During homeostasis, the colonic epithelium is replenished every 3-5 days by rapidly cycling Lgr5+ stem cells. However, various insults can lead to depletion of Lgr5+ stem cells, and colonic epithelium can be regenerated from Lgr5-negative cells. While studies in the small intestine have addressed the lineage identity of the Lgr5-negative regenerative cell population, in the colon this question has remained unanswered. Here, we set out to identify which cell(s) contribute to colonic regeneration by performing genetic fate-mapping studies of progenitor populations in mice. First, using keratin-19 (Krt19) to mark a heterogeneous population of cells, we found that Lgr5-negative cells can regenerate colonic crypts and give rise to Lgr5+ stem cells. Notch1+ absorptive progenitor cells did not contribute to epithelial repair after injury, whereas Atoh1+ secretory progenitors did contribute to this process. Additionally, while colonic Atoh1+ cells contributed minimally to other lineages during homeostasis, they displayed plasticity and contributed to epithelial repair during injury, independent of Lgr5+ cells. Our findings suggest that promotion of secretory progenitor plasticity could enable gut healing in colitis.