium regardless of L-glutamine supplementation levels. The optimal medium for P. maximinoi SE induction contained a 1:2 NH4+:NO3− molar ratio with 1.5 g/L L-glutamine. The synergy between the molar ratio of NH4+:NO3− and L-glutamine resulted in the highest numbers of extrusions. The overall inductive competence window for somatic embryogenic response in P. maximinoi was determined to be from the second week of July to the first week of August for both plantations. The “peak” period was in the fourth week of July 2022. The success of the SE technology in P. maximinoi seed families is determined by the optimal inductive competence window of the immature megagametophytes enclosing zygotic embryos and the chemical composition of the induction medium in terms of the ammonium to nitrate molar ratio and the concentration of the L-glutamine used.