Global ETD Search

1	Antimicrobial resistance in direct-fed microbial preparations used in cattle Giok, Felicia Xiaofei January 1900 (has links) Master of Science / Department of Diagnostic Medicine/Pathobiology / Sanjeev Narayanan / The use of antimicrobials in animal feed has come under increasing scrutiny from the public and regulatory agencies. Direct-fed microbials (DFM) are considered valuable alternatives to antimicrobials in food animal nutrition. DFM are products containing live (viable microorganisms). Studies in Europe have reported antimicrobial resistance (AMR) in organisms used in DFM. This is of serious concern because of the potential for transferring resistance to pathogenic bacteria in the gut. The aim of the present study is to characterize phenotypic and genotypic AMR profiles for 20 different antimicrobials in bacterial strains isolated from 10 commercially available DFM used in. Two antimicrobial susceptibility testing methods, disc diffusion and broth micro-dilution based assay were performed. Enterococcus faecium isolates showed resistance towards metronidazole (n=9/9) with a MIC of > 32 μg/mL, erythromycin (n=5/9) with a MIC of ≥ 8 μg/mL, ciprofloxacin (n=2/9) with a MIC ≥ 4 μg/mL, ceftriaxone (n=6/9) with a MIC ≥ 0.25 μg/mL, rifampin (n=8/9) with a MIC of > 4 μg/mL, trimethoprim/sulfamethoxazole (n=4/9) with a MIC ≥ 1 μg/mL and clindamycin (n=5/9) with a MIC of > 0.5 μg/mL. A Propionibacterium freudenreichii isolate showed resistance towards kanamycin with a MIC of > 64 μg/mL. The same strain also had a MIC of 16 μg/mL for levofloxacin. Two Lactobacillus acidophilus were resistant to vancomycin (n=2/6) with a MIC ≥ 32 μg/mL. All the Lactobacillus species including L. acidophilus (n=6), L. casei (n=4) and L. plantarum (n=2) were resistant to metronidazole, MIC > 32 μg/mL. Two strains of Bacillus subtilis showed resistance to clindamycin, with an MIC of 4 μg/mL and erythromycin with an MIC of > 8 μg/mL, and one strain had no zone of inhibition for metronidazole (MIC > 32 μg/mL). Microarray analysis revealed resistance genes in E. faecium strains of 3 different DFM, including aminoglycoside resistance genes, ant(4’)-Ia, erythromycin resistance genes, ere(A2) and ermB, tetracycline resistance genes, tet39, tet31, tetK and tetC, and beta-lactam resistance gene, pbp5. Conjugation with filter mating showed erythromycin resistance gene transfer, msrC gene, from donor strains to a recipient strain (E. faecium 45-24). These studies show that AMR is prevalent among bacterial strains used as DFM in the cattle industry in the U.S., justifying further characterization, detection and observation of transferable antibiotic resistance between the same genus. . Antimicrobial Resistance Direct-Fed Microbial
2	ANTIMICROBIAL RESISTANCE IN DIRECT-FED MICROBIAL PREPARATIONS USED IN CATTLE GIOK, FELLICIA January 1900 (has links) Master of Science / Department of Diagnostic Medicine/Pathobiology / Sanjeev K. Narayanan / The use of antimicrobials in animal feed has come under increasing scrutiny from the public and regulatory agencies. Direct-fed microbials (DFM) are considered valuable alternatives to antimicrobials in food animal nutrition. DFM are products containing live (viable microorganisms). Studies in Europe have reported antimicrobial resistance (AMR) in organisms used in DFM. This is of serious concern because of the potential for transferring resistance to pathogenic bacteria in the gut. The aim of the present study is to characterize phenotypic and genotypic AMR profiles for 20 different antimicrobials in bacterial strains isolated from 10 commercially available DFM used in. Two antimicrobial susceptibility testing methods, disc diffusion and broth micro-dilution based assay were performed. Enterococcus faecium isolates showed resistance towards metronidazole (n=9/9) with a MIC of > 32 µg/mL, erythromycin (n=5/9) with a MIC of ≥ 8 µg/mL, ciprofloxacin (n=2/9) with a MIC ≥ 4 μg/mL, ceftriaxone (n=6/9) with a MIC ≥ 0.25 μg/mL, rifampin (n=8/9) with a MIC of > 4 µg/mL, trimethoprim/sulfamethoxazole (n=4/9) with a MIC ≥ 1 μg/mL and clindamycin (n=5/9) with a MIC of > 0.5 µg/mL. A Propionibacterium freudenreichii isolate showed resistance towards kanamycin with a MIC of > 64 µg/mL. The same strain also had a MIC of 16 µg/mL for levofloxacin. Two Lactobacillus acidophilus were resistant to vancomycin (n=2/6) with a MIC ≥ 32 μg/mL. All the Lactobacillus species including L. acidophilus (n=6), L. casei (n=4) and L. plantarum (n=2) were resistant to metronidazole, MIC > 32 µg/mL. Two strains of Bacillus subtilis showed resistance to clindamycin, with an MIC of 4 µg/mL and erythromycin with an MIC of > 8 µg/mL, and one strain had no zone of inhibition for metronidazole (MIC > 32 µg/mL). Microarray analysis revealed resistance genes in E. faecium strains of 3 different DFM, including aminoglycoside resistance genes, ant(4’)-Ia, erythromycin resistance genes, ere(A2) and ermB, tetracycline resistance genes, tet39, tet31, tetK and tetC, and beta-lactam resistance gene, pbp5. Conjugation with filter mating showed erythromycin resistance gene transfer, msrC gene, from donor strains to a recipient strain (E. faecium 45-24). These studies show that AMR is prevalent among bacterial strains used as DFM in the cattle industry in the U.S., justifying further characterization, detection and observation of transferable antibiotic resistance between the same genus. Antimicrobial resistance Direct-fed microbial (DFM)
3	Use of a novel probiotic as a direct fed microbial in monogastric livestock and poultry Scaletti, Ciana M. January 1900 (has links) Master of Science / Department of Animal Sciences and Industry / James M. Lattimer / Three experiments were conducted to determine the impact of novel probiotic (NP) supplementation in monogastric livestock and poultry. Experiment 1 evaluated effects of the probiotic on growth performance and cecal parameters in broiler chickens (n = 2520). Birds in treatment groups 1 and 2 were administered NP culture as either an oral gavage (OG) or an aerosolized mist (AM), respectively. Treatment group 3 served as a negative control (C). Growth performance and feed efficiency (FE) were unaffected by treatment (P > 0.10). Cecal pH was reduced in AM and OG birds compared to C (P < 0.05). This novel probiotic is most effective in altering cecal VFA profile before d 21 post-administration, after which no differences in VFA concentrations were detected between treatments. Reduction in cecal pH in response to NP indicates potential application of this probiotic as an acidifier, commonly used in poultry production as an antibiotic alternative. Experiment 2 was a swine performance study conducted to determine effects of treating sows or piglets or both with an oral gavage of NP. Factor 1 consisted of administration of NP oral gavage administered to sows or a negative control (n = 28). Factor 2 consisted of either a negative control or oral gavage of NP administered to litters of piglets shortly after birth and at weaning. Sow weight loss during lactation was unaffected by treatment (P > 0.10). Feed intake upon introduction to the nursery was greater in piglets that received NP directly than those that did not (P < 0.05). Large intestinal fermentation in both sows and piglets was affected by NP administration. Fecal VFA concentrations tended to be greater in animals that received NP either indirectly through the sow or directly via oral gavage (P < 0.05). Direct supplementation of piglets with NP is more effective in altering fermentation after d 21 than indirect administration, as VFA concentrations in piglets that received NP indirectly are similar to the control by d 28. Butyrate concentrations were greater in piglets that received NP; this VFA is important in prevention of intestinal atrophy and recovery from physiological stress of weaning. Experiment 3 examined effects of NP administered as either an oral drench (OD) or a lyophilized powder (LP) on equine cecal fermentation compared to a negative control (NC). Cecally cannulated horses (n = 8) were transitioned to a 1:1 roughage to concentrate diet over a period of 5 d. Cecal pH was greater than NC in OD and LP horses on d 5 and d 7, respectively (P < 0.10). Acetate:propionate ratio, valerate, and caproate concentrations also were greater in LP horses than NC on d 7 (P < 0.05). This may indicate improved gut health and fiber digestion in supplemented horses. The novel probiotic used in these studies is able to effectively alter large intestinal fermentation in monogastric species and may have potential to improve gut health and performance of these species. Megasphaera elsdenii Monogastric Direct fed microbial Probiotic
4	Effects of Direct-Fed Microbial Products, Butyrate, and Botanicals on Performance and Health of Broilers Raised on Used Pine Shaving Litter Lewis, Meredith D. 29 August 2018 (has links) Two experiments were conducted to determine the effects of various alternatives to antibiotics in broilers grown on used litter on performance, intestinal lesion scores, body composition, and cecal volatile fatty acid (VFA) concentrations. The first experiment used a corn-soybean meal based basal diet to generate a negative control (NC) diet (without treatment), a Bacillus licheniformis probiotic containing diet (NC + 0.10% DFM1), and four diets that contained various concentrations of a Bacillus subtilis probiotic (NC + 0.05% DFM2, NC + 0.10% DFM2, NC + 0.20% DFM2, and NC + 0.40% DFM2). Experimental diets were fed to broilers over a 42-day period. Body weight gain (BWG) was depressed from d 0-28 and d 0-42 with supplementation of 0.10% DFM1 and 0.05% DFM2 compared to NC fed birds (P ≤ 0.05), with no differences among the remaining treatments and the NC fed birds (P > 0.05). Feed intake (FI) and mortality corrected feed efficiency (FEm) were not different over the 0-42 day period. No differences in oocyst shedding, lesion scores, body composition or cecal VFA production were observed (P > 0.05). Consistently low lesion scores were indicative of a mild coccidial challenge. The second experiment utilized a corn-soybean meal basal diet to generate experimental treatment diets. The basal diet without additional supplements was fed to two groups of control birds, one on clean pine shaving litter (PC) and a second on used litter (NC). Treatment groups were fed the same diet, supplemented with butyrate for the first 14 days (NC + But 0-14), botanicals from d 15-43 (NC + Bot 15-43), butyrate from d 0-14 and botanicals from d 15-43 (NC + But 1-14/Bot 15-43), and butyrate from d 0-43 (NC + But 1-43). Butyrate supplementation reduced BWG from d 0-14 (P ≤ 0.05), but there were no differences in BWG from 0-43 d (P > 0.05). Feed intake was reduced for the NC + But 0-14 group from d 0-43 in comparison to both PC and NC. Lesion scores in the jejunum were reduced with supplementation of butyrate alone, fed for either d 0-14 or d 0-43 (P ≤ 0.05) and is an indication of a mild coccidial infection due to the used litter. Although there were no significant differences among treatments, overall performance was above industry expectations, likely due to the mild fall weather. These two experiments indicate that there are numerous factors involved in the efficacy of antibiotic alternatives, at least partially explaining the inconsistent results observed in the published literature. / Master of Science / Recently, increased regulations and customer demand have restricted and reduced the use of antibiotics in the poultry industry. Historically, antibiotics were used in poultry feed at sub-therapeutic levels to improve performance and prevent the incidence of clinical and subclinical disease. Since the reduction of antibiotic use, many producers have experienced reduced performance resulting in reduced profits. The limited use of antibiotics can also present an animal welfare issue associated with increased sub-clinical and clinical disease. Many researchers are investigating alternative feed additives that will both improve performance and prevent disease, including probiotics, organic acids, and botanical products. Previous research has demonstrated the ability of these alternative to positively, if inconsistently, influence the performance and health of broiler chickens. Therefore, the objective of this thesis is to investigate the effects of two probiotic bacteria fed at various concentrations and the effects of butyric acid and botanicals, fed alone, or in combination, on the performance, intestinal lesion scores, body composition, and cecal volatile fatty acid concentrations of broiler chickens raised on used litter. In these experiments, the used litter is representative of a mild disease challenge that would likely be present in a commercial poultry setting. Overall, there were few differences with the treatment of broilers with probiotic bacteria, but the lowest inclusions slightly reduced body weight gain compared to the control fed broilers. Butyric acid supplementation reduced body weight gain over the first 14 days, but these differences were no longer observed over the 0 to 42 day period. Although performance was not improved, butyrate did result in reduced intestinal lesion scores from the middle section of the small intestine, indicating potential health benefits with butyrate treatment. Overall, the data presented in this thesis suggest that there are a variety of factors that can alter the effectiveness of these alternatives in broiler production and care should be used in selection of antibiotic replacement tools. broiler coccidiosis direct-fed microbial butyrate botanical
5	Effect of Oral Administration of <i>Megasphaera elsdenii</i> on Performance of Holstein Cows During Early Lactation Stevens, Katilyn D. 26 December 2013 (has links) No description available. Animal Sciences
6	Effects of Nutritional Manipulation on Poultry under Normal and Stressful Conditions Sarsour, Albaraa Hisham 01 November 2021 (has links) Genetic selection for improved performance has necessitated the frequent update of amino acid requirements to support this improvement. The first objective of this dissertation was to investigate the tryptophan requirement of laying hens in peak production and the lysine and sulfur amino acid requirements of broiler chicks under a phase feeding scenario using different models. Digestible tryptophan requirements were estimated to be 137 for egg production, 133 for egg mass, and 133 for feed efficiency using the linear broken-line model. The lysine and sulfur amino acid requirement were estimated by conducting 3 experiments within the starter phase from 2 to 5, 5 to 8, and 8 to 11 days of age. The linear broken line estimate for digestible lysine was 1.22, 1.17 and 1.16% for BWG and 1.31, 1.21, and 1.14% for FCR in experiments 1, 2, and 3, respectively. The linear broken line estimate for sulfur amino acids was 0.82, 0.81 and 0.94% for BWG and 0.82, 0.80, and 0.90 for FCR in experiments 4, 5, and 6, respectively. The lysine requirements decreased from 2 to 5 to 8 to 11 days, however the sulfur amino acid requirements increased during that same period. This could be due to other roles that sulfur amino acids play in the body other than growth. The second objective of this dissertation was to investigate the effects of a direct fed microbial (DFM) on broilers exposed to a cyclic heat stress in 2 consecutive experiments. In this experiment, the heat stress treatment reduced body weight gain and lean tissue accretion from 0 to 35 d in both experiments. In Experiment 2, when the litter was reused BWG was increased by 36 g/bird with supplementation of DFM. Ileal digestibility at 28 d (2 hr post HS) was improved with DFM supplementation in both experiments. Serum FITC-d increased with HS at both 28 and 35 d. Serum FITC-d was generally decreased with DFM at 28 d but the response was inconsistent at 35 d. Overall, the results suggest that HS reduced broiler performance and DFM treatment improved intestinal permeability and nutrient digestibility responses to HS in both experiments but did not improve performance until built up litter was used in Experiment 2. The last objective of this dissertation was to investigate the effects of sulfur amino acids (SAA) on broilers exposed to a cyclic heat stress. As expected, HS reduced BWG and worsened FCR. The supplementation of SAA had no effect on live performance. At 28 d of age, supplementation of SAA to birds exposed to HS resulted in reduced intestinal permeability. The interaction was lost at 31 d, but HS still increased intestinal permeability (P ≤ 0.05). Potential oxidative damage was reduced by increased SAA supplementation as indicated by an increase in the reduced glutathione to oxidized glutathione ratio. These data suggest that intestinal permeability is compromised acutely to at least three days of heat exposure before the bird can adjust, but oxidative damage is more chronic building over the entire 7 d HS period. SAA might have some protective effect on both intestinal permeability and oxidative stress responses to HS. / Doctor of Philosophy / To provide low-cost meat and eggs to consumers, the poultry industry must focus on improving efficiency as well as reduce the impact of stressors within the environment. This is achieved mostly by genetic selection which has resulted in significant improvements in both egg production in laying hens and body weight in broiler chickens. To support this improvement in growth rate birds would require a higher amino acid dense diet to support the increased protein output. One objective of this dissertation was to update the requirement of three key amino acids (tryptophan, lysine, and sulfur amino acids) in both laying hens and broilers for better formulation of diets. These amino acids that were investigated are essential in poultry diets and cannot be produced by the birds. The results from the tryptophan experiment indicated that laying hens need 137 mg of tryptophan per day to maintain maximum egg production. Results from the lysine and sulfur amino acid requirement experiment in broiler chickens indicated that broilers need 1.31% lysine and 0.90% sulfur amino acids to support maximal growth, but these requirements change over time and would need to be adjusted based on the broiler's age. Heat stress in the poultry industry is a major challenge which can affect the growth rate as well as the welfare of broiler chickens. The second objective of this dissertation was to investigate different strategies to ameliorate the effects of heat stress. Supplementing direct fed microbials or probiotics in broiler diets has been proposed as one of those strategies. An experiment was conducted to investigate the effect of the supplementation of a DFM on broiler chickens exposed to heat stress. The results indicated that the DFM was able to ameliorate the negative impacts of the heat stress on nutrient digestibility and intestinal permeability but did not improve the growth of the chickens. Another experiment was conducted to evaluate another strategy to ameliorate the effects of heat stress on broiler chickens which was the supplementation of sulfur amino acids. The sulfur amino acids are not only used for protein synthesis but have other physiological roles in the body that are important specifically during heat stress. Results from this experiment indicated that sulfur amino acids were able to ameliorate the negative effect of heat stress on intestinal permeability and oxidative stress but did not improve the performance of chickens subjected to the heat stress. amino acid heat stress direct fed microbial laying hen broiler
7	Impact of direct-fed microbials on nutrient utilization in beef cattle Kenney, Nicole 01 January 2013 (has links) The impact of lactate producing direct-fed microbial (DFM) on growth performance and rumen fermentation in beef cattle was explored in four studies. Experiment 1 studied the interaction between DFM and degradable intake protein (DIP) supply in receiving cattle. No differences (P≥0.06) in intake, morbidity, or immune response were observed; however, during the first 28 d gain and efficiency responses to DFM were dependent on DIP (DIP×DFM P≤0.05). Experiment 2 showed that in vitro gas production and select endpoint metabolites differed (P≤0.04) with DFM application. Experiment 3 compared lactate producing DFM to a lactate producing/utilizing DFM in finishing cattle. No differences (P≥0.14) in intake, gain, efficiency, or carcass characteristics were observed between control and lactate DFM; however, gain and growth efficiency differed (P≤0.05) between the lactate producing and lactate producing/utilizing DFM during the later portions of feeding. Experiment 4 studied the impact of DFM on ruminal fermentation, lactate utilization, and total tract digestibility. Ruminal pH and molar proportions of acetate were increased (P≤0.05) with DFM; however, lactate utilization and total tract digestibility did not differ (P≥0.33). The studies suggest that DFM improve growth performance during receiving and responses are at least partly mediated through differences in ruminal fermentation. beef cattle direct-fed microbial lactate utilization rumen fermentation degradable intake protien Other Animal Sciences
8	EFFECT OF DIRECT-FED MICROBIALS AND MONENSIN ON IN VITRO RUMEN FERMENTATION Wingard, Sheryl 01 January 2014 (has links) The impact of supplying a mixed culture of lactate producing bacteria on in-vitro rumen fermentation of forage- (Experiment 1) and concentrate- (Experiment 2) based diets in the presence and absence of monensin was explored. In experiment 1, interactions between DFM and MON were absent (P>0.10) for gas production and fermentative end products. Gas production and fermentative end products were unaffected by DFM alone (P>0.10). Monensin decreased (P<0.001) CH4 and NH3 production, rate and total gas production, as well as total VFA concentration and molar proportions of acetate and butyrate. However, MON increased (P<0.001) proportions of propionate, valerate, isobutyrate and isovalerate. Independently, DFM and MON increased (P<0.001) end point pH. In experiment 2, DFM x MON interactions or tendencies (P=0.07, P<0.01, P<0.01) were present, DFM effects were abated by MON, for rate, total gas production and total VFA concentrations. Acetate:propionate ratio was decreased (P<0.01) with MON and was unaffected by DFM. Ammonia-N concentration was increased (P<0.01) by DFM and unaffected (P=0.75) by MON. Both DFM and MON treatment increased (P<0.01) ruminal pH levels. These studies suggest the effects of DFM and MON of in-vitro fermentation are dependent on the substrate being fermented and the observed interactions provide means for further research. Direct-fed microbial monensin rumen fermentation forage-based diet concentrate-based diet Other Animal Sciences
9	EFFECTS OF SOW GUT MODIFYING FEED ADDITIVES ON REPRODUCTIVE CHARACTERISTICS AND PROGENY GROWTH PERFORMANCE Morgan T Thayer (10723725) 29 April 2021 (has links) <p>Providing wholesome pork products to consumers involves raising healthy pigs to grow well and be feed efficient from birth to market. Raising these pigs starts with ensuring the sow is healthy and provided good nutrition in gestation and lactation. Therefore, this dissertation primarily focuses on research of gut modifying feed additives fed to sows in gestation and lactation (and to their progeny in Chapter 3) to enhance reproductive performance and litter growth to weaning (and in the nursery). In Chapter 2, a total of 606 sows and their progeny were used to determine if feeding gestating and lactating sows a proprietary strain of Pichia guilliermondi as a whole-cell inactivated yeast product (WCY; CitriStim, ADM Animal Nutrition, Quincy, IL) improves sow and litter performance in a commercial production system. Sows were fed a control (CON) diet or control diet fortified with 0.15% of the WCY from d 35 of gestation through lactation. Sows supplemented with WCY in gestation and lactation had a greater number of total born piglets by 0.45 pigs (P < 0.04), piglets born alive (P < 0.04), heavier born alive litter weights (P < 0.001), and greater post cross-foster litter size (P < 0.001) compared to CON fed sows. Litter size at weaning was increased by 0.54 pigs when sows were fed WCY compared to CON (P < 0.001). However, litter weaning weights and 21-day adjusted litter weaning weights were similar (P > 0.158) with the 21-day adjusted litter weaning weights being numerically greater for the WCY sows. The average piglet weaning weights from CON fed sows were heavier by 0.35 kg compared to WCY (P < 0.001). This increase in body weight of piglets from CON fed sows is partially explained by their 0.93 days longer lactation (P < 0.001) and may also be due to the smaller litter size nursed throughout lactation. The percent of litters treated for scours decreased from 38.3% to 14.2% when sows were fed WCY (P < 0.001). The distribution of birth and weaning weights was not different (P > 0.2461) between treatments.</p><p>Chapter 3 encompasses a sow experiment where progeny were followed onto the nursery for a 28-d study. Forty-seven sows and their progeny were used to determine if feeding gestating and lactating sows a Bacillus licheniformis direct-fed microbial (DFM), an organic acid blend of medium and short-chain fatty acids (OA), or in combination improves sow lactation feed and water intake, litter growth, and subsequent reproductive performance. At weaning, offspring were fed a positive control diet (PC), negative control diet (NC), or a diet representative of their dam’s treatment to determine if there is an additive benefit to also feeding DFM and/or OA to nursery pigs in addition to their dams. On approximately d 80 of gestation, sows were fed one of four diets in a 2  2 factorial design: 1) gestation control (CON), 2) CON with DFM (1.6x109 CFU/kg of complete feed), 3) CON with 0.4% OA, 4) CON with both DFM and OA. Dietary treatments were also fed throughout lactation. Sows fed the OA diets had fewer mummies per litter (P < 0.010) compared to diets not containing OA. Sows fed diets with the DFM gave birth to lighter pigs born alive (1.5 vs. 1.7 kg; P < 0.003) compared to non-DFM fed sows, and a tendency for an interaction (P < 0.092) existed where feeding DFM+OA lessened the decrease in born alive BW. There was a tendency (P < 0.093) for pigs from DFM fed sows to also be lighter at weaning (5.8 vs. 6.2 kg) compared to pigs from sows not fed DFM, with no differences in litter sizes at weaning (P < 0.815). There was a tendency (P < 0.079) for the DFM to decrease the amount of sow BW loss in lactation compared to sows not fed the DFM (approximately 6 vs. 8% BW loss, respectively). The maintained BW in lactation was likely related to DFM sows numerically (P < 0.124) consuming 8.4% more feed during d 7-14 of lactation and 6.4% more feed (P < 0.234) from d 1 of lactation to weaning. The interaction was approaching a trend (P < 0.133) where sows fed DFM returned to estrus 1.0 day sooner than CON, but only 0.4 days sooner when sows were fed the DFM+OA diet.</p><p>Progeny weaned from these sows (n = 384, Initial BW = 6.15 kg) were blocked by initial BW and sex and allotted (6 pigs/pen, 8 pens/treatment) to one of 8 nursery treatments. Pigs from CON sows were fed a negative (NC; no antibiotics, no pharmacological Zn or Cu) or positive (PC; neomycin-oxytetracycline in phases 1 and 2 (827 and 551 ppm) and carbadox in phases 3 and 4 (55 ppm)) control diet. Pigs from sows fed DFM, OA, or DFM+OA were fed the NC diet or a diet representative of their dam’s treatment. Diets with DFM contained 1.6x109 CFU/kg of complete feed and diets with OA contained 0.5, 0.4, 0.3, and 0.0% OA in phases 1-4, respectively. Weaning weight was used as a covariate for nursery performance due to the DFM offspring being significantly lighter at weaning. For all phases and overall, PC fed pigs had greater ADG (P < 0.003) and ADFI (P < 0.059) than NC pigs. PC fed pigs had greater G:F (P < 0.010) than NC pigs for all phases and overall except d 21-28 (P < 0.532). Feeding DFM or OA in sow diets improved (interaction; P < 0.049) nursery pig G:F, but DFM+OA offspring had similar G:F compared to NC pigs from CON fed sows for d 7-14, 0-14, 0-21, and 0-28. Feeding DFM or OA to sows and their progeny decreased ADFI (interaction; P < 0.042) but improved G:F (interaction; P < 0.028) for d 7-14 and 0-14 with DFM+OA having similar performance to NC. For d 14-21 and 0-21, feeding DFM or OA to sows and their progeny decreased ADFI whereas DFM+OA increased ADFI above NC (interaction; P < 0.019). Overall, d 0-28, feeding DFM or OA to sows and their progeny improved G:F (interaction; P < 0.001) with DFM+OA having poorer G:F compared to NC. When the DFM was fed to sows and nursery pigs, progeny harvested on d 6 post-weaning had a decreased ratio of villus height to crypt depth (P < 0.035) compared to sows and pigs not consuming the DFM (average 1.34 vs. 1.67). Comparing pigs fed PC vs. NC from CON fed sows, expression of interleukin 10 (IL-10) was greater (0.51-fold increase; P < 0.046) for NC pigs than PC pigs. Expression of occludin (OCLN) was lower (P < 0.010) when OA was fed to the sows and pigs compared to when OA was not fed to the sows and pigs (0.78 vs. 1.00, respectively).</p><p>Chapter 4 is the only chapter that does not include maternal nutrition. In this chapter, maternal line gilts (Topigs Norsvin TN70) were bred with frozen semen from Duroc boars born from 2000 to 2017 divided into two genetic groups: semen from boars born in 2000 to 2005 and 2011 to 2017. These genetic groups had vastly different terminal sire indexes (TSI) of 88.2 and 112.0 for 2000 to 2005 and 2011 to 2017, respectively. A total of 155 pigs were weaned into 44 pens in a wean-to-finish facility to determine if genetics from two decades of sires and sex of the progeny impact progeny growth performance and carcass characteristics. The expected large growth performance differences indicated by the TSI’s of the two genetic groups were not observed. However, barrows had greater feed intake (P < 0.031) and fatter carcasses (P < 0.004) than the more feed efficient (P < 0.006) and leaner (P < 0.015) gilts in this study. Modern swine genetics have been selected to be leaner and results from this study agree, although the differences in live scan and carcass measurements were not as large as expected. The lack of differences between genetic groups could possibly be due to environmental differences including nutrition and rearing conditions from when these sires were alive compared to what was experienced by these progeny.</p><p>In conclusion, feeding gestating and lactating sows a proprietary strain of Pichia guilliermondi as a whole-cell inactivated yeast product increased the number of piglets born and weaned as well as decreased the prevalence of scours during lactation. Feeding a Bacillus licheniformis DFM to sows may decrease pig born alive weight and subsequent weaning weight but reduce sow BW loss through 6.4% more lactation feed intake, quickening the return to estrus. Other than decreasing the number of mummies per litter, feeding the OA alone or in combination did not improve sow reproductive or litter growth performance in this study. Feeding DFM or OA to sows or their offspring may improve nursery feed efficiency but did not result in a difference in ADG or final BW in this study. Feeding the combination diet (DFM+OA) to the sow and nursery pigs tended to increase ADFI. Feeding antibiotics post-weaning continued to improve pig growth performance resulting in 2.7 kg heavier pigs at the end of the 28-d nursery period. Lastly, the expected large growth performance differences indicated by the TSI’s of two genetic groups created by using frozen semen from boars born in 2000 to 2005 and 2011 to 2017 were not observed.</p> Animal Nutrition Sow Yeast Direct-fed microbial Organic acid Medium-chain fatty acid Growth modeling Genetics
10	Effect of Amino Acid Formulation and Dietary Direct-Fed Microbial Supplementation on Egg Production and Egg Characteristics in Laying Hens Applegate, T. J., Onyango, E. M., Angel, R., Powers, W. J. 01 December 2009 (has links) An experiment was conducted to determine whether direct-fed microbial supplementation could alleviate a marginal amino acid (AA) deficiency in Hyline 36 laying hens from 33 to 44 wk of age. The experiment was a 2 × 4 factorial design with or without a commercial directfed microbial (Primilac; 1.36 kg/1,000 kg) and 4 levels of AA formulation. Egg characteristics (yolk, albumen, or shell proportions and yolk or albumen solids) were not affected by diet. Primilac supplementation had no effect on egg production or egg mass. However, Primilac supplementation reduced feed intake-to-egg mass ratio by 2.4 and 3.4% from 33 to 36 wk and 41 to 44 wk, respectively. Total eggs laid and egg mass were greatest when at least 14.4 g of CP, 804 mg of Lys, 382 mg of Met, 601 mg of TSAA, 502 mg of Thr, and 609 mg of Ile were consumed per hen per day from 33 to 44 wk of age. In conclusion, Primilac supplementation was not able to completely alleviate a marginal AA deficiency in laying hens but did improve feed intake-to-egg mass ratios during 8 wk of the 12-wk study. amino acid direct-fed microbial egg production laying hen Health Sciences

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