Abstract
Avian parents that physically incubate their eggs must balance demands of self-maintenance with providing the proper thermal environment for egg development. Low incubation temperatures can lengthen the incubation period and produce changes in neonate phenotype that may influence subsequent survival and reproduction. We artificially incubated wood duck (Aix sponsa) eggs at three temperature regimes (low, 35.0; mid, 35.9; and high, 37.3°C) that are within the range of temperatures of naturally-incubated nests. We tested the effect of incubation temperature on duckling body composition, fledging success, the probability that females were recruited to the breeding population, and their subsequent reproductive success. Incubation period was inversely related to incubation temperature, and body mass and lipid mass for newly-hatched ducklings incubated at the lowest temperature were lower than for ducklings produced at higher temperatures. In 2008, ducklings (n = 412) were individually marked and broods (n = 38) containing ducklings from each temperature treatment were placed with wild foster mothers within 24 hrs of hatching. Ducklings incubated at the lowest temperature were less likely to fledge from nest sites than ducklings incubated at the higher temperatures. We recaptured female ducklings as adults when they were either prospecting for nest sites (n = 171; 2009–2011) or nesting (n = 527; 2009–2012). Female ducklings incubated at the lowest temperature were less likely to survive and be recruited to the breeding population than females incubated at higher temperatures. Reproductive success of surviving females also was greater for females that had been incubated at warmer temperatures. To our knowledge, this is the first avian study to link developmental conditions experienced by neonates during incubation with their survival and recruitment to the breeding population, and subsequent reproductive success. These results advance our understanding of incubation as an important reproductive cost in birds and support the potential significance of incubation in influencing the evolution of avian life histories.
Highlights
Incubating birds must balance the competing demands of selfmaintenance with the thermal needs of developing embryos
Duckling body mass increased with fresh egg mass (F1,407 = 1827.6, p,0.0001), and ducklings that were incubated at low temperatures were lighter than ducklings incubated at mid and high temperatures (F2,407 = 11.09, p,0.0001; Table 1)
Tarsus length increased with fresh egg mass (F1,406 = 212.8, p,0.0001) and was greatest for ducklings incubated at low temperatures (F2,406 = 32.78, p,0.0001; Table 1)
Summary
Incubating birds must balance the competing demands of selfmaintenance with the thermal needs of developing embryos. Optimal growth and development of embryos takes place within a narrow range of incubation temperatures [1,2,3]. Reduced attendance by incubating parents can lower egg temperature, thereby slowing embryo development, and leading to longer incubation periods [4,5]. Lengthy incubation periods can be costly because they result in greater exposure of nests to predators and influence offspring quality [6]. Effects of incubation microclimate on hatchling phenotype and fitness characteristics have been well-studied in oviparous reptiles [8,9,10], but remain relatively unexplored in wild birds. Periodic cooling of eggs during incubation delays development and increases metabolic costs in zebra finches (Taeniopygia guttata) [13]
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