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1. Prediction of enteric methane emissions by sheep using an intercontinental database

Author

Agencia Estatal de Investigación (España), CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), European Commission, National Institute of Food and Agriculture (US), Belanche, A., Hristov, A. N., van Lingen, H.J., Denman, Stuart E., Kebreab, E., Schwarm, A., Kreuzer, M., Niu, M., Eugène, M., Niderkorn, V., Martin, C., Archimède, H., McGee, M., Reynolds, C.K., Crompton, L. A., Bayat, A.R., Yu, Z., Bannink, A., Dijkstra, J., Chaves, A. V., Clark, H., Muetzel, S., Lind, V., Moorby, J.M., Rooke, J.A., Aubry, A., Antezana, W., Wang, M., Hegarty, R., Hutton Oddy, V., Hill, J., Vercoe, P.E., Savian, J.V., Abdalla, A.L., Soltan, Y.A., Gomes Monteiro, A.L., Ku-Vera, J.C., Jaurena, G., Gómez-Bravo, C.A, Mayorga, O.L., Congio, G.F.S., Yáñez Ruiz, David R., Agencia Estatal de Investigación (España), CSIC - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), European Commission, National Institute of Food and Agriculture (US), Belanche, A., Hristov, A. N., van Lingen, H.J., Denman, Stuart E., Kebreab, E., Schwarm, A., Kreuzer, M., Niu, M., Eugène, M., Niderkorn, V., Martin, C., Archimède, H., McGee, M., Reynolds, C.K., Crompton, L. A., Bayat, A.R., Yu, Z., Bannink, A., Dijkstra, J., Chaves, A. V., Clark, H., Muetzel, S., Lind, V., Moorby, J.M., Rooke, J.A., Aubry, A., Antezana, W., Wang, M., Hegarty, R., Hutton Oddy, V., Hill, J., Vercoe, P.E., Savian, J.V., Abdalla, A.L., Soltan, Y.A., Gomes Monteiro, A.L., Ku-Vera, J.C., Jaurena, G., Gómez-Bravo, C.A, Mayorga, O.L., Congio, G.F.S., and Yáñez Ruiz, David R.

Abstract

Enteric methane (CH) emissions from sheep contribute to global greenhouse gas emissions from livestock. However, as already available for dairy and beef cattle, empirical models are needed to predict CH emissions from sheep for accounting purposes. The objectives of this study were to: 1) collate an intercontinental database of enteric CH emissions from individual sheep; 2) identify the key variables for predicting enteric sheep CH absolute production (g/d per animal) and yield [g/kg dry matter intake (DMI)] and their respective relationships; and 3) develop and cross-validate global equations as well as the potential need for age-, diet-, or climatic region-specific equations. The refined intercontinental database included 2,135 individual animal data from 13 countries. Linear CH prediction models were developed by incrementally adding variables. A universal CH production equation using only DMI led to a root mean square prediction error (RMSPE, % of observed mean) of 25.4% and an RMSPE-standard deviation ratio (RSR) of 0.69. Universal equations that, in addition to DMI, also included body weight (DMI + BW), and organic matter digestibility (DMI + OMD + BW) improved the prediction performance further (RSR, 0.62 and 0.60), whereas diet composition variables had negligible effects. These universal equations had lower prediction error than the extant IPCC 2019 equations. Developing age-specific models for adult sheep (>1-year-old) including DMI alone (RSR = 0.66) or in combination with rumen propionate molar proportion (for research of more refined purposes) substantially improved prediction performance (RSR = 0.57) on a smaller dataset. On the contrary, for young sheep (<1-year-old), the universal models could be applied, instead of age-specific models, if DMI and BW were included. Universal models showed similar prediction performances to the diet- and region-specific models. However, optimal prediction equations led to different regression coefficients (i.e. interc

Published
2023

2. Prediction of enteric methane emissions by sheep using an intercontinental database

Author

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., Yáñez-Ruiz, David R., 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.

Abstract

Enteric methane (CH4) emissions from sheep contribute to global greenhouse gas emissions from livestock. However, as already available for dairy and beef cattle, empirical models are needed to predict CH4 emissions from sheep for accounting purposes. The objectives of this study were to: 1) collate an intercontinental database of enteric CH4 emissions from individual sheep; 2) identify the key variables for predicting enteric sheep CH4 absolute production (g/d per animal) and yield [g/kg dry matter intake (DMI)] and their respective relationships; and 3) develop and cross-validate global equations as well as the potential need for age-, diet-, or climatic region-specific equations. The refined intercontinental database included 2,135 individual animal data from 13 countries. Linear CH4 prediction models were developed by incrementally adding variables. A universal CH4 production equation using only DMI led to a root mean square prediction error (RMSPE, % of observed mean) of 25.4% and an RMSPE-standard deviation ratio (RSR) of 0.69. Universal equations that, in addition to DMI, also included body weight (DMI + BW), and organic matter digestibility (DMI + OMD + BW) improved the prediction performance further (RSR, 0.62 and 0.60), whereas diet composition variables had negligible effects. These universal equations had lower prediction error than the extant IPCC 2019 equations. Developing age-specific models for adult sheep (>1-year-old) including DMI alone (RSR = 0.66) or in combination with rumen propionate molar proportion (for research of more refined purposes) substantially improved prediction performance (RSR = 0.57) on a smaller dataset. On the contrary, for young sheep (<1-year-old), the universal models could be applied, instead of age-specific models, if DMI and BW were included. Universal models showed similar prediction performances to the diet- and region-specific models. However, optimal prediction equations led to different regression coefficients (i.e.

Published
2023

3. Prediction of enteric methane emissions by sheep using an intercontinental database

Author

Belanche, Alejandro, primary, Hristov, Alexander N., additional, van Lingen, Henk J., additional, Denman, Stuart E., additional, Kebreab, Ermias, additional, Schwarm, Angela, additional, Kreuzer, Michael, additional, Niu, Mutian, additional, Eugène, Maguy, additional, Niderkorn, Vincent, additional, Martin, Cécile, additional, Archimède, Harry, additional, McGee, Mark, additional, Reynolds, Christopher K., additional, Crompton, Les A., additional, Bayat, Ali Reza, additional, Yu, Zhongtang, additional, Bannink, André, additional, Dijkstra, Jan, additional, Chaves, Alex V., additional, Clark, Harry, additional, Muetzel, Stefan, additional, Lind, Vibeke, additional, Moorby, Jon M., additional, Rooke, John A., additional, Aubry, Aurélie, additional, Antezana, Walter, additional, Wang, Min, additional, Hegarty, Roger, additional, Hutton Oddy, V., additional, Hill, Julian, additional, Vercoe, Philip E., additional, Savian, Jean Víctor, additional, Abdalla, Adibe Luiz, additional, Soltan, Yosra A., additional, Gomes Monteiro, Alda Lúcia, additional, Ku-Vera, Juan Carlos, additional, Jaurena, Gustavo, additional, Gómez-Bravo, Carlos A., additional, Mayorga, Olga L., additional, Congio, Guilhermo F.S., additional, and Yáñez-Ruiz, David R., additional

Published
2023
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4. Beef production simulation of nitrate and lipid supplements for pasture and rangeland fed enterprises

Author

McPhee, Malcolm J., primary, Evered, Mark, additional, Andrews, Todd, additional, Pacheco, David, additional, Dougherty, Holland C., additional, Ingham, Aaron B., additional, Harden, Steven, additional, Crean, Jason, additional, Roche, Leslie, additional, Eastburn, Danny J., additional, Oltjen, James W., additional, Hutton Oddy, V., additional, Kebreab, Ermias, additional, Nolan, John V., additional, and Hegarty, Roger S., additional

Published
2019
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7. The sheep genome reference sequence: a work in progress

Author

The International Sheep Genomics Consortium, ., Archibald, A.L., Cockett, N.E., Dalrymple, B.P., Faraut, Thomas, Kijas, J.W., Maddox, J.F., McEwan, J.C., Hutton Oddy, V., Raadsma, H.W., Wade, C., Wang, J., Wang, W., Xun, X., The International Sheep Genomics Consortium, Partenaires INRAE, The Roslin Institute and Royal (Dick) School of Veterinary Studies, University of Edinburgh, Utah State University (USU), Livestock Industries, Laboratoire de Génétique Cellulaire (LGC), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, University of Melbourne, Invermay Agricultural Centre, AgResearch Ltd, School of Environmental and Rural Science, University of New England (UNE), Faculty of Veterinary Science, The University of Sydney, Beijing Genomics Institute [Shenzhen] (BGI), and Institute of Zoology

Subjects
sheep, [SDV]Life Sciences [q-bio], sequence, reference, genome, ovis aries
Abstract

Chantier qualité GA; International audience; Until recently, the construction of a reference genome was performed using Sanger sequencing alone. The emergence of next-generation sequencing platforms now means reference genomes may incorporate sequence data generated from a range of sequencing platforms, each of which have different read length, systematic biases and mate-pair characteristics. The objective of this review is to inform the mammalian genomics community about the experimental strategy being pursued by the International Sheep Genomics Consortium (ISGC) to construct the draft reference genome of sheep (Ovis aries). Component activities such as data generation, sequence assembly and annotation are described, along with information concerning the key researchers performing the work. This aims to foster future participation from across the research community through the coordinated activities of the consortium. The review also serves as a ‘marker paper’ by providing information concerning the pre-publication release of the reference genome. This ensures the ISGC adheres to the framework for data sharing established at the recent Toronto International Data Release Workshop and provides guidelines for data users.

Published
2010
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