Crown gall caused by Agrobacterium is one of the predominant diseases encountered in rose cultures. However, our current knowledge of the bacterial strains that invade rose plants and the way in which they spread is limited. Here, we describe the integrated physiological and molecular analyses of 30 Agrobacterium isolates obtained from crown gall tumors and of several reference strains. Characterization was based on the determination of the biovar, analysis of 16S ribosomal DNA restriction fragment length polymorphisms by PCR (PCR-RFLP), elucidation of the opine type, and PCR-RFLP analysis of genes involved in virulence and oncogenesis. This study led to the classification of rose isolates into seven groups with common chromosome characteristics and seven groups with common Ti plasmid characteristics. Altogether, the rose isolates formed 14 independent groups, with no specific association of plasmid- and chromosome-encoded traits. The predominant Ti plasmid characteristic was that 16 of the isolates induced the production of the uncommon opine succinamopine, while the other 14 were nopaline-producing isolates. With the exception of one, all succinamopine Ti plasmids belonged to the same plasmid group. Conversely, the nopaline Ti plasmids belonged to five groups, one of these containing seven isolates. We showed that outbreaks of disease provoked by the succinamopine-producing isolates in different countries and nurseries concurred with a common origin of specific rootstock clones. Similarly, groups of nopaline-producing isolates were associated with particular rootstock clones. These results strongly suggest that the causal agent of crown gall disease in rose plants is transmitted via rootstock material.