43 results on '"Bannink, Andre"'
Search Results
2. An integral assessment of the impact of diet and manure management on whole-farm greenhouse gas and nitrogen emissions in dairy cattle production systems using process-based models
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Ouatahar, Latifa, Bannink, André, Zentek, Jürgen, Amon, Thomas, Deng, Jia, Hempel, Sabrina, Janke, David, Beukes, Pierre, van der Weerden, Tony, Krol, Dominika, Lanigan, Gary J., and Amon, Barbara
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- 2024
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3. Effect of a blend of cinnamaldehyde, eugenol, and Capsicum oleoresin on methane emission and lactation performance of Holstein-Friesian dairy cows
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van Gastelen, Sanne, Yáñez-Ruiz, David, Khelil-Arfa, Hajer, Blanchard, Alexandra, and Bannink, André
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- 2024
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4. Smoothing spline assessment of the accuracy of enteric hydrogen and methane production measurements from dairy cattle using various sampling schemes
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van Lingen, Henk J., Fadel, James G., Kebreab, Ermias, Bannink, André, Dijkstra, Jan, and van Gastelen, Sanne
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- 2023
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5. Improving the accuracy of beef cattle methane inventories in Latin America and Caribbean countries
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Congio, Guilhermo F.S., Bannink, André, Mayorga, Olga L., Rodrigues, João P.P., Bougouin, Adeline, Kebreab, Ermias, Carvalho, Paulo C.F., Berchielli, Telma T., Mercadante, Maria E.Z., Valadares-Filho, Sebastião C., Borges, Ana L.C.C., Berndt, Alexandre, Rodrigues, Paulo H.M., Ku-Vera, Juan C., Molina-Botero, Isabel C., Arango, Jacobo, Reis, Ricardo A., Posada-Ochoa, Sandra L., Tomich, Thierry R., Castelán-Ortega, Octavio A., Marcondes, Marcos I., Gómez, Carlos, Ribeiro-Filho, Henrique M.N., Gere, José I., Ariza-Nieto, Claudia, Giraldo, Luis A., Gonda, Horacio, Cerón-Cucchi, María E., Hernández, Olegario, Ricci, Patricia, and Hristov, Alexander N.
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- 2023
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6. Prediction of enteric methane emissions by sheep using an intercontinental database
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Belanche, Alejandro, Hristov, Alexander N., van Lingen, Henk J., Denman, Stuart E., Kebreab, Ermias, Schwarm, Angela, Kreuzer, Michael, Niu, Mutian, Eugène, Maguy, Niderkorn, Vincent, Martin, Cécile, Archimède, Harry, McGee, Mark, Reynolds, Christopher K., Crompton, Les A., Bayat, Ali Reza, Yu, Zhongtang, Bannink, André, Dijkstra, Jan, Chaves, Alex V., Clark, Harry, Muetzel, Stefan, Lind, Vibeke, Moorby, Jon M., Rooke, John A., Aubry, Aurélie, Antezana, Walter, Wang, Min, Hegarty, Roger, Hutton Oddy, V., Hill, Julian, Vercoe, Philip E., Savian, Jean Víctor, Abdalla, Adibe Luiz, Soltan, Yosra A., Gomes Monteiro, Alda Lúcia, Ku-Vera, Juan Carlos, Jaurena, Gustavo, Gómez-Bravo, Carlos A., Mayorga, Olga L., Congio, Guilhermo F.S., and Yáñez-Ruiz, David R.
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- 2023
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7. Enteric and manure emissions from Holstein-Friesian dairy cattle fed grass silage-based or corn silage-based diets
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van Gastelen, Sanne, Jan van Dooren, Hendrik, and Bannink, André
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- 2023
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8. Prediction of enteric methane production and yield in sheep using a Latin America and Caribbean database
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Congio, Guilhermo F.S., Bannink, André, Mayorga, Olga L., Rodrigues, João P.P., Bougouin, Adeline, Kebreab, Ermias, Carvalho, Paulo C.F., Abdalla, Adibe L., Monteiro, Alda L.G., Ku-Vera, Juan C., Gere, José I., Gómez, Carlos, and Hristov, Alexander N.
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- 2022
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9. Ammonia emission prediction for dairy cattle housing from reaction kinetic modeling to the barn scale
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Hempel, Sabrina, Ouatahar, Latifa, Janke, David, Doumbia, E. Moustapha, Willink, Dilya, Amon, Barbara, Bannink, Andre, and Amon, Thomas
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- 2022
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10. Enteric methane mitigation strategies for ruminant livestock systems in the Latin America and Caribbean region: A meta-analysis
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Jaurena, Gustavo, Gonda, Horacio, Gere, José Ignacio, Cerón-Cucchi, María Esperanza, Ortiz-Chura, Abimael, Tieri, María Paz, Hernández, Olegario, Ricci, Patricia, Juliarena, María Paula, Lombardi, Banira, Abdalla, Adibe Luiz, Abdalla-Filho, Adibe Luiz, Berndt, Alexandre, Oliveira, Patrícia Perondi Anchão, Henrique, Fábio Luis, Monteiro, Alda Lúcia Gomes, Borges, Luiza Ilha, Ribeiro-Filho, Henrique Mendonça Nunes, Pereira, Luiz Gustavo Ribeiro, Tomich, Thierry Ribeiro, Campos, Mariana Magalhães, Machado, Fernanda Samarini, Marcondes, Marcos Inácio, Mercadante, Maria Eugênia Zerlotti, Sakamoto, Leandro Sannomiya, Albuquerque, Lucia Galvão, Carvalho, Paulo César de Faccio, Rossetto, Jusiane, Savian, Jean Víctor, Rodrigues, Paulo Henrique Mazza, Júnior, Flávio Perna, Moreira, Tainá Silvestre, Maurício, Rogério Martins, Pacheco Rodrigues, João Paulo, Borges, Ana Luiza da Costa Cruz, Reis e Silva, Ricardo, Lage, Helena Ferreira, Reis, Ricardo Andrade, Ruggieri, Ana Cláudia, Cardoso, Abmael da Silva, da Silva, Sila Carneiro, Chiavegato, Marília Barbosa, Valadares-Filho, Sebastião de Campos, Silva, Flávia Adriane de Sales, Zanetti, Diego, Berchielli, Telma Teresinha, Messana, Juliana Duarte, Muñoz, Camila, Ariza-Nieto, Claudia Janeth, Sierra-Alarcón, Andrea Milena, Gualdrón-Duarte, Laura Bibiana, Mestra-Vargas, Lorena Inés, Molina-Botero, Isabel Cristina, Barahona-Rosales, Rolando, Arango, Jacobo, Gaviria-Uribe, Xiomara, Giraldo Valderrama, Luis Alfonso, Rosero-Noguera, Jaime Ricardo, Posada-Ochoa, Sandra Lucía, Abarca-Monge, Sergio, Soto-Blanco, Roberto, Ku-Vera, Juan Carlos, Jiménez-Ocampo, Rafael, Flores-Santiago, Ever del Jesus, Castelán-Ortega, Octavio Alonso, Vázquez-Carrillo, María Fernanda, Benaouda, Mohammed, Gómez-Bravo, Carlos Alfredo, Bolovich, Víctor Ilich Alvarado, Céspedes, Medardo Antonio Díaz, Astigarraga, Laura, Congio, Guilhermo Francklin de Souza, Bannink, André, Mayorga Mogollón, Olga Lucía, and Hristov, Alexander Nikolov
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- 2021
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11. Letter to the editor regarding Collard et al. (2023): “Persistence and mobility (defined as organic-carbon partitioning) do not correlate to the detection of substances found in surface and groundwater: Criticism of the regulatory concept of persistent and mobile substances”
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Arp, Hans Peter H., Wolf, Raoul, Hale, Sarah E., Baskaran, Sivani, Glüge, Juliane, Scheringer, Martin, Trier, Xenia, Cousins, Ian T., Timmer, Harrie, Hofman-Caris, Roberta, Lennquist, Anna, Bannink, André D., Stroomberg, Gerard J., Sjerps, Rosa M.A., Montes, Rosa, Rodil, Rosario, Quintana, José Benito, Zahn, Daniel, Gallard, Hervé, Mohr, Tobias, Schliebner, Ivo, and Neumann, Michael
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- 2024
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12. Protecting the source of drinking water from persistent and mobile substances
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Bannink, Andre, aus der Beek, Tim, and Borchers, Ulrich
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The slides from the ZeroPM webinar entitled !Protecting the sources of drinking water from persistent and mobile substances". The webinar was held on the 19th June 2023 and the speakers were Andre Bannink, Tim aus der Beek and Ulrich Borchers.
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- 2023
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13. Modeling Greenhouse Gas Emissions from Enteric Fermentation
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Kebreab, Ermias, primary, Tedeschi, Luis, additional, Dijkstra, Jan, additional, Ellis, Jennifer L., additional, Bannink, Andre, additional, and France, James, additional
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- 2015
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14. Enteric methane mitigation strategies for ruminant livestock systems in the Latin America and Caribbean region: A meta-analysis
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Congio, Guilhermo Francklin de Souza, Bannink, Andre, Mogollon, Olga Lucia Mayorga, Hristov, Alexander Nikolov, Jaurena, Gustavo, Gonda, Horacio, and Astigarraga, Laura
- Subjects
Animal and Dairy Science ,Environmental Sciences (social aspects to be 507) - Abstract
Latin America and Caribbean (LAC) is a developing region characterized for its importance for global food security, producing 23 and 11% of the global beef and milk production, respectively. The region's ruminant livestock sector however, is under scrutiny on environmental grounds due to its large contribution to enteric methane (CH4) emissions and influence on global climate change. Thus, the identification of effective CH4 mitigation strategies which do not compromise animal performance is urgently needed, especially in context of the Sustainable Development Goals (SDG) defined in the Paris Agreement of the United Nations. Therefore, the objectives of the current study were to: 1) collate a database of individual sheep, beef and dairy cattle records from enteric CH4 emission studies conducted in the LAC region, and 2) perform a meta-analysis to identify feasible enteric CH4 mitigation strategies, which do not compromise animal performance. After outlier's removal, 2745 animal records (65% of the original data) from 103 studies were retained (from 2011 to 2021) in the LAC database. Potential mitigation strategies were classified into three main categories (i.e., animal breeding, dietary, and rumen manipulation) and up to three subcategories, totaling 34 evaluated strategies. A random effects model weighted by inverse variance was used (Comprehensive Meta-Analysis V3.3.070). Six strategies decreased at least one enteric CH4 metric and simultaneously increased milk yield (MY; dairy cattle) or average daily gain (ADG; beef cattle and sheep). The breed composition F1 Holstein x Gyr decreased CH4 emission per MY (CH4IMilk) while increasing MY by 99%. Adequate strategies of grazing management under continuous and rotational stocking decreased CH4 emission per ADG (CH4IGain) by 22 and 35%, while increasing ADG by 22 and 71%, respectively. Increased dietary protein concentration, and increased concentrate level through cottonseed meal inclusion, decreased CH4IMilk and CH4IGain by 10 and 20% and increased MY and ADG by 12 and 31%, respectively. Lastly, increased feeding level decreased CH4IGain by 37%, while increasing ADG by 171%. The identified effective mitigation strategies can be adopted by livestock producers according to their specific needs and aid LAC countries in achieving SDG as defined in the Paris Agreement.
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- 2021
15. Greenhouse gas abatement strategies for animal husbandry
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Monteny, Gert-Jan, Bannink, Andre, and Chadwick, David
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- 2006
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16. Database construction for model comparisons of methane emissions by ruminants in relation to feed
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Li, Xinran, Martin, C., Kebreab, Ermias, Hristov, Alexander Nikolov, Yu, Z., McGee, Mark, Yáñez-Ruiz, David R., Shingfield, Kevin J., Bayat, Alireza, Reynolds, Chris, Crompton, Les, Bannink, Andre, Schwarm, Angela, Kreuzer, Michael, Lund, Peter, Hellwing, Anne Louise Frydendahl, Moate, Peter J., Peiren, Nico, Eugène, Maguy, and null, EAAP scientific committee
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- 2017
17. MACSUR - Summary of research results, phase 1: 2012-2015
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Köchy, Martin, Aberton, Michael, Bannink, Andre, Banse, Martin, Brouwer, Floor, Brüser, Katharina, Ewert, Frank, Foyer, Christine, Jorgenson, Jason S., Kipling, Richard, Meijs, Jac, Rötter, Reimund, Scollan, Nigel, Sinabell, Franz, Tiffin, Richard, and van den Pol-van Dasselaar, Agnes
- Abstract
MACSUR — Modelling European Agriculture with Climate Change for Food Security — is a knowledge hub that was formally created in June 2012 as a European scientific network. The strategic aim of the knowledge hub is to create a coordinated and globally visible network of European researchers and research groups, with intra- and interdisciplinary interaction and shared expertise creating synergies for the development of scientific resources (data, models, methods) to model the impacts of climate change on agriculture and related issues. This objective encompasses a wide range of political and sociological aspects, as well as the technical development of modelling capacity through impact assessments at different scales and assessing uncertainties in model outcomes. We achieve this through model intercomparisons and model improvements, harmonization and exchange of data sets, training in the selection and use of models, assessment of benefits of ensemble modelling, and cross-disciplinary linkages of models and tools. The project engages with a diverse range of stakeholder groups and to support the development of resources for capacity building of individuals and countries. Commensurate with this broad challenge, a network of currently 300 scientists (measured by the number of individuals on the central e-mail list) from 18 countries evolved from the original set of research groups selected by FACCE. In the spirit of creating and maintaining a network for intra- and interdisciplinary knowledge exchange, network activities focused on meetings of researchers for sharing expertise and, depending on group resources (both financial and personnel), development of collaborative research activities. The outcome of these activities is the enhanced knowledge of the individual researchers within the network, contributions to conference presentations and scholarly papers, input to stakeholders and the general public, organised courses for students, junior and senior scientists. The most visible outcome are the scientific results of the network activities, represented in the contributions of MACSUR members to the impressive number of more than 200 collaborative papers in peer-reviewed publications. Here, we present a selection of overview and cross-disciplinary papers which include contributions from MACSUR members. It highlights the major scientific challenges addressed, and the methodological solutions and insights obtained. Over and above these highlights, major achievements have been reached regarding data collection, data processing, evaluation, model testing, modelling assessments of the effects of agriculture on ecosystem services, policy, and development of scenarios. Details on these achievements in the context of MACSUR can be found in our online publication FACCE MACSUR Reports at http://ojs.macsur.eu.
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- 2015
18. Summary of research results, phase 1: 2012-2015 - Modelling European Agriculture with Climate Change for Food Security(MACSUR)
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Ewert, Frank, Meijs, Jac, Brüser, Katharina, Bannink, Andre, Jorgenson, Jason S., Kipling, Richard, Tiffin, Richard, Banse, Martin, Van Den Pol-Van Dasselaar, Agnes, Foyer, Christine, Scollan, Nigel, Sinabell, Franz, Köchy, Martin, Brouwer, Floor, Aberton, Michael, and Rötter, Reimund
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- 2015
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19. MACSUR Phase 1 Final Administrative Report (public release)
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Ewert, Frank, Brüser, Katharina, Banse, Martin, Foyer, Christine, Bannink, Andre, Scollan, Nigel, Sinabell, Franz, Kipling, Richard, Köchy, Martin, Brouwer, Floor, and Rötter, Reimund
- Abstract
MACSUR's foremost charge is improving the methodology for integrative inter-disciplinary modelling of European agriculture. In addition to technical changes, improvements include the involvement of stakeholders for setting research priorities, scenarios (if-then evaluations), and model parameters to more realistic or region-specific values. The Knowledge Hub currently brings together 300 members from 18 countries and has generated 300 scientific papers, over 500 presentations and 20 workshops and conferences within the first three years. Scientific results are communicated in conferences and workshops, where policymakers take part by invitation or because of professional interest. These events also provide opportunities for direct dialogues between policymakers and scientists. The primary form of output of the research network is scientific publications that are cited in policy documents by relevant administrative departments, ministries, intergovernmental agencies, and directorate-generals, and non-governmental interest groups. MACSUR members also contribute directly to policy documents as authors, e.g. the EEA's indicator report on CC impacts or the IPCC's 5th assessment report's chapter on food security.
- Published
- 2015
20. Review: Adaptation of animals to heat stress.
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Sejian, V., Bhatta, R., Gaughan, J. B., Dunshea, F. R., Lacetera, N., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Livestock plays an important role in the global economy. Climate change effects are not only limited to crop production, but also affect livestock production, for example reduced milk yields and milk quality, reduced meat production and reduced fertility. Therefore, livestock-based food security is threatened in many parts of the world. Furthermore, multiple stressors are a common phenomenon in many environments, and are likely to increase due to climate change. Among these stresses, heat stress appears to be the major factor which negatively influences livestock production. Hence, it is critical to identify agro-ecological zone-specific climate resilient thermo-tolerant animals to sustain livestock production. Livestock responds to the changing environments by altering their phenotypic and physiological characters. Therefore, survivability of the animal often depends on its ability to cope with or adapt to the existing conditions. So to sustain livestock production in an environment challenged by climate change, the animals must be genetically suitable and have the ability to survive in diversified environments. Biological markers or biomarkers indicate the biological states or alterations in expression pattern of genes or state of protein that serve as a reference point in breeding for the genetic improvement of livestock. Conventionally, identification of animals with superior genetic traits that were economically beneficial was the fundamental reason for identifying biomarkers in animals. Furthermore, compared with the behavioural, morphological or physiological responses in animals, the genetic markers are important because of the possibility of finding a solution to animal adaptability to climate change. [ABSTRACT FROM AUTHOR]
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- 2018
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21. Review: Precision nutrition of ruminants: approaches, challenges and potential gains.
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González, L. A., Kyriazakis, I., Tedeschi, L. O., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
A plethora of sensors and information technologies with applications to the precision nutrition of herbivores have been developed and continue to be developed. The nutritional processes start outside of the animal body with the available feed (quantity and quality) and continue inside it once the feed is consumed, degraded in the gastrointestinal tract and metabolised by organs and tissues. Finally, some nutrients are wasted via urination, defecation and gaseous emissions through breathing and belching whereas remaining nutrients ensure maintenance and production. Nowadays, several processes can be monitored in real-time using new technologies, but although these provide valuable data 'as is', further gains could be obtained using this information as inputs to nutrition simulation models to predict unmeasurable variables in real-time and to forecast outcomes of interest. Data provided by sensors can create synergies with simulation models and this approach has the potential to expand current applications. In addition, data provided by sensors could be used with advanced analytical techniques such as data fusion, optimisation techniques and machine learning to improve their value for applications in precision animal nutrition. The present paper reviews technologies that can monitor different nutritional processes relevant to animal production, profitability, environmental management and welfare. We discussed the model-data fusion approach in which data provided by sensor technologies can be used as input of nutrition simulation models in near-real time to produce more accurate, certain and timely predictions. We also discuss some examples that have taken this model-data fusion approach to complement the capabilities of both models and sensor data, and provided examples such as predicting feed intake and methane emissions. Challenges with automatising the nutritional management of individual animals include monitoring and predicting of the flow of nutrients including nutrient intake, quantity and composition of body growth and milk production, gestation, maintenance and physical activities at the individual animal level. We concluded that the livestock industries are already seeing benefits from the development of sensor and information technologies, and this benefit is expected to grow exponentially soon with the integration of nutrition simulation models and techniques for big data analysis. However, this approach may need re-evaluating or performing new empirical research in both fields of animal nutrition and simulation modelling to accommodate a new type of data provided by the sensor technologies. [ABSTRACT FROM AUTHOR]
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- 2018
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22. Review: Modulating ruminal lipid metabolism to improve the fatty acid composition of meat and milk. Challenges and opportunities.
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Toral, P. G., Monahan, F. J., Hervás, G., Frutos, P., Moloney, A. P., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Growth in demand for foods with potentially beneficial effects on consumer health has motivated increased interest in developing strategies for improving the nutritional quality of ruminant-derived products. Manipulation of the rumen environment offers the opportunity to modify the lipid composition of milk and meat by changing the availability of fatty acids (FA) for mammary and intramuscular lipid uptake. Dietary supplementation with marine lipids, plant secondary compounds and direct-fed microbials has shown promising results. In this review, we have compiled information about their effects on the concentration of putative desirable FA (e.g. c 9 t 11-CLA and vaccenic, oleic, linoleic and linolenic acids) in ruminal digesta, milk and intramuscular fat. Marine lipids rich in very long-chain n-3 polyunsaturated fatty acids (PUFA) efficiently inhibit the last step of C 18 FA biohydrogenation (BH) in the bovine, ovine and caprine, increasing the outflow of t 11-18:1 from the rumen and improving the concentration of c 9 t 11-CLA in the final products, but increments in t 10-18:1 are also often found due to shifts toward alternative BH pathways. Direct-fed microbials appear to favourably modify rumen lipid metabolism but information is still very limited, whereas a wide variety of plant secondary compounds, including tannins, polyphenol oxidase, essential oils, oxygenated FA and saponins, has been examined with varying success. For example, the effectiveness of tannins and essential oils is as yet controversial, with some studies showing no effects and others a positive impact on inhibiting the first step of BH of PUFA or, less commonly, the final step. Further investigation is required to unravel the causes of inconsistent results, which may be due to the diversity in active components, ruminant species, dosage, basal diet composition and time on treatments. Likewise, research must continue to address ways to mitigate negative side-effects of some supplements on animal performance (particularly, milk fat depression) and product quality (e.g. altered oxidative stability and shelf-life). [ABSTRACT FROM AUTHOR]
- Published
- 2018
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23. Review: The application of omics to rumen microbiota function.
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Denman, S. E., Morgavi, D. P., McSweeney, C. S., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Rumen microbiome profiling uses 16S rRNA (18S rRNA, internal transcribed spacer) gene sequencing, a method that usually sequences a small portion of a single gene and is often biased and varies between different laboratories. Functional information can be inferred from this data, but only for those that are closely related to known annotated species, and even then may not truly reflect the function performed within the environment being studied. Genome sequencing of isolates and metagenome-assembled genomes has now reached a stage where representation of the majority of rumen bacterial genera are covered, but this still only represents a portion of rumen microbial species. The creation of a microbial genome (bins) database with associated functional annotations will provide a consistent reference to allow mapping of RNA-Seq reads for functional gene analysis from within the rumen microbiome. The integration of multiple omic analytics is linking functional gene activity, metabolic pathways and rumen metabolites with the responsible microbiota, supporting our biological understanding of the rumen system. The application of these techniques has advanced our understanding of the major microbial populations and functional pathways that are used in relation to lower methane emissions, higher feed efficiencies and responses to different feeding regimes. Continued and more precise use of these tools will lead to a detailed and comprehensive understanding of compositional and functional capacity and design of techniques for the directed intervention and manipulation of the rumen microbiota towards a desired state. [ABSTRACT FROM AUTHOR]
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- 2018
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24. Review: New considerations to refine breeding objectives of dairy cows for increasing robustness and sustainability of grass-based milk production systems.
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Roche, J. R., Berry, D. P., Delaby, L., Dillon, P. G., Horan, B., Macdonald, K. A., Neal, M., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Although food from grazed animals is increasingly sought by consumers because of perceived animal welfare advantages, grazing systems provide the farmer and the animal with unique challenges. The system is dependent almost daily on the climate for feed supply, with the importation of large amounts of feed from off farm, and associated labour and mechanisation costs, sometimes reducing economic viability. Furthermore, the cow may have to walk long distances and be able to harvest feed efficiently in a highly competitive environment because of the need for high levels of pasture utilisation. She must, also, be: (1) highly fertile, with a requirement for pregnancy within ~80 days post-calving; (2) 'easy care', because of the need for the management of large herds with limited labour; (3) able to walk long distances; and (4) robust to changes in feed supply and quality, so that short-term nutritional insults do not unduly influence her production and reproduction cycles. These are very different and are in addition to demands placed on cows in housed systems offered pre-made mixed rations. Furthermore, additional demands in environmental sustainability and animal welfare, in conjunction with the need for greater system-level biological efficiency (i.e. 'sustainable intensification'), will add to the 'robustness' requirements of cows in the future. Increasingly, there is evidence that certain genotypes of cows perform better or worse in grazing systems, indicating a genotype×environment interaction. This has led to the development of tailored breeding objectives within countries for important heritable traits to maximise the profitability and sustainability of their production system. To date, these breeding objectives have focussed on the more easily measured traits and those of highest relative economic importance. In the future, there will be greater emphasis on more difficult to measure traits that are important to the quality of life of the animal in each production system and to reduce the system's environmental footprint. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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25. Review: Grass-based dairy systems, data and precision technologies.
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Shalloo, L., O' Donovan, M., Leso, L., Werner, J., Ruelle, E., Geoghegan, A., Delaby, L., O'Leary, N., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Precision technologies and data have had relatively modest impacts in grass-based livestock ruminant production systems compared with other agricultural sectors such as arable. Precision technologies promise increased efficiency, reduced environmental impact, improved animal health, welfare and product quality. The benefits of precision technologies have, however, been relatively slow to be realised on pasture based farms. Though there is significant overlap with indoor systems, implementing technology in grass-based dairying brings unique opportunities and challenges. The large areas animals roam and graze in pasture based systems and the associated connectivity challenges may, in part at least, explain the comparatively lower adoption of such technologies in pasture based systems. With the exception of sensor and Bluetooth-enabled plate metres, there are thus few technologies designed specifically to increase pasture utilisation. Terrestrial and satellite-based spectral analysis of pasture biomass and quality is still in the development phase. One of the key drivers of efficiency in pasture based systems has thus only been marginally impacted by precision technologies. In contrast, technological development in the area of fertility and heat detection has been significant and offers significant potential value to dairy farmers, including those in pasture based systems. A past review of sensors in health management for dairy farms concluded that although the collection of accurate data was generally achieved, the processing, integration and presentation of the resulting information and decision-support applications were inadequate. These technologies' value to farming systems is thus unclear. As a result, it is not certain that farm management is being sufficiently improved to justify widespread adoption of precision technologies currently. We argue for a user need-driven development of technologies and for a focus on how outputs arising from precision technologies and associated decision support applications are delivered to users to maximise their value. Further cost/benefit analysis is required to determine the efficacy of investing in specific precision technologies, potentially taking account of several yet to ascertained farm specific variables. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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26. Review: Selecting for improved feed efficiency and reduced methane emissions in dairy cattle.
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Løvendahl, P., Difford, G. F., Li, B., Chagunda, M. G. G., Huhtanen, P., Lidauer, M. H., Lassen, J., Lund, P., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
It may be possible for dairy farms to improve profitability and reduce environmental impacts by selecting for higher feed efficiency and lower methane (CH
4 ) emission traits. It remains to be clarified how CH4 emission and feed efficiency traits are related to each other, which will require direct and accurate measurements of both of these traits in large numbers of animals under the conditions in which they are expected to perform. The ranking of animals for feed efficiency and CH4 emission traits can differ depending upon the type and duration of measurement used, the trait definitions and calculations used, the period in lactation examined and the production system, as well as interactions among these factors. Because the correlation values obtained between feed efficiency and CH4 emission data are likely to be biased when either or both are expressed as ratios, therefore researchers would be well advised to maintain weighted components of the ratios in the selection index. Nutrition studies indicate that selecting low emitting animals may result in reduced efficiency of cell wall digestion, that is NDF, a key ruminant characteristic in human food production. Moreover, many interacting biological factors that are not measured directly, including digestion rate, passage rate, the rumen microbiome and rumen fermentation, may influence feed efficiency and CH4 emission. Elucidating these mechanisms may improve dairy farmers ability to select for feed efficiency and reduced CH4 emission. [ABSTRACT FROM AUTHOR]- Published
- 2018
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27. Review: Using physiologically based models to predict population responses to phytochemicals by wild vertebrate herbivores.
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Forbey, J. S., Liu, R., Caughlin, T. T., Matocq, M. D., Vucetich, J. A., Kohl, K. D., Dearing, M. D., Felton, A. M., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
To understand how foraging decisions impact individual fitness of herbivores, nutritional ecologists must consider the complex in vivo dynamics of nutrient–nutrient interactions and nutrient–toxin interactions associated with foraging. Mathematical modeling has long been used to make foraging predictions (e.g. optimal foraging theory) but has largely been restricted to a single currency (e.g. energy) or using simple indices of nutrition (e.g. fecal nitrogen) without full consideration of physiologically based interactions among numerous co-ingested phytochemicals. Here, we describe a physiologically based model (PBM) that provides a mechanistic link between foraging decisions and demographic consequences. Including physiological mechanisms of absorption, digestion and metabolism of phytochemicals in PBMs allows us to estimate concentrations of ingested and interacting phytochemicals in the body. Estimated phytochemical concentrations more accurately link intake of phytochemicals to changes in individual fitness than measures of intake alone. Further, we illustrate how estimated physiological parameters can be integrated with the geometric framework of nutrition and into integral projection models and agent-based models to predict fitness and population responses of vertebrate herbivores to ingested phytochemicals. The PBMs will improve our ability to understand the foraging decisions of vertebrate herbivores and consequences of those decisions and may help identify key physiological mechanisms that underlie diet-based ecological adaptations. [ABSTRACT FROM AUTHOR]
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- 2018
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28. Review: Alternative and novel feeds for ruminants: nutritive value, product quality and environmental aspects.
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Halmemies-Beauchet-Filleau, A., Rinne, M., Lamminen, M., Mapato, C., Ampapon, T., Wanapat, M., Vanhatalo, A., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Ruminant-based food production faces currently multiple challenges such as environmental emissions, climate change and accelerating food–feed–fuel competition for arable land. Therefore, more sustainable feed production is needed together with the exploitation of novel resources. In addition to numerous food industry (milling, sugar, starch, alcohol or plant oil) side streams already in use, new ones such as vegetable and fruit residues are explored, but their conservation is challenging and production often seasonal. In the temperate zones, lipid-rich camelina (Camelina sativa) expeller as an example of oilseed by-products has potential to enrich ruminant milk and meat fat with bioactive trans -11 18:1 and cis -9, trans -11 18:2 fatty acids and mitigate methane emissions. Regardless of the lower methionine content of alternative grain legume protein relative to soya bean meal (Glycine max), the lactation performance or the growth of ruminants fed faba beans (Vicia faba), peas (Pisum sativum) and lupins (Lupinus sp.) are comparable. Wood is the most abundant carbohydrate worldwide, but agroforestry approaches in ruminant nutrition are not common in the temperate areas. Untreated wood is poorly utilised by ruminants because of linkages between cellulose and lignin, but the utilisability can be improved by various processing methods. In the tropics, the leaves of fodder trees and shrubs (e.g. cassava (Manihot esculenta), Leucaena sp., Flemingia sp.) are good protein supplements for ruminants. A food–feed production system integrates the leaves and the by-products of on-farm food production to grass production in ruminant feeding. It can improve animal performance sustainably at smallholder farms. For larger-scale animal production, detoxified jatropha (Jatropha sp.) meal is a noteworthy alternative protein source. Globally, the advantages of single-cell protein (bacteria, yeast, fungi, microalgae) and aquatic biomass (seaweed, duckweed) over land crops are the independence of production from arable land and weather. The chemical composition of these feeds varies widely depending on the species and growth conditions. Microalgae have shown good potential both as lipid (e.g. Schizochytrium sp.) and protein supplements (e.g. Spirulina platensis) for ruminants. To conclude, various novel or underexploited feeds have potential to replace or supplement the traditional crops in ruminant rations. In the short-term, N-fixing grain legumes, oilseeds such as camelina and increased use of food and/or fuel industry by-products have the greatest potential to replace or supplement the traditional crops especially in the temperate zones. In the long-term, microalgae and duckweed of high-yield potential as well as wood industry by-products may become economically competitive feed options worldwide. [ABSTRACT FROM AUTHOR]
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- 2018
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29. Review: Domestic herbivores and food security: current contribution, trends and challenges for a sustainable development.
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Mottet, A., Teillard, F., Boettcher, P., De' Besi, G., Besbes, B., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Herbivores are found in a variety of ecosystems all over the world. Permanent pastures and meadows cover about 25% of global land. We currently count one domesticated herbivore for two people in the world and the number is growing. Production systems and products are highly diverse. This high diversity is the result of thousands of years of natural selection and human-controlled breeding, as well as migration and trade. Because of the high diversity of domestic herbivore genetic resources, herders have been able to live in regions where no alternative for income generation exists. Meat and milk from domestic herbivores provide 16% and 8% of the global protein and kilocalorie consumption, respectively. They also provide a variety of essential micronutrients but can contribute to overweight and obesity when consumed in excess. Domestic herbivores also make significant contribution to food security through the production of manure, draught power and transport and the generation of income at household and national level. They have a key role to play in women's empowerment and gender equality, both in rural and urban areas. Demand for meat and milk is increasing because of population growth, rising incomes and urbanisation. This trend is expected to continue, especially in Latin America, South Asia and China. The sustainable development of domestic herbivore production needs to address the feed/food and the efficiency of herbivores in turning forages into protein. It also needs to address the contribution of herbivores to greenhouse gas emissions, especially of ruminants through enteric fermentation, and their mitigation potential, including through carbon sequestration. Animal genetic resources have a key role to play in mitigating and adapting to climate change. The role of ruminants in the circular bioeconomy needs to be enhanced, promoting the use of by-products and waste as livestock feed and the recycling of manure for energy and nutrients. Finally, the role of domestic herbivores in providing secure livelihoods and economic opportunities for millions of smallholder farmers and pastoralists needs to be enhanced. The sustainable development of the sector therefore requires adequate policies, and there are already a variety of mechanisms available, including regulations, cross-compliance systems, payments for environmental services and research and development. Priority areas for policy makers should be aligned with the global framework of the Sustainable Development Goals and include: (i) food security and nutrition, (ii) economic development and livelihoods, (iii) animal and human health and finally, (iv) environment, climate and natural resources. [ABSTRACT FROM AUTHOR]
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- 2018
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30. Review: Converting nutritional knowledge into feeding practices: a case study comparing different protein feeding systems for dairy cows.
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Lapierre, H., Larsen, M., Sauvant, D., Van Amburgh, M. E., Van Duinkerken, G., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Improving milk nitrogen efficiency through a reduction of CP supply without detrimental effect on productivity requires usage of feeding systems estimating both the flows of digestible protein, the exported true proteins and from these predict milk protein yield (MPY). Five feeding systems were compared in their ability to predict MPY v. observed MPY in two studies where either protein supply or protein and energy supply were changed. The five feedings systems were: Cornell Net Carbohydrate and Protein System (v6.5.5), Dutch protein evaluation system (1991 and 2007), Institut National de la Recherche Agronomique in France (INRA), National Research Council and NorFor. The key characteristic of the systems with the best predicted MPY was the inclusion of a variable efficiency of utilisation of protein supply taking into account the supply of both protein and energy. The systems still using a fixed efficiency had the highest slope bias in their prediction of MPY. Therefore, the development of new feeding systems or improvement of existing systems should include a variable efficiency of utilisation of the protein related to both the protein and energy supply. The limitation of the current comparison did not allow determining if additional factors, as used in INRA, were beneficial. This concept should also probably be transferred to essential amino acids. [ABSTRACT FROM AUTHOR]
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- 2018
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31. Review: The compositional variation of the rumen microbiome and its effect on host performance and methane emission.
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Mizrahi, I., Jami, E., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
The rumen microbiome has the important task of supplying ruminants with most of their dietary requirements and is responsible for up to 90% of their metabolic needs. This tremendous feat is possible due to the large diversity of microorganisms in the rumen. The rumen is considered one of the most diverse ecosystems on the planet in terms of species diversity and functional richness. From the moment the feed is ingested, it enters a vast cascade in which specialized microorganisms degrade specific components of the feed turning them into molecules, which in turn are utilized as anabolic precursors and energy sources for the animal. The output of this degradation process not only affects the animal, but also has an extensive impact on the environment. Some of the byproducts that are emitted as waste from this process, such as methane, act as greenhouse gases which greatly contribute to global warming. Recent technological advances developed to study this community enabled a larger overview of its vast taxonomic and functional diversity, thus leading to a better understanding of its ecology and function. This deeper understanding of the forces affecting the microbiome includes the forces that shape composition, the variation among animals, the stability of its key components, the processes of succession on a short- and long-time scales such as primary colonization and diurnal oscillations. These collective understandings have helped to provide insights into the potential effects that these forces have on the outputs observed from the animal itself. Over the recent years, there has been a growing body of evidence demonstrating the link between the microbiome and its effect on productivity of the host animals and the environment, which has placed rumen microbiome studies in the forefront of animal agricultural research. In this review, we focus on the natural variations in community composition, which are not the results of different management or feed but rather intrinsic features of animals. We characterize the rumen microbiome, its potential impact on its host as well as the barriers in implementing the current knowledge to modulate the microbiome and point toward potential avenues to overcome these hurdles. [ABSTRACT FROM AUTHOR]
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- 2018
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32. Review: Enhancing gastrointestinal health in dairy cows.
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Plaizier, J. C., Danesh Mesgaran, M., Derakhshani, H., Golder, H., Khafipour, E., Kleen, J. L., Lean, I., Loor, J., Penner, G., Zebeli, Q., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Due to their high energy requirements, high-yielding dairy cows receive high-grain diets. This commonly jeopardises their gastrointestinal health by causing subacute ruminal acidosis (SARA) and hindgut acidosis. These disorders can disrupt nutrient utilisations, impair the functionalities of gastrointestinal microbiota, and reduce the absorptive and barrier capacities of gastrointestinal epithelia. They can also trigger inflammatory responses. The symptoms of SARA are not only due to a depressed rumen pH. Hence, the diagnosis of this disorder based solely on reticulo-rumen pH values is inaccurate. An accurate diagnosis requires a combination of clinical examinations of cows, including blood, milk, urine and faeces parameters, as well as analyses of herd management and feed quality, including the dietary contents of NDF, starch and physical effective NDF. Grain-induced SARA increases acidity and shifts availabilities of substrates for microorganisms in the reticulo-rumen and hindgut and can result in a dysbiotic microbiota that are characterised by low richness, diversity and functionality. Also, amylolytic microorganisms become more dominant at the expense of proteolytic and fibrolytic ones. Opportunistic microorganisms can take advantage of newly available niches, which, combined with reduced functionalities of epithelia, can contribute to an overall reduction in nutrient utilisation and increasing endotoxins and pathogens in digesta and faeces. The reduced barrier function of epithelia increases translocation of these endotoxins and other immunogenic compounds out of the digestive tract, which may be the cause of inflammations. This needs to be confirmed by determining the toxicity of these compounds. Cows differ in their susceptibility to poor gastrointestinal health, due to variations in genetics, feeding history, diet adaptation, gastrointestinal microbiota, metabolic adaptation, stress and infections. These differences may also offer opportunities for the management of gastrointestinal health. Strategies to prevent SARA include balancing the diet for physical effective fibre, non-fibre carbohydrates and starch, managing the different fractions of non-fibre carbohydrates, and consideration of the type and processing of grain and forage digestibility. Gastrointestinal health disorders due to high grain feeding may be attenuated by a variety of feed supplements and additives, including buffers, antibiotics, probiotics/direct fed microbials and yeast products. However, the efficacy of strategies to prevent these disorders must be improved. This requires a better understanding of the mechanisms through which these strategies affect the functionality of gastrointestinal microbiota and epithelia, and the immunity, inflammation and 'gastrointestinal-health robustness' of cows. More representative models to induce SARA are also needed. [ABSTRACT FROM AUTHOR]
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- 2018
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33. Review: Role of herbivores in sustainable agriculture in Sub-Saharan Africa.
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Ayantunde, A. A., Duncan, A. J., van Wijk, M. T., Thorne, P., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
The role of herbivorous livestock in supporting the sustainability of the farming systems in which they are found is complex and sometimes conflicting. In Sub-Saharan Africa (SSA), the integration of livestock into farming systems is important for sustainable agriculture as the recycling of nutrients for crop production through returns of animal manure is a central element of the dominant mixed crop-livestock systems. Sustainable agriculture has been widely advocated as the main practical pathway to address the challenge of meeting the food needs of the rapidly growing population in SSA while safeguarding the needs of future generations. The objective of this paper is to review the state of knowledge of the role of herbivores in sustainable intensification of key farming systems in SSA. The pathways to sustainable agriculture in SSA include intensification of production and livelihood diversification. Sustainable agricultural practices in SSA have focused on intensification practices which aim to increase the output : input ratio through increasing use of inputs, introduction of new inputs or use of existing inputs in a new way. Intensification of livestock production can occur through increased and improved fodder availability, genetic production gains, improved crop residue use and better nutrient recycling of manure. Livestock deliver many 'goods' in smallholder farming systems in SSA including improving food and nutrition security, increased recycling of organic matter and nutrients and the associated soil fertility amendments, adding value to crop residues by turning them into nutrient-rich foods, income generation and animal traction. Narratives on livestock 'bads' or negative environmental consequences have been largely shaped by the production conditions in the Global North but livestock production in SSA is a different story. In SSA, livestock are an integral component of mixed farming systems and they play key roles in supporting the livelihoods of much of the rural population. None-the-less, the environmental consequences of livestock production on the continent cannot be ignored. To enhance agricultural sustainability in SSA, the challenge is to optimize livestock's role in the farming systems by maximizing livestock 'goods' while minimizing the 'bads'. This can be through better integration of livestock into the farming systems, efficient nutrient management systems, and provision of necessary policy and institutional support. [ABSTRACT FROM AUTHOR]
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- 2018
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34. Review: Nutrigenomics of marbling and fatty acid profile in ruminant meat.
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Ladeira, M. M., Schoonmaker, J. P., Swanson, K. C., Duckett, S. K., Gionbelli, M. P., Rodrigues, L. M., Teixeira, P. D., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
The present review will present the recent published results and discuss the main effects of nutrients, mainly fatty acids, on the expression of genes involved in lipid metabolism. In this sense, the review focuses in two phases: prenatal life and finishing phase, showing how nutrients can modulate gene expression affecting marbling and fatty acid profile in meat from ruminants. Adiposity in ruminants starts to be affected by nutrients during prenatal life when maternal nutrition affects the differentiation and proliferation of adipose cells enhancing the marbling potential. Therefore, several fetal programming studies were carried out in the last two decades in order to better understand how nutrients affect long-term expression of genes involved in adipogenesis and lipogenesis. In addition, during the finishing phase, marbling becomes largely dependent on starch digestion and glucose metabolism, being important to create alternatives to increase these metabolic processes, and modulates gene expression. Different lipid sources and their fatty acids may also influence the expression of genes responsible to encode enzymes involved in fat tissue deposition, influencing meat quality. In conclusion, the knowledge shows that gene expression is a metabolic factor affecting marbling and fatty acid profile in ruminant meat and diets and their nutrients have direct effect on how these genes are expressed. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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35. Review: Biological determinants of between-animal variation in feed efficiency of growing beef cattle.
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Cantalapiedra-Hijar, G., Abo-Ismail, M., Carstens, G. E., Guan, L. L., Hegarty, R., Kenny, D. A., McGee, M., Plastow, G., Relling, A., Ortigues-Marty, I., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Animal's feed efficiency in growing cattle (i.e. the animal ability to reach a market or adult BW with the least amount of feed intake), is a key factor in the beef cattle industry. Feeding systems have made huge progress to understand dietary factors influencing the average animal feed efficiency. However, there exists a considerable amount of animal-to-animal variation around the average feed efficiency observed in beef cattle reared in similar conditions, which is still far from being understood. This review aims to identify biological determinants and molecular pathways involved in the between-animal variation in feed efficiency with particular reference to growing beef cattle phenotyped for residual feed intake (RFI). Moreover, the review attempts to distinguish true potential determinants from those revealed through simple associations or indirectly linked to RFI through their association with feed intake. Most representative and studied biological processes which seem to be connected to feed efficiency were reviewed, such as feeding behaviour, digestion and methane production, rumen microbiome structure and functioning, energy metabolism at the whole body and cellular levels, protein turnover, hormone regulation and body composition. In addition, an overall molecular network analysis was conducted for unravelling networks and their linked functions involved in between-animal variation in feed efficiency. The results from this review suggest that feeding and digestive-related mechanisms could be associated with RFI mainly because they co-vary with feed intake. Although much more research is warranted, especially with high-forage diets, the role of feeding and digestive related mechanisms as true determinants of animal variability in feed efficiency could be minor. Concerning the metabolic-related mechanisms, despite the scarcity of studies using reference methods it seems that feed efficient animals have a significantly lower energy metabolic rate independent of the associated intake reduction. This lower heat production in feed efficient animals may result from a decreased protein turnover and a higher efficiency of ATP production in mitochondria, both mechanisms also identified in the molecular network analysis. In contrast, hormones and body composition could not be conclusively related to animal-to-animal variation in feed efficiency. The analysis of potential biological networks underlying RFI variations highlighted other significant pathways such as lipid metabolism and immunity and stress response. Finally, emerging knowledge suggests that metabolic functions underlying genetic variation in feed efficiency could be associated with other important traits in animal production. This emphasizes the relevance of understanding the biological basis of relevant animal traits to better define future balanced breeding programmes. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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36. Review: Individual variability in feeding behaviour of domesticated ruminants.
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Neave, H. W., Weary, D. M., von Keyserlingk, M. A. G., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Individual animals behave differently from one another, especially when confronting challenges such as changes in diet (e.g. weaning), environment (e.g. moving from pasture to feedlot) and social grouping (e.g. movement to lactating group after parturition). Each of these challenges involves some element of novelty, impacting the welfare and productivity of the animal. Indeed, the large individual variability in the development and expression of feeding behaviour cannot be fully explained by differences in genetics, management practices, body size or growth rate. In this review we outline evidence that individual variability in feeding behaviour is associated with the personality of the individual. We focus on three key personality traits: exploration, fear or reactivity and sociability. Individuals differ in how much they explore their feeding environment, with more exploratory individuals being less reactive to novel situations. Feeding behaviour can be impaired in individuals that are especially reactive to a change in their environment, change in diet or handling or restraint by humans. The social environment is also a major factor affecting how individuals express their behaviour. Sociability of the individual, including dominant-subordinate and affiliative relationships, affects how individuals make foraging decisions, gain access to feed and adopt particular social strategies to maintain or adjust feeding patterns when the social environment changes. Personality traits such as exploration, boldness and sociability also affect the use of social information when learning where, how or what to eat. Our review highlights the implications of feeding behaviour variability for the welfare and productivity of the individual, and how an understanding of personality can help tailor management to the needs of the individual. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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37. Review: Livestock production increasingly influences wildlife across the globe.
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Gordon, I. J., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
With the growing human population, and their improving wealth, it is predicted that there will be significant increases in demand for livestock products (mainly meat and milk). Recent years have demonstrated that the growth in livestock production has generally had significant impacts on wildlife worldwide; and these are, usually, negative. Here I review the interactions between livestock and wildlife and assess the mechanisms through which these interactions occur. The review is framed within the context of the socio-ecological system whereby people are as much a part of the interaction between livestock and wildlife as the animal species themselves. I highlight areas of interaction that are mediated through effects on the forage supply (vegetation) – neutral, positive and negative – however, the review broadly analyses the impacts of livestock production activities. The evidence suggests that it is not the interaction between the species themselves but the ancillary activities associated with livestock production (e.g. land use change, removal of predators, provision of water points) that are the major factors affecting the outcome for wildlife. So in future, there are two key issues that need to be addressed – first, we need to intensify livestock production in areas of 'intensive' livestock production in order to reduce the pressure for land use change to meet the demand for meat (land sparing). And second, if wildlife is to survive in areas where livestock production dominates, it will have to be the people part of the socio-ecological system that sees the benefits of having wildlife co-exist with livestock on farming lands (land sharing and win-win). [ABSTRACT FROM AUTHOR]
- Published
- 2018
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38. Review: Epigenetics, developmental programming and nutrition in herbivores.
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Chavatte-Palmer, P., Velazquez, M. A., Jammes, H., Duranthon, V., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Epidemiological studies in humans and animal models (including ruminants and horses) have highlighted the critical role of nutrition on developmental programming. Indeed, it has been demonstrated that the nutritional environment during the periconceptional period and foetal development can altered the postnatal performance of the resultant offspring. This nutritional programming can be exerted by maternal and paternal lineages and can affect offspring beyond the F1 generation. Alterations in epigenetic mechanisms have been proposed as the causative link behind the programming trajectories observed in the offspring. Although a clear cause–effect relationship between epigenetic modifications during early development and later offspring phenotype has not been demonstrated in livestock species, strong associations have been reported for some epigenetic marks (e.g. messenger RNA) that are worth exploring as possible predictors of future offspring phenotype. In this review, we shortly describe the main epigenetic mechanisms studied so far in mammals (i.e. mainly in the mouse) thought to be associated with developmental programming, and discuss the few studies available in mammalian herbivores (e.g. cattle) showing the effect of nutrition on epigenetic marks and the associated phenotype. Clearly, there is a need to develop research on nutritional strategies capable of modulating the epigenetic machinery with positive influence on the phenotype of livestock herbivores. This type of research is needed to alleviate the challenges currently faced by the livestock industry (e.g. impaired fertility of high-yielding dairy cows). This in turn will have a positive influence on animal welfare and productivity of livestock enterprises. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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39. Review: Make ruminants green again – how can sustainable intensification and agroecology converge for a better future?
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Dumont, B., Groot, J. C. J., Tichit, M., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
Livestock farming systems provide multiple benefits to humans: protein-rich diets that contribute to food security, employment and rural economies, capital stock and draught power in many developing countries and cultural landscape all around the world. Despite these positive contributions to society, livestock is also the centre of many controversies as regards to its environmental impacts, animal welfare and health outcomes related to excessive meat consumption. Here, we review the potentials of sustainable intensification (SI) and agroecology (AE) in the design of sustainable ruminant farming systems. We analyse the two frameworks in a historical perspective and show that they are underpinned by different values and worldviews about food consumption patterns, the role of technology and our relationship with nature. Proponents of SI see the increase in animal protein demand as inevitable and therefore aim at increasing production from existing farmland to limit further encroachment into remaining natural ecosystems. Sustainable intensification can thus be seen as an efficiency-oriented framework that benefits from all forms of technological development. Proponents of AE appear more open to dietary shifts towards less animal protein consumption to rebalance the whole food system. Agroecology promotes system redesign, benefits from functional diversity and aims at providing regulating and cultural services. We analyse the main criticisms of the two frameworks: Is SI sustainable? How much can AE contribute to feeding the world? Indeed, in SI, social justice has long lacked attention notably with respect to resource allocation within and between generations. It is only recently that some of its proponents have indicated that there is room to include more diversified systems and food-system transformation perspectives and to build socially fair governance systems. As no space is available for agricultural land expansion in many areas, agroecological approaches that emphasise the importance of local production should also focus more on yield increases from agricultural land. Our view is that new technologies and strict certifications offer opportunities for scaling-up agroecological systems. We stress that the key issue for making digital science part of the agroecological transition is that it remains at a low cost and is thus accessible to smallholder farmers. We conclude that SI and AE could converge for a better future by adopting transformative approaches in the search for ecologically benign, socially fair and economically viable ruminant farming systems. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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40. Multi-criteria evaluation of dairy cattle feed resources and animal characteristics for nutritive and environmental impacts.
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van Lingen, H. J., Fadel, J. G., Bannink, A., Dijkstra, J., Tricarico, J. M., Pacheco, D., Casper, D. P., Kebreab, E., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
On-farm nutrition and management interventions to reduce enteric CH
4 (eCH4 ) emission, the most abundant greenhouse gas from cattle, may also affect volatile solids and N excretion. The objective was to jointly quantify eCH4 emissions, digestible volatile solids (dVS) excretion and N excretion from dairy cattle, based on dietary variables and animal characteristics, and to evaluate relationships between these emissions and excreta. Univariate and Bayesian multivariate mixed-effects models fitted to 520 individual North American dairy cow records indicated dry matter (DM) intake and dietary ADF and CP to be the main predictors for production of eCH4 emissions and dVS and N excreta (g/day). Yields (g/kg DM intake) of eCH4 emissions and dVS and N excreta were best predicted by dietary ADF, dietary CP, milk yield and milk fat content. Intensities (g/kg fat- and protein-corrected milk) of eCH4 , dVS and N excreta were best predicted by dietary ADF, dietary CP, days in milk and BW. A K -fold cross-validation indicated that eCH4 and urinary N variables had larger root mean square prediction error (RMSPE; % of observed mean) than dVS, fecal N and total N production (on average 24.3% and 26.5% v. 16.7%, 15.5% and 16.2%, respectively), whereas intensity variables had larger RMSPE than production and yields (29.4%, 14.7% and 14.6%, respectively). Univariate and multivariate equations performed relatively similar (18.8% v. 19.3% RMSPE). Mutual correlations indicated a trade-off for eCH4 v. dVS yield. The multivariate model indicated a trade-off between eCH4 and dVS v. total N production, yield and intensity induced by dietary CP content. [ABSTRACT FROM AUTHOR]- Published
- 2018
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41. Review: Adaptation of ruminant livestock production systems to climate changes.
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Henry, B. K., Eckard, R. J., Beauchemin, K. A., Cassar-Malek, Isabelle, Baumont, René, Bannink, Andre, Teixeira, Izabelle, Mayberry, Dianne, and Kyriazakis, Ilias
- Abstract
There is growing evidence on the extent to which projected changes in climate, including increases in atmospheric levels of carbon dioxide, higher temperatures, changes in amount, seasonality and variability of precipitation and increases in extreme weather events, may affect future availability of ruminant animal products. Elements of climate change affect livestock systems through direct impacts on animal physiology, behaviour, production and welfare and indirectly through feed availability, composition and quality. These impacts may be positive or negative and will vary across geographical regions, animal species and with adaptive capacity. However, adverse impacts are likely to be greatest in tropical and sub-tropical regions including countries where both current need and future growth in demand for nutrition is greatest. The complexity of effects means that effective adaptation strategies to mitigate negative impacts on ruminant production systems to climate changes will need to be multi-dimensional. Although predictions of future climate, particularly on regional and local scales, have a degree of uncertainty, adaptation planning is starting to be informed by changes already being observed and adjustments in management being made by farmers to maintain productivity and profitability. Regional case studies illustrate the benefits and limitations of adaptive management: potential mitigation through heightened awareness of heat stress-related mortality in French cattle; evidence of a drop in milk production in south-eastern Australian dairies during a January 2014 heat wave, from the theoretical potential of 53% to only 10% across the state; and limitations in response options to climate-induced thermal, nutritional and water stress for sheep and goat farmers in northern Ethiopia. Review of research on climate change impacts on ruminant livestock and effective adaptation together with evidence of practical adaptive management provide insights into potential strategies and gaps in knowledge to address challenges and improve future decisions. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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42. Improving the prediction of methane production and representation of rumen fermentation for finishing beef cattle within a mechanistic model
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Ellis, Jennifer Lynn, primary, Dijkstra, Jan, additional, Bannink, Andre, additional, Kebreab, Ermias, additional, Archibeque, Shawn, additional, Benchaar, Chaouki, additional, Beauchemin, Karen, additional, Nkrumah, Donald Joshua, additional, and France, James, additional
- Published
- 2014
- Full Text
- View/download PDF
43. Chapter 10 - Gaseous Nitrogen Emissions from Livestock Farming Systems
- Author
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Oenema, Oene, Bannink, André, Sommer, Sven G., and Velthof, Gerard L.
- Published
- 2001
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