● Background andAims Many domesticated Solanaceae seeds morphology and physiology have been widely studied but little in Solanum rostratum Dunal.The present study aimed to investigate the morphology and the physiology of germination of S.rostratum seeds, which is an important invasive species in China.● Methods Morphological parameters of fruits and seeds were determined by microscopy.Germination was monitored for 15 d under three different treatments.Endosperm digestion and resistance, with endo-β-mannanase activity and required force to puncture the endosperm cap were measured during imbibition in water, gibberellins and in abscisic acid.● Key Results Seed coat surface ultrastructures, which are fingerlike projections, titled holes and concave grooves, may influence the ability of seed to germinate through interference with water uptake, gas exchange.The endosperm cap appears to impose a mechanical resistance on S.rostratum seed germination.The force required to puncture the endosperm cap decreased in two stages during imbibition and showed negative correlation with endo-β-mannanase activity.Endo-β-mannanase activity was detected in the endosperm cap prior to radicle protrusion.The seeds imbibed in abscisic acid, which did not germinate, weakening of the endosperm and the endo-β-mannanase activity were inhibited.Application of gibberellin resulted in earlier germination and decreased endosperm resistance sooner than seeds imbibed in abscisic acid and water.● Conclusions The germination of S.rostratum seed requires a two-step germination process.During this process mechanical forces of the growing embryo pushing against the endosperm cap and enzymic weakening of the endosperm cap are necessary.