<h3>ABSTRACT</h3> In a majority of ants, a newly mated queen independently founds a colony and claustrally raises her first brood without foraging outside the nest. During claustral independent colony foundation (ICF) in several ants, the esophagus of the founding queen expands and develops into a thoracic crop, which is then filled with a liquid substrate for larval feeding. It has been suggested that these substrates are converted from her body reserves (e.g., histolyzed flight muscles) or redistributed from a gastral crop. Here, we examined thoracic crop development in <i>Lasius japonicus</i> during claustral ICF. The foundresses claustrally fed their larvae from week 2 to 5 after ICF onset, and the first worker emerged at week 6. The development proceeded as follows: in week 0, foundress dorsal esophagus wall was pleated and thickened. Then, from week 2 to 5, the esophagus expanded dorsally toward where flight muscles had been present, following flight muscle histolysis. Gastral crop expansion followed esophagus expansion. Thus, thoracic crop formation may be spatiotemporally coordinated with flight muscle histolysis in <i>Lasius japonicus</i> queens, and similar developmental regulations might be common in other claustral ICF ants.