Journal ArticleDOI
Regulation of Incubation Water Loss in Eggs of Seven Species of Terns
TLDR
The bird must achieve a nest ventilation which is a function of the water loss of the egg and brood patch and the difference between the water-vapor content of the ambient air and that in the microclimate of the nest.Abstract:
Water loss during incubation in the eggs of seven species of terns are reported. The nesting sites ranged from a relatively cold region, southern Alaska, to a tropical climate in the equatorial Pacific Ocean. In addition, measurements of various physical parameters of the eggs and eggshells were made, including the water-vapor conductance of the fresh egg, which allows one to calculate the total effective pore area of the shell. The rate of water loss during incubation was proportional to egg weight (9-39 g) but inversely proportional to incubation period (21-36 days); the eggs of all species lost about the same fractional amount of water, namely, 14% of their initial weight. The rate of water loss is determined by a species-specific water-vapor conductance or pore geometry of the shell, provided that a water-vapor pressure difference of about 27 torr is maintained between the egg and the microenvironment of the nest. Since water-vapor pressure in the incubating egg is determined by egg temperature and is...read more
Citations
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Journal ArticleDOI
Practical methods of estimating volume and fresh weight of bird eggs
TL;DR: The accuracy with which volume (V) can be predicted from linear dimen- sions (L = length, B = breadth or maximum diameter), using the equation: V = Kv' LB 2 is evaluated.
Journal ArticleDOI
Water in the Avian Egg Overall Budget of Incubation
Amos Ar,Hermann Rahn +1 more
TL;DR: Water loss during incubation is mandatory if the relative water content of an egg at the end of incubation was to remain essentially the same as at the beginning, and the 11% difference between the altricial and precocial categories is statistically significant.
Journal ArticleDOI
Dependence of fledging success on egg‐size, parental performance and egg‐composition among common and roseate terns, sterna hirundo and s. dougallii
Journal ArticleDOI
Pores in avian eggshells: gas conductance, gas exchange and embryonic growth rate
Amos Ar,Hermann Rahn +1 more
TL;DR: Analysis of eggshells of birds shows that Ecological as well as taxonomical variation may alter some of the relationships predicted for the 'typical' egg in order to conserve a typical overall diffusive water loss.
Journal ArticleDOI
Metabolism of Avian Embryos: Patterns in Altricial and Precocial Birds
TL;DR: It is suggested that a decline in growth rate late in incubation results in the stabilization of embryo mass in the precocial species, and oxygen tensions in the air cells of Poephila and Ploceus eggs just prior to pipping are surprisingly low.
References
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Journal ArticleDOI
The Avian Egg: Incubation Time and Water Loss
Hermann Rahn,Amos Ar +1 more
TL;DR: Other correlates of egg size such as the gas conductance of the egg shell and particularly the water loss properties of eggs, problems which Heinroth had already mentioned some 50 years ago in his classical treatise on incubation time are analyzed.
Journal ArticleDOI
The Avian Egg: Water Vapor Conductance, Shell Thickness, and Functional Pore Area
TL;DR: In this article, the authors used the term "shell" to denote the entire barrier to diffusion between the interior of the egg and the environment, and showed that under normal conditions the diffusion of water vapor across the egg shell approximates the diffusion equations set forth for ideal gases.
Journal ArticleDOI
The Avian Egg: Surface Area, Volume, and Density
TL;DR: In the course of experiments designed to measure and compare the water vapor permeability of eggs of many species, it was necessary to develop a method of measuring surface area that was both convenient and accurate.