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What are we trying to simulate?; Digestive enzyme activities in pigs and poultry; The role of the microflora in digestion; The physical and chemical constitution of foods: effects on carbohydrate digestion; Indirect effects of foods antinutrients on protein digestibility and nutritional value of diets; In vitro simulation of digestion and absorptionin the gastro-intestinal tract of pigs and poultry - methods and results; The chemical and biological bases of a calculation system developed for predicting dietary energy values: a poultry model; Enzyme modelling of protein digestion and L-lysine availability; Use of pepsin digentibility, multienzyme pH change and protein solubility assays to predict in vivo protein quality of feedstuffs; Estimation of true ileal digestibility of amino acids with pigs by an in vitro method using intestinal fluid; prediction of the energy value of non-ruminant feeds using in vitro digestion with intestinal fluid and other chemical methods; A model for feed evaluation based on in vitro digestible dry matter and protein; In vitro simulation of protein digestion: an integrated approach; Simultaneous estimations of precaecal protein and carbohydrate digestion in the pig; The way forward; the future requirements of the feed industry; The scientific challenge.
Discusses current topics related to the technology and utilization of oilseeds and their products, such as managing an enterprise in a market economy; political and environmental challenges of the 1990s; achieving total quality; nutrition; oilseed harvesting and oil/meal separation; processing of vegetable oils; processing vegetable protein products; oilseeds in animal feeds, etc.
This book addresses various aspects of in vitro digestibility: • Application of meta-analyses and machine learning methods to predict methane production; • Methane production of sainfoin and alfalfa; • In vitro evaluation of different dietary methane mitigation strategies; • Rumen methanogenesis, rumen fermentation, and microbial community response; • The role of condensed tannins in the in vitro rumen fermentation kinetics; • Fermentation pattern of several carbohydrate sources; • Additive, synergistic, or antagonistic effects of plant extracts; • In vitro rumen degradation and fermentation characteristics of silage and hay; • In vitro digestibility, in situ degradability, and rumen fermentation of camelina co-products; • Ruminal fermentation parameters and microbial matters to odd- and branched-chain fatty acids; • Comparison of fecal versus rumen inocula for the estimation of NDF digestibility; • Rumen inoculum collected from cows at slaughter or from a continuous fermenter; • Seaweeds as ingredients of ruminant diets; • Rumen in vitro fermentation and in situ degradation kinetics of forage Brassica crops; • In vitro digestibility and rumen degradability of vetch varieties; • Intestinal digestibility in vitro of Vicia sativa varieties; • Ruminal in vitro protein degradation and apparent digestibility of Pisum sativum; • In vitro digestibility studies using equine fecal inoculum; • Effects of gas production recording system and pig fecal inoculum volume on kinetics; • In vitro methods of assessing protein quality for poultry; and • In vitro techniques using the DaisyII incubator.
Amino acids (AAs) are not only building blocks of protein, but are also signalling molecules as well as regulators of gene expression and the protein phosphorylation cascade. Additionally, AAs are key precursors for syntheses of hormones and low-molecular weight nitrogenous substances with each having enormous biological importance. For example, physiological concentrations of AA metabolites (e.g., nitric oxide, polyamines, glutathione, taurine, thyroid hormones, and serotonin) are required for cell functions. Growing evidence shows that humans and animals have dietary requirements for all proteinogenic AAs. Mammals, birds and fish also have species- and age-dependent needs for some AA-related substances. However, elevated levels of other products (e.g., ammonia, homocysteine, H2S, and asymmetric dimethylarginine) are pathogenic factors for neurological disorders, oxidative stress, and cardiovascular disease. Thus, optimal amounts of AAs and their ratios in diets and circulation are crucial for whole body homeostasis and health. Adequate provision of one or a mixture of functional AAs or metabolites may be beneficial for ameliorating health problems at various stages of the life cycle (e.g., fetal growth restriction, neonatal morbidity and mortality, weaning-associated intestinal dysfunction and wasting syndrome, obesity, diabetes, cardiovascular disease, the metabolic syndrome, and infertility). Dietary supplementation of these nutrients can also optimize the efficiency of metabolic transformations to enhance muscle growth, milk production, and athletic performance, while preventing excess fat deposition and reducing adiposity. Therefore, functional AAs hold great promise in improving the growth, health and well-being of individuals. Chapter 7 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.
Featuring authors from academia as well as industry, this book provides a broad view of carbohydrates influencing digestive health. Part 1 is a general overview of carbohydrates that function as prebiotics or fermentable carbohydrates. Part 2 is a more in depth examination of specific carbohydrates for digestive health and applications. This book provides an in-depth review and thorough foundation for food scientists, product developers and nutrition scientists seeking to understand the digestive health implications of carbohydrates. Key features: Analyzes the most active fields of research currently performed on nondigestible carbohydrates Focuses on the growing opportunity to deliver digestive health benefits through fibers and other novel carbohydrates Authors include highly recognized researchers from academe and industry experts Explores new possibilities in prebiotics and fermentable carbohydrates
These proceedings cover a diverse range of topics about the pig industry: pig behaviour and housing, nutrient digestibility, regulation of growth, pig reproduction, lactation and pre-weaning gowth, gastrointestinal health and physiology, applied nutrition and meat quality.
This book provides developmental data regarding piglets (with a focus on the gastrointestinal tract), data related to amino acid metabolism in pigs, data related to nutritional and physiological functions of amino acids in pigs, nutritional requirements for amino acids in pigs, signaling roles of amino acids, methodological aspects in amino acid research and the pig model for studying amino acid-related human diseases.
This classic reference for poultry nutrition has been updated for the first time since 1984. The chapter on general considerations concerning individual nutrients and water has been greatly expanded and includes, for the first time, equations for predicting the energy value of individual feed ingredients from their proximate composition. This volume includes the latest information on the nutrient requirements of meat- and egg-type chickens, incorporating data on brown-egg strains, turkeys, geese, ducks, pheasants, Japanese quail, and Bobwhite quail. This publication also contains new appendix tables that document in detail the scientific information used to derive the nutrient requirements appearing in the summary tables for each species of bird.
The aim of this Special Issue is to publish high quality papers concerning poultry nutrition and the interrelations between nutrition, metabolism, microbiota and the health of poultry. Therefore, I invite submissions of recent findings, as original research or reviews, on poultry nutrition, including, but not limited to, the following areas: the effect of feeding on poultry meat end egg quality; nutrient requirements of poultry; the use of functional feed additives to improve gut health and immune status; microbiota; nutraceuticals; soybean meal replacers as alternative sources of protein for poultry; the effects of feeding poultry on environmental impacts; the use of feed/food by-products in poultry diet; and feed technology.