College of Biosystems Engineering and Food Science, Zhejiang University, Hangzhou, 310058, China.
Ministry of Agriculture and Rural Affairs, Key Laboratory of Intelligent Equipment and Robotics for Agriculture of Zhejiang Province, Hangzhou, 310058, China.
BMC Vet Res. 2024 Sep 28;20(1):433. doi: 10.1186/s12917-024-04264-9.
The present study aimed to investigate the impact of the light-emitting diode (LED) green light alone or in combination with melatonin on pecking-related hormone regulation during incubation under normal and under hormonal stress conditions in breeder eggs. This study was divided into 2 experiments: In the first experiment effect of LED green light incubation on pecking-related hormones under normal conditions, on Hy-line brown (low pecking phenotype) and Roman pink (high pecking phenotype) eggs were tested. The 296 eggs of each strain were divided into two groups: LED green light incubation and dark incubation (control), each containing four replicates (37 eggs/replicate). The second experiment was conducted to evaluate the effect of LED green light incubation alone or in combination with melatonin under hormonal stress conditions on Roman pink eggs. A total of 704 Roman pink eggs were taken and divided into four groups, each consisting of 176 eggs. Each group was further divided into 2 subgroups, LED green light-regulated incubation and dark incubation with 88 eggs per subgroup, having 4 replicates of 22 eggs each. The groups were as follows: corticosterone solution injection (CI), corticosterone + melatonin mixed solution injection (CMI), Phosphate buffer solution injection (PI), and no injection (UI).
Results of the first experiment revealed a higher level of serotonin hormone and lower corticosterone hormone in Hy-Line brown embryos compared to Roman pink embryos during dark incubation. The LED green light incubation significantly (P < 0.05) increased the level of 5-HT while decreasing the CORT level in Roman pink embryos indicating its regulatory effect on pecking-related hormones. Results of the second experiment showed that LED green light incubation significantly (P < 0.05) alleviated the CORT-induced hyperactivity of plasma 5-HT in Roman pink embryos. Furthermore, Melatonin (MLT) injection and LED green light together significantly (P < 0.05) reduced the hormonal stress caused by corticosterone injection in the eggs.
Overall, the LED green light regulatory incubation demonstrated a regulatory effect on hormones that influence pecking habits. Additionally, when coupled with MLT injection, it synergistically mitigated hormonal stress in the embryos. So, LED green light incubation emerged as a novel method to reduce the damaging pecking habits of poultry birds.
本研究旨在探讨发光二极管(LED)绿光单独或与褪黑素联合应用于正常和激素应激条件下种蛋孵化时对啄癖相关激素调节的影响。本研究分为两个实验:在第一个实验中,研究了 LED 绿光孵育对正常条件下啄癖相关激素的影响,使用海兰褐(啄癖表型低)和罗曼粉(啄癖表型高)种蛋进行测试。每个品系的 296 枚种蛋分为两组:LED 绿光孵育和黑暗孵育(对照),每组包含四个重复(37 枚/重复)。第二个实验评估了 LED 绿光单独孵育或与褪黑素联合应用于激素应激条件下对罗曼粉种蛋的影响。共取 704 枚罗曼粉种蛋,分为四组,每组 176 枚。每组进一步分为 2 个亚组,LED 绿光调控孵育和黑暗孵育,每组 88 枚,包含 4 个重复,每个重复 22 枚。分组如下:皮质酮溶液注射(CI)、皮质酮+褪黑素混合溶液注射(CMI)、磷酸盐缓冲溶液注射(PI)和无注射(UI)。
第一个实验的结果显示,在黑暗孵育条件下,海兰褐胚胎的 5-羟色胺激素水平较高,皮质酮激素水平较低,而罗曼粉胚胎则相反。LED 绿光孵育显著(P<0.05)增加了罗曼粉胚胎中 5-HT 的水平,同时降低了 CORT 水平,表明其对啄癖相关激素具有调节作用。第二个实验的结果表明,LED 绿光孵育显著(P<0.05)减轻了皮质酮引起的罗曼粉胚胎血浆 5-HT 活性升高。此外,褪黑素(MLT)注射和 LED 绿光联合孵育显著(P<0.05)降低了皮质酮注射引起的种蛋的激素应激。
总之,LED 绿光调控孵育对影响啄癖行为的激素表现出调节作用。此外,当与 MLT 注射联合使用时,它还能协同减轻胚胎的激素应激。因此,LED 绿光孵育成为减少家禽啄癖行为的一种新方法。
