2C nuclear DNA amounts and chromatin areas were estimated in twenty diploid and tetraploid (2n = 22, 44; x= 11) species of the genus Tephrosia. There were significant differences between the species both in DNA content and chromatin area. The divergence and evolution of Tephrosia species was accompanied by large scale quantitative DNA variation, ranging from 1.3 picograms in T. strigosa to 7.4 in T. pumila, and the DNA amount varied independently of the chromosome number. The element of discontinuity in the distribution of DNA changes between complements was quite regular. The species fell into eight distinct cluster groups with an interval of 0.74 pg between the two adjoining groups. In the light of the karyotypic and nuclear DNA differences between T. leptostachya, T. hamiltonii, T. wallichii and T. purpurea, T. incana and T. villosa, T. subtriflora and T. multiflora, there is indeed a case for considering them as separate species and not synonyms of T. purpurea, T. villosa and T. multiflora. DNA density increased with increase in DNA contents. As expected, the DNA content of colchitetraploids (Co, C1, C2) was almost double to the amount present in their corresponding diploids.