Effect of excess dietary threonine on laying performance,egg quality,serum free amino acids,and digestive enzymes activities of laying hens during the postpeak period

A total of 640 layer hens, 56 wk of age, were allocated to 4 dietary treatments groups, each of which included 5 replicates of 32 hens. Graded levels ofl-Thr were added to the basal diet at 0.0 (control), 1.0, 2.0, and 3.0 g/kg; determined Thr values were 5.7, 6.5, 7.4, and 8.7 g/kg of diet, respectively. In the 53-d feeding trial, egg production increased significantly due to dietaryl-Thr supplementation. Hens fed 2.0 g of Thr/kg of diet had significantly higher egg production than the control diet. Supplementing the diet withl-Thr did not affect egg weight or feed intake, but egg mass increased significantly. Also, FCR was improved significantly and the best FCR was exhibited by hens receiving 2.0 g of Thr/kg of diet. Feeding laying hens a diet containing 2.0 g ofl-Thr/kg of diet improved Haugh units linearly; however, egg shell thickness decreased linearly as the level of dietary Thr increased, and the lowest value was observed for hens fed 3.0 g of Thr/kg of diet. Serum free Thr increased linearly as supplemental Thr increased, but serum free Ile, Phe, and Tyr decreased. No differences attributable tol-Thr were found among groups in the activity of digestive enzymes (trypsin and amylase) in the mucosal homogenates of the jejunum. The activity of α-alkaline phosphatase in the jejunum was analyzed as a marker of mucosal enterocyte maturation and no differences due tol-Thr supplementation were noted. In conclusion, feeding laying hens from 56 to 64 wk of agel-Thr up to 2.0 g/kg can improve laying performance and Haugh units.     

Evaluation of whelks as an alternative source of calcium in laying hens

Currently ground limestone and oyster shell are the common sources of calcium for laying hens. Processed whelk (Buccinum undatum) shell contains approximately 34.8% calcium, very similar to the 38% value for commercial oyster shell and ground limestone. The objective of this study was to evaluate the effect of feeding whelk shells to laying hens on performance, egg and bone quality, and calcium balance. White Leghorn hens were fed a basal diet and either one-third large particle oyster shell (>1.4-4 mm) + two-thirds ground limestone (OS/GL), one-third large particle whelk shells (>1.4-4 mm) + two-thirds ground whelk (W/GW), 100% ground limestone (GL), or 100% ground whelk shells (GW) starting at 20 wk of age for 14 28 d periods. Production data were comparable among calcium sources for the first 8 periods of production. During periods 9 to 14, feed consumption for hens fed GW was lower (P < 0.05) than for hens fed OS/GL. For periods 12 to 14, hens fed W/GW consumed less feed (P < 0.05) than those fed OS/GL and GL. Body weights were less (P < 0.05) for hens fed both forms of whelks at the end of periods 12 to 14. Egg production was not affected (P < 0.05) by treatment up to period 10. During period 11, egg production was lower (P < 0.05) for the hens fed GW compared to OS/GL and GL. For periods 12 to 14, hens fed both forms of whelks produced lower (P < 0.05) numbers of eggs than those fed OS/GL and GL. Hens fed GW produced fewer (P < 0.05) eggs than those fed W/GW. Feed conversions for hens fed W/GW and GW were less efficient (P < 0.05) during periods 12 to 14. Higher environmental temperatures occurred during periods 12 to 13, which may have negatively affected the performance of hens fed whelks. However, there were no differences (P < 0.05) among treatment means for egg weight, egg specific gravity, and shell breaking strength. GW resulted in a lower (P < 0.05) calcium balance than the other treatments for period 14.     

Rare earth element‐enriched yeast improved egg production and egg quality in laying hens in the late period of peak egg production

The objective of this study was to determine the effects of rare earth element‐enriched yeast (RY) on egg production, coefficient of total tract apparent digestibility (CTTAD), egg quality, excreta gas emission and excreta microbiota of laying hens. A total of 216 ISA brown laying hens of 52 weeks of age were used in a 5‐week feeding trial and data were collected every week. Birds were randomly allotted to three dietary treatments each with six replicates and 12 hens per replicate. Each cage (38 cm width × 50 cm length × 40 cm height) contained one hen. Treatments consisted of corn–soya bean meal‐based diet supplemented with 0, 500 or 1000 mg/kg of RY. From weeks 55 to 56, inclusion of RY linearly increased (p < 0.05) egg production. The CTTAD of nitrogen was increased (linear, p < 0.05) with increasing dietary level of RY. In week 55, yolk height and Haugh units were increased linearly (p < 0.05) with increasing dietary RY content. However, no significant effects were observed in terms of excreta emissions and excreta microbiota in laying hens. In conclusion, dietary supplementation with RY improved egg production and CTTAD of nitrogen and slightly improved egg quality in laying hens of the late period of peak egg production.     

岷山红三叶异黄酮对产蛋后期母鸡生产性能、骨矿化及血液指标的影响

 试验旨在研究岷山红三叶异黄酮对产蛋后期母鸡生产性能、骨矿化、血清生化指标、内分泌激素水平等的影响。将５０周龄罗曼蛋鸡４５０羽,随机分成５组,每组６个重复,每个重复１５羽。１组（对照）饲喂玉米－ 豆粕－ 杂粕型基础饲粮,２,３,４,５组分别在基础饲粮中添加５,１０,２０ｍｇ／ｋｇ红三叶异黄酮和２０ｍｇ／ｋｇ大豆异黄酮（参比）。预试期２周,正试期１０周。结果表明,１）各组生产性能和蛋品质无显著差异（P＞０．０５）,呈现出添加红三叶异黄酮提高而添加大豆异黄酮（５组）降低蛋壳强度的趋势（P＝０．２１３）;２）４组脾脏指数高于１,３（P＜０．０５）和５组（P＝０．１５０）;３）４组胫骨灰含量高于１,２组（P＜０．０５）,３,５高于２组（P＝０．１４０,P＝０．１５２）;４）添加红三叶异黄酮各组血清钙含量提高（P＝０．０９１）,大豆异黄酮提高血清钙含量的作用似更强;５）４组血清甲状腺素（Ｔ４）含量高于１（P＜０．０５）和２,３组（P＝０．１５０,P＝０．２０）,５组高于１组（P＝０．０７４）。结果提示,饲粮中添加５,１０,２０ｍｇ／ｋｇ红三叶异黄酮和２０ｍｇ／ｋｇ大豆异黄酮对产蛋后期母鸡产蛋性能无显著影响;添加红三叶异黄酮一定程度上改善了蛋壳强度,添加量２０ｍｇ／ｋｇ促进了骨矿化。     

Effects of zinc oxide nanoparticles on the egg quality,immune response,zinc retention,and blood parameters of laying hens in the late phase of production

The objective of this study was to evaluate the effects of dietary supplementation with zinc oxide nanoparticles (ZnO‐NPs) on the performance, egg quality, Zn retention, immunity responses, superoxide dismutase activity (SOD), egg malondialdehyde (MDA) content, and serum parameters in laying hens in the late phase of production. A total of 288 laying hens at 64 weeks of age were randomly assigned to 4 treatments with 6 replicates, and 12 birds within each group. Experimental diets included a corn‐soybean meal‐based diet (without Zn supplementation) and a basal diet supplemented with 80 mg/kg of Zn‐oxide, ZnO‐NPs, and Zn‐methionine. The results indicated that egg production and egg mass were significantly higher in the Zn‐methionine and ZnO‐NPs groups (p < .05). Also, eggshell thickness and shell strength increased in the ZnO‐NPs group as compared with the other groups (p < .05). Moreover, Zn supplementation decreased egg loss (p < .05). There were significant differences among treatments in Zn deposition in tibiotarsus, liver, pancreas, eggs, and excreta (p < .01). Antibody titre, heterophil (%(, and phytohemagglutinin (PHA) were significantly higher in birds fed with Zn‐supplemented diets (p < .05). In treatments supplemented with ZnO‐NPs and Zn‐methionine, the SOD activity in the liver, pancreas, and plasma was greater as compared with the other treatments (p < .05). The MDA content in eggs was significantly reduced in groups supplemented with Zn (p < .01). Moreover, dietary Zn supplementation significantly affected serum total protein, albumin, glucose, alkaline phosphatase activity, carbonic anhydrase activity, and Zn level (p < .05). In conclusion, this study demonstrated that dietary supplementation with ZnO‐NPs can improve the performance of laying hens. Therefore, ZnO‐NPs can enhance zinc absorption in the intestine of aged layers and can be a more suitable source of zinc than regular Zn‐oxide in diets.     

Effect of Royal Jelly on behavioural patterns,feather quality,egg quality and some haematological parameters in laying hens at the late stage of production

The aim was to elucidate the impact of Royal Jelly (RJ) on behavioural patterns, feather cover, egg quality and some blood haematological indices in laying hens (58–64 weeks of age). A total of 108 Tetra Brown laying hens were used in the current trial. The birds were divided into three equal groups (36 birds each). The pure RJ was prepared for immediate injection subcutaneously, as follows: the first treated group (RJ₁:100 mg/kg); the second treated group (RJ₂:200 mg/kg); the control group. The eating and drinking activities in the RJ₂ group were significantly (p = .009 and .015 respectively) higher than the control and RJ₁ groups. Furthermore, the aggressive pecks, feather pecks and threating behaviour in the RJ₂ group were significantly (p = .005, .001 and .039 respectively) lower than the control and RJ₁ groups. Both RJ‐treated groups had the best feather cover on the neck and abdomen regions (p = .010 and .001 respectively; Figure  1 ). Both RJ‐treated groups had a significantly higher eggshell ratio (p = .019) and shell thickness (p = .001) in comparison with the control group. The albumen height, Haugh units and yolk index in both RJ‐treated groups were significantly greater than those recorded in the control group (p = .026, .001 and .022 respectively). The erythrocyte and total leucocyte counts in the RJ₂ group were significantly higher than those reported in the control and RJ₁ groups (p = .029 and .013 respectively); however, the heterophil/lymphocyte (H/L) ratio and heterophil % in both RJ‐treated groups were significantly the lowest (p = .001 and .039). In conclusion, birds in the RJ₂ group had superior feather cover, welfare and behavioural indices, probably due to the impact of active flavonoids components of RJ on laying hen performance. Furthermore, the RJ‐treated groups had significantly improved egg quality parameters and some blood haematological indices.