Glenn K. Baggott scite author profile

In England juvenile Willow warblers undergo premigratory lipid deposition in August. Prior to this there is a moult of the juvenile plumage which results in a reduction in both the glycogen content and the wet weight of the pectoralis muscles, the latter reflecting a decrease in the lipid‐free dry weight. Muscle lipid levels are apparently unaffected by this moult. The decrease in the weight of the lipid‐free dry fraction of the body extends also to components other than these muscles at this time. A correlation between the wet weight and the glycogen content of the pectoralis muscles suggests that cold stress may be the cause of the low glycogen levels found in the middle of the moult; part of this increased demand for thermogenesis may be due to lower body insulation brought about by feather loss during the moult. The muscle “hypertrophy” found in the premigratory period is simply a return to pre‐moult weights. The uniformity of total body weights during and after the moult indicates that at the end of this moult the water fraction of the body decreases in weight. The pectoralis muscles of juvenile Willow warblers are not fully grown on fledging; these unmoulted birds may also have higher body lipid levels than during the following moult.

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Micro-magnetic resonance imaging study of live quail embryos during embryonic development

Duce

Morrison

Welten

et al. 2011

Magnetic Resonance Imaging

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Eggs containing live Japanese quail embryos were imaged using micro-magnetic resonance imaging (μMRI) at 24-h intervals from Day 0 to 8, the period during which the main body axis is being laid down and organogenesis is taking place. Considerable detail of non-embryonic structures such as the latebra was revealed at early stages but the embryo could only be visualized around Day 3. Three-dimensional (3D) changes in embryo length and volume were quantified and also changes in volume in the extra- and non-embryonic components. The embryo increased in length by 43% and nearly trebled in volume between Day 4 and Day 5. Although the amount of yolk remained fairly constant over the first 5 days, the amount of albumen decreases significantly and was replaced by extra-embryonic fluid (EEF). 1H longitudinal (T1) and transverse (T2) relaxation times of different regions within the eggs were determined over the first 6 days of development. The T2 measurements mirrored the changes in image intensity observed, which can be related to the aqueous protein concentrations. In addition, a comparison of the development of Day 0 to 3 quail embryos exposed to radiofrequency (rf) pulses, 7 T static magnetic fields and magnetic field gradients for an average of 7 h with the development of control embryos did not reveal any gross changes, thus confirming that μMRI is a suitable tool for following the development of live avian embryos over time from the earliest stages.

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Development of Extra-embryonic Membranes and Fluid Compartments

Baggott

2009

Avian Biology Research

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Glenn K. Baggott

Role of carbon dioxide and ion transport in the formation of sub-embryonic fluid by the blastoderm of the Japanese quail

Effect of turning upon the sub‐embryonic fluid and albumen of the egg of the Japanese quail

Moult, flight muscle “hypertrophy” and premigratory lipid deposition of the juvenile Willow warbler, Phylloscopus trochilus

Micro-magnetic resonance imaging study of live quail embryos during embryonic development

Development of Extra-embryonic Membranes and Fluid Compartments

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