Myriophyllum spicatum, a semi-aquatic plant, can develop heterophylly by forming both submerged and aerial leaves to adapt to water level variations in its habitat. The aerial leaves exhibit shorter and fewer lobes, but thicker cuticle and developed stomata than submerged leaves. The heterophylly exhibited by M. spicatum could be controlled by hormones including abscisic acid, indole-3-acetic acid, and Jasmonic acid, as their levels were consistently higher in aerial leaves than in submerged leaves. Genes responsible for the formation of cuticle and stomata exhibited elevated expression in the aerial leaves, offering a molecular explanation for their structural adaptations to terrestrial environment. Moreover, aerial leaves exhibited greater resistance to intense light, while submerged leaves demonstrated a pronounced capacity of utilizing HCO