Pitaya, belongs to the genus Hylocereus and the family Cacteceae, is a perennial succulent plant with less pest problems than other crops, it is now an important fruit crop in Taiwan. In recent years we found a new pitaya stem disease with symptoms of yellow spots, red spots and cankers on the stems in many Taiwan areas. Even the pitaya fruits are also affected, causing fruit rot and yield or quality losses. Therefore, we initiated the study on this disease and started to visit Yilan, Hualien, Changhua, Nantou, and Mailiao counties to conduct the field investigation since summer, 2011. The diseased spots and canker were isolated to cultivate the pathogen. Isolation results show that a black colony isolate can be isolated from all diseased canker or yellow spots with dominant proportion although the isolation rate is only about 50%. Three pathogenicity test methods thereafter were applied to prove the cause-effect relationship, including the needle inoculation, carborundum-scrubbing and spore suspension spraying methods. All inoculated pitaya stem can produce the identical canker with or without yellow spot symptoms. The same pathogen can be reisolated from all the inoculated stems in all three methods, determining that the black isolates is the pathogen that cause the pitaya stem canker showing yellow spots, red spots, canker and even stem rot symptoms. As the disease was recently reported and named as pitaya stem canker, we adopted this as the disease name. The colony of black isolates on PDA plate is white in early stage then became black from colony center as its arthroconidia produced in arthric chain on aerial hyphae. Its arthroconidia are dark brown, thick-walled, 0-2 septate with shapes of cylindrical, truncate, oblong-obtuse to doliiform. The inoculated pitaya stem could found to produce pycnidia and conidia on infected lesion. The conidia have 0-1 septate, ellipsoidal to oval, with round apex. According to the morphology and the ITS molecular identification results, the black isolates were identified as Neoscytalidium dimidiatum. The optimal temperature for hyphae growth of this fungus was 30-35℃. It grew slowly at 15℃ and could grow even at 40℃. Therefore, higher temperature is in favor of the disease development. Results of chemical control tests, showing that 24.9% difenoconazole emulsifiable concentrate (EC) and 23% hexaconazole suspension concentrate (SC) were able to completely inhibit the mycelia growth of this pathogen. From the field investigation and pathogenicity test, we can prove that the stem rot can be caused by this pathogen. However, we could not exclude the possibility of complex infection or secondary infection with other microorganism. Therefore, further studies are required to investigate the relationship between Neoscytalidium dimidiatum and the stem rot problem.