Hydroxychloride Trace Minerals Have a Positive Effect on Growth Performance, Carcass Quality and Impact Ileal and Cecal Microbiota in Broiler Chickens
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Abstract Background: The objective was to study the effect of hydroxychloride trace minerals (HTM) on growth performance, carcass quality and gut microbiota of broiler chickens in comparison to sulphate trace minerals (STM). In total 1440 male Ross 308 day-old chicks were divided over 12 replicate pens with 30 birds each per treatment. Four different treatments were tested according to a 2×2 factorial study design, where the animals received a three phase diet containing either inorganic Zn from sulphates or Zn from HTM in high (80 ppm Zn) or low Zn dosage (20 ppm Zn). In all treatments 15 ppm Cu was added from the same mineral source as the Zn. Body weight and feed intake were measured on day 0, 10, 27 and 34, while carcass and breast meat yields were measured at the end of the study (day 34). In addition, high-throughput sequencing analysis was performed in digesta samples from ileum and cecum to study the gut microbiome (day 34). Results: The results showed an improved (P<0.05) body weight of broiler chickens fed HTM, regardless of Zn level, on day 27, while on day 34 this effect remained as a tendency (P= 0.0542). In the overall study period, birds fed HTM had a higher (P<0.05) average daily gain and average daily feed intake when compared to birds fed STM. The mineral source did not affect the carcass characteristics, however, feeding 80 ppm Zn resulted in a significantly higher (P=0.0171) breast meat yield, regardless of source. High-throughput sequencing analysis of the microbiota revealed a higher microbial diversity in the ileum and cecum of HTM fed birds compared to STM fed birds. Taxonomical differences were mainly found in the cecum, specifically between the group fed high and low Zn levels from HTM. This is in line with the mineral contents observed in the cecal digesta. Comparing both groups fed 80 ppm Zn, the HTM group had more Streptococcaceae, Streptococcus , Clostridia, Weissella and Leuconostocaceae compared to the STM group. Conclusions: HTM improved growth performance of the birds; and the source and level of Zn modulated the gut microbiota communities in broilers differentially.Keywords:
Trace Minerals
Trace Minerals
Cecum
Lactobacillus crispatus
The microbial communities of the ileum and cecum of broiler chickens from a conventional and an organic farm were investigated using conventional culture techniques as well as cloning and sequencing of 16S rRNA genes. Eighty-five percent of the 557 cloned sequences were <97% related to known cultured species. The chicken ileum was dominated by lactobacilli, whereas the cecum harbored a more diverse microbial community. The cecum was dominated by a large group of bacteria with hitherto no close cultured relatives but most closely related to Faecalibacterium prausnitzii. Approximately 49 and 20% of the cecal clones belonged to this cluster in conventional and organic broiler chickens, respectively. We were, however, able to recover a number of these phylotypes by cultivation, and the isolates were shown to be butyric acid producers. The investigation was a descriptive rather than a comparative study of 2 different rearing systems; however, several differences were observed. For instance, Clostridium perfringens was found in significantly higher numbers in the birds from the organic farm compared with the conventional broilers, probably due to the addition of salinomycin to the conventional feed. In the ileum, the abundance of the different Lactobacillus species differed between the 2 broiler types. The culture-based and culture-independent techniques complemented each other well. Strengths and limitations of the different methods are discussed.
Cecum
Clostridium perfringens
Faecalibacterium prausnitzii
Salinomycin
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Abstract Background: The objective was to study the effect of hydroxychloride trace minerals (HTM) on growth performance, carcass quality and gut microbiota of broiler chickens in comparison to sulphate trace minerals (STM). In total 1440 male Ross 308 day-old chicks were divided over 12 replicate pens with 30 birds each per treatment. Four different treatments were tested according to a 2×2 factorial study design, where the animals received a three phase diet containing either inorganic Zn from sulphates or Zn from HTM in high (80 ppm Zn) or low Zn dosage (20 ppm Zn). In all treatments 15 ppm Cu was added from the same mineral source as the Zn. Body weight and feed intake were measured on day 0, 10, 27 and 34, while carcass and breast meat yields were measured at the end of the study (day 34). In addition, high-throughput sequencing analysis was performed in digesta samples from ileum and cecum to study the gut microbiome (day 34). Results: The results showed an improved (P<0.05) body weight of broiler chickens fed HTM, regardless of Zn level, on day 27, while on day 34 this effect remained as a tendency (P= 0.0542). In the overall study period, birds fed HTM had a higher (P<0.05) average daily gain and average daily feed intake when compared to birds fed STM. The mineral source did not affect the carcass characteristics, however, feeding 80 ppm Zn resulted in a significantly higher (P=0.0171) breast meat yield, regardless of source. High-throughput sequencing analysis of the microbiota revealed a higher microbial diversity in the ileum and cecum of HTM fed birds compared to STM fed birds. Taxonomical differences were mainly found in the cecum, specifically between the group fed high and low Zn levels from HTM. This is in line with the mineral contents observed in the cecal digesta. Comparing both groups fed 80 ppm Zn, the HTM group had more Streptococcaceae, Streptococcus , Clostridia, Weissella and Leuconostocaceae compared to the STM group. Conclusions: HTM improved growth performance of the birds; and the source and level of Zn modulated the gut microbiota communities in broilers differentially.
Trace Minerals
Trace Minerals
Cecum
Lactobacillus crispatus
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The objective was to study the effect of hydroxychloride trace minerals (HTM) on growth performance, carcass quality and gut microbiota of broiler chickens in comparison to sulphate trace minerals (STM). In total 1440 male Ross 308 day-old chicks were divided into 12 replicate pens with 30 birds each per treatment. Four different treatments were tested according to a 2 × 2 factorial study design, where the animals received a three phase diet containing either inorganic Zn from sulphates or Zn from HTM in high (80 mg/kg Zn) or low Zn dosage (20 mg/kg Zn). In all treatments 15 mg/kg Cu was added from the same mineral source as the Zn. Body weight and feed intake were measured on day 0, 10, 27 and 34, while carcass and breast meat yields were measured at the end of the study (day 34). In addition, high-throughput sequencing analysis was performed in digesta samples from ileum and cecum to study the gut microbiome (day 34).The results showed an improved (P < 0.05) body weight of broiler chickens fed HTM, regardless of Zn level, on day 27, while on day 34 this effect remained as a tendency (P = 0.0542). In the overall study period, birds fed HTM had a higher (P < 0.05) average daily gain and average daily feed intake when compared to birds fed STM. The mineral source did not affect the carcass characteristics, however, feeding 80 mg/kg Zn resulted in a significantly higher (P = 0.0171) breast meat yield, regardless of source. High-throughput sequencing analysis of the microbiota revealed a higher microbial diversity in the ileum and cecum of HTM fed birds compared to STM fed birds. Taxonomical differences were mainly found in the cecum, specifically between the group fed high and low Zn levels from HTM. This correlated with the mineral contents observed in the cecal digesta. Comparing both groups fed 80 mg/kg Zn, the HTM group had more Streptococcaceae, Streptococcus, Clostridia, Weissella and Leuconostocaceae compared to the STM group.HTM improved growth performance of broiler chickens; and the source and level of Zn modulated the gut microbiota communities in broilers differentially.
Trace Minerals
Trace Minerals
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The study reports the effects of Bacillus subtilis 29784 on broiler performance. A total of 1,600 one-day-old Cobb 500 male broiler chicks received either a control diet or the same diet to which B. subtilis 29784 spores were added (1E8 CFU/kg of feed). The birds were slaughtered at 42 D of age. Ileal and cecal tissues and content were collected for histomorphological analysis and 16S rRNA gene sequencing, respectively. The inclusion of B. subtilis 29784 led to an increase of final body weight gain of broilers (+5.7%; P < 0.0001) and an improvement in feed conversion ratio (-5.4%; P < 0.0001). Higher feed efficiency in the Bacillus-fed group was correlated with a significant increase in intestinal microvilli length (+18% in ileum and +17% in cecum; P < 0.001). Among the differences revealed by 16S rRNA analysis, Ruminococcus, Lachnoclostridium, and Anaerostipes were found in higher relative abundance in Bacillus-treated birds at the cecal level. These bacterial genera include species that produce butyrate, the main source of energy for enterocytes and known to be an immune modulator. There was also a slight increase in the Butyrivibrio genus in the cecum, which is known to be an important player in the production of conjugated linoleic acid, also considered an anti-inflammatory compound. In conclusion, dietary supplementation of B. subtilis 29784 significantly improved the growth performance of broilers, likely through beneficial effects on microbiota and host.
Cecum
Ruminococcus
Feed additive
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Abstract Background: The objective was to study the effect of hydroxychloride trace minerals (HTM) on growth performance, carcass quality and gut microbiota of broiler chickens in comparison to sulphate trace minerals (STM). In total 1440 male Ross 308 day-old chicks were divided into 12 replicate pens with 30 birds each per treatment. Four different treatments were tested according to a 2×2 factorial study design, where the animals received a three phase diet containing either inorganic Zn from sulphates or Zn from HTM in high (80 mg/kg Zn) or low Zn dosage (20 mg/kg Zn). In all treatments 15 mg/kg Cu was added from the same mineral source as the Zn. Body weight and feed intake were measured on day 0, 10, 27 and 34, while carcass and breast meat yields were measured at the end of the study (day 34). In addition, high-throughput sequencing analysis was performed in digesta samples from ileum and cecum to study the gut microbiome (day 34). Results: The results showed an improved ( P <0.05) body weight of broiler chickens fed HTM, regardless of Zn level, on day 27, while on day 34 this effect remained as a tendency ( P =0.0542). In the overall study period, birds fed HTM had a higher ( P <0.05) average daily gain and average daily feed intake when compared to birds fed STM. The mineral source did not affect the carcass characteristics, however, feeding 80 mg/kg Zn resulted in a significantly higher ( P =0.0171) breast meat yield, regardless of source. High-throughput sequencing analysis of the microbiota revealed a higher microbial diversity in the ileum and cecum of HTM fed birds compared to STM fed birds. Taxonomical differences were mainly found in the cecum, specifically between the group fed high and low Zn levels from HTM. This correlated with the mineral contents observed in the cecal digesta. Comparing both groups fed 80 mg/kg Zn, the HTM group had more Streptococcaceae, Streptococcus , Clostridia, Weissella and Leuconostocaceae compared to the STM group. Conclusions: HTM improved growth performance of broiler chickens ; and the source and level of Zn modulated the gut microbiota communities in broilers differentially.
Trace Minerals
Cecum
Trace Minerals
Lactobacillus crispatus
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본 연구는 유산균의 급여가 육계 생산성, 장내미생물 균총, 융모 발달에 미치는 영향을 구명하고 유산균의 장내 거주 상태와 점막 조직을 관찰하고자 수행되었다. 1일령 육계 수평아리(Avian) 600수 육계를 공시하여 5처리 4반복 반복당 30수씩 완전 임의배치 하고, 육계 및 산란계의 맹장에서 유래한 Lactobacillus crispatus avibro1(LCB), Lactobacillus reuteri avibro2 (LRB), Lactobacillus crispatus avihen1(LCH), Lactobacillus vaginalis avihen2 (LVH)을 사료 g당 107cfu 수준으로 급여하였다. 5주 종료체중 및 증체량은 대조구인 유산균 무첨가구에 비해 유산균 첨가구에서 유의적으로 증가하였다(P<0.05). 사료 섭취량은 처리구간 차이가 나타나지 않았다. 유산균의 경우 주령 및 유산균의 종류에 따라 차이를 보이기는 했으나 유산균 첨가시 대조구에 비해 유의하게 증가하는 경향을 보였다. Yeast의 경우 회장에서 1주령까지는 장내에 완전히 정착하지 못하는 것으로 생각되며, 맹장 및 3주령 이후의 회장에서는 대부분의 유산균 첨가구에서 yeast의 수가 증가하였다(P<0.05). 회장 및 맹장 내 혐기성 미생물 역시 유산균 급여구에서 유의하게 증가하거나 증가하였다(P<0.05). 광학 현미경적 관찰에서 회장 융모는 3주령까지 급격하게 신장되고 이후 완만한 성장 양상을 보였는데, 3주령 이후 유산균 급여구는 지속적으로 성장하는데 반하여 대조구는 성장이 지연되는 것으로 나타났다(P<0.05). 전자 현미경적 관찰에서 유산균은 소화기관 점막부근에 거주하며 점막조직에 영향을 미치는 것으로 관찰되었고 또, 유산균 급여구가 무첨가에 비하여 점막조직 발달 상태가 양호한 개체가 많았다. 본 연구 결과 육계 및 산란계 유래 유산균의 급여는 육계 생산성을 향상시키고 회장 융모 발달에 긍정적인 영향을 미쳐 생균제로서의 이용 가능성이 있을 것으로 사료된다. This experiment was conducted to investigate the effects of dietary supplementation of various Lactobacilli strains on growth performance, intestinal microflora, ileal villi development and ileal mucosal surface of broiler chickens. Six hundred 1-d-old male chicks(Avian) were randomly divided into five groups of four replicates, each replicates containing 30 birds and fed corn-soybean meal diets containing Latobaillus were isolated from cecum of chichens at 107cfu/g diet for five weeks. The treatments were control(antibiotics-free diet), Lactobacillus crispatus avibro1(LCB), Lactobacillus reuteri avibro2(LRB), Lactobacillus crispatus avihen1(LCH) or Lactobacillus vaginalis avihen2(LVH). The body weight gain in groups fed Lactobacillus significantly improved as compared to those of control(P<0.05). Feed intake was not statistically different among the groups. The number of Lactobacillus in ileum and cecum of chicks fed various Lactobacillus tended to be increased or significantly increased as compared to those of the control(P<0.05), but there was difference by age of chicks and species of Lactobacillus. The number of yeast was significantly increased in cecum and ileum at three weeks old chicks fed Lactobacilli compared with the control(P<0.05). The anaerobes’ number of ileum and cecum tended to increase or significantly increased in Lactobacillus treatments compared with the control(P<0.05). The ileal villi length extended greatly at three weeks of age in groups fed Lactobacillus compared with the control(P<0.05). The length of ileal villi in chicks fed Lactobacillus was continuously increased up to five weeks of age, but did not increased in the control(P<0.05). Lactobacillus was found on ileal mucosal surface. And ileal mucosal surface was maintained better with Latobacillus feeding. These results suggest the possibility that cecal Lactobacillus of chickens could be used as probiotics by improving the growth performance and promoting development of ileal villi in broiler chicks.
Lactobacillus crispatus
Cecum
Lactobacillus reuteri
Lactobacillus gasseri
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Salmonella enterica
Cecum
Intestinal villus
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Two experiments were conducted to study the effect of various levels of dl-Met or 2-hydroxy-4-methylthiobutanoic acid (MHA-FA) on Clostridium perfringens and other intestinal bacteria in broiler chickens. In each experiment, 2 cages of 6 birds (14 d posthatch) were assigned to 1 of 7 different diets in a 2 × 4 factorial arrangement. The main effects were Met source (either dl-Met or MHA-FA) and Met level (0, 0.2, 0.4, or 0.8% dl-Met or 0, 0.227, 0.454, and 0.908% MHA-FA, thus providing 4 corresponding equimolar levels of each Met source). All birds were orally gavaged with a C. perfringens type A broth culture on d 1 and on d 14 to 20 and killed on d 28. Intestinal populations of C. perfringens, lactobacilli, Streptococcus group D, and coliforms were enumerated in the ileum and cecum, and necrotic enteritis intestinal lesions were scored. There was a significant reduction (P < 0.05) in C. perfringens populations in birds fed either Met source in the cecum (experiment 1) or the ileum and cecum (experiment 2). In experiment 2, the lactobacillus populations were significantly higher (P < 0.05) in the ceca of birds receiving 0.8% Met than in the birds given diets with the other levels of Met tested. Significantly lower populations (P < 0.05) of coliforms and Streptococcus group D were enumerated in the ileum of birds fed the 0.8% Met-supplemented diet than in the other dietary treatments. The effect of Met source on intestinal bacteria was not significant, suggesting that both dl-Met and MHA-FA have similar antibacterial properties. Last, there were no significant differences in intestinal lesion scores or the performance of birds fed different Met sources and concentrations. The results suggest that both dl-Met and MHA-FA may reduce intestinal populations of C. perfringens in broiler chickens when used in relatively high concentrations, and may reduce the risk of necrotic enteritis. Thus, feeding low-protein diets supplemented with crystalline amino acids might be beneficial in terms of the growth of various enteric pathogens.
Clostridium perfringens
Cecum
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A total of 294 one-day-old Cobb broiler chickens were used to investigate the effects of four Lactobacillus strains on gut microbial profile and production performance. The six dietary treatments, each with 7 replicates were: 1) basal diet (negative control), 2) one of four strains of Lactobacillus (tentatively identified as Lactobacillus johnsonii, Lactobacillus crispatus, Lactobacillus salivarius and an unidentified Lactobacillus sp.) and 3) basal diet with added zinc-bacitracin (ZnB, 50 mg/kg). Results showed that the addition of probiotic Lactobacillus spp. to the feed did not significantly improve weight gain, feed intake and feed conversion rate (FCR) of broiler chickens raised in cages during the 6-week experimental period, but tended to increase the number of total anaerobic bacteria in the ileum and caeca, and the number of lactic acid bacteria and lactobacilli in the caeca; and to significantly increase the small intestinal weight (jejunum and ileum). Furthermore, all 4 probiotics tended to reduce the number of Enterobacteria in the ileum, compared with the control treatments. The probiotics did not affect the pH and the concentrations of short chain fatty acids (SCFA) and lactic acid in both the ileum and caeca.
Lactobacillus crispatus
Lactobacillus salivarius
Lactobacillus fermentum
Lactobacillus reuteri
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