Distal chick wing bud mesenchyme from stages 19 to 27 embryos has been grown in micromass culture. The behavior of cultures comprising mesenchyme located within 350 microns of the apical ectodermal ridge (distal zone mesenchyme) was compared to that of cultures of the immediately proximal mesenchyme (subdistal zone cultures). In cultures of the distal mesenchyme from stages 21-24 limbs, all of the cells stained immunocytochemically for type II collagen within 3 days, indicating ubiquitous chondrogenic differentiation. At stage 19 and 20, this behavior was only observed in cultures of the distal most 50-100 microns of the limb bud mesenchyme. Between stages 25 and 27, distal zone cultures failed to become entirely chondrogenic. At all stages, subdistal zone cultures always contained substantial areas of nonchondrogenic cells. The different behavior observed between distal zone and corresponding subdistal zone cultures appears to be a consequence of the presence of somite-derived presumptive muscle cells in the latter, since no such difference was observed in analagous cultures prepared from muscle-free wing buds. The high capacity of the distal zone for cartilage differentiation supports a view of pattern formation in which inhibition of cartilage is an important component. However, its consistent behavior in vitro indicates that micromass cultures do not reflect the in vivo differences between the distal zones at different stages. The subdistal region retains a high capacity of cartilage differentiation and the observed behavior in micromass reflects interactions with a different cell population.