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. 2020 Nov 3;4(4):txaa196.
doi: 10.1093/tas/txaa196. eCollection 2020 Oct.

The energy requirements of racehorses in training

Mark Ebert  1 Meriel J S Moore-Colyer  1
Affiliations

The energy requirements of racehorses in training

Mark Ebert et al. Transl Anim Sci. .

Abstract

The aim of this study was to estimate the energy requirements of Thoroughbred racehorses in active training for flat racing. Twenty-two Thoroughbred racehorses in England were measured over periods from 6 to 15 wk, which included periods of active race training and temporarily reduced training. Energy intake was determined by measuring daily feed consumption. Energy output was measured using heart rate monitors during 730 training sessions, relating heart rate (HR) to oxygen consumption (VO2) and converting VO2 to energy. Field maintenance requirements were calculated by deducting the marginal energy cost of training from energy input. The mean field maintenance expenditure during periods of active race training was 0.1731 megajoules (MJ) of metabolizable energy (ME)/kg of bodyweight (BW)/d (SD = 0.0174, CI = 0.0073, n = 22 horses, 193 wk). This result is 11% to 66% greater than the official guidance found in the United States, France, Germany, and the Netherlands. Heart rate monitoring revealed a mean energy expenditure for exercise of 0.0212 MJ ME/d (SD = 0.0049, CI = 0.0007, n = 22 horses) for racehorses in active race training, a result 70% to 82% below the official guidance. The total mean energy expenditure for racehorses in active race training was 0.1943 MJ ME/kg/d (SD = 0.0177, CI = 0.0078, n = 20 horses 193 wk), 4% to 22% less than the official guidance. Horses actively racing had a 12% higher maintenance requirement than those in training but not yet racing (P = 0.01). The 2- and 3-yr-old horses did not gain weight during active race training, but grew slowly during breaks in training. This study explores the factors affecting energy balance in racehorses, and provides updated findings for their maintenance and training requirements.

Keywords: energy balance; equine; maintenance; nutrition model; racehorse; training.

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References

    1. Blaxter K.L. 1989. Energy metabolism in animals and man. Cambridge, UK: Cambridge University Press.
    1. Blok M. 2016. The EWpa system, the actualised Dutch net energy system for horses. Lelystad, The Netherlands: Central Bureau Livestock Feeding (CVB), Product Board Animal Feed; http://www.docslides.com/the-ewpasystem [accessed September 30, 2018].
    1. British Horseracing Authority 2020. BHA Racing Data Pack. London: British Horseracing Authority; http://media.britishhorseracing.com/bha/Racing_Statistics/Racing_Data_Pa... [accessed July 20, 2020].
    1. Coenen M. 2008. The suitability of heart rate in the prediction of energy consumption, energy expenditure and energy requirements for the exercising horse. In: Saastamoinen M., and Martin-Rosset W., editors. Nutrition of the exercising horse. EAAP publication no. 125. Wageningen, The Netherlands: Wageningen Academic Publishers; p. 139–146.
    1. Coenen M. 2010. Remarks on the benefits of heart rate recordings. Proceedings of the 2010 Kentucky Equine Research Nutrition Conference. Kentucky Equine Research. p. 42–54.

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