In the present study, AMMI approaches were used to analyse the genotype x environment interactions and stability under targeted environments. The analysis of stability parameters of seed yield/plant in 25 genotypes of urdbean (Vigna mungo L,) indicated that six genotypes namely, Mash 479, PLU 499-52, PU19, PLU-4158, Pant 31 and IPU2-43 showed regression coefficient greater than unity (b-1) with non-significant S2di values and higher mean values than population mean which exhibited their stability and adaptation to specific favorable environment only. Three genotypes, PU99, No. 13/11 and No.40 indicated that regression coefficient less than unity with higher mean values than population mean with non-significant deviation from the regression coefficient (S2di) and recommended for unfavorable environments. Mash 338 and IPU 96-1 are the most stable genotypes across the environments for seed yield/plant and 1000 seed weight, respectively. Environmental indices indicated that environment (E1) and environment (E2) were the most favorable for number of primary branches/plants, days to 50% flowering, plant height and seed yield/plant, whereas environment (E3) was favorable for pod length and number of seeds/pod. AMMI 1 model exhibited that E1 and E2 were the clustered in the same group and exhibited similar type of interaction for seed yield/plant. Genotypes, PLU4158, IPU96-1, Mash479, PLU499-52 and IPU2-43 exhibited high IPCA 1 scores along with high population mean. Based on AMMI 2 model, PLU4158, IPU96-1 and IPU96-6 exhibited high IPCA scores. The selected genotypes may be utilized in Vigna mungo improvement programme in targeted location with true type of breeding lines.