This research aimed at studying oregano crop responses to changes in planting patterns in terms of solar radiation capture (c-PAR) and use (RUE), carbon partitioning, and essential oil yield (EO). O. vulgare ssp. vulgare (OVV) and O. vulgare ssp hirtum (OVH), with creeping and erect growth habits respectively, were grown during two consecutive cycles (C) under contrasting planting patterns (PP): T (0.70 m between rows and 0.20 m between plants) and H (0.35m × 0.40m). Temporal dynamics of biomass accumulation varied between subspecies, and significant interactions were found between PP and C. Crop growth rates (CGR) were highest in C1 (5 to 9.5 g m−2 d-1). Significant CGR decreases in C2 were explained by drops in RUE (≅ 54 %), which in turn could be attributed to increases in the stem proportion in detriment to photosynthetic tissues. Among subspecies, OVV exhibited the highest plasticity for light capture, use and growth. Phenological progress along with c-PAR explained EO productivity. On average, reproductive phenophases yielded almost four times more than vegetative ones, and OVV yielded 30 % more EO than OVH. EO differences between subspecies could be explained by the partition to harvestable organs (Leaf + Flowers). This ecophysiological analysis presents a novel approach to disentangle the effects of interactions between canopy architecture (subspecies), management and crop age on processes that regulate yield formation in Oregano.