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RESEARCH ARTICLE

The dynamics of energy supply and demand of foaling mares managed at pasture: a deterministic modelling approach

Y. Y. Chin B C , F. J. Roca Fraga A , P. J. Back A B , E. K. Gee A and C. W. Rogers A B
+ Author Affiliations
- Author Affiliations

A School of Veterinary Science, Massey University, Private Bag 11-222, Palmerston North 4442, New Zealand.

B School of Agriculture and Environment, Massey University, Private Bag 11-222, Palmerston North 4442, New Zealand.

C Corresponding author. Email: Y.Chin@massey.ac.nz

Animal Production Science 60(18) 2122-2130 https://doi.org/10.1071/AN18698
Submitted: 15 November 2018  Accepted: 24 September 2019   Published: 1 July 2020

Abstract

Context. At pasture, the nutritional status of mares will change due to a dynamic association between their energy requirements and the energy supply. Change in the plane of nutrition can influence reproductive performance measures in the mares. To help optimise nutritional and operational management of mares on stud farms, the nutritional status of Thoroughbred broodmares and the factors influencing the energy supply and demand were investigated.

Aims. To assess nutritional status of the Thoroughbred broodmare herds under ‘normal’ New Zealand commercial stud-farm conditions.

Methods. The energy intake, energy requirement and energy balance during the last 3 months of pregnancy and the first 5 months of lactation were modelled for mares with an initial bodyweight of 450 kg, 500 kg, 550 kg and 600 kg, and foaled at 0, 15, 50, and 90 days after 1 September.

Key results. For all foaling dates and bodyweights, mares were in positive energy balance during the last 3 months of pregnancy (6.1–8.5%). Energy balance decreased as pregnancy progressed, followed by a large and acute energy deficit that was initiated soon after foaling and continued during lactation. The energy deficit during lactation varied between –8.6% and –12.4%, depending on the foaling date modelled. Mares foaling later in the season (50–90 days after 1 September) had greater and longer (30–50 days) postpartum energy deficit than did mares that foaled earlier in the season, who recovered within 20 days postpartum. The modelled changes in the energy balance would be large enough to initiate mobilisation of the fat reserve (body condition), and could, therefore, explain the observation of delayed postpartum to conception interval observed with later-foaling mares on commercial farms.

Conclusions. There is a large and prolonged energy deficit soon after foaling and throughout 150 days of lactation in Thoroughbred mares managed under New Zealand commercial grazing conditions. Foaling later in the season can cause a mismatch in energy supply and demand that would increase and prolong the energy deficit.

Implications. These findings suggest a need for stud farms to actively manage the pasture supply and monitor the mare’s BWT and BCS changes in an attempt to optimise the mare’s nutritional status and reproductive performance.

Additional keywords: broodmare, equine, grass, nutrition, production, Thoroughbred.


References

Barash IA, Cheung CC, Weigle DS, Ren H, Kabigting EB, Kuijper JL, Clifton DK, Steiner RA (1996) Leptin is a metabolic signal to the reproductive system. Endocrinology 137, 3144–3147.
Leptin is a metabolic signal to the reproductive system.Crossref | GoogleScholarGoogle Scholar | 8770941PubMed |

Bengtsson J, Rogers CW, Back PJ, Emanuelson U, Roca J, Gee EK, Bolwell CF (2018) Characteristics of the grazing and farm management of broodmares on commercial Thoroughbred stud farms during spring. New Zealand Journal of Animal Science and Production 78, 88–91.

Buff P, Dodds A, Morrison C, Whitley NC, McFadin E, Daniel J, Djiane J, Keisler D (2002) Leptin in horses: tissue localization and relationship between peripheral concentrations of leptin and body condition. Journal of Animal Science 80, 2942–2948.
Leptin in horses: tissue localization and relationship between peripheral concentrations of leptin and body condition.Crossref | GoogleScholarGoogle Scholar | 12462262PubMed |

Burlacu G, Voicu D, Voicu I, Nicolae M, Petrache E, Georgescu G, Balan S (1993) Study on the energy and protein metabolism in horses. Archives of Animal Nutrition 45, 173–185.

Chin YY, Back PJ, Gee EK, Rogers CW (2019) Livestock and pasture management on commercial Thoroughbred breeding farms: implications for estimating nitrogen loss. New Zealand Journal of Animal Science and Production 79, 65–70.

Coenen M, Kienzle E, Vervuert I, Zeyner A (2011) Recent German developments in the formulation of energy and nutrient requirements in horses and the resulting feeding recommendations. Journal of Equine Veterinary Science 31, 219–229.
Recent German developments in the formulation of energy and nutrient requirements in horses and the resulting feeding recommendations.Crossref | GoogleScholarGoogle Scholar |

Collas C, Dumont B, Delagarde R, Martin-Rosset W, Fleurance G (2015) Energy supplementation and herbage allowance effects on daily intake in lactating mares. Journal of Animal Science 93, 2520–2529.
Energy supplementation and herbage allowance effects on daily intake in lactating mares.Crossref | GoogleScholarGoogle Scholar | 26020347PubMed |

Consiglio AL, Dell’Aquila ME, Fiandanese N, Ambruosi B, Cho YS, Bosi G, Arrighi S, Lacalandra GM, Cremonesi F (2009) Effects of leptin on in vitro maturation, fertilization and embryonic cleavage after ICSI and early developmental expression of leptin (Ob) and leptin receptor (ObR) proteins in the horse. Reproductive Biology and Endocrinology 7, 113
Effects of leptin on in vitro maturation, fertilization and embryonic cleavage after ICSI and early developmental expression of leptin (Ob) and leptin receptor (ObR) proteins in the horse.Crossref | GoogleScholarGoogle Scholar |

Cordero V (2011) Development of a nutritional model to predict digestible energy requirements of broodmares based on body condition changes. MSc Thesis, Texas A&M University, College Station, TX, USA.

Doreau M, Boulot S, Barlet J-P, Patureau-Mirand P (1990) Yield and composition of milk from lactating mares: effect of lactation stage and individual differences. The Journal of Dairy Research 57, 449–454.
Yield and composition of milk from lactating mares: effect of lactation stage and individual differences.Crossref | GoogleScholarGoogle Scholar | 2266197PubMed |

Dourmad J (1991) Effect of feeding level in the gilt during pregnancy on voluntary feed intake during lactation and changes in body composition during gestation and lactation. Livestock Production Science 27, 309–319.
Effect of feeding level in the gilt during pregnancy on voluntary feed intake during lactation and changes in body composition during gestation and lactation.Crossref | GoogleScholarGoogle Scholar |

Dugdale AHA, Curtis GC, Harris PA, Argo C (2011) Assessment of body fat in the pony: part I. Relationships between the anatomical distribution of adipose tissue, body composition and body condition. Equine Veterinary Journal 43, 552–561.
Assessment of body fat in the pony: part I. Relationships between the anatomical distribution of adipose tissue, body composition and body condition.Crossref | GoogleScholarGoogle Scholar |

Elliott C, Morton J, Chopin J (2009) Factors affecting foal birth weight in Thoroughbred horses. Theriogenology 71, 683–689.
Factors affecting foal birth weight in Thoroughbred horses.Crossref | GoogleScholarGoogle Scholar | 18980778PubMed |

Fleurance G, Fritz H, Duncan P, Gordon IJ, Edouard N, Vial C (2009) Instantaneous intake rate in horses of different body sizes: influence of sward biomass and fibrousness. Applied Animal Behaviour Science 117, 84–92.
Instantaneous intake rate in horses of different body sizes: influence of sward biomass and fibrousness.Crossref | GoogleScholarGoogle Scholar |

Fradinho MJ, Correia MJ, Grácio V, Bliebernicht M, Farrim A, Mateus L, Martin-Rosset W, Bessa RJB, Caldeira RM, Ferreira-Dias G (2014) Effects of body condition and leptin on the reproductive performance of Lusitano mares on extensive systems. Theriogenology 81, 1214–1222.
Effects of body condition and leptin on the reproductive performance of Lusitano mares on extensive systems.Crossref | GoogleScholarGoogle Scholar | 24613603PubMed |

Gallagher K, Leech J, Stowe H (1992) Protein, energy and dry matter consumption by racing Thoroughbreds: a field survey. Journal of Equine Veterinary Science 12, 43–48.
Protein, energy and dry matter consumption by racing Thoroughbreds: a field survey.Crossref | GoogleScholarGoogle Scholar |

Gastal M, Gastal E, Beg M, Ginther O (2010) Short-term feed restriction decreases the systemic and intrafollicular concentrations of leptin and increases the vascularity of the preovulatory follicle in mares. Theriogenology 73, 1202–1209.
Short-term feed restriction decreases the systemic and intrafollicular concentrations of leptin and increases the vascularity of the preovulatory follicle in mares.Crossref | GoogleScholarGoogle Scholar | 20226513PubMed |

Gee EK, Fennessy PF, Morel PCH, Grace ND, Firth EC, Mogg TD (2003) Chemical body composition of 20 Thoroughbred foals at 160 days of age, and preliminary investigation of techniques used to predict body fatness. New Zealand Veterinary Journal 51, 125–131.
Chemical body composition of 20 Thoroughbred foals at 160 days of age, and preliminary investigation of techniques used to predict body fatness.Crossref | GoogleScholarGoogle Scholar | 16032311PubMed |

Gee EK, Rogers CW, Bolwell CF (2017) Commercial equine production in New Zealand. 1. Reproduction and breeding. Animal Production Science
Commercial equine production in New Zealand. 1. Reproduction and breeding.Crossref | GoogleScholarGoogle Scholar |

Grace ND, Gee EK, Firth EC, Shaw HL (2002) Digestible energy intake, dry matter digestibility and mineral status of grazing New Zealand Thoroughbred yearlings. New Zealand Veterinary Journal 50, 63–69.
Digestible energy intake, dry matter digestibility and mineral status of grazing New Zealand Thoroughbred yearlings.Crossref | GoogleScholarGoogle Scholar | 16032212PubMed |

Guay KA, Brady HA, Allen VG, Pond KR, Wester DB, Janecka LA, Heninger NL (2002) Matua bromegrass hay for mares in gestation and lactation. Journal of Animal Science 80, 2960–2966.
Matua bromegrass hay for mares in gestation and lactation.Crossref | GoogleScholarGoogle Scholar | 12462265PubMed |

Henneke D, Potter G, Kreider J (1984) Body condition during pregnancy and lactation and reproductive efficiency of mares. Theriogenology 21, 897–909.
Body condition during pregnancy and lactation and reproductive efficiency of mares.Crossref | GoogleScholarGoogle Scholar |

Kienzle E, Zeyner A (2010) The development of a metabolizable energy system for horses. Journal of Animal Physiology and Animal Nutrition 94, e231–e240.
The development of a metabolizable energy system for horses.Crossref | GoogleScholarGoogle Scholar | 20626500PubMed |

Lawrence LM, DiPietro J, Ewert K, Parrett D, Moser L, Powell D (1992) Changes in body weight and condition of gestating mares. Journal of Equine Veterinary Science 12, 355–358.
Changes in body weight and condition of gestating mares.Crossref | GoogleScholarGoogle Scholar |

Litherland AJ, Lambert MG (2007) Factors affecting the quality of pastures and supplements produced on farms. In ‘Pasture and supplements for grazing animals’. (Ed. PV Rattray) pp. 81–96. (New Zealand Society of Animal Production: Cambridge, New Zealand)

Malacarne M, Martuzzi F, Summer A, Mariani P (2002) Protein and fat composition of mare’s milk: some nutritional remarks with reference to human and cow’s milk. International Dairy Journal 12, 869–877.
Protein and fat composition of mare’s milk: some nutritional remarks with reference to human and cow’s milk.Crossref | GoogleScholarGoogle Scholar |

Manso Filho HC, McKeever KH, Gordon ME, Costa HEC, Lagakos WS, Watford M (2008) Changes in glutamine metabolism indicate a mild catabolic state in the transition mare. Journal of Animal Science 86, 3424–3431.

Marlow CHB, Van Tonder EM, Hayward FC, Van der Merwe SS, Price LEG (1983) A report on the consumption, composition and nutritional adequacy of a mixture of lush green perennial ryegrass (Lolium perenne) and cocksfoot (Dactylis glomerata) fed ad libitum to Thoroughbred mares. Journal of the South African Veterinary Association 54, 155–157.

Newcombe JR, Wilson MC (2005) Age, body weight, and pregnancy loss. Journal of Equine Veterinary Science 25, 188–194.
Age, body weight, and pregnancy loss.Crossref | GoogleScholarGoogle Scholar |

Nicol AM, Brookes IM (2007) The metabolisable energy requirements of grazing livestock. In ‘Pasture and supplements for grazing animals’. (Ed. PV Rattray) pp. 151–172. (New Zealand Society of Animal Production: Cambridge, New Zealand)

Noblet J, Etienne M (1987) Metabolic utilization of energy and maintenance requirements in lactating sows. Journal of Animal Science 64, 774–781.
Metabolic utilization of energy and maintenance requirements in lactating sows.Crossref | GoogleScholarGoogle Scholar | 3571003PubMed |

Noblet J, Henry Y (1993) Energy evaluation systems for pig diets: a review. Livestock Production Science 36, 121–141.
Energy evaluation systems for pig diets: a review.Crossref | GoogleScholarGoogle Scholar |

Noblet J, Le Dividich J, Bikawa T (1985) Interaction between energy level in the diet and environmental temperature on the utilization of energy in growing pigs. Journal of Animal Science 61, 452–459.
Interaction between energy level in the diet and environmental temperature on the utilization of energy in growing pigs.Crossref | GoogleScholarGoogle Scholar | 4044442PubMed |

Noblet J, Shi X, Dubois S (1993) Metabolic utilization of dietary energy and nutrients for maintenance energy requirements in sows: basis for a net energy system. British Journal of Nutrition 70, 407–419.
Metabolic utilization of dietary energy and nutrients for maintenance energy requirements in sows: basis for a net energy system.Crossref | GoogleScholarGoogle Scholar | 8260468PubMed |

NRC (2007) ‘Nutrient requirement of horses.’ (The National Academies Press: Washington, DC, USA)

Pagan JD, Brown-Douglas CG, Caddel S (2009) Body weight and condition of Kentucky Thoroughbred mares and their foals as influenced by month of foaling, season, and gender. In ‘Advances in equine nutrition IV.’ (Ed. JD Pagan) pp. 137–145. (Nottingham University Press, Nottingham, UK)

Platt H (1984) Growth of the equine foetus. Equine Veterinary Journal 16, 247–252.
Growth of the equine foetus.Crossref | GoogleScholarGoogle Scholar | 6383808PubMed |

Rogers CW, Gee EK, Bolwell CF, Rosanowski SM (2017) Commercial equine production in New Zealand. 2. Growth and development of the equine athlete. Animal Production Science
Commercial equine production in New Zealand. 2. Growth and development of the equine athlete.Crossref | GoogleScholarGoogle Scholar |

Rogers CW, Gee EK, Back PJ, van Zon S, Hirst RL, Pomroy WE (2018) Pasture use and management in commercial equine production systems. New Zealand Journal of Animal Science and Production 78, 40–44.

Salazar-Ortiz J, Monget P, Guillaume D (2014) The influence of nutrition on the insulin-like growth factor system and the concentrations of growth hormone, glucose, insulin, gonadotropins and progesterone in ovarian follicular fluid and plasma from adult female horses (Equus caballus). Reproductive Biology and Endocrinology 12, 72
The influence of nutrition on the insulin-like growth factor system and the concentrations of growth hormone, glucose, insulin, gonadotropins and progesterone in ovarian follicular fluid and plasma from adult female horses (Equus caballus).Crossref | GoogleScholarGoogle Scholar | 25078409PubMed |

Slade LM, Robinson D, Casey K (1970) Nitrogen metabolism in nonruminant herbivores. I. The influence of nonprotein nitrogen and protein quality on the nitrogen retention of adult mares. Journal of Animal Science 30, 753–760.
Nitrogen metabolism in nonruminant herbivores. I. The influence of nonprotein nitrogen and protein quality on the nitrogen retention of adult mares.Crossref | GoogleScholarGoogle Scholar | 5420307PubMed |

Sticker LS, Thompson DL, Fernandez JM, Bunting LD, DePew CL (1995) Dietary protein and (or) energy restriction in mares: plasma growth hormone, IGF-I, prolactin, cortisol, and thyroid hormone responses to feeding, glucose, and epinephrine. Journal of Animal Science 73, 1424–1432.
Dietary protein and (or) energy restriction in mares: plasma growth hormone, IGF-I, prolactin, cortisol, and thyroid hormone responses to feeding, glucose, and epinephrine.Crossref | GoogleScholarGoogle Scholar | 7665373PubMed |

Van Weyenberg S, Hesta M, Buyse J, Papadopoulos GA, Janssens GP (2008) Short-term effects of energy changes on plasma leptin concentrations and glucose tolerance in healthy ponies. Veterinary Journal (London, England) 178, 233–237.
Short-term effects of energy changes on plasma leptin concentrations and glucose tolerance in healthy ponies.Crossref | GoogleScholarGoogle Scholar |

Vermorel M, Martin-Rosset W, Vernet J (1997) Energy utilization of twelve forages or mixed diets for maintenance by sport horses. Livestock Production Science 47, 157–167.
Energy utilization of twelve forages or mixed diets for maintenance by sport horses.Crossref | GoogleScholarGoogle Scholar |

Waldron K, Rogers C, Gee E, Bolwell C (2011) Production variables influencing the auction sales price of New Zealand Thoroughbred yearlings. In ‘Proceedings of the New Zealand Society of Animal Production’. (Ed. R Sumner) pp. 92–95. (New Zealand Society of Animal Production: Hamilton, New Zealand)