26 research outputs found
In vitro fermentation of broiler cecal content : the role of oactobacilli and pH value on the composition of microbiota and end products fermentation.
Aim: To assess the probiotic effects of Lactobacillus agilis
JCM 1048 and L. sali-varius ssp. salicinius JCM 1230 and the pH on the cecal microflora of chicken and metabolic end products. Methods and Results: An in vitro system, operated with batch bioreactor, was used for this assessment. Selected bacterial species were monitored at two pH
values, over 24 h of batch culture incubation. The concentration of short chain fatty acids (SCFA) and lactate in the fermented material was also determined. The addition of L. agilis JCM 1048 and L. salivarius ssp. salicinius
JCM 1230 into vessel 2 (Cc + P) increased the total anaerobes, lactobacilli and bifidobacteria after 24 h incubation. Moreover, lactobacilli supplementation decreased
the total aerobes and streptococci, but it did not have any effects on coliforms. The supplementation of lactobacilli in vessel 2 (Cc + P) was found to significantly increase the production of lactate, propionate and butyrate. Further-
more, pH did not alter the formation of butyrate, whereas the production of acetate and propionate was significantly decreased at pH = 5Æ 8.Conclusions:L. agilis JCM 1048 and
L. salivarius ssp. salicinius JCM 1230, as probiotic bacteria, have the ability to re-establish proper microbial balance by the formation of lactate as well as propionate, and stimulate butyrate-producing bacteria to produce butyrate in the chicken cecum. Significance and Impact of the Study: This study was the first to report this
under in vitro conditions, highlighting the probiotic roles of the two Lactobacillus strains in broiler cecal fermentation at different initial pH. These useful data
can be helpful in improving the fermentation process in chicken cecum
Gastrointestinal tract morphological alteration by unpleasant physical treatment and modulating role of Lactobacillus in broilers
1. An experiment was conducted to determine the effects of supposedly unpleasant physical treatment on broiler performance, small intestinal development and ameliorating role of probiotics. 2. The following treatments were applied from day one: (1) chicks exposed to normal human contact fed basal diet (control); (2) chicks were exposed to unpleasant physical treatment and fed basal diet (UPT-BD); and (3) chicks were exposed to unpleasant physical treatment and fed basal diet supplemented with Lactobacillus (UPT-BDL). Chicks were exposed to UPT from days 1 to 21. Different segments of gastrointestinal tract were sampled at 14, 28, 35 and 42 d of age. 3. Broilers of UPT-BD had lower feed consumption compared with control group at 7 d of age. Overall, UPT-BDL birds showed higher body weight gain (BWG) and better feed conversion ratio (FCR) over the course of the experiment. 4. Birds of UPT-BD had lower concentrations of lactic, propionic and butyric acids in the caecum as compared with other groups at 14 d of age. Acetic acid concentration was profoundly decreased in both UPT groups compared to the control. 5. Duodenal villus height of UPT-BD broilers showed a slight reduction compared to the control and UPT-BDL birds at 14 d of age. Afterwards until day 42, UPT-BDL birds showed the highest villus height among treatments in different parts of the small intestine. 6. The results suggested that, even though UPT did not have significant inhibitory effects on the development of the small intestine and broiler performance, it negatively affected bacterial metabolic end products in the caecum, which could be ameliorated by the addition of Lactobacillus
Selected microbial groups and short-chain fatty acids profile in a simulated chicken cecum supplemented with two strains of Lactobacillus.
Among the bacterial fermentation end products in the chicken cecum, butyrate is of particular importance because of its nutritional properties for the epithelial cell and pathogen inhibitory effects in the gut. An in vitro experiment, operated with batch bioreactor, was conducted to quantify butyric-producing bacteria in a simulated broiler cecum supplemented with Lactobacillus salivarius ssp. salicinius JCM 1230 and Lactobacillus agilis JCM 1048 during 24 h of incubation. Selected bacterial species were determined by real-time PCR and short-chain fatty acids and lactate concentrations were monitored. The results showed that after 24 h of incubation, Lactobacillus supplementation significantly increased the number of lactobacilli, bifidobacteria and Faecalibacterium prausnitzii in medium containing cecal content and lactobacilli supple-mentation (Cc + L) compared with the control (Cc). Addition of lactobacilli did not alter Escherichia coli and Clostridium butyricum, whereas it significantly (P < 0.05) reduced Salmonella in treatment Cc + L compared with the Cc treatment. Propionate and butyrate formation were significantly (P < 0.05) increased in treatment Cc + L as compared with the Cc treatment. Lactate was only detected in treatment containing 2 Lactobacillus strains. After 24 h of incubation, acetate concentration significantly (P < 0.05) decreased in all treatments. It was suggested that lactate produced by Lactobacillus in the cecal content improved the growth of butyric producers such as F. prausnitzii, which significantly increased butyrate accumulation. Additionally, the results showed that butyrate and propionate inhibited Salmonella without influencing the E. coli profile
Extensive microbial and functional diversity within the chicken cecal microbiome
Chickens are major source of food and protein worldwide. Feed conversion and the health of chickens relies on the largely unexplored complex microbial community that inhabits the chicken gut, including the ceca. We have carried out deep microbial community profiling of the microbiota in twenty cecal samples via 16S rRNA gene sequences and an in-depth metagenomics analysis of a single cecal microbiota. We recovered 699 phylotypes, over half of which appear to represent previously unknown species. We obtained 648,251 environmental gene tags (EGTs), the majority of which represent new species. These were binned into over two-dozen draft genomes, which included Campylobacter jejuni and Helicobacter pullorum. We found numerous polysaccharide- and oligosaccharide-degrading enzymes encoding within the metagenome, some of which appeared to be part of polysaccharide utilization systems with genetic evidence for the co-ordination of polysaccharide degradation with sugar transport and utilization. The cecal metagenome encodes several fermentation pathways leading to the production of short-chain fatty acids, including some with novel features. We found a dozen uptake hydrogenases encoded in the metagenome and speculate that these provide major hydrogen sinks within this microbial community and might explain the high abundance of several genera within this microbiome, including Campylobacter, Helicobacter and Megamonas
Effects of nanoencapsulated aloe vera, dill and nettle root extract as feed antibiotic substitutes in broiler chickens
Aloe vera, nettle and dill are herbs that have
been used in the poultry diet as feed additives to utilise their benefits in
improving performance, immune response and health of broiler chickens.
However, reactive and volatile properties of bioactive compounds in herbal
extracts cause limitations on direct usage of them in the diet. The use of
chitosan (CS) nanoparticles for the entrapment of active components has
gained interest in the last few years due to its mucous adhesiveness,
non-toxicity, biocompatibility and biodegradability. This study was an effort
to evaluate effects of nanoencapsulated extracts of aloe vera, dill and
nettle root used in diet on performance, carcass traits and serum
immunoglobulin (IgM and IgY) concentrations in broiler chickens. Chitosan
nanoparticles were prepared by using ionotropic gelation principle. After
nanogel preparation of herbal extracts, a total of 240 Ross (308) broiler
chicks were divided into eight treatments, with three replicates of 10 birds.
The eight dietary treatments consisted of control (no additives),
antibiotic (bacitracin 500 g t−1), non-encapsulated and
nanoencapsulated extracts of aloe vera, dill and nettle root. In each
experimental period, non-encapsulated (free extracts) and nanoencapsulated
extracts of aloe vera, dill and nettle roots were added in amounts of 0.02,
0.025 and 0.05 % to starter, grower and finisher diets,
respectively. Birds in different treatments received the same diets during
the experimental periods. Results revealed that increasing both
non-encapsulated and nanoencapsulated herbal extracts to 0.05 % in
finisher diets improved body weight gain in the time period of 28–42 days and
consequently the whole time from 1 to 42 days. However, in these periods, birds fed a diet
containing nanoencapsulated dill extract had a significantly (P < 0.05)
higher body weight gain compared with the antibiotic group, while
non-encapsulated dill extract treatment was intermediate. The addition of
nanoencapsulated nettle extract in diet significantly (P < 0.05) improved
feed conversion efficiency in the 28–42-day period compared with the antibiotic
group. In comparison with the antibiotic group, nanoencapsulation of dill extract
could profoundly improve growth performance and can therefore be used as
a substitute for antibiotics in the diet of broiler chickens
Choosing a Commercial Broiler Strain Based on Multicriteria Decision Analysis
With the complexity and amount of information in a wide variety of comparative performance reports in poultry production, making a decision is difficult. This problem is overcomed only when all data can be put into a common unit. For this purpose, five different decision making analysis approaches including Maximin, Equally likely, Weighted average, Ordered weighted averages and Technique for order preference by similarity to ideal solution were used to choose the best broiler strain among three ones based on their comparative performance and carcass characteristics. Commercial broiler strains of 6000 designated as R, A, and C (each strain 2000) were randomly allocated into three treatments of five replicates. In this study, all methods showed similar results except Maximin approach. Comparing different methods indicated that strain C with the highest world share market has the best performance followed by strains R and A
Ileal endogenous amino acid flow of broiler chickens under high ambient temperature.
High environmental temperature has detrimental effects on the gastrointestinal tract of poultry. An experiment was conducted to determine the
effect of acute heat stress on endogenous amino acid (EAA) flow in
broiler chickens. A total of 90, day-old broiler chicks were housed in
battery cages in an environmentally controlled chamber. Chicks were
fed a nitrogen-free diet on day 42 following either no heat exposure
(no-heat) or 2 weeks exposure to 35 ± 1 �C for 3 h from days 28 to 42
(2-week heat) or 1 week exposure to 35 ± 1 �C for 3 h from days 35 to
42 (1 week heat). The most abundant amino acid in the ileal flow was
glutamic acid, followed by aspartic acid, serine and threonine in nonheat stressed group. The EAA flow in 1-week heat and 2-week heat
birds were significantly (p < 0.05) higher than those under no heat
exposure (14682, 11161 and 9597 mg/kg of dry matter intake respectively). Moreover, the EAA flow of 2-week heat group was less than
1-week heat group by approximately 36%. These observations suggest
that the effect of heat stress on EAA flow is mostly quantitative; however, heat stress may also alter the content of EAA flow qualitatively