Hatching asynchrony reduces the duration, not the magnitude, of peak load in breeding green-rumped parrotlets ( Forpus passerinus )

Egg size and yolk steroids vary across the laying order in cockatiel clutches: a strategy for reinforcing brood hierarchies?

When a female bird begins incubation before clutch completion, the nestlings hatch sequentially, and a size hierarchy forms within the brood. This size hierarchy may be minimized or exacerbated through differential allocation of resources to eggs across the laying order. In this study, we characterize intra-clutch variation in cockatiel clutches by measuring egg mass, yolk mass, and concentrations of yolk testosterone, androstenedione, and corticosterone. Cockatiels are a long-lived member of the Psittaciformes. Because asynchronous hatching may reduce sibling competition and allow for extended development periods in long-lived birds, we predicted that female cockatiels would allocate maternal resources in a way that would reinforce the brood size hierarchy. Significant within-clutch differences in egg size and steroid concentrations were observed. Eggs at the end of the laying sequence were smaller and had significantly smaller yolks than eggs early in the laying order. Fifth-laid eggs, as well as first-laid eggs, contained significantly lower concentrations of testosterone than eggs in other positions of the laying sequence. No differences in yolk androstenedione concentration were observed. Yolk corticosterone concentrations increased linearly with laying order. Together, these patterns might reinforce the brood size hierarchy created by asynchronous hatching.

Egg mass in an asynchronously hatching parrot: does variation offset constraints imposed by laying order?

Life history theory predicts phenotypic trade-offs between the number and quality of offspring produced. Intraspecific variation in egg mass is common in birds and increased egg size can have positive effects on offspring fitness. However, evidence of a trade-off with clutch size is limited. We analyzed variation in mass of 5,743 Green-rumped parrotlet (Forpus passerinus) eggs laid over 15 years to evaluate the potential for facultative adjustment of egg mass and factors governing variation. Heavier eggs had an increased probability of both hatching and fledging but egg mass did not affect postfledging recruitment. Offspring egg mass differed between populations and the potential for seasonal adjustment to egg mass may be related to environmental factors such as seed density. Egg mass was moderately heritable (h2 = 0.42) which accounts for some of the individual variation detected, and these results are likely attributable to strong maternal effects. We found an effect of female age on egg mass, but no effects of previous reproductive experience. Finally, egg mass was strongly governed by position within the laying sequence, independent of clutch size, and such adjustment may facilitate brood reduction under some conditions in this highly asynchronous species.