Bangladesh is currently experiencing one of the worst cholera outbreaks in its history. The icddr,b hospital has treated a record number of patients, more than 1400 per day and ca. 40,000 diarrheal cases from the end of March through April 20221. A recent genomic study showed temporal progression of two lineages, BD-1 and BD-2, with the former linked to the 7th pandemic wave-3 global clade and the latter predominant in endemic cholera in Dhaka during 2013 and 20172. Here, we present genomic attributes of V. cholerae O1 responsible for the 2022 Dhaka cholera epidemic and genome phylogeny of 960 7th pandemic El Tor strains from 88 countries. Results show the Dhaka cholera etiological agent clustered with the 7th pandemic El Tor wave-3 global clade, but comprises a new subclade, BD-1.2, for which the most recent common ancestor appears to be of the globally distributed sublineage predominantly associated with recent endemic cholera in India. Results also suggest BD-1.2 was present in Bangladesh since 2016. However, it was not until 2018 that strains of the subclade successfully established dominance over the BD-2 during an expansion of the wave-3 global clade. It is concluded that the recent shift in predominant lineage and the observed genetic changes including serotype switch in BD-1.2 from Ogawa to Inaba may explain the increasing number of infections and massive outbreak of cholera during 2022 in Bangladesh.