Black rot of crucifers caused by Xanthomonas campestris pv. campestris (Pammel) Dowson (Xcc) is an important disease worldwide. In recent years, the bacterial leaf spot of Brassica spp. caused by X. campestris pv. raphani (White) Dye (Xcr) has been reported and has caused serious economic losses in several countries. The primary inoculum sources of these two pathogens of crucifers are mainly from the infected or contaminated seeds or seedlings. For disease diagnosis and quarantine purpose, a specific and rapid detection technique for Xcc and Xcr is needed. In this study, the genomic suppression subtractive hybridization (SSH) method was used to obtain specific DNA fragments for Xcc or Xcr. Six and 9 clones were randomly selected from Xcc-Xcr and Xcr-Xcc SSH library, respectively. The insert DNA of these clones were sequenced and blasted to the NCBI and JCVI database. Two candidates of specific DNA fragments, Xcc 34-2 and XLS 2-14 were selected. According to the sequences of specific DNAs fragments in clones of Xcc 34-2 and XLS 2-14, primer pairs Xcc 2f/2r and Xcr 14f/14r were designed for the detection and identification of Xcc and Xcr. The DNA fragments of 200 bp and 277 bp were specifically amplified from strains of Xcc and Xcr by multiples PCR with these two primer pairs. The detection sensitivity of primer pairs Xcc 2f/2r and Xcr 14f/14r was 10pg and 100pg DNA for Xcc and Xcr, respectively. When the black rot and bacterial spot naturally infected leaf tissues or seeds of crucifiers were examined, Xcc and Xcr could be detected and identified specifically and simultaneously by multiples PCR. The detection technique developed in this study could be used to differentiated the diseases caused by Xcc and Xcr, and it could also be used to detect Xcc and Xcr from cruciferous seeds.