Hundreds of hydrophobic substances: alkanes, alcohols, benzodiacepines, barbiturates, ethers and even gases, can induce General Anaesthesia (GA) in mammal animals. Moreover, it has been suggested that the primary site of action of such agents is on the spinal cord. Here, we investigate a scenario that is in double measure important to understand the mechanisms behind GA: its induction under water in invertebrate animals. We evaluate the capacity of xenon, nitrous oxide and krypton to suppress harmful sensations, provoked by intense light, in the crustacean D. magna. Due to the hydrophobic characteristics of those gases, we designed a special chamber to force them to dissolve in water at pressures up to to 50 atmospheres, whereas at the same time measure in real time the motility of the animals. Surprisingly, the aquatic animals are immobilized with xenon and nitrous oxide. Under this condition, they do not respond to a noxious stimulus. Our results are crucial to understand the action of inert gases in GA and the role of the spinal cord.