Net energy of wheat-corn distillers dried grains with solubles for growing pigs as determined by the comparative slaughter, indirect calorimetry, and the chemical composition methods

Ayoade, Deborah

17 January 2012

ABSTRACT Two experiments were conducted to determine the net energy (NE) of wheat-corn distillers dried grains with solubles (wcDDGS) using the comparative slaughter (CS), the indirect calorimetry (IC) and the chemical composition (CH) methods. Based on the CS method, NE values of 2,407, and 2,424 kcal/kg DM were obtained for wcDDGS included at 15% and 30%, respectively. For the IC method, the NE values of 2,407, and 2,403 kcal/kg DM were obtained for wcDDGS included at 15% and 30%, respectively; corresponding values for the CH method were 2,536 and 2,197 kcal/kg DM, respectively. It is concluded that NE value of wcDDGS ranges from 2,367 kcal/kg DM to 2,416 kcal/kg DM depending on the method used. As the values obtained from the various methods were not different, the average NE value for the wcDDGS evaluated was 2,396 ± 25.71 kcal/kg DM.

net energy

Net energy of wheat-corn distillers dried grains with solubles for growing pigs as determined by the comparative slaughter, indirect calorimetry, and the chemical composition methods

Ayoade, Deborah

17 January 2012

ABSTRACT Two experiments were conducted to determine the net energy (NE) of wheat-corn distillers dried grains with solubles (wcDDGS) using the comparative slaughter (CS), the indirect calorimetry (IC) and the chemical composition (CH) methods. Based on the CS method, NE values of 2,407, and 2,424 kcal/kg DM were obtained for wcDDGS included at 15% and 30%, respectively. For the IC method, the NE values of 2,407, and 2,403 kcal/kg DM were obtained for wcDDGS included at 15% and 30%, respectively; corresponding values for the CH method were 2,536 and 2,197 kcal/kg DM, respectively. It is concluded that NE value of wcDDGS ranges from 2,367 kcal/kg DM to 2,416 kcal/kg DM depending on the method used. As the values obtained from the various methods were not different, the average NE value for the wcDDGS evaluated was 2,396 ± 25.71 kcal/kg DM.

net energy

Next-generation distillers dried grain as a potential dietary ingredient in dog and cat diets

Smith, Spencer C.

January 1900

Master of Science / Department of Grain Science and Industry / C.G. Aldrich / Novel ingredients have been a source of innovation and growth in the pet food market. Further, with rising trends in the humanization of pet food, there has been increased competition between the human food systems and pet food industry for high quality ingredients. Next-generation distillers dried grains (NG-DDG) are a sustainable alternative protein source that show a strong potential for use in companion animal diets. The objectives of this work were to determine the effect of NG-DDG on the extrusion of dry kibbles, the utilization of diets by dogs, the palatability of diets by dogs and cats, and to evaluate the amino acid profile and protein quality through a chick growth assay. Corn gluten meal (CGM) and soybean meal (SBM) were used as standards for comparison. Diets were extruded over 3 days in a complete block design. During extrusion, the NG-DDG kibbles had less radial expansion (P<0.05) compared to the CGM and SBM kibbles (2.62 vs. average 3.10 mm²/mm², respectively). The NG-DDG kibble also required a smaller (P<0.05) mass restriction-valve opening to increase die back-pressure. No other differences in extrusion parameters or kibble texture were observed. Twelve beagle dogs were arranged in a 3x3 replicated Latin Square and were each fed the 3 experimental diets to evaluate digestibility by use of titanium dioxide. Diet produced with CGM was more digestible (P<0.05) in terms of dry matter, organic matter, crude protein, crude fat, and gross energy. Additionally, dogs fed NG-DDG diets had larger (P<0.05) fecal mass than both CGM and SBM (55.65 vs 35.91 and 43.25 g/d, respectively), and a higher (P<0.05) fecal score than dogs fed the CGM diet (3.63 vs. 3.27). Diets were fed to both dogs and cats to assess palatability via a two-bowl test. Dogs had a preference (P<0.05) for CGM over SBM and NG-DDG, but cats showed a preference (P<0.05) for SBM and NG-DDG over CGM. To assess protein quality, one-day old chicks (CobbxCobb; n=120) were fed semi-purified diets containing test ingredients at a 10% crude protein inclusion level, as well as spray dried granulated egg (SDG) and a nitrogen-free basal diet (NEG) to serve as positive and negative controls, respectively. Chicks were arranged in a randomized block design with 6 chicks per pen, 1 pen per battery, and 4 pens per treatment. The protein efficiency ratio (PER) of each treatment was calculated as weight gain (g) per protein intake (g). All experimental treatments had a lower (P<0.05) PER value than the positive control. The PER for NG-DDG and CGM did not differ from each other and had the lowest value of all treatments (P<0.05; average 1.17). In summary, next-generation distillers dried grains can be used to make a similar kibble to CGM and SBM, are similar to SBM in terms of digestibility, and would be an acceptable source of protein in companion animal diets when paired with a supplemental protein source.

Pet food

Distillers dried grains

Companion animal

Dog

Nutrition

Extrusion

Use of corn- and sorghum-based distillers dried grains with solubles in diets for nursery and finishing pigs

Feoli, Carolina

January 1900

Doctor of Philosophy / Department of Animal Sciences and Industry / Joe D. Hancock / Twelve experiments were completed to evaluate corn- and sorghum-distillers dried grains with solubles (DDGS) in diets for nursery and finishing pigs. In Exp. 1, corn-DDGS had 223 kcal/kg greater DE than sorghum-DDGS (P<0.02). In Exp. 2, pigs fed a corn-soy control diet had greater ADG, nutrient digestibility, HCW, and dressing percentage (P<0.02) and lower iodine value (IV) of jowl fat (P<0.001) than pigs fed diets with 40% DDGS. High-energy DDGS supported lower ADG, ADFI, and digestibility of DM (P<0.06) than moderate-energy DDGS, and sorghum-DDGS resulted in lower IV than corn-DDGS (P<0.001). In Exp. 3 and 4, addition of sodium bicarbonate to adjust dietary pH and electrolyte balance did not improve growth performance in nursery or finishing pigs (P>0.16) and adding molasses to improve palatability decreased (P<0.05) G:F for finishing gilts. In Exp. 5 and 6, enzyme additions improved nutrient digestibility in nursery (P<0.04) and finishing (P<0.01) pigs fed diets with high inclusion of DDGS. In Exp. 7, expander processing improved (P<0.02) ADG, G:F, and digestibility of DM, N, GE, and cellulose compared with standard steam conditioning of diets for nursery pigs, with the greatest response in G:F for pigs fed sorghum-DDGS (DDGS source × conditioning; P<0.02). In Exp. 8 and 9, expander conditioning improved G:F and dressing percentage (P<0.007) and digestibility of DM, N, and GE compared with standard conditioning (P<0.02), with the greatest response in digestibility of DM for the DDGS diets (diet × conditioning, P<0.01). In Exp. 10, 11, and 12, increasing tallow from 0 to 5% in diets with 40% DDGS improved (P<0.05) G:F. Dressing percentage was improved with addition of tallow and palm oil (P<0.08), but IV become worse (linear, P<0.06) as tallow was increased in the diet. Adding coconut oil improved growth performance and carcass firmness in pigs fed diets with 40% DDGS (P<0.01). In conclusion, growth performance and nutrient digestibility decreased with addition of DDGS to diets for nursery and finishing pigs. However, adding enzymes partially restored nutrient digestibility; expander conditioning improved G:F, dressing percentage, and nutrient digestibility; and adding coconut oil to diets with 40% DDGS improved G:F and carcass firmness.

DDGS

Distillers dried grains

Pig

Growth performance

Carcass characteristics

Sorghum

THE EFFECTS OF PROCESSING AND/OR ENZYME TO IMPROVE THE FEED VALUE OF WHEAT DISTILLERS DRIED GRAINS WITH SOLUBLES FOR TURKEYS

2014 March 1900

Based on ongoing research, the poultry industry is utilizing increasingly more wheat distillers dried grains with solubles (wDDGS) as a feed ingredient. High fiber in wDDGS is a major factor contributing to reduced nutrient intake and digestion of nutrients in the diet. Hence, the research conducted looks at emerging technologies (e.g., enzymes and/or feed processes (extrusion) and/or wet feeding) to overcome the limitations in diets containing higher levels of WDDGS. The dietary treatments were evaluated by monitoring turkey performance and utilization of the nutrients. All dietary treatments in the respective experiments were formulated to meet or exceed the nutrient requirement of the Hybrid Converter turkey standards. With the exception of experiment 2 (0-72d) test diets were fed from 7-21d. In Experiment 1, 0 and 30% wDDGS diets were supplemented with protease (P+; 0.126 g/kg) or β-mannanase (M+; 0.05g/kg); further, diets containing 0, 10, 20 and 30% wDDGS with no enzyme were compared. A positive (P<0.05) main effect of 30% was reported for 21d body weight (BW) and feed conversion ratio (FCR). A significant main effect [21d apparent metabolizable energy (AME); 30%] and interactions [(enzymes x levels (0 and 30%); 21d AME and nitrogen retention (NR)] were found. A quadratic (P<0.01) response was found for FCR, that was superior for 30%. A quadratic (P<0.01) response was also found for both NR and AME; both were highest for 10% wDDGS diets. In Experiment 2, diets containing 0, 15 and 30% wDDGS with no enzyme were compared; further, the 30% wDDGS diet was supplemented with enzymes (protease or β-mannanase). Water intake per pen was monitored beginning at 7 d. There was no effect of dietary treatment on overall feed intake (FI) and body weight (BW). Total feed conversion ratio (FCR) (P<0.05; 0-72d) was significantly improved for birds fed 30% wDDGS regardless of enzyme treatment compared other dietary treatments. There were trends for higher water intake (mL/b/d) with 30%P+ diets as compared to the other diets. The higher water intake may be a factor of the higher fiber in this diet, but it was exacerbated by only the protease enzyme. Experiment 3 evaluated the effect of extrusion (EX) and an enzyme cocktail (E; 0.5g/kg) on wDDGS. Diets containing 0, 15 and 30% wDDGS with/without enzyme were tested; further, the 15 and 30% wDDGS with/without EX and E were compared. There was no effect of EX or E on BW and FI. Feeding higher WDDGS (30%) depressed performance, but an improved NR and AME was recorded. In Experiment 4, a small study was conducted to evaluate if wet feeding (WF; 1.2 mL water: 1.0 g feed) of diets with 30% wDDGS would impact turkey poult performance. The WF significantly improved BW, FI and FCR. It is apparent from these studies that high levels of WDDGS were not detrimental to overall performance. The high levels of wDDGS with no loss of production would result in a higher demand of wDDGS for use in turkey diets. Overall, we saw no improvements in performance with individual supplementation of protease, β-mannanase or an enzyme cocktail. Neither was extrusion of wDDGS beneficial. Voluntary feed consumption is improved when diets are wetted before feeding.

EFFECTS OF A PROPRIETARY PREMIX ON PRODUCTIVE PERFORMANCE AND EGG QUALITY OF WHITE AND BROWN EGG LAYING HENS FED DIETS HIGH IN DISTILLERS DRIED GRAINS WITH SOLUBLES (DDGS)

van Benschoten, Megan D

01 January 2013

The objective of this thesis was to evaluate inclusion of up to 35% by-product DDGS (with reduced Ca and P) with and without addition of a proprietary premix (enzyme and antioxidant; Alltech Inc.) on productive performance and egg quality of white and brown egg laying hens. A total of 288 white or brown hens were randomly allocated to one of the following treatments: 1) corn-soybean meal (control), 2) 25% DDGS, 3) 25% DDGS plus premix, 4) 35% DDGS, and 5) 35% DDGS plus premix. Hen body weight values were impaired with addition of 25 and 35% DDGS when compared to the control. Premix helped maintain body weight comparable to control in the brown hens; however was not noted in white hens. In the second dietary phase, addition of DDGS increased feed intake in white egg laying hens and was maintained with the premix. Brown hens on premix came into lay faster than the control and DDGS diets, but DDGS reduced overall egg production. Haugh units, yolk color, and purchase intent scores were increased in brown eggs with DDGS diets. White eggs had increased yolk color with DDGS. In conclusion, up to 35% DDGS is acceptable in white laying hen diets.

enzyme and antioxidant

distillers dried grains with solubles

laying hens

production

egg quality

Poultry or Avian Science

FACTORS AFFECTING AMINO ACID DIGESTIBILITY IN MONOGASTRIC ANIMALS

Chansol Park (8795714)

06 May 2020

The objective of the experiments conducted for this dissertation was to determine the standardized ileal digestibility (SID) of amino acids (AA) in a variety of feed ingredients for broiler chickens and pigs. The effects of casein in experimental diets on the SID of AA in corn distillers’ dried grains with solubles (DDGS) fed to pigs were evaluated. The SID of AA in feed ingredients, which include full-fat soybean (FFSB), two soybean meals (SBM), peanut flour (PNF), full-fat canola seeds (FFCS), canola meal (CM), canola expellers (CE), hydrolyzed feather meal (HFM), flash dried poultry protein (FDPP), poultry meal (PM), and meat and bone meal (MBM), were compared in broiler chickens and pigs. One of the studies determined the ileal digestibility of AA in casein by regression analysis and investigated the effects of 60 g/kg casein in experimental diets on the SID of AA in DDGS. The ileal digestibility of AA in casein were close to 100%, ranging from 95.5% (SE = 9.10) for Cys to 103.1% (SE = 4.40) for Arg. In addition, the SID of Lys and Phe in DDGS determined by pigs fed the diet containing DDGS and casein were greater (<i>P</i> < 0.05) than the values determined by pigs fed the diet containing DDGS without casein. Based on the results of this experiment, two additional experiments were conducted to determine the effects of graded concentrations of casein from 55 to 165 g/kg in experimental diets on the SID of AA in DDGS and to determine the effects of dietary DDGS concentrations (i.e., 155.6 or 466.8 g/kg) and addition of casein in experimental diets on the SID of AA in DDGS. The SID of indispensable AA, except for Arg and Lys, linearly decreased (<i>P</i> < 0.05) as the concentration of casein in experimental diets increased. Moreover, pigs fed the diets containing 155.6 g/kg DDGS had less (<i>P</i> < 0.05) SID of indispensable AA, except for Trp, in DDGS than those fed the diets containing 466.8 g/kg DDGS regardless of the addition of casein in experimental diets. Therefore, it may be concluded that the addition of casein improves the SID of AA in DDGS, but reduced DDGS concentration in experimental diets decreases the SID of AA in DDGS. In one pair of experiments conducted to compare the SID of AA in FFSB, SBM containing 430 g/kg crude protein, SBM containing 470 g/kg crude protein, and PNF between broiler chickens and pigs, the SID of AA, except for Trp, Ala, and Glu, in test ingredients for pigs were greater (<i>P</i> < 0.05) than the values for broiler chickens. In addition, in both broiler chickens and pigs, the SID of Ile, Leu, and Val in FFSB were less (<i>P</i> < 0.05) than in the other test ingredients. In another pair of experiments conducted to compare the SID of AA in FFCS, CM, and CE between broiler chickens and pigs, interactions (<i>P</i> < 0.05) between experimental diets and species were observed in the SID of AA, except for Lys, Gly, Pro, and Ser. The SID of AA in FFCS for broiler chickens were greater (<i>P</i> < 0.05) than pigs; however, there was no difference in the SID of AA in CM or CE between broiler chickens and pigs. The objective of a third pair of experiments was to compare the SID of AA in HFM, FDPP, PM, and MBM fed to broiler chickens and pigs. There were interactions (<i>P</i> < 0.05) between experimental diets and species in the SID of His, Thr, Trp, and Val. In broiler chickens, the SID of His, Thr, and Trp in FDPP and PM were greater (<i>P</i> < 0.05) than in HFM but were less (<i>P</i> < 0.05) than MBM; however, difference in SID of His, Thr, and Trp among FDPP, PM, and MBM was not observed in pigs. Based on the results of three pairs of studies, it was revealed that differences in SID of AA in common feed ingredients for both broiler chickens and pigs were affected by species. Therefore, it may be concluded that the effects of feed ingredient-specific factors on the SID of AA are different between broiler chickens and pigs.

Animal Nutrition

amino acid

casein

distillers' dried grains with solubles

protein

swine

poultry

broiler chicken

USE OF BARLEY, WHEAT AND CORN DISTILLER'S DRIED GRAIN WITH SOLUBLES IN DIETS FOR GROWING RABBITS: NUTRITIVE VALUE, GROWTH PERFORMANCE AND MEAT QUALITY

Alagón Huallpa, Gilbert

21 March 2013

La producción mundial de biocombustibles denominados bioetanol y biodiesel se ha incrementado en la última década, como alternativa a los combustibles fósiles. Brasil produce etanol a partir de la caña de azúcar, EEUU a partir de maíz, mientras que en Europa y Canadá, el insumo más utilizado es el grano de trigo. En España las principales plantas de biocombustible utilizan maíz, trigo y cebada, para obtener etanol, básicamente. Esta situación ha generado cambios importantes en el mercado mundial de granos, por un lado, encareciéndo el precio de las materias primas tradicionales y en consecuencia el coste de los piensos, y por otro lado, ofertando nuevas materias primas, tales como los denominados granos secos de destilería con solubles o DDGS (Dried Distillers Grains with Solubles), que pueden ser destinadas a la alimentación animal si son valoradas nutritivamente para las posibles especies animales de destino, entre las que podrían encontrarse los conejos. Dado que los insumos y los procesos de producción industrial de bioetanol presentan algunas variaciones, la calidad de los DDGS generados varía consecuentemente en su composición química y su valor nutritivo, pero estas posibles fuentes de variación han sido poco estudiadas. La cunicultura es una actividad productiva muy importante en Europa, especialmente en Francia, Italia, y España, cuyos costes de producción se han incrementado en especial en el rubro de la alimentación, que constituye entre el 50 a 70% del coste total, por las razones antes señaladas.Los DDGS se han incorporado en la dieta de vacuno, aves y cerdos, pero la información relativa a su utilización en conejos es muy escasa. En este contexto, parece necesario evaluar el potencial nutritivo y el comportamiento productivo de los DDGS en piensos de conejos. / Alagón Huallpa, G. (2013). USE OF BARLEY, WHEAT AND CORN DISTILLER'S DRIED GRAIN WITH SOLUBLES IN DIETS FOR GROWING RABBITS: NUTRITIVE VALUE, GROWTH PERFORMANCE AND MEAT QUALITY [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/27648 / TESIS

Distillers dried grains with soluble

Chemical composition

Digestibility

Growing rabbits

Caecal environment

Meat quality

NUTRICION Y BROMATOLOGIA

PRODUCCION ANIMAL

Extraction of arabinoxylan from animal feed and investigations into its functionality as an ingredient in bread dough

Bell, Ruth Mary

January 2015

Arabinoxylans (AX’s) are the predominant non-starch polysaccharides found in the structural matrix of cell walls in wheat grains, being present in large quantities in wheat bran, accounting for up to 25% of its composition. Their physicochemical properties define their functionality which can be beneficial in cereal-based products such as bread, where their addition could enhance the gluten matrix responsible for the aerated structure and quality of bread. Bioethanol production has grown rapidly, however, to be economically viable, cereal-derived first generation biorefineries need to adopt the process integration approaches employed in petrochemical refineries, and exploit the interaction opportunities arising from multiple product streams. A potential source of AX is its extraction from the wheat bran based low value animal feed produced as an end product of the bioethanol distillation process. The benefits of extraction are twofold, to enhance feed nutritional value by reducing fibre content and produce a high value product for use as a functional ingredient in the breadmaking industry. Extraction of AX involves precipitation with ethanol, giving opportunity for integration and economic extraction in the context of a bioethanol plant. Currently no commercial supply of AX is available in sufficient quantities to conduct functionality trials; therefore the objective of the current work was to study the feasibility of extracting AX from animal feed and, by developing a scaled-up extraction process based on that of Hollmann and Lindhauer (2005) and Du et al. (2009), to produce sufficient quantities to conduct functionality trials into its effects on the breadmaking process. Two animal feeds, representative of contrasting biorefinery operations, were used for AX extraction, Distillers’ Dried Grains with Solubles (DDGS) and C*Traffordgold®, with water and alkaline AX being extracted from each. Monosaccharide analysis of the feedstocks confirmed the presence of arabinoxylans, with DDGS containing 12.5% AX and TG 13% AX, with A/X ratios of 0.55 and 0.61, respectively. The purity of AX extracted at both lab scale and on scale up was consistent, with 29.5% and 23% extracted at lab scale and 30% and 25% extracted in the scaled up process for WEAX from DDGS and TG, respectively. The purity of AEAX was lower, with 18% and 14% at lab scale and 15% and 14% for scale up for DDGS and TG, respectively. The results indicate that the same purity of crude extract can be achieved at both lab and larger scale extraction, however lower yields and absolute yields were observed at scale up and anticipated to be due to the crude nature of the process, which needs further optimisation. Addition of crude AX extracts to bread dough gave insights into its effects and potential benefits and issues. The type and origin of AX was found to affect bread dough characteristics in different ways. WEAX from both DDGS and TG exhibited effects on all stages of the breadmaking process, by improving stability and reducing softening at mixing, and slowing proving allowing the dough to retain a better aerated structure, leading to an open aerated finished loaf structure. AEAX from both types of animal feed generally caused destabilization of gas cells and coalescence, resulting in loaves with a tighter crumb structure. The AX dosage appeared to have a non-linear effect, with some positive changes at 1% addition turning to negative changes when added at 2%. This work has provided insights into the functionality of AX in bread dough, and a process has been developed to allow greater than lab scale production of arabinoxylan. The effects of AX need to be understood more clearly to retain beneficial effects, whilst supressing detrimental ones, preferably while avoiding the need for extensive purification. The work supports the possibility for AX extracts to be produced commercially as bread ingredients that could enhance bread structure and nutritional quality, and provides an elegant solution for synergy between two wheat-based industries serving both the food and non-food needs of society.

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