Academic literature on the topic 'Full-fat soybean'

The effects were examined of replacing part or all of the soybean meal in the starter and finisher diets for male broiler chickens with ground, roasted, full-fat soybeans from either a high-protein (AC Proteus) or conventional (Baron) cultivar. The starter (1–21 d) and finisher (22–36 d) diets were formulated by replacing, on an isonitrogenous basis, part or all of the soybean meal in the barley–wheat-based control diets with the roasted soybeans. Digestibility of dry matter, corrected nitrogen and energy were estimated by an index method for the last 2 d of the starter and grower periods. Soybean level influenced body weight gains directly in a quadratic manner, and feed intakes or feed conversions by inversely linear relationships (P < 0.05 and P < 0.01) during the starter period. Performance during the finisher period or during the entire growth period was not influenced (P > 0.05) by dietary soybean source. Dry matter and energy digestibilities at both 21 and 35 d, and nitrogen at 35 d were affected in a quadratic manner (P < 0.05 or P < 0.01) by the soybean level of the diets, whereas, a linear relationship was present for the apparent metabolizable energy (AME) content (P < 0.001). Soybean source had no effect on nutrient utilization, except for dry matter or energy digestibility during the starter period (P < 0.01). In conclusion, the optimal performance should be obtained when the ratio of roasted full-fat soybeans to soybean meal is about 2:1 in the starter feeds for broiler chickens. Key words: Full-fat soybeans, soybean meal, high-protein soybeans, broiler, growth, nutrient digestibilities

Whole soybean is used as a high energy-protein supplement for dairy cows, but contains various antinutritional factors and the protein is highly degradable by rumen microbes. Roasting and extrusion are very popular ways of feeding soybeans to dairy cows but these processing methods may adversely affect the protein digestibility and lysine availability of the final product in the small intestine. Gamma irradiation has been recognized as a reliable and safe method for improving the nutritional value and inactivation or removal of certain antinutritional factors in foods and feeds (Siddhuraju et al., 2002). As far as we know, information about the effects of γ-irradiation on ruminal crude protein (CP) degradation of full-fat soybean in the literature is scarce. The aim of this study was to evaluate the effects of gamma irradiation (γ-irradiation) on nutritional value and antinutritional factors of soybean (SB) for ruminants.

ABSTRACT Two experiments were carried out to determine the energy values and the true ileal digestibility of amino acids of nine toasted full-fat soybeans (FFSB), without or with the addition of monocomponent protease. In the first experiment, to determine the energy values, the method of excreta collection was used with 1120 broiler chicks at 14 days old, distributed in randomized blocks in a 10x2 factorial arrangement with nine full-fat soybeans (30% included) plus a control diet (70%) without or with the addition of protease, totaling 20 treatments with 8 replicates and 7 birds per cage. In the second experiment, 1120 broiler chickens from 24 to 28 days of age were distributed in randomized blocks in a 10x2 factor arrangement, with nine full-fat soybeans (40% included) + a protein free diet (60%), without or with the addition of protease, totaling 20 treatments with 8 replicates and 7 birds per cage. Ileal digesta collection was used to determine the true digestibility coefficients and the digestible amino acid content of full-fat soybean. The average values of nitrogen-corrected apparent metabolizable energy (AMEn) and their respective metabolization coefficients (CAMEn) were 3207 kcal/kg and 62.57%, respectively. The average values of digestibility coefficients of crude protein and essential and nonessential amino acids were 86.79, 87.90 and 84.34%, respectively. The inclusion of protease improved (P<0.05) all evaluated parameters. Therefore, its use is recommended in diets containing full-fat soybeans for broiler chickens.

Although hexane extraction of soybean oil has the high recovery，residual hexane in oil is noxious for consumer health. Crew pressing and extruding-expelling extraction processes denature protein to render functional properties poor for food and meal use. This processing employed microbial fermentation to extract protein from full fat soy flour so that denaturation degree of protein reduced. The results showed that low temperature flaking and extrusing soy flakes was beneficial to improving protein extraction, after optimizing the fermentation conditions with the Response Surface Methodology (RSM), total protein extraction yield achieved the highest value - 86.66% at optimal fermentation conditions - 6.6% extruded full fat soy flour, 5.4% inoculation volume, the initial pH8.1. These advances make the microbial fermentation extraction process of protein from soybeans attractive channel as the environmentally – friendly technology.

AbstractThe purpose of this paper was to assess the suitability of various protein feeds in broiler chicken feeding. The study covered 160 birds split into 5 equipotent groups (SBM, EFFS, RFFS, EL, DDGS). Four protein feeds were an experimental factor: extruded full-fat soybean (EFFS group), raw full-fat soybean (RFFS group), extruded lupine (EL group) and distillers dried grains with solubles (DDGS group) that were added to starter rations in an amount replacing 30%, and in grower and finisher rations 50% of extracted soybean meal protein. Results showed that after replacing an identical amount of extracted soybean meal protein with protein from extruded soybean or DDGS in chicken rations, the final body weight and feed conversion ratio were similar to those of birds from the control group. Deterioration (P≤0.01) in the above-mentioned parameters was observed for chickens fed with rations containing raw soybean or extruded lupine. Birds that were given rations containing raw soybean (RFFS group) were characterized by the lowest dressing percentage, and, compared to the control group, the difference was significant (P≤0.01). The type of protein feed contained in the rations did not affect the musculature of chickens, however it did impact their fat deposition. Fat deposition was the lowest in birds from RFFS and DDGS groups that reached the lowest final body weight. Microscopic images of all examined livers showed a normal histological structure. The results of the studies carried out provide a basis for recommending the use of extruded full-fat soybean or DDGS in broiler chicken rations as partial substitutes for extracted soybean meal protein.

To evaluate the effects of extrusion process on the trans fatty acids (TFAs) formation in soybean crude oils, three different extrusion parameters, namely, extrusion temperature (80–160°C), feed moisture (10–26%), and screw speed (100–500 rpm), were carried out. It was found that only five different types of TFAs were detected out using gas chromatography-mass spectrometry. Before the extrusion started, the initial amount of total TFAs was 3.04 g/100 g. However, after extruding under every level of any variable, the total amounts of TFAs were significantly higher than those in the control sample (P<0.05). For example, taking the effect of extrusion temperature into account, we can find that the highest amount of total of trans fatty acid (TTFA) was 1.62 times the amount of that in the control sample, whereas the lowest amount of TTFA was 1.54 times the amount of that in the control sample. Importantly, it was observed that the amounts of every type of trans fatty acid were not continuously increasing with the increase of the level of any extrusion variable. This phenomenon demonstrated that the formation and diversification were intricate during extruding process and need to be further studied.

The purpose of the study was to compare the effect of feeding broiler chickens with mixtures containing raw or extruded soybean seeds on the performance indices, slaughter value and liver histology of the animals. The research began with an analysis of the chemical composition of selected high protein feeds. A nutritional experiment was then performed on 108 sexed Ross 308 chickens, which were allocated to 3 equal groups (I, II, III). The chickens were reared for 42 days with ad libitum feeding. The birds from the control group (I) received mixtures in which the only high protein component was soybean meal extracted. Extruded soybeans and raw soybeans were fed to chickens in experimental groups II and III, respectively, in quantities that replaced 30% of soybean meal extract protein in the Starter mixture and 50% of this protein in the Grower and Finisher mixtures. During the experiment, the body weight of the birds (BW) and their feed intake (FI) were recorded. At the end of rearing, 12 chicks of body weights representative of their group and sex were slaughtered in each group. The results of the slaughter analysis were used to calculate the percentage of muscles, skin with subcutaneous fat and abdominal fat in the carcass. The weights of selected internal organs were also determined, and then their proportion in the chilled carcass weight was determined. In addition, after slaughter, chicken livers were collected to assess the histological image. Raw soybean meal extrusion resulted in an increase in protein content and a decrease in crude fibre by about 10%. Quantities of individual amino acids in the analysed material were proportional to the protein content. The extrusion of full-fat soybean seeds reduced the content of trypsin inhibitors by more than a half (to 9 mg/g), but the least of these compounds (1.2 mg/g) was found in soybean meal extract. The tannin content of extruded soybeans was about one-third of that of extracted meal and less than one-fourth of that of raw soybean. It was shown that the chickens receiving extruded soybeans reached a weight similar to that of the control group, with similar FCRs for individual rearing periods, whereas the use of raw soybean significantly (P ≤ 0.01) decreased both parameters. In addition, group III had a significantly lower dressing percentage (P ≤ 0.05) and a higher proportion of abdominal fat (P ≤ 0.01) compared to the other groups. The introduction of extruded or raw soybeans into the mixtures increased (P ≤ 0.05) the proportion of total internal organs. The microscopic image revealed that all chickens had a similar, normal histological structure. The results of this study show a beneficial effect of raw soybean extrusion on the nutritional value of soybeans. Extruded soybeans can therefore be recommended as a partial substitute for protein (30% in Starter and 50% in Grower and Finisher) from soybean meal extract in chicken broiler mixtures. Raw soybeans should not be used in the above amounts, mainly because of the clearly worse rearing results....

Apstrakt je obrađen tehnologijama za optičko prepoznavanje teksta (OCR).Ispitan je uticaj heksanskih, etanolnih i etil-acetanih ekstrakata zrna soje i punomasnih hraniva od zrna soje, ekstrudiranog sojinog griza i hidrotermički tretiranog zrna soje, na termičku i katalitičku oksidaciju metil-linoleata primenom ESR spektroskopije i "spin- traping" tehnike. Utvrđeno je da ispitivani ekstrakti inhibiraju termičku i katalitičku oksidaciju metil-linoleata različitim mehanizmima antioksidativnog delovanja. Ustanovljeni antioksidativni efekti dovedeni su u vezu sa vrstama i sadržajem liposolubilnih (a-tokoferol, P-karotin, ukupni ksantofili) i neliposolubilnih antioksidanata (izoflavoni i fitinska kiselina) soje, odnosno u vezu sa termičkim tretmanima primenjenim u proizvodnji ovih hraniva. Ispitani su i uticaji primene različitih rastvarača (etil-acetat, etanol, acetonitril) na antioksidativne efekte ekstrakata neliposolubilnih antioksidanata punomasnih hraniva od zrna soje tokom termičke i katalitičke oksidacije sojinog ulja primenom ESR.
Abstract was processed by technology for Optical character recognition (OCR).The influence of hexane, ethanol and ethyl acetate extracts of soybean grain and full-fat feeds of soybean grain, fullfat extruded soybean grits and hydrothermal treated soybean grain on the thermal and catalytic oxidation of methyl linoleate has been studied by ESR spectroscopy and spin-trapping method. It has been found that the investigated extracts inhibit the thermal and catalytic oxidation of methyl linoleate through different mechanisms of antioxidation action. The antioxidative effects found were related to the kinds and contents of soybean liposolubile (a-tocopherol, P-carotene, total xanthophyls) and nonliposolibile antioxidants (isoflavones, phytic acid), that is, they were put in relation to thermal treatments used in production of these feeds. The effects of the application of different solvents on the antioxidative actions of the extracts of nonliposolubile antioxidants of full-fat soybean feeds during thermal and catalytic oxidation of soybean oil have been studied by ESR.

The purpose of this dissertation was to realize two studies to evaluate the nutritional value of diets containing full-fat soybean processed by vacuum (FFSvac) or by steam (FFSstm) and of FFSvac and FFSstm for broilers and pigs. The study 1 evaluated the digestibility of diets, of soybeans and the metabolism of broilers fed with diets containing processed full-fat soybean. The experimental design was completely randomized with five treatments (control diet - CD, CD with isometric substitution of 40% FFSvac or FFSstm; diet with FFSvac and diet with FFSstm). The N intake was 23 and 20% less (P<0.01) to the broilers fed with diets containing FFSvac or FFSstm in relation to control group. The excretion, digestibility and absorption of N were not influenced (P>0.05) by the diets. The excretion of energy was 19 and 22% less (P<0.01) to the broilers fed with FFSvac in the diet in relation to control group and those fed with FFSstm in the diet. The diet with FFSvac enhanced (P<0.01) the digestibility and the metabolization of energy. The apparent metabolizable energy corrected for retention of N (MEn) was 12% higher (P<0.01) to the one fed of diet with FFSstm and similar to control diet. The dry matter, protein and ether extract digestibles, the apparent metabolizable energy and MEn were similar (P>0.05) for full-fat soybean processed by vacuum or by steam. The digestibility and absorption of N are not influenced by diets containing full-fat soybean processed by vacuum or by steam. The vacuum processing for full-fat soybean improves the digestibility of gross energy and the apparent metabolizable energy of diets. For the studied soybean types, the digestible nutrients, the apparent metabolizable energy and corrected to nitrogen retention are similar. The study 2 evaluated the digestibility of diets, of soybeans and the metabolism of pigs fed with diets containing processed full-fat soybean. The experimental design was completely randomized with five treatments (control diet - CD, CD with isometric substitution of 40% FFSvac or FFSstm; diet with FFSvac and diet with FFSstm) and four replications with one animal. The intake, urinary excretion of energy and digestible and metabolizable energy were not influenced (P>0.05) by the type of FFS processing. The animals fed diet containing FFSvac excreted 56% more energy (P<0.05) in their feces than animals fed the control diet. The digestion and N metabolism were not influenced (P>0.05) by the type of FFS processing. The digestibility of P, the fecal and the retained P did not differ (P>0.05) between the diets. For FFS, the digestible contents of protein and energy were 10.4 and 4.0% higher (P<0.01) with vacuum processing. The processed soybean does not affect the digestibility of diets neither the metabolism of pigs, except the digestibility of gross energy, which is reduced. The vacuum processing improves the digestible contents of protein and energy of full-fat soybean.
O objetivo desta dissertação foi realizar dois estudos para avaliar o valor nutricional de dietas contendo soja integral processada a vácuo (SIvac) ou a vapor (SIvap) e da SIvac e SIvap para frangos de corte e suínos. O estudo 1 avaliou a digestibilidade das dietas, das sojas e o metabolismo de frangos de corte alimentados com dietas contendo soja integral processada. O delineamento experimental foi inteiramente casualizado, com cinco tratamentos (dieta controle - DC; DC com substituição isométrica de 40% de SIvac ou SIvap; dieta com SIvac e dieta com SIvap). A ingestão de N foi 23 e 20% menor (P<0,01) para as aves alimentadas com dietas com SIvac ou SIvap em relação ao grupo controle. A excreção, digestibilidade e absorção do N não foram influenciadas (P>0,05) pelas dietas. A excreção de energia foi 19 e 22% menor (P<0,01) para as aves alimentadas com SIvac na dieta em relação ao grupo controle e àquele alimentado com dieta com SIvap. A dieta com SIvac melhorou (P<0,01) a digestibilidade e a metabolização da energia. A energia metabolizável aparente corrigida para retenção de N (EMn) foi 12% superior (P<0,01) à da dieta com SIvap e similar a da dieta controle. A matéria seca, proteína e extrato etéreo digestíveis, as energias metabolizável aparente e EMn foram semelhantes (P>0,05) para a soja integral processada a vácuo ou a vapor. A digestibilidade e a absorção do nitrogênio não são influenciadas por dietas contendo soja integral processada a vácuo ou a vapor. O processo a vácuo para a soja integral melhora a digestibilidade da energia bruta e a energia metabolizável aparente das dietas. Para os tipos de soja estudados, os nutrientes digestíveis, a energia metabolizável aparente e corrigida para retenção de nitrogênio são similares. O estudo 2 avaliou a digestibilidade das dietas, das sojas e o metabolismo de suínos alimentados com dietas contendo soja integral processada. O delineamento experimental foi inteiramente casualizado, com cinco tratamentos (dieta controle - DC; DC com substituição isométrica de 40% de SIvac ou SIvap; dieta com SIvac e dieta com SIvap) e quatro repetições de um animal. A ingestão, excreção urinária de energia e energias digestível e metabolizável das dietas não foram influenciadas (P>0,05) pelo processamento da soja. Os animais alimentados com dieta contendo SIvac excretaram 56% mais energia (P<0,05) nas fezes que os alimentados com a dieta controle. A digestão e o metabolismo do N não foram influenciados (P>0,05) pelo tipo de processamento da soja. A digestibilidade do P, o P fecal e absorvido não diferiram (P>0,05) entre as dietas. Para a soja integral, os teores digestíveis de proteína e energia foram 10,4 e 4,0% superiores (P<0,01) com o processamento a vácuo. A soja processada não altera a digestibilidade das dietas nem o metabolismo de suínos, exceto a digestibilidade da energia bruta, que é reduzida. O processamento a vácuo melhora os teores digestíveis de proteína e energia da soja integral para suínos.

Traditionally, fish meal (FM) and fish oil (FO) have been used extensively in aquafeeds, mainly due to their excellent nutritional properties. However, various reasons dictate the use of sustainable alternatives and the reduction of the dependence on these commodities in fish feeds. Hence, the aim of the present thesis was to investigate the effects of the replacement of FM and FO with two vegetable oils (VO) and an oilseed meal on the growth performance, feed utilization, nutrient and fatty acids (FA) digestibility and tissue FA composition and metabolism in three commercially important European fish species. Specifically, in Experiment I crude palm oil (PO) was used to replace FO in diets for rainbow trout. In Experiments II and III FO was replaced with rapeseed oil (RO) in diets for Atlantic salmon at various dietary protein/lipid levels aiming also at further reductions of FM by using low protein (high lipid) diet formulations. In Experiments II and III the fish were reared at low and high water temperatures, respectively, in order to elucidate, also, the potential effects of temperature. Lastly, the effects of the replacement of FM with full fat soya meal (FFS) in Atlantic cod were investigated in Experiment IV. The results of the present thesis showed no negative effects on growth performance and feed utilization in rainbow trout when FO was replaced with PO. The dietary inclusion of RO improved the growth of Atlantic salmon, possibly, due to changes in the nutrient and FA digestibilities and FA catabolism while, the growth and feed utilization were unaffected by the dietary protein/lipid level. However, the growth of Atlantic cod was affected negatively by the replacement of FM with FFS. The proximate composition of the fish whole body was in most cases unaffected by dietary treatments. The changes in dietary formulations affected the dietary FA compositions and resulted in significant changes in the fish tissue FA compositions. It was clearly shown that the fish tissue total lipid FA composition reflects the FA composition of the diet, although specific FA were selectively utilized or retained in the tissues by the fish. These may have serious implications not only for fish metabolism and growth but also for the quality of the final product, especially in terms of possible reductions of n-3 HUFA.

碩士
國立屏東科技大學
食品科學系所
99
There were two parts in this study. The first part was that six soybean protein isolates (SPI) were analyzed for their physicochemical properties, and were used as the raw materials in texturized soybean protein (TSP) extrusion for their quality. According to the results, SPI F had the highest crude protein, water soluble protein, globulin protein and protein dispersibility index, whereas SPI A had the highest final viscosity, SPI A and SPI C had higher emulsifying capacity. Results of the extrusion processing of different materials, SPI F had the highest protein dispersibility index. SPI E, SPI B, and SPI A had the highest moisture retention, water absorption index, cutting force, respectively. SPI D had the lowest cooking loss. The correlation analysis showed, the relative peak density and the contents of water soluble protein of 7S and 11S globulin from all the different source of SPI had the significant correlation (p > 0.05) with the properties of TSP after extrusion, while that of final viscosity had the correlation only with cutting force of TSP. However, the contents of crude protein and emulsifying capacity showed no significant correlation (p > 0.05) with the properties of TSP. The second part of the investigate was to study the effects of physicochemical properties on TSP by adding the different rice flour〔Taichung Waxy 70 (TCW70), Taichung Sen 17 (TCS17) and Tai Keng 9 (TK9)〕or starch（corn starch, high amylose maize starch and potato starch）. The results revealed TCW70 had the highest moisture retention and water absorption index among the rice flour, while that of TK9 had the lowest cooking loss. However, no significant difference（p > 0.05）in cutting force, by adding different rice flour. As to the adding of starch, the potato starch had the highest moisture retention, while that of corn starch had the best cutting force, cooking loss and water absorption index. The SEM observation part, the expansion of TSP after adding with starch was much obvious than that of adding with rice flour, particularly with potato starch.

碩士
國立中興大學
農業機械工程學系
83
The full-fat soybean grits was used as the raw material to study the effects of process parameters on extrudates residencee distributions and chemical properies by using single- screw extruder. The process parameters were barrel temperature, screw speed and feed rate. The experiment was a 3×3×3 factorial design. Results indicated that: 1.barrel temperature, screw speed and feed rate were influ-l in mean residence time. Mean residence time was signific-ntly affected by the feed rate. Decreasing the feed rate raisedean residence time. 2. The feed rate had the greatest effect on the vessel dis-ersion number (D/μL), total color differences (△E) and ureasectivity (pH change). Increasing the feed rate raised the vesselispersion number and urease activity, but decreased the totalolor differences. 3. Dreaseing the screw speed and feed rate resulted an inc-in the mean residence time. Due to the results of proteinolubility and protein digestibility, the feed efficiency of theull-fat soybean would raise. 4. The optimum operation conditions of the full-fat soybeansing single -screw extruder were that barrel temperature were70℃ 170℃ 90℃, screw speed was 80.0rpm and feed rate was 12.5r hour. The mean residence time was 137.8 seconds.

Much interest is given to the research in biodiesel these days. It is renewable and has similar properties to conventional diesel. Biodiesel is also generally seen to produce less emissions, hence it is seen as an attractive and a greener alternative source of energy. Biodiesels are also referred to as Fatty Acid Methyl Esters (FAME). They are obtained from the transesterification of oils from organic products such as animal fat or vegetable oil. Common biodiesel feedstocks are soybean (USA), rapeseed (Europe), palm, and coconut (Asia). The Philippines, being one of the largest producers of coconut in the world, should have a substantial interest in this. Biodiesel in the Philippines is obtained from coconut oil and is commonly called Coconut Methyl Ester (CME). There is a number of research works available that study the effects of biodiesel when used to run diesel engines, although there is notably less studies on CME and particularly Philippine-CME available. This work aims to show the fuel injection timing and duration of a Common Rail Direct Injection (CRDI) engine run by CME-diesel with neat diesel as baseline. There are two sets of injection parameters that describe the injection behaviour of an engine. The static injection parameters refer to the electronic commands given out by the Electronic Control Unit (ECU) while the dynamic injection parameters refer to the actual physical injection happening in the fuel injector nozzle. Knowledge of these information may help explain possible differences in performance and/or emissions observed in biodiesel-fed engines. The static injection commands were obtained by tapping into the solenoid signal wire from the ECU. The dynamic injection parameters were estimated from line pressure signals in the fuel injection line. All the tests were done on the AVL Eddy Current Engine Dynamometer in the University of the Philippines Vehicle Research and Testing Laboratory. Baseline data were recorded from 100% neat diesel, then volumetric blends B10 (10% CME biodiesel and 90% neat diesel) and B20 (20% CME biodiesel and 80% neat diesel) were mixed for the tests. The CRDI engine was ran at full load, sweeping the operating range at 400 RPM increments from 800 to 4000. The results showed no significant difference in the static injection parameters of the CME-diesel blend-fed engines as compared to being ran with neat diesel. As for the dynamic injection parameters, there were some significant differences observed in the higher engine speeds starting at 2800 RPM. The observed changes were attributed to the differences in the physiochemical properties of CME biodiesel as compared to neat diesel.