The main aim of the research was to isolate desirable numerous trait transgressive segregants in the early blackgram generations among 14 cross combinations. Evaluation was done during Kharif 2018 & 2019 under RBD over three replications. For seed yield per plant, the fraction of transgressive segregation was determined to be 0-6.67% (F2) and 33.33-100% (F3). Seed yield was transgressed simultaneously with one or more traits in the majority of the segregants indicating their correlation with each other and presence of linkage drag among their genes. When compared to better parent and best check, seven crosses out of 14 i.e. IC-398973×Him Mash-1, IC-281993×Him Mash-1, IC-281980×HPBU-111, IC-281982×HPBU-111, IC-413306×HPBU-111, IC-413306× Him Mash-1 and IC-413304×HPBU-111 scored better for majority of the traits in both generations. The most promising transgressive segregants are plant no. 2,1,5 in cross IC-281993×Him Mash-1, plant no.5,8,6 in IC-413304×HPBU-111, transgressive segregants no. 9,7 in cross IC-413306×HPBU-111, plant no. 5,10 in cross IC-413306×Him Mash-1, plant no. 7,4 in cross IC-398973×Him Mash-1, plant no. 4,8 in IC-281982×HPBU-111 and plant 1&3 in IC-281980×HPBU-111 having explended performance for seed yield and other related traits which aids in exploiting the limit of desired traits intensity which is not available in parents. The results suggested the presence of a large number of transgressive segregants in early segregating generations, which opens up a lot of possibilities for careful genotype selection and bringing in beneficial alleles for blackgram breeding programmes in later generations to develop the desired plant genotype.