Abstract
Incubating birds must trade-off leaving the nest to forage with staying on the nest to maintain optimal temperatures for developing embryos. This trade-off is expressed through incubation behavior, which can be heavily influenced by climate, food availability, attentiveness of their mates, and nest predation risk. Comparative studies across species have shown that incubation behavior varies across latitude, but few studies have explored how incubation behavior varies across sites within species. We might expect incubation behavior to be flexible and respond to local environmental challenges; alternatively, behavior may be relatively fixed and vary little across a species’ range. We explored four incubation behaviors (male feeding rate, female off-bout duration, female off-bout frequency, and the proportion of time incubating females spent on the nest) in a widespread songbird, the yellow warbler (Setophaga petechia), breeding at a temperate and subarctic site. As temperatures warmed at both sites, males fed females less often, and as male feeding rates decreased, off-bout durations and frequencies increased causing the proportion of time on the nest to decrease. While incubation behaviors changed in similar ways between sites, off-bout durations shortened with increasing male feeding rates most strongly at the temperate site. Overall, these results show flexibility in incubation behaviors in response to different environmental cues, which likely minimize costs associated with provisioning incubating parents and maintaining warm nest temperatures, and suggests that male feeding may be especially important for breeding in cold regions.
Highlights
The incubation period is a unique stage in the lives of adult birds and developing embryos
Yellow warblers showed no significant differences in incubation behaviors between breeding sites (Fig 1), after controlling for ambient temperature and male feeding rates
Male feeding rate was the only significant predictor variable for off-bout frequency, (p = 0.013) and the proportion of time on the nest (p < 0.0001), after controlling for minimum temperature. Both male feeding rate (p = 0.0003) and an interaction between location and male feeding rate (p = 0.044) were significant predictors for off-bout durations of incubating females (Tables 1 and 2); it is important to note that unequal variation in male feeding rates between sites (i.e., 0–9 visits/hr at the temperate site versus 0–17 visits/hr at the subarctic site) may be creating or masking site-specific effects that male feeding rates have on female incubation behaviors
Summary
The incubation period is a unique stage in the lives of adult birds and developing embryos. Once eggs are exposed to the warm temperatures of an incubating parent, embryos must be maintained within a narrow range of temperatures for optimal development [1,2,3]. Temperatures that fall below 24–26 ̊C, will slow development and can negatively affect survival of young [3,4], while temperatures that rise above 40.5 ̊C can be lethal to developing embryos [1,3]. For incubating parents, maintaining these temperatures can be challenging when ambient temperatures differ from those optimal for embryo development [5]. Cold ambient temperatures challenge adults to provide consistent, warm incubation temperatures [6], and .
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