The one-step RT-PCR assay with strain-specific primers was detected of various PRSV strains and PLDMV on different phyllotaxy. The PRSV signals in young leaves were stronger than olds, and the PLDMV couldn’t be detected 2 weeks after inoculated. The results of phyllotaxy detections revealed that the proper phyllotaxy for virus detected every week were the 7th phyllotaxy. The leaves symptoms on asynchronous inoculation assay were mild when inoculated with PLDMV, especially inoculated with PLDMV first. The slight symptoms inducing by PLDMV were similar to cross-protection and the best precaution on the asynchronous inoculation were the 0、4 weeks interval. Repeated inoculations with PRSV in 2sec and 4th week after inoculating with PLDMV at fist week would cause sever symptoms. Change the orders of inoculation would make the severity of symptoms different, especially the turns in DF and PLDMV, indicating the interference between DF and PLDMV were more than SMN and PLDMV. The result of distribution rate of water spots produce by different inoculated treatment were similar to leaves symptoms. The interference caused by PLDMV on relative growth rate of plant height and steam width was less when inoculated with PRSV. Detected by RT-PCR assay revealed that SMN and DF strain would interfere in each others replications at the early stage, but the two strains of PRSV and PLDMV could be detected definitely 8 weeks after first inoculated. The influence induced by PLDMV was not significant in simultaneous inoculation test, indicating that when PLDMV and PRSV simultaneous infected papaya, PRSV were more competitively than PLDMV. Papayas were infected DF strain in simultaneous inoculation in natural field, revealing that DF strain would be the predominant strain in the field of Taiwan. The results in this inoculation test also revealed that hybrid line‘NTU10’showed the high tolerance to PRSV-SMN、PRSV-DF and PLDMV, even complex infected by two virus, and‘TN2’is a susceptible cultivar to PRSV and PLDMV. Papaya ringspot virus was divided into many strains, and severe mottling with necrosis strain（SMN）was the most destructive strain in Taiwan. This experiment evaluated the tolerance of the tolerant papaya line which were bred by Department of Horticulture, NTU and commercial papaya cultivar after inoculated with SMN strain and PLDMV which may be the popular virus in Taiwan in the future. The leaves symptom of hybrid line ‘NTU04’ and ‘NTUB’ showed minor symptoms than ‘Sunrise’ 4 weeks after inoculated with SMN strain. In 12 weeks after inoculated with SMN strain, there were minor symptoms in ‘NTU04’ and ‘NTU11’, but ‘Sunrise’ cultivar was completely wilted. Unlike other cultivar or line, ‘TN2’ and ‘Sunrise’ showed severe symptom on leaves 4 weeks after inoculated with PLDMV. Hybrid line ‘NTU08’ and ‘NTU10’ still showed minor symptom, ‘TN2’ showed severe mosaic symptom on leaves and ‘Sunrise’ cultivar completely wilted 12 weeks after inoculated with PLDMV. Compared the symptoms of SMN strain with PLDMV, revealing that SMN was more destructive than PLDMV, and SMN strain would cause the steam spotted. There were the significant correlation in AUDPC（area under disease progress curve）of SMN strain and PLDMV, indicating that the plant’s tolerant reactions in SMN strain were similar to PLDMV.