FeedChannel feedchannel@feedchannel.online https://www.feedchannel.online en-us Visualplatform http://blogs.law.harvard.edu/tech/rss FeedChannel episodic no https://www.feedchannel.online/files/rv1.7/sitelogo.gif https://www.feedchannel.online http://www.feedchannel.online/webinar3-feedase-the-global-feed <p><b>Speakers: </b>Prof K.E. Bach Knudsen, Prof M. Kidd, Dr J. Noblet&nbsp; and Pierre-André Geraert<br><br>More about the feedase effect. Prof K.E. Bach Knudsen, Prof M. Kidd and Dr J. Noblet have discussed about the indigestible fraction of feed and its impact on the global feed digestibility.<br><h2><br></h2><p><b>Questions and answers session held during the live</b></p><p><b>Q: What elements or factors in feed and feed manufacturing destroy enzyme structural integrity?</b></p><p>Mainly feed processing with water vapor, pressure and temperature are stressful to protein structures and depending on their level and duration could significantly impair enzyme structures and thus efficacy.</p><p><br></p><p><b>Q: As substrate concentration increases is enzyme dose or rate of activity more important?</b></p><p>The&nbsp;efficacy of the enzymes is related to breaking down few bonds to decrease the mocelular size and restore the nutrient accessibility or decrease viscosity. Most of enzymes are not used to completely degrade a substrate like endogenous amylase releasing glucose, but are more used to decrease the length of the polysaccharides to reduce impact on viscosity or accessibility for the &nbsp;endog enous enzymes. However, high doses of enzymes such as phytase need enough substrates to work on. Moreover NSP-enzyme dose response is usually curvilinear reaching a plateau irrespective of the substrate concentration.</p><p><br></p><p><b>Q:&nbsp;What are the anti nutrients specifically in corn?</b></p><p>More than anti-nutrients we should talk about low digestible or poorly digestible components that may affect the overall feed digestibility. As example the insoluble arabinoxylans highly ramified that you find in corn can reduce its nutritional value.</p><p><br></p><p><b>Q: About corn and soya bean diets. what is the percent % of cell wall fibers? and what are the exogenous enzymes required?</b></p><p>We have published many synthesis on those levels and recommend the following to get the best overview (Geraert et al., 2005, Dietary carbohydrates: a review of their physicochemical properties and digestibility in poultry and swine, 18 pp, Proc Eastern Nutrition Conference, ANAC, 10-11 May) as well as the most recent paper by Bach-Knudsen (Fiber and nonstarch polysaccharide content and variation in common crops used in broiler diets, Poult Sci, 2014, 93:2380-2393). Enzymes required to hydrolyse NSP from corn are endoxylanase, arabinofuranosidases, acetylxylan esterase, feruloyl esterase and glucuronidases. For soybean meal, a large range of enzymes is required including pectinases, xylanases, debranching enzymes.</p><p><br></p><p><b>Q: What is the different in anti nutrients between wheat and corn?</b></p><p>Most of the NSP structures exist in both cereals. However, the proportion of soluble NSP is higher in wheat than in corn and the arabinoxylans are more branched or ramified with arabinose residues in corn than wheat.</p><p><br></p><p><b>Q:&nbsp;You still haven´t mentioned the role of Proteases to increase total and aminoacids digestibility. Can you also explain the differences between birds and pigs regarding the mode of action of enzymes ?</b></p><p>Fundamentally exogenous enzymes are similar for both species but they may not release their effect at the same level of the digestive tract (pH, transit time…). Proteolytic enzymes are very abundant in the metabolism of our animal species, however, there is often a limited access to the protein in the vegetables for those endogenous enzymes. That's why NSP-enzymes having a range of enzyme activities have shown improvement in amino acid digestibility. Such an effect is not direct on the proteins but indirect giving more access of the chymotrypsine, pepsine... to the substrates.</p><p><br></p><p><b>Q:&nbsp;How this enzyme could behave in the rumen? Do you think it could improve feed digestibility in Dairy and beef cattle?</b></p><p>NSP-enzymes have already been evaluated in ruminants. They indeed improve the access to the fibres and may result in increased energy availability but have not yet often justified enough return-on-Investment.</p><p><br></p><p><b>Q:&nbsp;Beyond phytate and the specific compounds from soy, what anti-nutritional factors can you considered important in corn-wheat-soy diets?</b></p><p>Soybeans are riched in pectins, complex polysaccharide structures, and corn contain highly ramified arabinoxylans. Those structures limit the accessibility to the nutrients and are thus important to consider to improve feed digestibility?</p><p><br></p><p><b>Q: Organic acid can improve ndf digestion?</b></p><p>Improving the functioning of the intestine through lowering pH for instance will have an effect on feed digestibility. However, the animals do not possess the enzymatic activities required to truly digest fibres and improving the gut functioning will not generate new enzyme production such as xylanase or b-glucanase. Lowering pH especially in the hindgut might favour fibrolytic bacteria and subsequently improve NDF digestion. Unfortunately, the yield of such action might be very low.</p><br></p><p><a href="http://www.feedchannel.online/webinar3-feedase-the-global-feed"><img src="http://www.feedchannel.online/64968570/66511537/d11b575328ea3dc1568f58aac20dc9c8/standard/download-4-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66511537 Thu, 04 Mar 2021 10:00:39 GMT Webinar#3: Feedase The Global Feed Digestibility Approach Speakers: Prof K.E. Bach Knudsen, Prof M. Kidd, Dr J. Noblet and Pierre-André GeraertMore about the feedase effect. Prof K.E. Bach Knudsen, Prof M. Kidd and Dr J. Noblet have discussed about the indigestible fraction of feed and its impact on the global feed digestibility.Questions and answers session held during the liveQ: What elements or factors in feed and feed manufacturing destroy enzyme structural integrity?Mainly feed processing with water vapor, pressure and temperature are stressful to protein structures and depending on their level and duration could significantly impair enzyme structures and thus efficacy.Q: As substrate concentration increases is enzyme dose or rate of activity more important?Theefficacy of the enzymes is related to breaking down few bonds to decrease the mocelular size and restore the nutrient accessibility or decrease viscosity. Most of enzymes are not used to completely degrade a substrate like endogenous amylase releasing glucose, but are more used to decrease the length of the polysaccharides to reduce impact on viscosity or accessibility for the endog enous enzymes. However, high doses of enzymes such as phytase need enough substrates to work on. Moreover NSP-enzyme dose response is usually curvilinear reaching a plateau irrespective of the substrate concentration.Q:What are the anti nutrients specifically in corn?More than anti-nutrients we should talk about low digestible or poorly digestible components that may affect the overall feed digestibility. As example the insoluble arabinoxylans highly ramified that you find in corn can reduce its nutritional value.Q: About corn and soya bean diets. what is the percent % of cell wall fibers? and what are the exogenous enzymes required?We have published many synthesis on those levels and recommend the following to get the best overview (Geraert et al., 2005, Dietary carbohydrates: a review of their physicochemical properties and digestibility in poultry and swine, 18 pp, Proc Eastern Nutrition Conference, ANAC, 10-11 May) as well as the most recent paper by Bach-Knudsen (Fiber and nonstarch polysaccharide content and variation in common crops used in broiler diets, Poult Sci, 2014, 93:2380-2393). Enzymes required to hydrolyse NSP from corn are endoxylanase, arabinofuranosidases, acetylxylan esterase, feruloyl esterase and glucuronidases. For soybean meal, a large range of enzymes is required including pectinases, xylanases, debranching enzymes.Q: What is the different in anti nutrients between wheat and corn?Most of the NSP structures exist in both cereals. However, the proportion of soluble NSP is higher in wheat than in corn and the arabinoxylans are more branched or ramified with arabinose residues in corn than wheat.Q:You still haven´t mentioned the role of Proteases to increase total and aminoacids digestibility. Can you also explain the differences between birds and pigs regarding the mode of action of enzymes ?Fundamentally exogenous enzymes are similar for both species but they may not release their effect at the same level of the digestive tract (pH, transit time…). Proteolytic enzymes are very abundant in the metabolism of our animal species, however, there is often a limited access to the protein in the vegetables for those endogenous enzymes. That's why NSP-enzymes having a range of enzyme activities have shown improvement in amino acid digestibility. Such an effect is not direct on the proteins but indirect giving more access of the chymotrypsine, pepsine... to the substrates.Q:How this enzyme could behave in the rumen? Do you think it could improve feed digestibility in Dairy and beef cattle?NSP-enzymes have already been evaluated in ruminants. They indeed improve the access to the fibres and may result in increased energy availability but have not yet often justified enough return-on-Investment.Q:Beyond phytate and the specific compounds from soy, what anti-nutritional factors can you considered important in corn-wheat-soy diets?Soybeans are riched in pectins, complex polysaccharide structures, and corn contain highly ramified arabinoxylans. Those structures limit the accessibility to the nutrients and are thus important to consider to improve feed digestibility?Q: Organic acid can improve ndf digestion?Improving the functioning of the intestine through lowering pH for instance will have an effect on feed digestibility. However, the animals do not possess the enzymatic activities required to truly digest fibres and improving the gut functioning will not generate new enzyme production such as xylanase or b-glucanase. Lowering pH especially in the hindgut might favour fibrolytic bacteria and subsequently improve NDF digestion. Unfortunately, the yield of such action might be very low. Speakers: Prof K.E. Bach Knudsen, Prof M. Kidd, Dr J. Noblet and Pierre-André GeraertMore about the feedase effect. Prof K.E. Bach Knudsen, Prof M. Kidd and Dr J. Noblet have discussed about the indigestible fraction of feed and its impact on the... FeedChannel 52:54 <p><b>Speakers: </b>Prof K.E. Bach Knudsen, Prof M. Kidd, Dr J. Noblet&nbsp; and Pierre-André Geraert<br><br>More about the feedase effect. Prof K.E. Bach Knudsen, Prof M. Kidd and Dr J. Noblet have discussed about the indigestible fraction of feed and its impact on the global feed digestibility.<br><h2><br></h2><p><b>Questions and answers session held during the live</b></p><p><b>Q: What elements or factors in feed and feed manufacturing destroy enzyme structural integrity?</b></p><p>Mainly feed processing with water vapor, pressure and temperature are stressful to protein structures and depending on their level and duration could significantly impair enzyme structures and thus efficacy.</p><p><br></p><p><b>Q: As substrate concentration increases is enzyme dose or rate of activity more important?</b></p><p>The&nbsp;efficacy of the enzymes is related to breaking down few bonds to decrease the mocelular size and restore the nutrient accessibility or decrease viscosity. Most of enzymes are not used to completely degrade a substrate like endogenous amylase releasing glucose, but are more used to decrease the length of the polysaccharides to reduce impact on viscosity or accessibility for the &nbsp;endog enous enzymes. However, high doses of enzymes such as phytase need enough substrates to work on. Moreover NSP-enzyme dose response is usually curvilinear reaching a plateau irrespective of the substrate concentration.</p><p><br></p><p><b>Q:&nbsp;What are the anti nutrients specifically in corn?</b></p><p>More than anti-nutrients we should talk about low digestible or poorly digestible components that may affect the overall feed digestibility. As example the insoluble arabinoxylans highly ramified that you find in corn can reduce its nutritional value.</p><p><br></p><p><b>Q: About corn and soya bean diets. what is the percent % of cell wall fibers? and what are the exogenous enzymes required?</b></p><p>We have published many synthesis on those levels and recommend the following to get the best overview (Geraert et al., 2005, Dietary carbohydrates: a review of their physicochemical properties and digestibility in poultry and swine, 18 pp, Proc Eastern Nutrition Conference, ANAC, 10-11 May) as well as the most recent paper by Bach-Knudsen (Fiber and nonstarch polysaccharide content and variation in common crops used in broiler diets, Poult Sci, 2014, 93:2380-2393). Enzymes required to hydrolyse NSP from corn are endoxylanase, arabinofuranosidases, acetylxylan esterase, feruloyl esterase and glucuronidases. For soybean meal, a large range of enzymes is required including pectinases, xylanases, debranching enzymes.</p><p><br></p><p><b>Q: What is the different in anti nutrients between wheat and corn?</b></p><p>Most of the NSP structures exist in both cereals. However, the proportion of soluble NSP is higher in wheat than in corn and the arabinoxylans are more branched or ramified with arabinose residues in corn than wheat.</p><p><br></p><p><b>Q:&nbsp;You still haven´t mentioned the role of Proteases to increase total and aminoacids digestibility. Can you also explain the differences between birds and pigs regarding the mode of action of enzymes ?</b></p><p>Fundamentally exogenous enzymes are similar for both species but they may not release their effect at the same level of the digestive tract (pH, transit time…). Proteolytic enzymes are very abundant in the metabolism of our animal species, however, there is often a limited access to the protein in the vegetables for those endogenous enzymes. That's why NSP-enzymes having a range of enzyme activities have shown improvement in amino acid digestibility. Such an effect is not direct on the proteins but indirect giving more access of the chymotrypsine, pepsine... to the substrates.</p><p><br></p><p><b>Q:&nbsp;How this enzyme could behave in the rumen? Do you think it could improve feed digestibility in Dairy and beef cattle?</b></p><p>NSP-enzymes have already been evaluated in ruminants. They indeed improve the access to the fibres and may result in increased energy availability but have not yet often justified enough return-on-Investment.</p><p><br></p><p><b>Q:&nbsp;Beyond phytate and the specific compounds from soy, what anti-nutritional factors can you considered important in corn-wheat-soy diets?</b></p><p>Soybeans are riched in pectins, complex polysaccharide structures, and corn contain highly ramified arabinoxylans. Those structures limit the accessibility to the nutrients and are thus important to consider to improve feed digestibility?</p><p><br></p><p><b>Q: Organic acid can improve ndf digestion?</b></p><p>Improving the functioning of the intestine through lowering pH for instance will have an effect on feed digestibility. However, the animals do not possess the enzymatic activities required to truly digest fibres and improving the gut functioning will not generate new enzyme production such as xylanase or b-glucanase. Lowering pH especially in the hindgut might favour fibrolytic bacteria and subsequently improve NDF digestion. Unfortunately, the yield of such action might be very low.</p><br></p><p><a href="http://www.feedchannel.online/webinar3-feedase-the-global-feed"><img src="http://www.feedchannel.online/64968570/66511537/d11b575328ea3dc1568f58aac20dc9c8/standard/download-4-thumbnail.jpg" width="600" height="338"/></a></p> AA amino acids anti-nutritional factors antinutritional factors arabinoxylans availability broilers challenge dAA dietary fibers digestibility digestible digestion efficiency energy energy value enzymes fibers fibres indigestible fraction NDF NSP nutritional requirements nutritionist performance phytate pigs poultry proteases proteins solutions substrates swine viscosity http://www.feedchannel.online/scientific-background-on-feedase <p>Prof K.E. Bach Knudsen; Prof M. Kidd and Dr J. Noblet shared their expert insights. Enzymes have long been used in animal feeding to get rid of these anti-nutritional components. However, they have only recently been considered on their global effect on feed. It will allow to get their full economic value and improve animal protein production sustainability.<br><br><br><div><b>Webinar#3: Feedase: The Global Feed Digestibiliy Approach</b></div><div>More about the feedase effect. Prof K.E. Bach Knudsen, Prof M. Kidd and Dr J. Noblet have discussed about the indigestible fraction of feed and its impact on the global feed digestibility.</div></p><p><a href="http://www.feedchannel.online/scientific-background-on-feedase"><img src="http://www.feedchannel.online/64968560/66512077/ed694b9b93fb472205072673146f5c40/standard/download-4-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66512077 Thu, 04 Mar 2021 09:59:50 GMT Scientific Background on Feedase : The Global Feed Digestibility Approach Prof K.E. Bach Knudsen; Prof M. Kidd and Dr J. Noblet shared their expert insights. Enzymes have long been used in animal feeding to get rid of these anti-nutritional components. However, they have only recently been considered on their global effect on feed. It will allow to get their full economic value and improve animal protein production sustainability.Webinar#3: Feedase: The Global Feed Digestibiliy ApproachMore about the feedase effect. Prof K.E. Bach Knudsen, Prof M. Kidd and Dr J. Noblet have discussed about the indigestible fraction of feed and its impact on the global feed digestibility. Prof K.E. Bach Knudsen; Prof M. Kidd and Dr J. Noblet shared their expert insights. Enzymes have long been used in animal feeding to get rid of these anti-nutritional components. However, they have only recently been considered on their global... FeedChannel 22:53 <p>Prof K.E. Bach Knudsen; Prof M. Kidd and Dr J. Noblet shared their expert insights. Enzymes have long been used in animal feeding to get rid of these anti-nutritional components. However, they have only recently been considered on their global effect on feed. It will allow to get their full economic value and improve animal protein production sustainability.<br><br><br><div><b>Webinar#3: Feedase: The Global Feed Digestibiliy Approach</b></div><div>More about the feedase effect. Prof K.E. Bach Knudsen, Prof M. Kidd and Dr J. Noblet have discussed about the indigestible fraction of feed and its impact on the global feed digestibility.</div></p><p><a href="http://www.feedchannel.online/scientific-background-on-feedase"><img src="http://www.feedchannel.online/64968560/66512077/ed694b9b93fb472205072673146f5c40/standard/download-4-thumbnail.jpg" width="600" height="338"/></a></p> anti-nutrional factors antinutritional factors broilers dietary fibers digestibility digestible digestion enzymes fibres indigestible fraction NDF NSP phytates pigs poultry proteases substrates swine viscosity http://www.feedchannel.online/420-what-about-the-influence-of <p><b>Speakers:</b>&nbsp;Dr Jean Noblet, Dr Pierre-André Geraert and Pierre Cozannet&nbsp;<span><br> <br> <br> <b>Answer:<br></b></span>Net energy is calculated from DE or ME. The effects of fiber level or fiber composition or in that case, soluble dietary fiber will affect first the DE or the ME content in poultry or in pigs and afterwards the net energy will be affected according to some variation of the DE or the ME value. .<br><br><b>Q&amp;A #4/20 -&nbsp;Webinar #11 on Net Energy, Feed Formulation and animal performance</b><b><br></b>After education on Net Energy in the SEV, time now to get our expert, Jean Noblet answering questions from the field. The short introduction will be followed by 9 questions answered by Jean, Pierre Cozannet with Pierre-André Geraert as moderator of the webinar.</p><p><a href="http://www.feedchannel.online/420-what-about-the-influence-of"><img src="http://www.feedchannel.online/64968568/66491178/9fc466a9071fb3d0a07180f29e6ce3b7/standard/download-7-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66491178 Wed, 14 Oct 2020 00:00:00 GMT #4/20 - What about the influence of soluble dietary fiber on NE? Many NE... Speakers:Dr Jean Noblet, Dr Pierre-André Geraert and Pierre Cozannet Answer:Net energy is calculated from DE or ME. The effects of fiber level or fiber composition or in that case, soluble dietary fiber will affect first the DE or the ME content in poultry or in pigs and afterwards the net energy will be affected according to some variation of the DE or the ME value. .QA #4/20 -Webinar #11 on Net Energy, Feed Formulation and animal performanceAfter education on Net Energy in the SEV, time now to get our expert, Jean Noblet answering questions from the field. The short introduction will be followed by 9 questions answered by Jean, Pierre Cozannet with Pierre-André Geraert as moderator of the webinar. Speakers:Dr Jean Noblet, Dr Pierre-André Geraert and Pierre Cozannet Answer:Net energy is calculated from DE or ME. The effects of fiber level or fiber composition or in that case, soluble dietary fiber will affect first the DE or the ME content... FeedChannel 03:00 <p><b>Speakers:</b>&nbsp;Dr Jean Noblet, Dr Pierre-André Geraert and Pierre Cozannet&nbsp;<span><br> <br> <br> <b>Answer:<br></b></span>Net energy is calculated from DE or ME. The effects of fiber level or fiber composition or in that case, soluble dietary fiber will affect first the DE or the ME content in poultry or in pigs and afterwards the net energy will be affected according to some variation of the DE or the ME value. .<br><br><b>Q&amp;A #4/20 -&nbsp;Webinar #11 on Net Energy, Feed Formulation and animal performance</b><b><br></b>After education on Net Energy in the SEV, time now to get our expert, Jean Noblet answering questions from the field. The short introduction will be followed by 9 questions answered by Jean, Pierre Cozannet with Pierre-André Geraert as moderator of the webinar.</p><p><a href="http://www.feedchannel.online/420-what-about-the-influence-of"><img src="http://www.feedchannel.online/64968568/66491178/9fc466a9071fb3d0a07180f29e6ce3b7/standard/download-7-thumbnail.jpg" width="600" height="338"/></a></p> DE dietary fibers digestible fibres ME metabolizable net energy pigs poultry Q&A swine webinar http://www.feedchannel.online/webinar-11-net-energy-feed <p><b>Speakers:&nbsp;</b>Dr Jean Noblet, Dr Pierre-André Geraert and Pierre Cozannet&nbsp;<br><br>Last June, we completed the release of a series of 8 Short Educational Videos on Net Energy (NE) presented by Dr Jean NOBLET (ex-INRAe) who largely developed the NE concept in swine and participated to the development of NE for poultry during his scientific career. <p>Net Energy: everything you wanted to know about NE but were afraid to ask! This SEV series was designed to better understand the concept of NE, the methods to determine NE, how to calculate NE of ingredients and diets, the impact of NE on feed formulation, and the benefits in terms of performance and usage of additives.</p> During this webinar, Dr Jean Noblet, Dr Pierre-André Geraert and Pierre Cozannet discussed on : Net Energy, Feed Formulation and animal performance: How to move from theory to practice.</p><p><a href="http://www.feedchannel.online/webinar-11-net-energy-feed"><img src="http://www.feedchannel.online/64968579/66491271/0030d620656026bef2c41b00eed55a5e/standard/download-11-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66491271 Wed, 07 Oct 2020 00:00:00 GMT Webinar #11 - Net Energy, Feed Formulation and animal performance: How to... Speakers:Dr Jean Noblet, Dr Pierre-André Geraert and Pierre CozannetLast June, we completed the release of a series of 8 Short Educational Videos on Net Energy (NE) presented by Dr Jean NOBLET (ex-INRAe) who largely developed the NE concept in swine and participated to the development of NE for poultry during his scientific career. Net Energy: everything you wanted to know about NE but were afraid to ask! This SEV series was designed to better understand the concept of NE, the methods to determine NE, how to calculate NE of ingredients and diets, the impact of NE on feed formulation, and the benefits in terms of performance and usage of additives. During this webinar, Dr Jean Noblet, Dr Pierre-André Geraert and Pierre Cozannet discussed on : Net Energy, Feed Formulation and animal performance: How to move from theory to practice. Speakers:Dr Jean Noblet, Dr Pierre-André Geraert and Pierre CozannetLast June, we completed the release of a series of 8 Short Educational Videos on Net Energy (NE) presented by Dr Jean NOBLET (ex-INRAe) who largely developed the NE concept in... FeedChannel 01:18:35 <p><b>Speakers:&nbsp;</b>Dr Jean Noblet, Dr Pierre-André Geraert and Pierre Cozannet&nbsp;<br><br>Last June, we completed the release of a series of 8 Short Educational Videos on Net Energy (NE) presented by Dr Jean NOBLET (ex-INRAe) who largely developed the NE concept in swine and participated to the development of NE for poultry during his scientific career. <p>Net Energy: everything you wanted to know about NE but were afraid to ask! This SEV series was designed to better understand the concept of NE, the methods to determine NE, how to calculate NE of ingredients and diets, the impact of NE on feed formulation, and the benefits in terms of performance and usage of additives.</p> During this webinar, Dr Jean Noblet, Dr Pierre-André Geraert and Pierre Cozannet discussed on : Net Energy, Feed Formulation and animal performance: How to move from theory to practice.</p><p><a href="http://www.feedchannel.online/webinar-11-net-energy-feed"><img src="http://www.feedchannel.online/64968579/66491271/0030d620656026bef2c41b00eed55a5e/standard/download-11-thumbnail.jpg" width="600" height="338"/></a></p> AA additives age AMEn animal values broilers complex diet CP DE dietary fibers digestible enzymes equations estimations evaluation fibres formulating formulation genetics genetic selection heat increment heat production HP indirect calorimetry ingredients values layers laying hens low proteins measurement metabolism metabolizable NE net energy NIR nitrogen balance NSPase pelleting piglets pigs poultry precision predicting performance prediction models Q&A sows stages of production sustainability swine synthetic amino acids technological treatments webinar http://www.feedchannel.online/maximizing-sow-productivity <p><b>Speaker</b>: Dr Uffe KROGH (Swine Research Centre, INRA Rennes, France)<p><b><br></b></p><p><b>Presentation:<br></b>Nutritional management of the sows during the pre- and post-farrowing periods is key to guarantee colostrum and milk production to support high genetic potential, particularly prolificity.</p><p><br></p><p><b><u>Poultry &amp; Swine Conferences 2019</u></b></p><p><b>Swine: Managing Sows<br></b>Managing sows starts with improving their feed intake, particularly in lactation. Manipulating the feed composition to stimulate endogenous butyrate production, to improve quantity and quality of colostrum and milk will help to support prolificity and piglet performance.</p></p><p><a href="http://www.feedchannel.online/maximizing-sow-productivity"><img src="http://www.feedchannel.online/64968569/68001752/e785b5193751401df654bb2a1229b0db/standard/download-7-thumbnail.jpg" width="75" height=""/></a></p> http://www.feedchannel.online/photo/68001752 Fri, 08 Nov 2019 00:00:00 GMT Maximizing sow productivity, nutritional aspects and characteristics of... Speaker: Dr Uffe KROGH (Swine Research Centre, INRA Rennes, France)Presentation:Nutritional management of the sows during the pre- and post-farrowing periods is key to guarantee colostrum and milk production to support high genetic potential, particularly prolificity.Poultry Swine Conferences 2019Swine: Managing SowsManaging sows starts with improving their feed intake, particularly in lactation. Manipulating the feed composition to stimulate endogenous butyrate production, to improve quantity and quality of colostrum and milk will help to support prolificity and piglet performance. Speaker: Dr Uffe KROGH (Swine Research Centre, INRA Rennes, France)Presentation:Nutritional management of the sows during the pre- and post-farrowing periods is key to guarantee colostrum and milk production to support high genetic potential,... FeedChannel 39:14 <p><b>Speaker</b>: Dr Uffe KROGH (Swine Research Centre, INRA Rennes, France)<p><b><br></b></p><p><b>Presentation:<br></b>Nutritional management of the sows during the pre- and post-farrowing periods is key to guarantee colostrum and milk production to support high genetic potential, particularly prolificity.</p><p><br></p><p><b><u>Poultry &amp; Swine Conferences 2019</u></b></p><p><b>Swine: Managing Sows<br></b>Managing sows starts with improving their feed intake, particularly in lactation. Manipulating the feed composition to stimulate endogenous butyrate production, to improve quantity and quality of colostrum and milk will help to support prolificity and piglet performance.</p></p><p><a href="http://www.feedchannel.online/maximizing-sow-productivity"><img src="http://www.feedchannel.online/64968569/68001752/e785b5193751401df654bb2a1229b0db/standard/download-7-thumbnail.jpg" width="75" height=""/></a></p> AA amino acids carbon balance colostrum yield conference dietary fibers energy farrowing length farrowing process feed intake fibres genetic selection LEU leucine litter size LYS lysine mammary gland meals frequency milk production parturition performance piglets pigs quality sows starch swine uptake variability http://www.feedchannel.online/fibre-fermentation-and-the-possible <p><b>Speaker: </b>Dr Helle Nygaard LAERKE (Aarhus Univ, Denmark)<p><b><br></b></p><p><b>Presentation:<br></b>Butyrate, either endogenous (produced by microbiota) or exogenous (supplied by the feed) is a key nutrient for gut metabolism: reducing intestinal inflammation, improving absorptive capacity, strengthening gut barrier resulting in better performance and better meat quality.</p><p><br></p><p><b><u>Poultry &amp; Swine Conferences 2019</u></b></p><p><b>Swine: Managing Sows<br></b>Managing sows starts with improving their feed intake, particularly in lactation. Manipulating the feed composition to stimulate endogenous butyrate production, to improve quantity and quality of colostrum and milk will help to support prolificity and piglet performance.</p></p><p><a href="http://www.feedchannel.online/fibre-fermentation-and-the-possible"><img src="http://www.feedchannel.online/64968579/68001747/2e984a4fbb3f8545a7778465f0af4b37/standard/download-6-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/68001747 Fri, 08 Nov 2019 00:00:00 GMT Fibre fermentation and the possible role of butyrate in pig health Speaker: Dr Helle Nygaard LAERKE (Aarhus Univ, Denmark)Presentation:Butyrate, either endogenous (produced by microbiota) or exogenous (supplied by the feed) is a key nutrient for gut metabolism: reducing intestinal inflammation, improving absorptive capacity, strengthening gut barrier resulting in better performance and better meat quality.Poultry Swine Conferences 2019Swine: Managing SowsManaging sows starts with improving their feed intake, particularly in lactation. Manipulating the feed composition to stimulate endogenous butyrate production, to improve quantity and quality of colostrum and milk will help to support prolificity and piglet performance. Speaker: Dr Helle Nygaard LAERKE (Aarhus Univ, Denmark)Presentation:Butyrate, either endogenous (produced by microbiota) or exogenous (supplied by the feed) is a key nutrient for gut metabolism: reducing intestinal inflammation, improving... FeedChannel 47:09 <p><b>Speaker: </b>Dr Helle Nygaard LAERKE (Aarhus Univ, Denmark)<p><b><br></b></p><p><b>Presentation:<br></b>Butyrate, either endogenous (produced by microbiota) or exogenous (supplied by the feed) is a key nutrient for gut metabolism: reducing intestinal inflammation, improving absorptive capacity, strengthening gut barrier resulting in better performance and better meat quality.</p><p><br></p><p><b><u>Poultry &amp; Swine Conferences 2019</u></b></p><p><b>Swine: Managing Sows<br></b>Managing sows starts with improving their feed intake, particularly in lactation. Manipulating the feed composition to stimulate endogenous butyrate production, to improve quantity and quality of colostrum and milk will help to support prolificity and piglet performance.</p></p><p><a href="http://www.feedchannel.online/fibre-fermentation-and-the-possible"><img src="http://www.feedchannel.online/64968579/68001747/2e984a4fbb3f8545a7778465f0af4b37/standard/download-6-thumbnail.jpg" width="600" height="338"/></a></p> acetate apoptosis arabinoxylans AX bacteria boar taint butyrate carbohydrates colitis conference dietary fibers energy fibres gut health histone deacetylase inhibitors human health inflammation integrity intestinal barrier function lactate meat quality metabolites microbiota oxidative stress pathways piglets pigs prebiotics pro-inflammatory cytokines resistant starch rodent models SCFA profiles short chain fatty acids signaling sodium butyrate supplementation swine tributyrin weaning http://www.feedchannel.online/nutritional-steering-of-intestinal <p><b>Speaker: </b>Prof Richard DUCATELLE (Ghent Univ., Belgium)<br><br><br><b>Presentation:<br></b><br>Managing the gut environment is an efficient way to reduce Salmonella development: reducing available substrates, strengthening the gut frontier, improving immune response are all tools to reduce Salmonella.<br><br><br><u><b>Poultry &amp; Swine Conferences 2019</b><br></u> <br><b>Poultry: Gut health:<br></b>Dietary fibres, short chain fatty acids or probiotics are potential means to improve the gut functioning. Indeed, modifying the gut microbiota, enhancing butyrogenic producing bacteria, reducing gut inflammation, optimizing redox balance contribute to better performance and stress resistance.<br></p><p><a href="http://www.feedchannel.online/nutritional-steering-of-intestinal"><img src="http://www.feedchannel.online/64968579/67988048/c18d8113839be4222c85181ae9019a88/standard/download-3-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/67988048 Thu, 31 Oct 2019 00:00:00 GMT Nutritional steering of intestinal health to control Salmonella Speaker: Prof Richard DUCATELLE (Ghent Univ., Belgium)Presentation:Managing the gut environment is an efficient way to reduce Salmonella development: reducing available substrates, strengthening the gut frontier, improving immune response are all tools to reduce Salmonella.Poultry Swine Conferences 2019 Poultry: Gut health:Dietary fibres, short chain fatty acids or probiotics are potential means to improve the gut functioning. Indeed, modifying the gut microbiota, enhancing butyrogenic producing bacteria, reducing gut inflammation, optimizing redox balance contribute to better performance and stress resistance. Speaker: Prof Richard DUCATELLE (Ghent Univ., Belgium)Presentation:Managing the gut environment is an efficient way to reduce Salmonella development: reducing available substrates, strengthening the gut frontier, improving immune response are all... FeedChannel 31:36 <p><b>Speaker: </b>Prof Richard DUCATELLE (Ghent Univ., Belgium)<br><br><br><b>Presentation:<br></b><br>Managing the gut environment is an efficient way to reduce Salmonella development: reducing available substrates, strengthening the gut frontier, improving immune response are all tools to reduce Salmonella.<br><br><br><u><b>Poultry &amp; Swine Conferences 2019</b><br></u> <br><b>Poultry: Gut health:<br></b>Dietary fibres, short chain fatty acids or probiotics are potential means to improve the gut functioning. Indeed, modifying the gut microbiota, enhancing butyrogenic producing bacteria, reducing gut inflammation, optimizing redox balance contribute to better performance and stress resistance.<br></p><p><a href="http://www.feedchannel.online/nutritional-steering-of-intestinal"><img src="http://www.feedchannel.online/64968579/67988048/c18d8113839be4222c85181ae9019a88/standard/download-3-thumbnail.jpg" width="600" height="338"/></a></p> arabinoxylans AX bacteria birds butyrate caecum cell walls challenge chickens conference dietary fibers digestion enzymes evolution fibres gastro-intestinal tract GIT gut health indigestible layers laying hens metabolites microbiota NSP nutritional factors pathogenesis poultry salmonella enteritidis SCFA short chain fatty acids stress susceptibility wheat diet xylanases http://www.feedchannel.online/butyrate-a-key-functional-regulator <p><b>Speaker:</b> Prof Hervé BLOTTIERE, MICALIS &amp; INRA, Paris, France <br>&nbsp;<br>We are an holobiont, an ecosystem of micro-organisms and host cells. The intestinal microbiota is a stable community in healthy humans producing a lot of metabolites among with butyrate is important.<br> The early exposure to poor bacterial diversity will compromise immune response and favors gut disorders and other diseases including cardiovascular and brain ones. Dietary fibres are essential dietary components that will help supporting a rich microbiota promoting a better global health. <p>Butyrate is an energy source for colonocytes, controls cell proliferation, stimulates mucus production, inhibits inflammatory responses, regulates intestinal macrophage function, inducing T-reg cells, inhibiting histone-deacetylase thus impacting overall metabolism. Butyrate has also been shown as AHR nuclear ligand new pathway, having thus strong effect on immune response in humans.</p> <b>Advancia Academy 2019- Butyrate: from the Nutrient to the Messenger - Presentation</b></p><p><a href="http://www.feedchannel.online/butyrate-a-key-functional-regulator"><img src="http://www.feedchannel.online/64968577/66515810/432b7f1b0547b6617e7a3d014741c852/standard/download-6-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66515810 Wed, 24 Apr 2019 00:00:00 GMT Butyrate: a key functional regulator for the intestinal mucosa Speaker: Prof Hervé BLOTTIERE, MICALIS INRA, Paris, France We are an holobiont, an ecosystem of micro-organisms and host cells. The intestinal microbiota is a stable community in healthy humans producing a lot of metabolites among with butyrate is important. The early exposure to poor bacterial diversity will compromise immune response and favors gut disorders and other diseases including cardiovascular and brain ones. Dietary fibres are essential dietary components that will help supporting a rich microbiota promoting a better global health. Butyrate is an energy source for colonocytes, controls cell proliferation, stimulates mucus production, inhibits inflammatory responses, regulates intestinal macrophage function, inducing T-reg cells, inhibiting histone-deacetylase thus impacting overall metabolism. Butyrate has also been shown as AHR nuclear ligand new pathway, having thus strong effect on immune response in humans. Advancia Academy 2019- Butyrate: from the Nutrient to the Messenger - Presentation Speaker: Prof Hervé BLOTTIERE, MICALIS INRA, Paris, France We are an holobiont, an ecosystem of micro-organisms and host cells. The intestinal microbiota is a stable community in healthy humans producing a lot of metabolites among with butyrate... FeedChannel 31:54 <p><b>Speaker:</b> Prof Hervé BLOTTIERE, MICALIS &amp; INRA, Paris, France <br>&nbsp;<br>We are an holobiont, an ecosystem of micro-organisms and host cells. The intestinal microbiota is a stable community in healthy humans producing a lot of metabolites among with butyrate is important.<br> The early exposure to poor bacterial diversity will compromise immune response and favors gut disorders and other diseases including cardiovascular and brain ones. Dietary fibres are essential dietary components that will help supporting a rich microbiota promoting a better global health. <p>Butyrate is an energy source for colonocytes, controls cell proliferation, stimulates mucus production, inhibits inflammatory responses, regulates intestinal macrophage function, inducing T-reg cells, inhibiting histone-deacetylase thus impacting overall metabolism. Butyrate has also been shown as AHR nuclear ligand new pathway, having thus strong effect on immune response in humans.</p> <b>Advancia Academy 2019- Butyrate: from the Nutrient to the Messenger - Presentation</b></p><p><a href="http://www.feedchannel.online/butyrate-a-key-functional-regulator"><img src="http://www.feedchannel.online/64968577/66515810/432b7f1b0547b6617e7a3d014741c852/standard/download-6-thumbnail.jpg" width="600" height="338"/></a></p> advancia academy butyrate functions conference dietary fibers fibres gene count gut health HGC human health intestinal diseases intestinal microbiota LGC metabolites microbial diversity microbiome SCFA short chain fatty acids http://www.feedchannel.online/dietary-modulation-of-gut-microbial <p><b>Speaker:</b> Dr Petra LOUIS, the Rowett Institute, Aberdeen, UK <br><br>Microbiota has multiple functions and effects on the host: barrier against pathogens, immune interactions, release and transform dietary phytochemicals, xenobiotics and host metabolites, produce short chain fatty acids that influence host health.<br> Non digestible carbohydrates or fibres are important substrates for this gut microbiota as well as resistant starch greatly influence the microbiota composition and metabolism. More than the individual bacteria types, the metabolic bacterial network is important through the cross-feeding between fibre-degrading, oligosaccharide users, lactate or acetate producers which will give substrate for butyrate producers. Some carbohydrates are more butyrogenic or propionigenic. Similar interactions exist in amino acids and proteins within the microbial community. Future will be based on modelling microbiota metabolism showing that interactions between microbes, environment (pH, …) and dietary substrates (indigestible fractions) are essential.<br><br> <b>Advancia Academy 2019- Butyrate: from the Nutrient to the Messenger - Presentation</b></p><p><a href="http://www.feedchannel.online/dietary-modulation-of-gut-microbial"><img src="http://www.feedchannel.online/64968571/66515783/b68a8cd636951ea8cc39e6d35064a9d8/standard/download-8-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66515783 Wed, 24 Apr 2019 00:00:00 GMT Dietary modulation of gut microbial short-chain fatty acid metabolism Speaker: Dr Petra LOUIS, the Rowett Institute, Aberdeen, UK Microbiota has multiple functions and effects on the host: barrier against pathogens, immune interactions, release and transform dietary phytochemicals, xenobiotics and host metabolites, produce short chain fatty acids that influence host health. Non digestible carbohydrates or fibres are important substrates for this gut microbiota as well as resistant starch greatly influence the microbiota composition and metabolism. More than the individual bacteria types, the metabolic bacterial network is important through the cross-feeding between fibre-degrading, oligosaccharide users, lactate or acetate producers which will give substrate for butyrate producers. Some carbohydrates are more butyrogenic or propionigenic. Similar interactions exist in amino acids and proteins within the microbial community. Future will be based on modelling microbiota metabolism showing that interactions between microbes, environment (pH, …) and dietary substrates (indigestible fractions) are essential. Advancia Academy 2019- Butyrate: from the Nutrient to the Messenger - Presentation Speaker: Dr Petra LOUIS, the Rowett Institute, Aberdeen, UK Microbiota has multiple functions and effects on the host: barrier against pathogens, immune interactions, release and transform dietary phytochemicals, xenobiotics and host metabolites,... FeedChannel 44:59 <p><b>Speaker:</b> Dr Petra LOUIS, the Rowett Institute, Aberdeen, UK <br><br>Microbiota has multiple functions and effects on the host: barrier against pathogens, immune interactions, release and transform dietary phytochemicals, xenobiotics and host metabolites, produce short chain fatty acids that influence host health.<br> Non digestible carbohydrates or fibres are important substrates for this gut microbiota as well as resistant starch greatly influence the microbiota composition and metabolism. More than the individual bacteria types, the metabolic bacterial network is important through the cross-feeding between fibre-degrading, oligosaccharide users, lactate or acetate producers which will give substrate for butyrate producers. Some carbohydrates are more butyrogenic or propionigenic. Similar interactions exist in amino acids and proteins within the microbial community. Future will be based on modelling microbiota metabolism showing that interactions between microbes, environment (pH, …) and dietary substrates (indigestible fractions) are essential.<br><br> <b>Advancia Academy 2019- Butyrate: from the Nutrient to the Messenger - Presentation</b></p><p><a href="http://www.feedchannel.online/dietary-modulation-of-gut-microbial"><img src="http://www.feedchannel.online/64968571/66515783/b68a8cd636951ea8cc39e6d35064a9d8/standard/download-8-thumbnail.jpg" width="600" height="338"/></a></p> advancia academy bacteria butyrate community conference dietary fibers enzymes fibres high proteins diet human health insoluble inuline metabolites microbial diversity microbiome microbiota non-digestible carbohydrates pathways prebiotics propionate producers SCFA short chain fatty acids starch digestion variability http://www.feedchannel.online/dr-petra-louis-highlight-on <p><p>Dr Petra Louis gives her highlight on: <b>Dietary modulation of gut microbial short-chain fatty acid metabolism</b></p><p>Produced by the endogenous bacteria or supplemented through the diet, butyrate exhibits lots of positive effects on intestinal integrity, gut immune function, regulation of gut-brain axis up to acting on pathogens such as Salmonella.<br></p><p>During this event,&nbsp;worldwide experts explore all potentials of butyrate from endogenous microbiota or dietary supplementation to strengthen health of the animals.<br></p><p><br></p><p><b>Advancia Academy 2019- Butyrate: from the Nutrient to the Messenger - Highlight</b></p></p><p><a href="http://www.feedchannel.online/dr-petra-louis-highlight-on"><img src="http://www.feedchannel.online/64968567/66516256/fdd80a9662d6013ffb67ca8cbcd74126/standard/download-5-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66516256 Wed, 17 Apr 2019 00:00:00 GMT Dr Petra Louis Highlight on Butyrate Dr Petra Louis gives her highlight on: Dietary modulation of gut microbial short-chain fatty acid metabolismProduced by the endogenous bacteria or supplemented through the diet, butyrate exhibits lots of positive effects on intestinal integrity, gut immune function, regulation of gut-brain axis up to acting on pathogens such as Salmonella.During this event,worldwide experts explore all potentials of butyrate from endogenous microbiota or dietary supplementation to strengthen health of the animals.Advancia Academy 2019- Butyrate: from the Nutrient to the Messenger - Highlight Dr Petra Louis gives her highlight on: Dietary modulation of gut microbial short-chain fatty acid metabolismProduced by the endogenous bacteria or supplemented through the diet, butyrate exhibits lots of positive effects on intestinal integrity,... FeedChannel 01:27 <p><p>Dr Petra Louis gives her highlight on: <b>Dietary modulation of gut microbial short-chain fatty acid metabolism</b></p><p>Produced by the endogenous bacteria or supplemented through the diet, butyrate exhibits lots of positive effects on intestinal integrity, gut immune function, regulation of gut-brain axis up to acting on pathogens such as Salmonella.<br></p><p>During this event,&nbsp;worldwide experts explore all potentials of butyrate from endogenous microbiota or dietary supplementation to strengthen health of the animals.<br></p><p><br></p><p><b>Advancia Academy 2019- Butyrate: from the Nutrient to the Messenger - Highlight</b></p></p><p><a href="http://www.feedchannel.online/dr-petra-louis-highlight-on"><img src="http://www.feedchannel.online/64968567/66516256/fdd80a9662d6013ffb67ca8cbcd74126/standard/download-5-thumbnail.jpg" width="600" height="338"/></a></p> advancia academy bacteria butyrate dietary fibers fibres human health microbiota SCFA short chain fatty acids http://www.feedchannel.online/factors-of-variation-of-animal <p><b>Speaker:&nbsp;</b>Prof Knud Erik BACH KNUDSEN (Aarhus University, Denmark)<br><b><br></b><b><br><br></b><i><u><b>Session 1</b>:&nbsp;</u>Transforming feedstuffs into digestible nutrients<br></i><b><br><br>ADVANCIA ACADEMY 2017:&nbsp;</b><b>Nutritionist: a challenging job!</b><div>1st Advancia Academy - May 2017 – Barcelona</div><div><br></div><div><b>Feeding an ecosystem to transform feedstuffs into animal proteins 3 sessions:</b></div><div><br></div><div>1-Transforming feedstuffs into digestible nutrients,</div><div>2-Producing desirable meat,</div><div>3-Feeding the birds or the bugs: toward nutrition ecology.</div></p><p><a href="http://www.feedchannel.online/factors-of-variation-of-animal"><img src="http://www.feedchannel.online/64968559/69596616/79b9a3c2c6284103b996d464c69c6ad7/standard/download-10-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/69596616 Fri, 15 Dec 2017 00:00:00 GMT Factors of variation of animal digestibility Speaker:Prof Knud Erik BACH KNUDSEN (Aarhus University, Denmark)Session 1:Transforming feedstuffs into digestible nutrientsADVANCIA ACADEMY 2017:Nutritionist: a challenging job!1st Advancia Academy - May 2017 – BarcelonaFeeding an ecosystem to transform feedstuffs into animal proteins 3 sessions:1-Transforming feedstuffs into digestible nutrients,2-Producing desirable meat,3-Feeding the birds or the bugs: toward nutrition ecology. Speaker:Prof Knud Erik BACH KNUDSEN (Aarhus University, Denmark)Session 1:Transforming feedstuffs into digestible nutrientsADVANCIA ACADEMY 2017:Nutritionist: a challenging job!1st Advancia Academy - May 2017 – BarcelonaFeeding an ecosystem to... FeedChannel 24:43 <p><b>Speaker:&nbsp;</b>Prof Knud Erik BACH KNUDSEN (Aarhus University, Denmark)<br><b><br></b><b><br><br></b><i><u><b>Session 1</b>:&nbsp;</u>Transforming feedstuffs into digestible nutrients<br></i><b><br><br>ADVANCIA ACADEMY 2017:&nbsp;</b><b>Nutritionist: a challenging job!</b><div>1st Advancia Academy - May 2017 – Barcelona</div><div><br></div><div><b>Feeding an ecosystem to transform feedstuffs into animal proteins 3 sessions:</b></div><div><br></div><div>1-Transforming feedstuffs into digestible nutrients,</div><div>2-Producing desirable meat,</div><div>3-Feeding the birds or the bugs: toward nutrition ecology.</div></p><p><a href="http://www.feedchannel.online/factors-of-variation-of-animal"><img src="http://www.feedchannel.online/64968559/69596616/79b9a3c2c6284103b996d464c69c6ad7/standard/download-10-thumbnail.jpg" width="600" height="338"/></a></p> additives Advancia arabinoxylans beta-glucans carbonhydrate cellulose conference dietary fibers digestibility digestible digestion digestive system enzymes fibres gastro-intestinal tract glucans intestine microbiota microflora models NSPs pigs swine http://www.feedchannel.online/transforming-feedstuffs-into-1 <p><p><b>Speakers:</b><i><b>&nbsp;</b></i>Prof Mike KIDD, Dr Joaquim BRUFAU and Prof Mingan CHOCT</p><p><br></p><p><b><u><i>Roundtable&nbsp;</i></u></b><i><u><b>Session 1</b>:&nbsp;</u>Transforming feedstuffs into digestible nutrients<br></i><b><br><br>ADVANCIA ACADEMY 2017:&nbsp;</b><b>Nutritionist: a challenging job!</b></p><div>1st Advancia Academy - May 2017 – Barcelona</div><div><br></div><div><b>Feeding an ecosystem to transform feedstuffs into animal proteins 3 sessions:</b></div><div><br></div><div>1-Transforming feedstuffs into digestible nutrients,</div><div>2-Producing desirable meat,</div><div>3-Feeding the birds or the bugs: toward nutrition ecology.</div></p><p><a href="http://www.feedchannel.online/transforming-feedstuffs-into-1"><img src="http://www.feedchannel.online/64968580/69596671/fb16ed2b47c6f47064f5eaec146c643e/standard/download-10-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/69596671 Mon, 27 Nov 2017 00:00:00 GMT Transforming feedstuffs into digestible nutrients Speakers:Prof Mike KIDD, Dr Joaquim BRUFAU and Prof Mingan CHOCTRoundtableSession 1:Transforming feedstuffs into digestible nutrientsADVANCIA ACADEMY 2017:Nutritionist: a challenging job!1st Advancia Academy - May 2017 – BarcelonaFeeding an ecosystem to transform feedstuffs into animal proteins 3 sessions:1-Transforming feedstuffs into digestible nutrients,2-Producing desirable meat,3-Feeding the birds or the bugs: toward nutrition ecology. Speakers:Prof Mike KIDD, Dr Joaquim BRUFAU and Prof Mingan CHOCTRoundtableSession 1:Transforming feedstuffs into digestible nutrientsADVANCIA ACADEMY 2017:Nutritionist: a challenging job!1st Advancia Academy - May 2017 – BarcelonaFeeding an... FeedChannel 57:51 <p><p><b>Speakers:</b><i><b>&nbsp;</b></i>Prof Mike KIDD, Dr Joaquim BRUFAU and Prof Mingan CHOCT</p><p><br></p><p><b><u><i>Roundtable&nbsp;</i></u></b><i><u><b>Session 1</b>:&nbsp;</u>Transforming feedstuffs into digestible nutrients<br></i><b><br><br>ADVANCIA ACADEMY 2017:&nbsp;</b><b>Nutritionist: a challenging job!</b></p><div>1st Advancia Academy - May 2017 – Barcelona</div><div><br></div><div><b>Feeding an ecosystem to transform feedstuffs into animal proteins 3 sessions:</b></div><div><br></div><div>1-Transforming feedstuffs into digestible nutrients,</div><div>2-Producing desirable meat,</div><div>3-Feeding the birds or the bugs: toward nutrition ecology.</div></p><p><a href="http://www.feedchannel.online/transforming-feedstuffs-into-1"><img src="http://www.feedchannel.online/64968580/69596671/fb16ed2b47c6f47064f5eaec146c643e/standard/download-10-thumbnail.jpg" width="600" height="338"/></a></p> Advancia age bacteria broilers cytokines dietary fibers digestibility digestible early stage enzymes fibres gut health inflammation microbiota nutritional requirements nutritional values poultry roundtable standard standardization starter phase tables young chickens