Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Estimating net energy requirements of male Djallonke sheep

Ouermi Oualyou A , Isidore B. Gnanda A , Nouhoun Zampaligre B , Michel Kere C , Kadiatou Traore B , Gildas L. M. Yoda B , V. M. C. Bougouma-Yameogo C , Mulubran Balehegn D , Adegbola Adesogan D and Ermias Kebreab https://orcid.org/0000-0002-0833-1352 E *
+ Author Affiliations
- Author Affiliations

A Centre National de Recherche Scientifique et Technologique (CNRST)/Institut de l’Environment et de Recherches Agricoles (INERA), Centre de Recherches Environnementales,Agricoles et de Formation (CREAF) de Kamboinsé, Ouagadougou, Burkina Faso.

B Centre National de Recherche Scientifique et Technologique (CNRST), Institut de l’Environnement et de Recherches Agricoles (INERA), Station de Farako-bâ, Bobo Dioulasso, Burkina Faso.

C Université Nazi Boni, Bobo Dioulasso, Burkina Faso.

D Feed the Future Innovation Lab for Livestock System, Department of Animal Sciences and Food Systems Institute, University of Florida, Gainesville, FL, USA.

E Department of Animal Science, University of California, Davis, Davis, CA, USA.

* Correspondence to: ekebreab@ucdavis.edu

Handling Editor: Robert Dixon

Animal Production Science 64, AN23294 https://doi.org/10.1071/AN23294
Submitted: 3 September 2023  Accepted: 9 September 2024  Published: 25 September 2024

© 2024 The Author(s) (or their employer(s)). Published by CSIRO Publishing

Abstract

Context

Energy requirements in sheep can vary significantly due to various factors, including age, breed, sex and environmental conditions. Genetic selection and crossbreeding further contribute to this variability. Although guidelines from the US and UK national research councils are commonly used for formulating sheep diets, they may not adequately account for the unique characteristics of sheep in Africa.

Aims

The study aimed to estimate the net maintenance energy requirement of male Djallonke sheep. This estimation will provide a basis for comparing the energy requirements of Djallonke sheep with national recommendations and recent estimates for other sheep breeds.

Methods

Sixteen entire male Djallonke sheep were selected and grouped by weight. They were then randomly allocated to four treatment groups in a 4 × 4 Latin square design. The sheep were fed to achieve intake levels ranging from 1 to 1.75 multiples of their maintenance energy requirement. Gas exchange data were collected using the GreenFeed system over a 3-day period at the conclusion of each treatment period. Heat production was calculated using the established Brouwer’s equation. A linear regression equation was developed to relate heat production to metabolisable energy intake scaled by metabolic bodyweight to calculate the net energy for maintenance.

Key results

The estimated net energy for maintenance for male Djallonke sheep was determined to be 0.354 MJ/kg BW0.75. This estimation indicated that the energy requirements of male Djallonke sheep exceeded the recommendations provided by the US National Research Council and the UK Agricultural and Food Research Council. However, it closely aligned with an updated estimate of 0.358 MJ/kg BW0.75.

Conclusions

Based on the study’s findings, male Djallonke sheep have higher energy requirements for maintenance than what is commonly recommended by existing guidelines. Therefore, it is advisable to update ration formulation software for male Djallonke sheep to better reflect their actual energy requirements for maintenance.

Implications

These results have practical implications for the formulation of diets and feeding management practices for male Djallonke sheep. Adhering to updated energy requirement estimates can help improve the efficiency and productivity of sheep production in the context of Djallonke sheep farming.

Keywords: Djallonke sheep, diet formulation, efficiency of energy utilisation, environment, heat production, linear regression, metabolisable energy, net energy.

References

Agricultural and Food Research Council (1993) Energy and protein requirements of ruminants. An advisory manual prepared by the AFRC Technical Committee on Responses to Nutrients. CAB International, Wallingford, UK.

Agricultural Research Council (1980) The nutrient requirements of ruminant livestock. Agricultural Research Council Working Party, Commonwealth Agricultural Bureau, Farnham Royal, UK.

Animal Genetics Training Resource (2022) Djallonke sheep breed. Available at http://agtr.ilri.cgiar.org/djallonke

Beef and Lamb New Zealand (2022) Sheep breeds in New Zealand. Available at https://beeflambnz.com/knowledge-hub/PDF/sheep-breeds-poster.pdf

Brouwer E (1965) Report of the sub-committee on constants and factors. In ‘Proceedings of the 3rd symposium on energy metabolism of farm animals. European Association for Animal Production. Vol. 11’. pp. 441–443. (Academic Press: London)

Deng KD, Jiang CG, Tu Y, Zhang NF, Liu J, Ma T, Zhao YG, Xu GS, Diao QY (2014) Energy requirements of Dorper crossbred ewe lambs. Journal of Animal Science 92, 2161-2169.
| Crossref | Google Scholar | PubMed |

Dong LF, Ferris CP, McDowell DA, Yan T (2015) Effects of diet forage proportion on maintenance energy requirement and the efficiency of metabolizable energy use for lactation by lactating dairy cows. Journal of Dairy Science 98, 8846-8855.
| Crossref | Google Scholar | PubMed |

Graham NMCC, Searle TW, Griffiths DA (1974) Basal metabolic rate in lambs and young sheep. Australian Journal of Agricultural Research 25(6), 957-971.
| Crossref | Google Scholar |

Kamuanga MJB, Somda J, Sanon Y, Kagone H (2008) Elevage et marché régional au Sahel et en Afrique de l’Ouest: potentialités et défis. OCDE-CEDEAO/CSAO, Paris.

Kebreab E, France J, Agnew RE, Yan T, Dhanoa MS, Dijkstra J, Beever DE, Reynolds CK (2003) Alternatives to linear analysis of energy balance data from lactating dairy cows. Journal of Dairy Science 86, 2904-2913.
| Crossref | Google Scholar | PubMed |

Kelly L, Bougouin A, Kebreab E (2021) Maintenance energy requirement and efficiency of utilisation of metabolisable energy for milk production of Bos Taurus x Bos indicus crossbred tropical dairy cows: a meta-analysis. Animal Production Science 61, 1338-1347.
| Crossref | Google Scholar |

Kirkpatrick DE, Steen RWJ, Unsworth EF (1997) The effect of differing forage: concentrate ratio and restricting feed intake on the energy and nitrogen utilization by beef cattle. Livestock Production Science 51, 151-164.
| Crossref | Google Scholar |

Lofgreen GP, Garrett WN (1968) A system for expressing net energy requirements and feed values for growing and finishing beef cattle. Journal of Animal Science 27, 793-806.
| Crossref | Google Scholar |

Marcondes MI, Tedeschi LO, Valadares Filho SC, Gionbelli MP (2013) Predicting efficiency of use of metabolizable energy to net energy for gain and maintenance of Nellore cattle. Journal of Animal Science 91(10), 4887-4898.
| Crossref | Google Scholar | PubMed |

McGinn SM, Coulombe J-F, Beauchemin KA (2021) Technical note: validation of the GreenFeed system for measuring enteric gas emissions from cattle. Journal of Animal Science 99, skab046.
| Crossref | Google Scholar |

Moraes LE, Kebreab E, Strathe AB, Dijkstra J, France J, Casper DP, Fadel JG (2015) Multivariate and univariate analysis of energy balance data from lactating dairy cows. Journal of Dairy Science 98, 4012-4029.
| Crossref | Google Scholar | PubMed |

Murray RM, Bryant AM, Leng RA (1976) Rates of production of methane in the rumen and large intestine of sheep. British Journal of Nutrition 36, 1-14.
| Crossref | Google Scholar | PubMed |

Niu M, Kebreab E, Hristov AN, Oh J, Arndt C, Bannink A, Bayat AR, Brito AF, Boland T, Casper D, Crompton LA, Dijkstra J, Eugène MA, Garnsworthy PC, Haque MN, Hellwing ALF, Huhtanen P, Kreuzer M, Kuhla B, Lund P, Madsen J, Martin C, McClelland SC, McGee M, Moate PJ, Muetzel S, Muñoz C, O’Kiely P, Peiren N, Reynolds CK, Schwarm A, Shingfield KJ, Storlien TM, Weisbjerg MR, Yáñez-Ruiz DR, Yu Z (2018) Prediction of enteric methane production, yield, and intensity in dairy cattle using an intercontinental database. Global Change Biology 24, 3368-3389.
| Crossref | Google Scholar | PubMed |

NRC (2007) ‘Nutrient requirements of small ruminants: sheep, goats, cervids and new world camelids.’ p. 384. (National Academy Press: Washington, DC)

Posada-Ochoa SL, Noguera RR, Rodríguez NM, Costa AL, Reis R (2017) Indirect calorimetry to estimate energy requirements for growing and finishing Nellore bulls. Journal of Integrative Agriculture 16(1), 151-161.
| Crossref | Google Scholar |

Reynolds C (2000) Measurement of energy metabolism. In ‘Feed evaluation: methods, systems and models’. (Eds MK Theodorou, J France) pp. 87–107. (CAB International) Available at http://centaur.reading.ac.uk/90867

Rodrigues RTdS, Chizzotti ML, Martins SR, da Silva IF, Queiroz MAA, Silva TS, Busato KC, Silva AMdA (2016) Energy and protein requirements of non-descript breed hair lambs of different sex classes in the semiarid region of Brazil. Tropical Animal Health and Production 48, 87-94.
| Crossref | Google Scholar | PubMed |

Salah N, Sauvant D, Archimède H (2014) Nutritional requirements of sheep, goats and cattle in warm climates: a meta-analysis. Animal 8(9), 1439-1447.
| Crossref | Google Scholar | PubMed |

Tedeschi LO, Boin C, Fox DG, Leme PR, Alleoni GF, Lanna DP (2002) Energy requirement for maintenance and growth of Nellore bulls and steers fed high-forage diets. Journal of Animal Science 80, 1671-1682.
| Google Scholar |

Traore A, Tamboura HH, Kabore A, Yameogo N, Bayala B, Zare I (2006) Caractérisation morphologique des petits ruminants (ovins et caprins) de race locale “Mossi” au Burkina Faso. Animal Genetic Resources Information 39, 39-50.
| Crossref | Google Scholar |

United Nations (2017) United Nations Database. Available at http://data.un.org/

Yang CT, Wang CM, Zhao YG, Chen TB, Aubry A, Gordon AW, Yan T (2020) Updating maintenance energy requirement for the current sheep flocks and the associated effect of nutritional and animal factors. Animal 14(2), 295-302.
| Crossref | Google Scholar | PubMed |

Zhao J, Ma X, Jin Y, Su R, Liu W, Ren Y, Zhang C, Zhang J (2016) Energy requirements for the maintenance and growth of Dorper-Jinzhong crossbred ram lambs. Italian Journal of Animal Science 15, 94-102.
| Crossref | Google Scholar |