Abstract:Barbarea vulgaris is an excellent cruciferous plant, particularly being ideal as a model species to study saponin biosynthesis, insect resistance, and coevolution of plants and insect pest. In order to make full use of B. vulgaris germplasm, the genetic diversity was analyzed among the 34 accessions conserved in the national mid-term gene bank for vegetables, based on the phenologic, morphological and insect resistance data from the field investigation. The results showed significant morphological diversity in B. vulgaris germplasm from Europe. Among the 34 accession, BV13-BAR13 bolted earliest, 47 days earlier than the latest bolting material (BV13-BAR9). Most of the B. vulgaris germplasm have glabrous leaves, strong tillering ability and more leaf numbers. The range and coefficient variation (CV) of the plant height, silique length and inflorescence length are the highest among all traits. Only 9 of 34 B. vulgaris are susceptible to the diamondback moth, most accessions are highly resistant to the pest. The clustering analysis showed that 34 accessions can be divided into 3 groups. The resistant and susceptible germplasm were distributed to different groups, reflecting their genetic relationships. Our research will provide useful materials and information for the genetic breeding of insect resistant B. Vulgaris and cruciferae crops.