Effects of LED Lights with Defined Spectral Proportion on Growth and Reproduction of Indigenous Beijing-You Chickens

SIMPLE SUMMARY: Vision is highly developed in fowl. Light not only provides ambient illumination, but also influences their physiological responses. Therefore, proper lighting management practices are crucial for improving the efficiency and welfare of commercial poultry operations. Light spectrum is the combination of different wavelengths of electromagnetic radiation produced by a lighting source. With a ban of traditional incandescent bulbs globally, the poultry industry is currently undergoing a shift to alternative lighting sources, such as light emitting diode (LED) bulbs, which permit the design of different and complex light spectrums output as required. The present study investigated the effects of three LED lights and one compact fluorescent lamp (CFL) with different spectrum characteristics on the performance during the pullet rearing and subsequent laying phase of Beijing-You chickens, a typical indigenous chicken breed in China. Results showed that the four lights did not show differences in feed efficiency before 17 week of age; the LED light with more balanced light spectrums (27% green light, 30% blue light, 22% yellow light, and 21% red light) promotes the prepubertal growth; and the LED light of more blue and green light (35% green light, 35% blue light, 18% yellow light, and 12% red light) provides proper sexual maturation age and better egg-laying persistence. These results inspire better design of LED lights for the indigenous chicken industry. ABSTRACT: Light presents an important exogenous factor for poultry. This study examined effects of LED lights with different defined spectrums on growth and reproduction of indigenous Beijing-You chickens. A total of 576 one-day old female chicks were divided into 16 rooms, and each were exposed to four different lights: LED A (21% green light, 30% blue light, 24% yellow light, and 25% red light), B (35%, 35%, 18%, and 12%), C (27%, 30%, 22%, and 21%), or compact fluorescent lamps (CFL, 15%, 28%, 41%, and 16%). Results showed that feed intake and feed conversion ratio were comparable among treatments throughout the 17 week rearing period (p > 0.05). LED C showed similar body weight gain with CFL, but higher than LED A and B. The CFL birds start to lay on 132.25 d, while LED B did not lay until 148.25 d. The age at 50% egg production did not vary among groups (p = 0.12). Total egg number until 43 week of LED B was higher than others (p < 0.05). Therefore, LED lights with defined spectral proportion have different effects on chickens’ growth and reproduction. The LED C promotes the prepubertal growth, and the LED B provides proper sexual maturation age and better egg-laying persistence.