Abstract
Chicks are bipedal precocious vertebrates that achieve adaptive locomotor skill within hours after hatching. Development of limb movement has been extensively studied in the chicken embryo, but few studies have focused on the preparations leading to precocious locomotor skill. Chicks typically hatch after 21 days of incubation, and recent studies provided evidence that the neural circuits for intralimb control of stepping are established between embryonic days (E) 18–20. It has also been shown that variations in light exposure during embryogenesis can accelerate or delay the onset of hatching and walking by 1 to 2 days. Our earlier work revealed that despite these differences in time to hatch, chicks incubated in different light conditions achieved similar locomotor skill on the day of hatching. Results suggested to us that light exposure during incubation may have accelerated development of locomotor circuits in register with earlier hatching. Thus, in this study, embryos were incubated in 1 of 3 light conditions to determine if development of interlimb coordination at a common time point, 19 days of incubation, varied with light exposure during embryogenesis. Leg muscle activity was recorded bilaterally and burst analyses were performed for sequences of spontaneous locomotor-related activity in one or more ankle muscles to quantify the extent of interlimb coordination in ovo. We report findings indicating that the extent of interlimb coordination varied with light exposure, and left-right alternating steps were a more reliable attribute of interlimb coordination for embryos incubated in constant bright light. We provide evidence that morphological development of the leg varied with light exposure. Based on these findings, we propose that light can accelerate the development of interlimb coordination in register with earlier hatching. Our results lead us to further propose that alternating left-right stepping is the default pattern of interlimb coordination produced by locomotor circuits during embryogenesis.
Highlights
Light exposure during embryogenesis can significantly alter the length of incubation in the chick embryo
We summarize findings for analyses of 904 repetitive limb movement (RLM) sequences indicating that interlimb coordination of leg stepping differed across incubation conditions
Post hoc t test comparisons for left tibia indicated that length was greater after 24 hrs daily (24L) incubation than 12 hrs light exposure daily (12L) (p,0.001) and greater after 12L incubation than 24 hrs daily (24D) (p,0.001). (See Table S1 in supplementary material for a detailed summary.)
Summary
Light exposure during embryogenesis can significantly alter the length of incubation in the chick embryo. Several studies observed that bright light exposure during incubation accelerated the onset of hatching by 1–2 days without altering either the rate of successful hatching or inducing morphological abnormalities [1,2,3,4]. Continuous bright light exposure during embryogenesis appeared to accelerate development of respiratory motor control [5]. We asked if the earlier onset of locomotion was achieved in part because light exposure accelerated development of interlimb coordination. We addressed the question by examining on the 19th day of incubation, the interlimb coordination for locomotion in embryos incubated in 1 of the 3 light conditions that were previously shown to significantly vary the length of incubation [6]
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