Pepper hybrid seeds production using male sterility could lower cost by reducing time and labour, and increase thegenetic purity of the F1 seeds. To investigate the genetics of fertility restoration of the Peterson cytoplasmic sterility inpepper, a doubled haploid population of 115 pepper lines obtained from anther culture of the F1 hybrid between YoloWonder (sterility maintainer line) and Perennial (fertility restorer line) and the parental lines were test-crossed by 77013A(a strict cytoplasmic-genic male sterile line). The fertility of the test-crossed lines was assessed in greenhouse and openfield with the following three criteria: pollen index (PI, visual estimation of pollen amount per flower), pollen number (PN,pollen counting under microscope), and seed number (SN, the number of seeds per fruit in open pollination). Correlationsbetween the each couple of criteria within, as well as between the cultivation methods ranged from 0.55 to 0.84. Analysisof variance showed that the genotype (DH line) and environment were the significant sources of variation of the fertility.Narrow sense of heritance of fertility restoration ranged from 0.38 to 0.92, depending on the criteria and environment. Thedistribution of the progeny was continuous between the parental genotypes indicating the quantitative inheritance offertility restoration. Inferred from segregation according to Snape et al.(1984), the number of segregating genes wasestimated to be that three to four genetic factors were involved in pollen traits (PI and PN) and five to eight genetic factorsin seed production (SN). The heredity analysis of the CMS will be helpful for understanding of the genetic mechanism ofthe fertility restoration and the exploitation of the CMS in hybrid seed production. To investigate the genetics of fertility restoration of the Peterson cytoplasmic sterility inpepper, a double haploid population of 115 pepper lines obtained from anther culture of the F1 hybrid between YoloWonder (sterility maintainer line) and Perennial (fertility restorer line) and the parental lines were test-crossed by 77013A (a strict cytoplasmic-genic male sterile line). The fertility of the test-crossed lines was assessed in greenhouse and openfield with the following three criteria: pollen index (PI, visual estimation of pollen amount per flower), pollen number (PN, pollen counting under microscope), and seed number (SN, the number of seeds per fruit in open pollination ) Correlationsbetween the each couple of criteria within, as well as between the cultivation methods ranged from 0.55 to 0.84. Analysisof variance showed that the geno type (DH line) and environment were the significant sources of variation of the fertility. Narrow sense of heritance of fertility restoration ranged from 0.38 to 0.92, depending on the criteria and environment. Thedistribution of the progeny was continuous between the parental genotypes indicating the quantitative inheritance offertility restoration. Inferred from segregation according to Snape et al. (1984), the number of segregating genes wasestimated to be that three to four genetic factors were involved in pollen traits (PI and PN) and five to eight genetic factors in seed production ( SN). The heredity analysis of the CMS will be helpful for understanding the genetic mechanism of the fertility restoration and the exploitation of the CMS in hybrid seed production.