Abstract
BackgroundResearch on variation in bill morphology has focused on the role of diet. Bills have other functions, however, including a role in heat and water balance. The role of the bill in heat loss may be particularly important in birds where water is limiting. Song sparrows localized in coastal dunes and salt marsh edge (Melospiza melodia atlantica) are similar in size to, but have bills with a 17% greater surface area than, those that live in mesic habitats (M. m. melodia), a pattern shared with other coastal sparrows. We tested the hypotheses that sparrows can use their bills to dissipate “dry” heat, and that heat loss from the bill is higher in M. m. atlantica than M. m. melodia, which would indicate a role of heat loss and water conservation in selection for bill size.Methodology/Principal FindingsBill, tarsus, and body surface temperatures were measured using thermal imaging of sparrows exposed to temperatures from 15–37°C and combined with surface area and physical modeling to estimate the contribution of each body part to total heat loss. Song sparrow bills averaged 5–10°C hotter than ambient. The bill of M. m atlantica dissipated up to 33% more heat and 38% greater proportion of total heat than that of M. m. melodia. This could potentially reduce water loss requirements by approximately 7.7%.Conclusions/SignificanceThis >30% higher heat loss in the bill of M. m. atlantica is independent of evaporative water loss and thus could play an important role in the water balance of sparrows occupying the hot and exposed dune/salt marsh environments during the summer. Heat loss capacity and water conservation could play an important role in the selection for bill size differences between bird populations and should be considered along with trophic adaptations when studying variation in bill size.
Highlights
The avian bill is iconic for how evolution shapes morphology in response to changing environments
The mean values (99.81 versus 88.19 mm2) were similar to those obtained from much larger samples of Atlantic and eastern song sparrows measured in the field (Greenberg et al unpubl.) where mean bill surface areas were 95.866.5 SD (n = 81) and 87.065.00 (n = 79), respectively
Bill Temperature and Heat Loss Comparison of fit of linear mixed models revealed that both subspecies maintained surface temperatures of the overall bill (Tbill) and the bill base (Tbase) above ambient (Ta) and that Tbill and Tbase increased with Ta (Fig. 2; Tables 2, 3, Table S3), which resulted in heat loss from the bill (Fig. 3, Tables 4, 5)
Summary
The avian bill is iconic for how evolution shapes morphology in response to changing environments. Variation within and between bird species’ bills conventionally has been interpreted in light of differences in foraging behavior and diet, and studies of the avian bill provide some of the strongest evidence of the effects of food supply on a morphological feature. Research on variation in bill morphology has focused on the role of diet. Bills have other functions including a role in heat and water balance. The role of the bill in heat loss may be important in birds where water is limiting. Song sparrows localized in coastal dunes and salt marsh edge (Melospiza melodia atlantica) are similar in size to, but have bills with a 17% greater surface area than, those that live in mesic habitats Melodia, which would indicate a role of heat loss and water conservation in selection for bill size We tested the hypotheses that sparrows can use their bills to dissipate ‘‘dry’’ heat, and that heat loss from the bill is higher in M. m. atlantica than M. m. melodia, which would indicate a role of heat loss and water conservation in selection for bill size
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