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How past experience can dictate future developments in the pork industry: a global perspective |
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11 | (18) |
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11 | (1) |
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Effects of technology on the efficiency of the pork industry |
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12 | (3) |
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Factors affecting productivity |
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15 | (1) |
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Looking back to go forward |
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16 | (6) |
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22 | (3) |
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25 | (4) |
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27 | (2) |
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Host and intestinal microbiota negotiations in the context of animal growth efficiency |
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29 | (10) |
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29 | (1) |
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The gut microbiota is competitive with the host in the small intestine but cooperative in the large intestine |
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30 | (1) |
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Gut bacteria and intestinal inflammation |
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31 | (1) |
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Bacteria alter intestinal epithelial turnover and maintenance energy requirements |
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32 | (1) |
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33 | (6) |
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35 | (4) |
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Gut development: interactions between nutrition, gut health and immunity in young pigs |
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39 | (18) |
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39 | (1) |
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Defence mechanisms of the gastrointestinal tract |
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40 | (2) |
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Neonatal immune function: general aspects |
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42 | (1) |
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42 | (5) |
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47 | (1) |
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Weaning and the mucosal immune system |
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47 | (2) |
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Feed additives and GIT immunity |
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49 | (3) |
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52 | (5) |
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53 | (4) |
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Pig health and the modern genotype: implications for performance and profitability |
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57 | (8) |
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57 | (4) |
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Sources of pig genotypes in Asia |
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61 | (1) |
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62 | (1) |
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63 | (2) |
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64 | (1) |
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The role of fibre in piglet gut health |
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65 | (32) |
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65 | (2) |
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Terminology and chemical structure |
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67 | (6) |
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Physico-chemical properties of fibre |
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73 | (2) |
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The action of fibre in stomach and small intestine |
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75 | (6) |
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The action of fibre in large intestine |
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81 | (1) |
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Fermentation and fermentation end-products |
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81 | (5) |
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Fibre and feed intake and performance |
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86 | (1) |
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87 | (1) |
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88 | (9) |
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88 | (9) |
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Intestinal balance and equilibrium: setting the scene for health and management |
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97 | (12) |
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97 | (1) |
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Strategy of nutrient recovery |
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97 | (2) |
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99 | (2) |
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Establishing enterocyte-goblet cells |
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101 | (1) |
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101 | (2) |
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103 | (1) |
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103 | (6) |
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104 | (5) |
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Managing disease resistance: applying advanced methods to understand gastrointestinal microbial communities |
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109 | (16) |
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Introduction to the intestinal microbiota |
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109 | (1) |
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110 | (2) |
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112 | (3) |
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Analysis of intestinal bacterial communties |
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115 | (4) |
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119 | (6) |
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119 | (6) |
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Coccidiosis control: yesterday, today and tomorrow |
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125 | (14) |
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125 | (3) |
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Prevention and control: yesterday, today and tomorrow |
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128 | (6) |
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134 | (5) |
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134 | (5) |
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Nutrigenomics: evaluating and understanding nutritional effects on intestinal gene expression and function |
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139 | (16) |
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139 | (1) |
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139 | (1) |
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140 | (1) |
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Utilisation of genomic information |
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141 | (1) |
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Transcriptomics and the use of microarrays for evaluating gene expression |
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142 | (1) |
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Avian research beyond the genome |
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143 | (1) |
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Role of mannoproteins and mannanoligosaccharides in animal health |
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144 | (4) |
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Selenium supplementation: effects on poultry performance and wellbeing |
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148 | (1) |
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Nutrigenomics and organic selenium supplementation |
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149 | (2) |
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Future of nutrigenomics in animal production |
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151 | (1) |
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152 | (3) |
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153 | (2) |
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The role of nucleotides in improving broiler pre-starter diets |
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155 | (12) |
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155 | (1) |
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155 | (2) |
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The effect of NuPro® in pre-starter diets |
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157 | (6) |
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163 | (4) |
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163 | (4) |
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Nutrition and gut microbiology: redirecting nutrients from the microbes to the host animal with SSF |
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167 | (16) |
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Basic use of enzymes in monogastric feeds |
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167 | (1) |
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Increasing energy release from carbohydrates |
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168 | (1) |
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169 | (1) |
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Interaction between feed material, NSPs and microflora |
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169 | (3) |
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Comparing types of feed enzymes |
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172 | (5) |
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Using by-products to reduce feed costs |
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177 | (1) |
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DDGS a new opportunity or a challenge? |
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177 | (1) |
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Nutritional value of DDGS |
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178 | (1) |
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Can SSF be used to improve DDGS? |
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179 | (1) |
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179 | (4) |
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181 | (2) |
| Keyword index |
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183 | |
