Most studies of factors that limit the number of eggs that birds lay have focused on the disadvantages of having too many young to feed. Less attention has been paid to the consequences of having a large number of eggs to incubate. The incubation-capacity hypothesis proposes that females lay as many eggs as they can effectively incubate. We tested this hypothesis in 2018 in a montane population of Mountain Bluebirds (Sialia currucoides). Most females in this population lay five or six eggs; clutches of seven occur, but are rare. We added eggs to some nests, forcing females to incubate seven eggs, while leaving other nests as controls. Among females completing incubation, those with enlarged clutches hatched as many eggs as did control females, and did so in the same amount of time. This was despite an extended period of unusually cold and often wet weather that occurred when many females were incubating. Our results firmly reject the suggestion that females typically lay no more than six eggs because they cannot effectively heat seven eggs. One or more other factors must limit clutch size. One possible factor is suggested by the fact that during the period of inclement weather, more females with enlarged clutches than control females appeared to abandon nests before completing incubation. Because larger clutches require more energy to incubate, females with seven eggs during energetically stressful conditions could more quickly reach the point where they lack sufficient energy for both incubation and self-maintenance. Such conditions may occur frequently enough in the montane environment that, on average, laying seven eggs results in reduced lifetime reproductive success.
