We developed both a cryopreservation method for Japanese sea cucumber spermatozoa and an artificial fertilization method using post‐thaw spermatozoa. Twenty per cent dimethyl sulfoxide (DMSO), 16% foetal bovine serum, and 64% artificial seawater were suitable cryodiluent, and the diluent was pre‐cooled to 0°C. Semen was diluted with the solution and enclosed in a 250 μl straw, cooled to −50°C at 10.4 ± 0.4°C/min, and immediately immersed in liquid nitrogen. Although this method showed the highest post‐thaw motility in all the conditions we examined, its post‐thaw motility was still less than approximately 15%. Artificial fertilization was carried out by adding post‐thaw semen with a cryodiluent to the oocytes. The fertilization rate of 200 oocytes/ml seawater increased with the amount of post‐thaw semen from 1 to 5 μl but showed a significant decrease at 25 μl. This decrease was considered to be due to DMSO in the cryodiluent, because the fertilization rate of the fresh semen decreased sharply when the DMSO concentration around the oocytes was 1.0% or more. Further improvement in increasing post‐thaw motility and lowering the cryoprotectant concentration is necessary for commercial‐scale artificial fertilization.