Lund’s fly, Cordylobia rodhaini (Calliphoridae), is an African blowfly considered to be an uncommon cause of furuncular myiasis. Far less is known about C. rodhaini than about the more frequently reported tumbu fly, Cordylobia anthropophaga. From 2011 to 2020, fly larvae were collected and analysed from 11 independent infestations of wild non-human primates and 10 independent infestations of humans (including 1 from this author) in Kibale National Park, Uganda. All 21 larvae were identified morphologically and genetically as C. rodhaini. Larvae from non-human primates were on average 4·5 times larger than larvae from humans. Non-human primates had empty furuncles, indicating recent egress of mature third instar larvae and completion of the larval stage of the lifecycle; however, eastern chimpanzees (Pan troglodytes schweinfurthii) were photographed removing larvae from furuncles of grooming partners. A total of 4 closely related mitochondrial haplotypes were identified, 2 of which were shared by larvae from humans and non-human primates. Genetic variation within C. rodhaini from this single location was comparable to that within other calliphorid species. Non-human primates may play a larger role in the maintenance of C. rodhaini than previously known, and in certain forested locations C. rodhaini may be the predominant cause of furuncular myiasis. The sylvatic lifecycle of C. rodhaini may explain its differentiation from Cordylobia anthropophaga, which has a peridomestic lifecycle. In general, these findings shed new light on how myiasis-causing flies can adapt to different ecological settings and be regionally rare but locally abundant.