The evaluation of toxicity related to polychlorinated dibenzo-p-dioxins and furans(PCDD/Fs)and dioxin-like polychlorinated biphenyls(DL-PCBs)is crucial for a comprehensive risk assessment in real-world exposure scenar...The evaluation of toxicity related to polychlorinated dibenzo-p-dioxins and furans(PCDD/Fs)and dioxin-like polychlorinated biphenyls(DL-PCBs)is crucial for a comprehensive risk assessment in real-world exposure scenarios.This study employed a controlled feeding experiment to investigate the metabolic effects of dioxin-like compounds(DLCs)on laying hens via feed exposure.Diets enriched with two concentrations(1.17 and 5.13 pg toxic equivalents(TEQ)/g dry weight(dw))were administered over 14 days,followed by 28 days of clean feed.Metabolomics analyses of blood samples revealed significant metabolic variations between PCDD/Fs and DL-PCBs exposed groups and controls,reflecting the induced metabolic disruption.Distinct changes were observed in sphingosine,palmitoleic acid,linoleate,linolenic acid,taurocholic acid,indole acrylic acid,and dibutyl phthalate levels,implying possible connections between PCDD/Fs and DL-PCBs toxic effects and energy-neuronal imbalances,along with lipid accumulation and anomalous amino acid metabolism,impacting taurine metabolism.Moreover,we identified three differential endogenous metabolites—L-tryptophan,indole-3-acetaldehyde,and indole acrylic acid—as potential ligands for the aryl hydrocarbon receptor(AhR),suggesting their role inmediating PCDD/Fs and DL-PCBs toxicity.This comprehensive investigation provides novel insights into the metabolic alterations induced by PCDD/Fs and DL-PCBs in laying hens,thereby enhancing our ability to assess risks associated with their exposure in human populations.展开更多
Background Meat originating from the spent hen is an important source of poultry meat production;however,multiple factors cause the decline in the meat quality of spent hens.Chinese herbs have been widely used as medi...Background Meat originating from the spent hen is an important source of poultry meat production;however,multiple factors cause the decline in the meat quality of spent hens.Chinese herbs have been widely used as medi-cine for a long time to prevent diseases and as nutrient supplements to improve the product quality.This experi-ment explored the effects of adding 1.0%Chinese herbal formula(CHF,including 0.30%Leonurus japonicus Houtt.,0.20%Salvia miltiorrhiza Bge.,0.25%Ligustrum lucidum Ait.,and 0.25%Taraxacum mongolicum Hand.-Mazz.)for 120 d to the spent hens’diet through metabolomics,network pharmacology,and microbiome strategies.Results The results indicated that CHF supplementation improved the meat quality by reducing drip loss(P<0.05),b*value(P=0.058),and shear force(P=0.099)and increasing cooked meat percentage(P=0.054)and dry matter(P<0.05)of breast muscle.The addition of CHF improved the nutritional value of breast muscle by increasing(P<0.05)the content of C18:2n-6,n-6/n-3 polyunsaturated fatty acids(PUFA),total PUFA,PUFA-to-saturated fatty acids(SFA)ratio,and hypocholesterolemic-to-hypercholesterolemic ratio,and tending to increase serine content(P=0.069).The targeted metabolomics analysis revealed that the biosynthesis of SFA,linoleic acid metabolism,fatty acid degradation,fatty acid elongation,and fatty acid biosynthesis pathways were enriched by CHF supplementation.Furthermore,the network pharmacology analysis indicated that CHF was closely associated with oxidative stress and lipid metabo-lism.The CHF supplementation increased the glutathione peroxidase level(P<0.05)and upregulated gene expres-sion related to the Nrf2 pathway(including HO-1,P<0.05;Nrf2,P=0.098;CAT,P=0.060;GPX1,P=0.063;and SOD2,P=0.052)and lipid metabolism(including PPARγ,P<0.05;SREBP1,P=0.059;and CPT1A,P=0.058).Additionally,CHF supplementation increased Firmicutes and decreased Bacteroidetes,Spirochaetes,and Synergistetes abundances(P<0.05),which may contribute to better meat quality.Conclusions Our results suggest that CHF supplementation improved the quality and nutritional value of meat,which will provide a theoretical basis for the utilization of CHF as a feed additive in spent hens’diets.展开更多
Background Caffeic acid(CA)and its derivative,chlorogenic acid(CGA),have shown promise in preventing and alleviating fatty liver disease.CA,compared to CGA,has much lower production costs and higher bioavailability,ma...Background Caffeic acid(CA)and its derivative,chlorogenic acid(CGA),have shown promise in preventing and alleviating fatty liver disease.CA,compared to CGA,has much lower production costs and higher bioavailability,making it a potentially superior feed additive.However,the efficacy,mechanistic differences,and comparative impacts of CA and CGA on fatty liver disease in laying hens remain unclear.This study aimed to evaluate and compare the effects of CA and CGA on production performance,egg quality,and fatty liver disease in laying hens.Results A total of 1,44061-week-old Hyline Brown laying hens were randomly divided into 8 groups and fed diets supplemented with basal diet,25,50,100 and 200 mg/kg of CA,and 100,200 and 400 mg/kg of CGA(CON,CA25,CA50,CA100,CA200,CGA100,CGA200 and CGA400,respectively)for 12 weeks.Both CA and CGA improved production performance and egg quality,while reducing markers of hepatic damage and lipid accumulation.CA and CGA significantly decreased TG,TC,and LDL-C levels and increased T-SOD activity.Transcriptomic and proteomic analyses revealed that CA and CGA reduced hepatic lipid accumulation through downregulation of lipid biosynthesis-related genes(ACLY,ACACA,FASN,and SCD1)and enhanced lipid transport and oxidation genes(FABPs,CD36,CPT1A,ACOX1,and SCP2).Of note,low-dose CA25 exhibited equivalent efficacy to the higher dose CGA100 group in alleviating fatty liver conditions.Mechanistically,CA and CGA alleviated lipid accumulation via activation of the ADPN-AMPK-PPARαsignaling pathway.Conclusions This study demonstrates that dietary CA and CGA effectively improve laying performance,egg quality,and hepatic lipid metabolism in laying hens,with CA potentially being more economical and efficient.Transcriptomic and proteomic evidence highlight shared mechanisms between CA25 and CGA100.These findings provide a foundation for CA and CGA as therapeutic agents for fatty liver disease and related metabolic diseases in hens,and also offer insights into the targeted modification of CGA(including the isomer of CGA)into CA,thereby providing novel strategies for the efficient utilization of CGA.Highlights(1)Dietary CA and CGA improve fatty liver,laying performance and egg quality.(2)Lower dose of CA25 achieves the equivalent improvement as CGA100 or CGA200.(3)CA and CGA mediate the ADPN-AMPK-PPARαpathway to alleviate fatty liver.展开更多
Background Systemic inflammatory responses and oxidative stress occur in laying hens during the aging process,particularly during the post-peaking laying period,which generally result in multi-organ damages,leading to...Background Systemic inflammatory responses and oxidative stress occur in laying hens during the aging process,particularly during the post-peaking laying period,which generally result in multi-organ damages,leading to significant declines in egg performance and quality.Chlorogenic acid(CGA)-enriched extract from Eucommia ulmoides leaves has anti-inflammatory and antioxidant activities.However,the mechanisms underlying whether and how CGA alleviates systemic inflammatory responses and oxidative stress to improve egg performance and quality in postpeaking laying hens remain unclear.In this study,the potential regulatory mechanisms of CGA in alleviating inflammatory responses and oxidative stress along the gut-liver axis were investigated.A total of 36055-week-old Hy-line white-laying hens were randomly selected and divided into four groups.The hens in the four groups were fed a basal diet(CON)or basal diets supplemented with 200,400,and 800 mg/kg of CGA(CGA200,CGA400,and CGA800,respectively)for 10 weeks.Results The results demonstrated that CGA significantly alleviated intestinal and hepatic damages resulting from systemic inflammatory responses and oxidative stress,thereby improving the laying performance and egg quality of post-peaking laying hens.CGA reduced systemic inflammation by improving intestinal barrier function and modulating inflammation-associated microbiota(Blautia and Megamonas),thus inhibiting endotoxin translocation.CGA can also reduce oxidative stress by upregulating the NRF-2 pathway-related genes and increasing antioxidant enzyme activities in the liver.The results of transcriptome sequencing revealed that CGA promoted lipid metabolism by regulating hepatic adipocytokine pathway-related genes/protein and reduced the inflammatory responses and apoptosis in liver by regulating PI3K/AKT pathway-related genes/proteins,which was also verified by qPCR and western blotting.Conclusion CGA alleviated multi-organ damages and dysfunction by suppressing the systemic inflammatory responses and oxidative stress in post-peaking laying hens,thereby improving egg performance and quality.The optimal dose of CGA is 400 mg/kg in this experiment.These results provide a sound theoretical basis for the application of CGA as an exogenous animal feed additive for laying hens.展开更多
Background Organic selenium(Se)has gained recognition in poultry nutrition as a feed additive to boost production and Se deposition in eggs and tissues,owing to its high bioavailability,efficient tissue accumulation a...Background Organic selenium(Se)has gained recognition in poultry nutrition as a feed additive to boost production and Se deposition in eggs and tissues,owing to its high bioavailability,efficient tissue accumulation and minimal toxicity.Selenium-enriched yeast(SeY)is a well-established source,while selenium-enriched lactobacilli(SeL),a newer alternative,offers the added benefits of probiotics.This study examined the effects of SeY and SeL on egg quality,antioxidant capacity,Se deposition,and gut health in laying hens.After a two-week pre-treatment with a Sedeficient diet(SeD),450 Hy-Line Brown laying hens(30-week-old)were assigned into five dietary groups with six replicates of 15 hens each.The groups included a SeD,SeD supplemented with 1.5 mg Se/kg from SeY(SeY15),or 1.5,3.0,and 6.0 mg Se/kg from SeL(SeL15,SeL30,SeL60).The feeding trial lasted for 12 weeks.Results SeY15 and SeL15 improved the feed-to-egg ratio(P<0.05)in the latter stages.Haugh units were significantly increased(P<0.05)in the SeY15 and SeL30 groups,while darker yolk color(P<0.05)was observed in the SeY15,SeL15,and SeL60 groups.All Se-supplemented diets increased Se content in whole eggs,albumen,and yolk(P<0.05),while SeL groups showed a dose-dependent effect.Antioxidant enzyme activities increased,and MDA content decreased in the serum(P<0.05),with SeY15 showing the highest GSH-Px levels(P<0.05).SeL60 increased serum alkaline phosphatase and aspartate transaminase,and distorted the liver architecture(P<0.05).Se-diets reduced concentrations of reactive oxygen species(ROS)in the ileum and liver(P<0.05).SeL15 improved the ileal villus height-tocrypt depth ratio(P<0.05).SeY15 and/or SeL15 up-regulated TXNRD1 and SEPHS1 mRNA while down-regulating SCLY expression in the liver.SeY15 altered ileal microbiota by increasing both beneficial and pathogenic bacteria,whereas SeL15 predominantly boosted beneficial bacteria.Conclusion SeL integrates the antioxidant properties of organic Se with the probiotic benefits on gut health,resulting in a performance-enhancing effect comparable to that of SeY.However,high SeL level(6.0 mg Se/kg)compromised productivity and metabolic functions while enhancing Se deposition.展开更多
This study examined the effect of dietary serine(Ser)on egg white quality,ovomucin content of laying hens fed low-gossypol cottonseed meal(LCSM)-based diet and sought to explore the regulatory mechanism underlying the...This study examined the effect of dietary serine(Ser)on egg white quality,ovomucin content of laying hens fed low-gossypol cottonseed meal(LCSM)-based diet and sought to explore the regulatory mechanism underlying the effects.A total of 288 Hy-Line Brown layers were randomly assigned into 3 treatments and respectively offered soybean meal(SBM)-based diet,LCSM-based diet,and LCSM-based diet supplemented with 0.435%L-Ser.Dietary Ser supplementation reversed the decrease in quality indices of albumen,including the proportion of thick albumen(P<0.05),thick-to-thin ratio(P<0.05),albumen height(P<0.05),Haugh unit(P<0.05),and apparent viscosity that were caused by LCSM intake.Also,dietary Ser supplementation mitigated the LCSM-induced reduction in ovomucin content of the albumen(P<0.05).FT-IR analysis of ovomucin revealed differences in second derivative spectra at 1,200-800 cm^(-1) between birds received SBM-and LCSM-based diets,meanwhile,the α-helix of ovomucin was decreased by LCSM but increased by Ser addition(P<0.05).Furthermore,Ser addition up-regulated the mRNA expression of β-ovomucin in magnum mucosa at 2 and 7.5 h post-oviposition(P<0.05).Ser mitigated the LCSMinduced impairment of magnum epithelium,increased goblet cell counts(P<0.05),and up-regulated the expression of occludin,mucin 2,and the relevant glycosyltransferases for O-glycosylation in magnum mucosa(P<0.05).Conclusively,the alleviating effect of Ser on declining albumen quality due to dietary LCSM,could be explained by the efficacy of Ser in regulating ovomucin synthesis.This regulation occurred at the levels of transcription and posttranscriptional O-glycosylation modification ofβ-ovomucin,while positive effect on magnum morphology and barrier function could also in part account for the ovomucin content.This would provide a promising research direction on the adoption of nutritional interventions for manipulation of egg white quality from perspectives of albumen protein synthesis.展开更多
Background Uterine aging is a key factor contributing to the deterioration of egg quality and reproductive performance in laying hens.Despite its importance,the molecular mechanisms underlying uterine aging remain poo...Background Uterine aging is a key factor contributing to the deterioration of egg quality and reproductive performance in laying hens.Despite its importance,the molecular mechanisms underlying uterine aging remain poorly defined.This study aimed to characterize gene expression and regulatory changes associated with uterine aging in hens at different life stages.Results Transcriptomic Analysis of uterine tissue from hens aged 350,500,And 700 d revealed dynamic changes in gene expression patterns during aging.A significant upregulation of genes involved in cellular senescence was observed,including increased expression of the p53 signaling pathway And markers associated with inflammation And cell cycle arrest.The most notable changes occurred between 350 And 500 d of age,suggesting this as a critical window for the onset of uterine aging.MicroRNA sequencing identified miR-210a-5p as significantly reduced with age.Target prediction and experimental validation showed that miR-210a-5p directly suppresses the expression of RASL11B,a Ras-like small GTPase that activates the MAPK signaling pathway.In primary uterine epithelial cells,reduced miR-210a-5p levels led to elevated RASL11B expression,increased activation of B-Raf,MEK,and ERK proteins,and enhanced expression of aging-related genes and inflammatory factors.In contrast,overexpression of miR-210a-5p or inhibition of the MAPK pathway delayed senescence and reduced inflammatory signaling.RASL11B overexpression was sufficient to induce aging phenotypes,confirming its central role in promoting uterine cellular aging.Conclusions This study identifies a novel regulatory pathway in which miR-210a-5p modulates uterine aging through the RASL11B-MAPK signaling cascade.The findings provide mechanistic insight into age-related reproductive decline in hens and suggest that targeting this pathway may offer new strategies for maintaining uterine function and extending reproductive lifespan in poultry.展开更多
Background Despite growing concerns about the adverse effects of antibiotics in farm animals,there has been little investigation of the effects of florfenicol in laying hens.This study examined the effect of florfenic...Background Despite growing concerns about the adverse effects of antibiotics in farm animals,there has been little investigation of the effects of florfenicol in laying hens.This study examined the effect of florfenicol on the intestinal homeostasis,immune system,and pathogen susceptibility of laying hens.Results The oral administration of florfenicol at field-relevant levels for 5 d resulted in a decrease in the gut microbiota genera Lactobacillus,Bacillus,and Bacteroides,indicating the development of intestinal dysbiosis.The dysbiosis led to decreased mRNA levels of key regulators peroxisome proliferator-activated receptor gamma(PPAR-γ)and hypoxia-inducible factor-1α(HIF-1α),compromising intestinal hypoxia.Intestinal homeostasis was also disrupted,with decreased expression of Occludin and Mucin 2(Muc2)genes combined with increased gut epithelial permeability.The breakdown in intestinal homeostasis and immune function provided a favorable environment for opportunistic bacteria like avian pathogenic Escherichia coli(APEC),culminating in systemic infection.Immunologically,florfenicol treatment resulted in increased proportion and absolute number of MRC1L-B^(+)monocytes/macrophages in the spleen,indicating an exacerbated infection.Furthermore,both the proportion and absolute number ofγδT cells in the lamina propria of the cecum decreased.Treatment with florfenicol reduced butyrate levels in the cecum.However,the administration of butyrate before and during florfenicol treatment restored factors associated with intestinal homeostasis,including PPAR-γ,Occludin,and Muc2,while partially restoring HIF-1α,normalized intestinal hypoxia and gut permeability,and reversed immune cell changes,suppressing APEC systemic infection.Conclusion The uncontrolled and widespread use of florfenicol can negatively affect intestinal health in chickens.Specifically,florfenicol was found to impair intestinal homeostasis and immune function in laying hens,including by reducing butyrate levels,thereby increasing their susceptibility to systemic APEC infection.The development of strategies for mitigating the adverse effects of florfenicol on gut health and pathogen susceptibility in laying hens is therefore essential.展开更多
Two strains of Gallibacterium, isolated from one laying hen flock in Zhengzhou City of Henan Province, were identified by the morphological observation, genus -specific PCR, and analysis of 16S rRNA gene, which was us...Two strains of Gallibacterium, isolated from one laying hen flock in Zhengzhou City of Henan Province, were identified by the morphological observation, genus -specific PCR, and analysis of 16S rRNA gene, which was used to generate the phylogenetic tree, with the 21 members of the 12 genera belonging to Pasteurellaceae to analyze the homology. Two strains were named Yu-ZZ-HL-I-SLG and Yu-ZZ-HL-II-GZ. The comparative result of the 16S rDNA sequence shows that the 2 isolated strains are identical in sequence; the highest identity (99.9%) was observed between the isolated strain and one of the strains of Gallibacterium anatis (AF22.8002), the homologies between the isolated strain and 3 strains of gallibacterium accessed in NCBI (AF22.8016, Gallibacterium genomosp. 1, AF228017, Gallibacterium genomosp. 2, AF22.8018, Gal- libacterium genomosp. 1 ) were above 97.1%, higher than that of the isolated strain and the other strains of the other 11 genera which were between 90.7% -93.2%. It can be seen from the phylogenetic tree that the 2 isolated strains and the other 4 strain of gallibacterium fell into the same branch, furthermore the 2 isolated strains and the strain of Gallibacterium anatis locate in an internal branch, indicating that the 2 isolated strains belong to Gallibacterium anatis.展开更多
[Objective] This study aimed to investigate the histopathological changes of hens with colibacillosis.[Method] Epidemiological investigation,clinical symptoms observation,pathological autopsy,laboratory diagnosis and ...[Objective] This study aimed to investigate the histopathological changes of hens with colibacillosis.[Method] Epidemiological investigation,clinical symptoms observation,pathological autopsy,laboratory diagnosis and paraffin-embedded tissue section were performed to diagnose the laying hens from a farm in Changli County,affected by a disease similar to pericarditis and perihepatitis in clinical symptoms.[Result] The pathogen isolated from those hens was E.coli.The histopathological changes of the diseased hens included myocardial cell degeneration and inflammatory cell infiltration in heart,fibrotic perihepatitis,necrotic hepatitis in liver,decreased lymphoid cells and inflammatory cell infiltration in spleen,lung congestion,lung room full of erythrocytes,hyaline degeneration in glomerular capillary and small intestinal epithelial cell shedding.[Conclusion] This study will provide scientific basis for the diagnosis and control of colibacillosis in poultry.展开更多
[Objective] This study was conducted to investigate the effects of tradi- tional Chinese herbal medicines on blood biochemical indices of egg-laying hens under heat stress and to provide theoretical basis for clinical...[Objective] This study was conducted to investigate the effects of tradi- tional Chinese herbal medicines on blood biochemical indices of egg-laying hens under heat stress and to provide theoretical basis for clinical application of the medicines. [Method] One hundred of 88-day-old ISA-Brown hens were randomly di- vided into five groups. The hens in four groups were administrated with Prescription I herbal medicines, Prescription II herbal medicines, Vc and blank control under ar- tificially simulated heat stress, respectively. The last group was raised under normal temperature condition. Blood samples of the hens were collected on 1, 4, 8 and 10 d later and detected for their biochemical indices. [Result] The blood sodium (Na), phosphorus (P), potassium (K) and chlorine (CI) concentrations in hens under heat stress were decreased, while the activities of alanine aminotransferase (ALT), lactate dehydrogenase (LDH) and creatine kinase (CK) were increased. These indices grad- ually returned to normal levels after the use of traditional Chinese herbal medicines. [Conclusion] The herbal medicines can relieve the adverse effects caused by heat stress to blood biochemical indices via different metabolic pathways of ions and en- zymes.展开更多
This study aimed to determine the level of use of fermented kapok seed to substitute 100% soybean meal in native laying hen rations without adverse effect on laying hen production. Two hundred and forty laying hens ag...This study aimed to determine the level of use of fermented kapok seed to substitute 100% soybean meal in native laying hen rations without adverse effect on laying hen production. Two hundred and forty laying hens aged 20 weeks were used in this experiment. The completely randomized design was assigned with six treatments to replace 0, 20%, 40%, 60%, 80% and 100% of soybean meal with fermented kapok seed with four replications. The variables measured were feed intake, feed conversion and income over feed cost (gross profit), as well as variables related to egg production (hen day production and egg weight), thickness of eggshell and yolk color index for quality of eggs. Data were analyzed statistically using analysis of variance (ANOVA), and if the result shows a marked influence, it will be followed by Duncans test (DMRT). The results showed that the performance of laying hen had not been affected significantly by substituting soybean meal with fermented kapok seed. Feed intake, feed conversion and egg production is not influenced either. In summary, the use of fermented kapok seed to substitute soybean meal in the ration can be up to 100% in the diet of laying chicken.展开更多
Transportation of spent laying hens causes them severe suffering. HAI-MESHEK (The Israeli Society for the Prevention of Cruelty to Farm Animals) looked for ways to decrease the suffering and finally developed the so...Transportation of spent laying hens causes them severe suffering. HAI-MESHEK (The Israeli Society for the Prevention of Cruelty to Farm Animals) looked for ways to decrease the suffering and finally developed the solution. Spent laying hens are brutally taken out of the cages, and with broken legs and chests pressed into small boxes for transportation to the slaughter-house. Removing all hens from the cages, transportation, waiting in the slaughter-house and slaughtering all hens is a long and hard-suffering time, which may take 8-10 hours. Hai-Meshek conducted a research, aimed at finding more humane methods of transportation. The findings from other countries were very disappointing. Even in countries having high level of animal welfare, about 30% of the hens arrived at the slaughter-house with broken limbs! The conclusion was that even better method, imposed by legislation, would not solve the problem: it is difficult to detect truck drivers violating the rules and the fine is negligible, compared to the savings by the abovementioned cruel method. The only humane solution is by preventing the transportation and slaughtering on farm. Spent laying hens are not edible, so they need not be slaughtered in the slaughter-house. Hai-Meshek initiated and participated in the development and the building of a facility for the humane killing of spent laying hens on farms. The hens aye electrified and die in 1-1.5 seconds. This method costs far less than transportation and slaughtering. The Poultry Council, which takes care to remove spent laying hens from farms, requires contractors to use the facility and they bring it to every farm in Israel. The facility is also used for killing sick flocks. No more transportation of spent laying hens is allowed!展开更多
Based on the poem Xiatian Hai Hen Yuan夏天还很远, one of the most characteristic works of the Chinese poet Bai Hua, along with its four English translations, this paper conducts comparative textual studies with regard...Based on the poem Xiatian Hai Hen Yuan夏天还很远, one of the most characteristic works of the Chinese poet Bai Hua, along with its four English translations, this paper conducts comparative textual studies with regard to three aspects, including the translation of hidden personae, the selection of the tense and aspectas well as the rendition of poetic rhythms. The author holds the view that, on the one hand, different textual interpretations have gone a long way toward the dissemination of the original poem in the English-speaking world;on the other hand, the translator's proper understanding and rendition is of great significance with a view to a better presentation of the unique beauty of Chinese poetry both in the content and the form.展开更多
Background:Dietary essential oil(EO)supplementation can exert favorable effects on gut health in broilers.However,it is unknown whether EO could improve intestinal functions,consequently beneficial for egg performance...Background:Dietary essential oil(EO)supplementation can exert favorable effects on gut health in broilers.However,it is unknown whether EO could improve intestinal functions,consequently beneficial for egg performance and quality in late-phase laying hens.This study was aimed to investigate the potential effects of EO on production performance,egg quality,intestinal health and ileal microbiota of hens in the late phase of production.A total of 28860-week-old Hy-line Brown laying hens were randomly divided into 4 groups and fed a basal diet(control)or basal diets supplemented with oregano EO at 100,200 and 400 mg/kg(EO100,EO200 and EO400).Results:Dietary EO supplementation resulted in a quadratic decrease(P<0.05)in feed conversion ratio with lower(P<0.05)feed conversion ratio in EO200 group than the control during weeks 9–12 and 1–12 of the trial.Compared to the control,EO addition resulted in higher(P<0.05)eggshell thickness at the end of week.4,8 and 12 and higher(P<0.05)chymotrypsin activity.There was a quadratic elevation(P<0.05)in ileal chymotrypsin and lipase activity,along with a linear increase in villus height to crypt depth ratio.Quadratic declines(P<0.05)in mRNA expression of IL-1β,TNF-α,IFN-γ and TLR-4,concurrent with a linear and quadratic increase(P<0.05)in ZO-1 expression were identified in the ileum with EO addition.These favorable effects were maximized at medium dosage(200 mg/kg)of EO addition and intestinal microbial composition in the control and EO200 groups were assessed.Dietary EO addition increased(P<0.05)the abundances of Burkholderiales,Actinobacteria,Bifidobacteriales,Enterococcaceae and Bacillaceae,whereas decreased Shigella abundance in the ileum.Conclusions:Dietary EO addition could enhance digestive enzyme activity,improve gut morphology,epithelial barrier functions and modulate mucosal immune status by altering microbial composition,thus favoring feed efficiency and eggshell quality of late-phase laying hens.展开更多
A rapid decline in egg production of laying hens begins after 480 d of age. Such a rapid decrease results predominantly from the ovarian aging, accompanied by endocrine changes, decreased yolk synthesis and accumulati...A rapid decline in egg production of laying hens begins after 480 d of age. Such a rapid decrease results predominantly from the ovarian aging, accompanied by endocrine changes, decreased yolk synthesis and accumulation, and the reduction in follicles selected into the preovulatory hierarchy. In this study, hens at 90, 150, 280, and 580 d old (D90, D150, D280, and D580, respectively) were compared for yolk precursor formation in the liver to elucidate effects of aging on laying performance. The results showed that liver lipid synthesis increased remarkably in hens from D90 to D150, but decreased sharply at D580 as indicated by the changes in triglyceride (TG) levels. This result was consistent with the age-related changes of the laying performance. The levels of liver antioxidants and total antioxidant capacity decreased significantly in D580 hens and the methane dicarboxylic aldehyde in D580 hens was much higher than that at other stages. The serum 17β-estradiol level increased from D90 to D280, but decreased at D580 (P〈0.05). The expression of estrogen receptor a and 13 mRNAs in the liver displayed similar changes to the serum 17β-estradiol in D580 hens. Expressions of the genes related to yolk precursor formation and enzymes responsible for fat acid synthesis were all decreased in D580 hens. These results indicated that decreased yolk precursor formation in the liver of the aged hens resulted from concomitant decreases of serum 17β-estradiol level, transcription levels of estrogen receptors and critical genes involved in yolk precursor synthesis, and liver antioxidant status.展开更多
基金supported by the National Key Research and Development Program of China (Nos.2018YFA0901101,2018YFA0901103,and 2017YFC1600301)the National Natural Science Foundation of China (Nos.22076216,21976201,and 21836004).
文摘The evaluation of toxicity related to polychlorinated dibenzo-p-dioxins and furans(PCDD/Fs)and dioxin-like polychlorinated biphenyls(DL-PCBs)is crucial for a comprehensive risk assessment in real-world exposure scenarios.This study employed a controlled feeding experiment to investigate the metabolic effects of dioxin-like compounds(DLCs)on laying hens via feed exposure.Diets enriched with two concentrations(1.17 and 5.13 pg toxic equivalents(TEQ)/g dry weight(dw))were administered over 14 days,followed by 28 days of clean feed.Metabolomics analyses of blood samples revealed significant metabolic variations between PCDD/Fs and DL-PCBs exposed groups and controls,reflecting the induced metabolic disruption.Distinct changes were observed in sphingosine,palmitoleic acid,linoleate,linolenic acid,taurocholic acid,indole acrylic acid,and dibutyl phthalate levels,implying possible connections between PCDD/Fs and DL-PCBs toxic effects and energy-neuronal imbalances,along with lipid accumulation and anomalous amino acid metabolism,impacting taurine metabolism.Moreover,we identified three differential endogenous metabolites—L-tryptophan,indole-3-acetaldehyde,and indole acrylic acid—as potential ligands for the aryl hydrocarbon receptor(AhR),suggesting their role inmediating PCDD/Fs and DL-PCBs toxicity.This comprehensive investigation provides novel insights into the metabolic alterations induced by PCDD/Fs and DL-PCBs in laying hens,thereby enhancing our ability to assess risks associated with their exposure in human populations.
基金supported by the National Key Research and Development Project(2022YFC3400700)the City-School Cooperation Project of the Fuyang Science and Technology Special Fund undertaken by Fuyang Normal University(SXHZ2020007)+1 种基金the Basic Research Program of Shenzhen Municipal Government(JCYJ20200109114242138)the Special Commissioner for Rural Science and Technology of Guangdong Province(KTP20210345).
文摘Background Meat originating from the spent hen is an important source of poultry meat production;however,multiple factors cause the decline in the meat quality of spent hens.Chinese herbs have been widely used as medi-cine for a long time to prevent diseases and as nutrient supplements to improve the product quality.This experi-ment explored the effects of adding 1.0%Chinese herbal formula(CHF,including 0.30%Leonurus japonicus Houtt.,0.20%Salvia miltiorrhiza Bge.,0.25%Ligustrum lucidum Ait.,and 0.25%Taraxacum mongolicum Hand.-Mazz.)for 120 d to the spent hens’diet through metabolomics,network pharmacology,and microbiome strategies.Results The results indicated that CHF supplementation improved the meat quality by reducing drip loss(P<0.05),b*value(P=0.058),and shear force(P=0.099)and increasing cooked meat percentage(P=0.054)and dry matter(P<0.05)of breast muscle.The addition of CHF improved the nutritional value of breast muscle by increasing(P<0.05)the content of C18:2n-6,n-6/n-3 polyunsaturated fatty acids(PUFA),total PUFA,PUFA-to-saturated fatty acids(SFA)ratio,and hypocholesterolemic-to-hypercholesterolemic ratio,and tending to increase serine content(P=0.069).The targeted metabolomics analysis revealed that the biosynthesis of SFA,linoleic acid metabolism,fatty acid degradation,fatty acid elongation,and fatty acid biosynthesis pathways were enriched by CHF supplementation.Furthermore,the network pharmacology analysis indicated that CHF was closely associated with oxidative stress and lipid metabo-lism.The CHF supplementation increased the glutathione peroxidase level(P<0.05)and upregulated gene expres-sion related to the Nrf2 pathway(including HO-1,P<0.05;Nrf2,P=0.098;CAT,P=0.060;GPX1,P=0.063;and SOD2,P=0.052)and lipid metabolism(including PPARγ,P<0.05;SREBP1,P=0.059;and CPT1A,P=0.058).Additionally,CHF supplementation increased Firmicutes and decreased Bacteroidetes,Spirochaetes,and Synergistetes abundances(P<0.05),which may contribute to better meat quality.Conclusions Our results suggest that CHF supplementation improved the quality and nutritional value of meat,which will provide a theoretical basis for the utilization of CHF as a feed additive in spent hens’diets.
基金supported by National Key R&D Program of China(2023YFD1301200)China Agriculture Research Systems(CARS-40-K11)+2 种基金Beijing Agriculture Innovation Consortium(BAIC06-2024-G05)Strategic Priority Research Program of the National Center of Technology Innovation for Pigs(NCTIP-XD/C08)The Chinese Academy of Agricultural Science and Technology Innovation Project(ASTIP-IAS-12)。
文摘Background Caffeic acid(CA)and its derivative,chlorogenic acid(CGA),have shown promise in preventing and alleviating fatty liver disease.CA,compared to CGA,has much lower production costs and higher bioavailability,making it a potentially superior feed additive.However,the efficacy,mechanistic differences,and comparative impacts of CA and CGA on fatty liver disease in laying hens remain unclear.This study aimed to evaluate and compare the effects of CA and CGA on production performance,egg quality,and fatty liver disease in laying hens.Results A total of 1,44061-week-old Hyline Brown laying hens were randomly divided into 8 groups and fed diets supplemented with basal diet,25,50,100 and 200 mg/kg of CA,and 100,200 and 400 mg/kg of CGA(CON,CA25,CA50,CA100,CA200,CGA100,CGA200 and CGA400,respectively)for 12 weeks.Both CA and CGA improved production performance and egg quality,while reducing markers of hepatic damage and lipid accumulation.CA and CGA significantly decreased TG,TC,and LDL-C levels and increased T-SOD activity.Transcriptomic and proteomic analyses revealed that CA and CGA reduced hepatic lipid accumulation through downregulation of lipid biosynthesis-related genes(ACLY,ACACA,FASN,and SCD1)and enhanced lipid transport and oxidation genes(FABPs,CD36,CPT1A,ACOX1,and SCP2).Of note,low-dose CA25 exhibited equivalent efficacy to the higher dose CGA100 group in alleviating fatty liver conditions.Mechanistically,CA and CGA alleviated lipid accumulation via activation of the ADPN-AMPK-PPARαsignaling pathway.Conclusions This study demonstrates that dietary CA and CGA effectively improve laying performance,egg quality,and hepatic lipid metabolism in laying hens,with CA potentially being more economical and efficient.Transcriptomic and proteomic evidence highlight shared mechanisms between CA25 and CGA100.These findings provide a foundation for CA and CGA as therapeutic agents for fatty liver disease and related metabolic diseases in hens,and also offer insights into the targeted modification of CGA(including the isomer of CGA)into CA,thereby providing novel strategies for the efficient utilization of CGA.Highlights(1)Dietary CA and CGA improve fatty liver,laying performance and egg quality.(2)Lower dose of CA25 achieves the equivalent improvement as CGA100 or CGA200.(3)CA and CGA mediate the ADPN-AMPK-PPARαpathway to alleviate fatty liver.
基金financially supported by the Collaborative Extension Program for Advancements in Agricultural Technologies of Zhejiang Province(Grant no:2023ZDXT15)the Key Research&Development Program of Zhejiang Province(Grant no:2024C02004)Bureau of Science and Technology of Xinchang County Foundation.
文摘Background Systemic inflammatory responses and oxidative stress occur in laying hens during the aging process,particularly during the post-peaking laying period,which generally result in multi-organ damages,leading to significant declines in egg performance and quality.Chlorogenic acid(CGA)-enriched extract from Eucommia ulmoides leaves has anti-inflammatory and antioxidant activities.However,the mechanisms underlying whether and how CGA alleviates systemic inflammatory responses and oxidative stress to improve egg performance and quality in postpeaking laying hens remain unclear.In this study,the potential regulatory mechanisms of CGA in alleviating inflammatory responses and oxidative stress along the gut-liver axis were investigated.A total of 36055-week-old Hy-line white-laying hens were randomly selected and divided into four groups.The hens in the four groups were fed a basal diet(CON)or basal diets supplemented with 200,400,and 800 mg/kg of CGA(CGA200,CGA400,and CGA800,respectively)for 10 weeks.Results The results demonstrated that CGA significantly alleviated intestinal and hepatic damages resulting from systemic inflammatory responses and oxidative stress,thereby improving the laying performance and egg quality of post-peaking laying hens.CGA reduced systemic inflammation by improving intestinal barrier function and modulating inflammation-associated microbiota(Blautia and Megamonas),thus inhibiting endotoxin translocation.CGA can also reduce oxidative stress by upregulating the NRF-2 pathway-related genes and increasing antioxidant enzyme activities in the liver.The results of transcriptome sequencing revealed that CGA promoted lipid metabolism by regulating hepatic adipocytokine pathway-related genes/protein and reduced the inflammatory responses and apoptosis in liver by regulating PI3K/AKT pathway-related genes/proteins,which was also verified by qPCR and western blotting.Conclusion CGA alleviated multi-organ damages and dysfunction by suppressing the systemic inflammatory responses and oxidative stress in post-peaking laying hens,thereby improving egg performance and quality.The optimal dose of CGA is 400 mg/kg in this experiment.These results provide a sound theoretical basis for the application of CGA as an exogenous animal feed additive for laying hens.
基金supported by the National Natural Science Foundation of China(32302774)Beijing Innovation Consortium of Agriculture Research System(BAIC04)+1 种基金China Agriculture Research System(CARS-40)the Agricultural Science and Technology Innovation Program of the Feed Research Institute of the Chinese Academy of Agricultural Sciences(CAASIFR-ZDRW202402).
文摘Background Organic selenium(Se)has gained recognition in poultry nutrition as a feed additive to boost production and Se deposition in eggs and tissues,owing to its high bioavailability,efficient tissue accumulation and minimal toxicity.Selenium-enriched yeast(SeY)is a well-established source,while selenium-enriched lactobacilli(SeL),a newer alternative,offers the added benefits of probiotics.This study examined the effects of SeY and SeL on egg quality,antioxidant capacity,Se deposition,and gut health in laying hens.After a two-week pre-treatment with a Sedeficient diet(SeD),450 Hy-Line Brown laying hens(30-week-old)were assigned into five dietary groups with six replicates of 15 hens each.The groups included a SeD,SeD supplemented with 1.5 mg Se/kg from SeY(SeY15),or 1.5,3.0,and 6.0 mg Se/kg from SeL(SeL15,SeL30,SeL60).The feeding trial lasted for 12 weeks.Results SeY15 and SeL15 improved the feed-to-egg ratio(P<0.05)in the latter stages.Haugh units were significantly increased(P<0.05)in the SeY15 and SeL30 groups,while darker yolk color(P<0.05)was observed in the SeY15,SeL15,and SeL60 groups.All Se-supplemented diets increased Se content in whole eggs,albumen,and yolk(P<0.05),while SeL groups showed a dose-dependent effect.Antioxidant enzyme activities increased,and MDA content decreased in the serum(P<0.05),with SeY15 showing the highest GSH-Px levels(P<0.05).SeL60 increased serum alkaline phosphatase and aspartate transaminase,and distorted the liver architecture(P<0.05).Se-diets reduced concentrations of reactive oxygen species(ROS)in the ileum and liver(P<0.05).SeL15 improved the ileal villus height-tocrypt depth ratio(P<0.05).SeY15 and/or SeL15 up-regulated TXNRD1 and SEPHS1 mRNA while down-regulating SCLY expression in the liver.SeY15 altered ileal microbiota by increasing both beneficial and pathogenic bacteria,whereas SeL15 predominantly boosted beneficial bacteria.Conclusion SeL integrates the antioxidant properties of organic Se with the probiotic benefits on gut health,resulting in a performance-enhancing effect comparable to that of SeY.However,high SeL level(6.0 mg Se/kg)compromised productivity and metabolic functions while enhancing Se deposition.
基金financially supported by the National Natural Science Foundation of China(32072774)the China Postdoctoral Science Foundation(2023M733822)+2 种基金the Beijing Innovation Consortium of Agriculture Research System(BAIC04),Chinathe earmarked fund for CARS National System for Layer Production Technology,China(CARS-40)the Agricultural Science and Technology Innovation Program(ASTIP)of the Chinese Academy of Agricultural Sciences。
文摘This study examined the effect of dietary serine(Ser)on egg white quality,ovomucin content of laying hens fed low-gossypol cottonseed meal(LCSM)-based diet and sought to explore the regulatory mechanism underlying the effects.A total of 288 Hy-Line Brown layers were randomly assigned into 3 treatments and respectively offered soybean meal(SBM)-based diet,LCSM-based diet,and LCSM-based diet supplemented with 0.435%L-Ser.Dietary Ser supplementation reversed the decrease in quality indices of albumen,including the proportion of thick albumen(P<0.05),thick-to-thin ratio(P<0.05),albumen height(P<0.05),Haugh unit(P<0.05),and apparent viscosity that were caused by LCSM intake.Also,dietary Ser supplementation mitigated the LCSM-induced reduction in ovomucin content of the albumen(P<0.05).FT-IR analysis of ovomucin revealed differences in second derivative spectra at 1,200-800 cm^(-1) between birds received SBM-and LCSM-based diets,meanwhile,the α-helix of ovomucin was decreased by LCSM but increased by Ser addition(P<0.05).Furthermore,Ser addition up-regulated the mRNA expression of β-ovomucin in magnum mucosa at 2 and 7.5 h post-oviposition(P<0.05).Ser mitigated the LCSMinduced impairment of magnum epithelium,increased goblet cell counts(P<0.05),and up-regulated the expression of occludin,mucin 2,and the relevant glycosyltransferases for O-glycosylation in magnum mucosa(P<0.05).Conclusively,the alleviating effect of Ser on declining albumen quality due to dietary LCSM,could be explained by the efficacy of Ser in regulating ovomucin synthesis.This regulation occurred at the levels of transcription and posttranscriptional O-glycosylation modification ofβ-ovomucin,while positive effect on magnum morphology and barrier function could also in part account for the ovomucin content.This would provide a promising research direction on the adoption of nutritional interventions for manipulation of egg white quality from perspectives of albumen protein synthesis.
基金funded by the National Key Research and Development Program of China,grant number 2021YFD1300600Sichuan Science and Technology Program(2024YFNH0025,2022YFYZ0005,2021YFYZ0031)China Agriculture Research System of MOF and MARA(CARS-40).
文摘Background Uterine aging is a key factor contributing to the deterioration of egg quality and reproductive performance in laying hens.Despite its importance,the molecular mechanisms underlying uterine aging remain poorly defined.This study aimed to characterize gene expression and regulatory changes associated with uterine aging in hens at different life stages.Results Transcriptomic Analysis of uterine tissue from hens aged 350,500,And 700 d revealed dynamic changes in gene expression patterns during aging.A significant upregulation of genes involved in cellular senescence was observed,including increased expression of the p53 signaling pathway And markers associated with inflammation And cell cycle arrest.The most notable changes occurred between 350 And 500 d of age,suggesting this as a critical window for the onset of uterine aging.MicroRNA sequencing identified miR-210a-5p as significantly reduced with age.Target prediction and experimental validation showed that miR-210a-5p directly suppresses the expression of RASL11B,a Ras-like small GTPase that activates the MAPK signaling pathway.In primary uterine epithelial cells,reduced miR-210a-5p levels led to elevated RASL11B expression,increased activation of B-Raf,MEK,and ERK proteins,and enhanced expression of aging-related genes and inflammatory factors.In contrast,overexpression of miR-210a-5p or inhibition of the MAPK pathway delayed senescence and reduced inflammatory signaling.RASL11B overexpression was sufficient to induce aging phenotypes,confirming its central role in promoting uterine cellular aging.Conclusions This study identifies a novel regulatory pathway in which miR-210a-5p modulates uterine aging through the RASL11B-MAPK signaling cascade.The findings provide mechanistic insight into age-related reproductive decline in hens and suggest that targeting this pathway may offer new strategies for maintaining uterine function and extending reproductive lifespan in poultry.
基金supported by a the National Research Foundation(NRF),funded by the Ministry of Science and ICT(RS-2023-00218476,RS-2024-00454619)the Cooperative Research Program for Agriculture Science and Technology Development(RS-2022-RD010165)+1 种基金the Ministry of Health&Welfare,Republic of Korea(RS-2022-KH128577)the BK21 FOUR Program of the Department of Agricultural Biotechnology,Seoul National University,Seoul,Korea.
文摘Background Despite growing concerns about the adverse effects of antibiotics in farm animals,there has been little investigation of the effects of florfenicol in laying hens.This study examined the effect of florfenicol on the intestinal homeostasis,immune system,and pathogen susceptibility of laying hens.Results The oral administration of florfenicol at field-relevant levels for 5 d resulted in a decrease in the gut microbiota genera Lactobacillus,Bacillus,and Bacteroides,indicating the development of intestinal dysbiosis.The dysbiosis led to decreased mRNA levels of key regulators peroxisome proliferator-activated receptor gamma(PPAR-γ)and hypoxia-inducible factor-1α(HIF-1α),compromising intestinal hypoxia.Intestinal homeostasis was also disrupted,with decreased expression of Occludin and Mucin 2(Muc2)genes combined with increased gut epithelial permeability.The breakdown in intestinal homeostasis and immune function provided a favorable environment for opportunistic bacteria like avian pathogenic Escherichia coli(APEC),culminating in systemic infection.Immunologically,florfenicol treatment resulted in increased proportion and absolute number of MRC1L-B^(+)monocytes/macrophages in the spleen,indicating an exacerbated infection.Furthermore,both the proportion and absolute number ofγδT cells in the lamina propria of the cecum decreased.Treatment with florfenicol reduced butyrate levels in the cecum.However,the administration of butyrate before and during florfenicol treatment restored factors associated with intestinal homeostasis,including PPAR-γ,Occludin,and Muc2,while partially restoring HIF-1α,normalized intestinal hypoxia and gut permeability,and reversed immune cell changes,suppressing APEC systemic infection.Conclusion The uncontrolled and widespread use of florfenicol can negatively affect intestinal health in chickens.Specifically,florfenicol was found to impair intestinal homeostasis and immune function in laying hens,including by reducing butyrate levels,thereby increasing their susceptibility to systemic APEC infection.The development of strategies for mitigating the adverse effects of florfenicol on gut health and pathogen susceptibility in laying hens is therefore essential.
基金Supported by International Collaboration Program (43006167)~~
文摘Two strains of Gallibacterium, isolated from one laying hen flock in Zhengzhou City of Henan Province, were identified by the morphological observation, genus -specific PCR, and analysis of 16S rRNA gene, which was used to generate the phylogenetic tree, with the 21 members of the 12 genera belonging to Pasteurellaceae to analyze the homology. Two strains were named Yu-ZZ-HL-I-SLG and Yu-ZZ-HL-II-GZ. The comparative result of the 16S rDNA sequence shows that the 2 isolated strains are identical in sequence; the highest identity (99.9%) was observed between the isolated strain and one of the strains of Gallibacterium anatis (AF22.8002), the homologies between the isolated strain and 3 strains of gallibacterium accessed in NCBI (AF22.8016, Gallibacterium genomosp. 1, AF228017, Gallibacterium genomosp. 2, AF22.8018, Gal- libacterium genomosp. 1 ) were above 97.1%, higher than that of the isolated strain and the other strains of the other 11 genera which were between 90.7% -93.2%. It can be seen from the phylogenetic tree that the 2 isolated strains and the other 4 strain of gallibacterium fell into the same branch, furthermore the 2 isolated strains and the strain of Gallibacterium anatis locate in an internal branch, indicating that the 2 isolated strains belong to Gallibacterium anatis.
文摘[Objective] This study aimed to investigate the histopathological changes of hens with colibacillosis.[Method] Epidemiological investigation,clinical symptoms observation,pathological autopsy,laboratory diagnosis and paraffin-embedded tissue section were performed to diagnose the laying hens from a farm in Changli County,affected by a disease similar to pericarditis and perihepatitis in clinical symptoms.[Result] The pathogen isolated from those hens was E.coli.The histopathological changes of the diseased hens included myocardial cell degeneration and inflammatory cell infiltration in heart,fibrotic perihepatitis,necrotic hepatitis in liver,decreased lymphoid cells and inflammatory cell infiltration in spleen,lung congestion,lung room full of erythrocytes,hyaline degeneration in glomerular capillary and small intestinal epithelial cell shedding.[Conclusion] This study will provide scientific basis for the diagnosis and control of colibacillosis in poultry.
基金Supported by Agricultural Science and Technology Achievement Transformation Fund of Ministry of Science and Technology(2012GB2A200044)Fund from Department of Science and Technology of Hebei Province(13826615D)~~
文摘[Objective] This study was conducted to investigate the effects of tradi- tional Chinese herbal medicines on blood biochemical indices of egg-laying hens under heat stress and to provide theoretical basis for clinical application of the medicines. [Method] One hundred of 88-day-old ISA-Brown hens were randomly di- vided into five groups. The hens in four groups were administrated with Prescription I herbal medicines, Prescription II herbal medicines, Vc and blank control under ar- tificially simulated heat stress, respectively. The last group was raised under normal temperature condition. Blood samples of the hens were collected on 1, 4, 8 and 10 d later and detected for their biochemical indices. [Result] The blood sodium (Na), phosphorus (P), potassium (K) and chlorine (CI) concentrations in hens under heat stress were decreased, while the activities of alanine aminotransferase (ALT), lactate dehydrogenase (LDH) and creatine kinase (CK) were increased. These indices grad- ually returned to normal levels after the use of traditional Chinese herbal medicines. [Conclusion] The herbal medicines can relieve the adverse effects caused by heat stress to blood biochemical indices via different metabolic pathways of ions and en- zymes.
文摘This study aimed to determine the level of use of fermented kapok seed to substitute 100% soybean meal in native laying hen rations without adverse effect on laying hen production. Two hundred and forty laying hens aged 20 weeks were used in this experiment. The completely randomized design was assigned with six treatments to replace 0, 20%, 40%, 60%, 80% and 100% of soybean meal with fermented kapok seed with four replications. The variables measured were feed intake, feed conversion and income over feed cost (gross profit), as well as variables related to egg production (hen day production and egg weight), thickness of eggshell and yolk color index for quality of eggs. Data were analyzed statistically using analysis of variance (ANOVA), and if the result shows a marked influence, it will be followed by Duncans test (DMRT). The results showed that the performance of laying hen had not been affected significantly by substituting soybean meal with fermented kapok seed. Feed intake, feed conversion and egg production is not influenced either. In summary, the use of fermented kapok seed to substitute soybean meal in the ration can be up to 100% in the diet of laying chicken.
文摘Transportation of spent laying hens causes them severe suffering. HAI-MESHEK (The Israeli Society for the Prevention of Cruelty to Farm Animals) looked for ways to decrease the suffering and finally developed the solution. Spent laying hens are brutally taken out of the cages, and with broken legs and chests pressed into small boxes for transportation to the slaughter-house. Removing all hens from the cages, transportation, waiting in the slaughter-house and slaughtering all hens is a long and hard-suffering time, which may take 8-10 hours. Hai-Meshek conducted a research, aimed at finding more humane methods of transportation. The findings from other countries were very disappointing. Even in countries having high level of animal welfare, about 30% of the hens arrived at the slaughter-house with broken limbs! The conclusion was that even better method, imposed by legislation, would not solve the problem: it is difficult to detect truck drivers violating the rules and the fine is negligible, compared to the savings by the abovementioned cruel method. The only humane solution is by preventing the transportation and slaughtering on farm. Spent laying hens are not edible, so they need not be slaughtered in the slaughter-house. Hai-Meshek initiated and participated in the development and the building of a facility for the humane killing of spent laying hens on farms. The hens aye electrified and die in 1-1.5 seconds. This method costs far less than transportation and slaughtering. The Poultry Council, which takes care to remove spent laying hens from farms, requires contractors to use the facility and they bring it to every farm in Israel. The facility is also used for killing sick flocks. No more transportation of spent laying hens is allowed!
文摘Based on the poem Xiatian Hai Hen Yuan夏天还很远, one of the most characteristic works of the Chinese poet Bai Hua, along with its four English translations, this paper conducts comparative textual studies with regard to three aspects, including the translation of hidden personae, the selection of the tense and aspectas well as the rendition of poetic rhythms. The author holds the view that, on the one hand, different textual interpretations have gone a long way toward the dissemination of the original poem in the English-speaking world;on the other hand, the translator's proper understanding and rendition is of great significance with a view to a better presentation of the unique beauty of Chinese poetry both in the content and the form.
基金supported by Shandong Key Science and Technology Innovation Program(2019JZZY010704)China Agriculture Research System(CARS-40-K12)+1 种基金Beijing Innovation Consortium of Agriculture Research System(BAIC04-2020)Agricultural Science and Technology Innovation Program(ASTIP)of the Chinese Academy of Agricultural Sciences.
文摘Background:Dietary essential oil(EO)supplementation can exert favorable effects on gut health in broilers.However,it is unknown whether EO could improve intestinal functions,consequently beneficial for egg performance and quality in late-phase laying hens.This study was aimed to investigate the potential effects of EO on production performance,egg quality,intestinal health and ileal microbiota of hens in the late phase of production.A total of 28860-week-old Hy-line Brown laying hens were randomly divided into 4 groups and fed a basal diet(control)or basal diets supplemented with oregano EO at 100,200 and 400 mg/kg(EO100,EO200 and EO400).Results:Dietary EO supplementation resulted in a quadratic decrease(P<0.05)in feed conversion ratio with lower(P<0.05)feed conversion ratio in EO200 group than the control during weeks 9–12 and 1–12 of the trial.Compared to the control,EO addition resulted in higher(P<0.05)eggshell thickness at the end of week.4,8 and 12 and higher(P<0.05)chymotrypsin activity.There was a quadratic elevation(P<0.05)in ileal chymotrypsin and lipase activity,along with a linear increase in villus height to crypt depth ratio.Quadratic declines(P<0.05)in mRNA expression of IL-1β,TNF-α,IFN-γ and TLR-4,concurrent with a linear and quadratic increase(P<0.05)in ZO-1 expression were identified in the ileum with EO addition.These favorable effects were maximized at medium dosage(200 mg/kg)of EO addition and intestinal microbial composition in the control and EO200 groups were assessed.Dietary EO addition increased(P<0.05)the abundances of Burkholderiales,Actinobacteria,Bifidobacteriales,Enterococcaceae and Bacillaceae,whereas decreased Shigella abundance in the ileum.Conclusions:Dietary EO addition could enhance digestive enzyme activity,improve gut morphology,epithelial barrier functions and modulate mucosal immune status by altering microbial composition,thus favoring feed efficiency and eggshell quality of late-phase laying hens.
基金Project supported by the National Natural Science Foundation of China(Nos.31472160 and 31272525)
文摘A rapid decline in egg production of laying hens begins after 480 d of age. Such a rapid decrease results predominantly from the ovarian aging, accompanied by endocrine changes, decreased yolk synthesis and accumulation, and the reduction in follicles selected into the preovulatory hierarchy. In this study, hens at 90, 150, 280, and 580 d old (D90, D150, D280, and D580, respectively) were compared for yolk precursor formation in the liver to elucidate effects of aging on laying performance. The results showed that liver lipid synthesis increased remarkably in hens from D90 to D150, but decreased sharply at D580 as indicated by the changes in triglyceride (TG) levels. This result was consistent with the age-related changes of the laying performance. The levels of liver antioxidants and total antioxidant capacity decreased significantly in D580 hens and the methane dicarboxylic aldehyde in D580 hens was much higher than that at other stages. The serum 17β-estradiol level increased from D90 to D280, but decreased at D580 (P〈0.05). The expression of estrogen receptor a and 13 mRNAs in the liver displayed similar changes to the serum 17β-estradiol in D580 hens. Expressions of the genes related to yolk precursor formation and enzymes responsible for fat acid synthesis were all decreased in D580 hens. These results indicated that decreased yolk precursor formation in the liver of the aged hens resulted from concomitant decreases of serum 17β-estradiol level, transcription levels of estrogen receptors and critical genes involved in yolk precursor synthesis, and liver antioxidant status.
