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Heart rates of horses during competitive dressage

Published online by Cambridge University Press:  02 June 2009

Rachel J. Williams
Affiliation:
Hartpury College, University of the West of England, Hartpury, Gloucestershire, UK
Rachael E. Chandler
Affiliation:
Hartpury College, University of the West of England, Hartpury, Gloucestershire, UK
David J. Marlin*
Affiliation:
David Marlin Consulting Ltd., PO Box 187, Newmarket, CB8 1BA, UK
*
*Corresponding author: [email protected]
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Abstract

An understanding of the physiological and metabolic demands of competition is essential for the development of training regimens that elicit adaptations appropriate for the sport being participated in. Despite the fact that dressage is a major sport and one of only three equestrian Olympic disciplines, to date there appear to be no studies that have described the heart rate of horses performing competitive dressage in any detail. The present study was therefore undertaken to describe the physiological demands of dressage competition. Thirty-five horses competing in a total of 50 dressage tests, 36 of which were at British dressage (BD) elementary level and 14 at BD medium level, were studied. The horses studied were predominantly Warmblood or Thoroughbred cross geldings with an age range from 6 to 17 (mean ± SD age of 10.0 ± 2.5 years). The average durations of warm-up for all horses competing were 31.3 ± 15.4 min at elementary level (n = 36) and 31.4 ± 10.0 min at medium level (n = 14; P>0.05). The mean and mean peak heart rates for horses warming up for elementary level were 91 ± 13 and 146 ± 35 bpm (beats min− 1), respectively, and were not different to that for horses warming up for medium level (mean 91 ± 10 bpm; peak: 144 ± 32 bpm; P>0.05). The mean and mean peak heart rates for all horses while competing at elementary level (n = 36) were 102 ± 13 and 132 ± 20 bpm, respectively, and 107 ± 8 and 132 ± 10 bpm, respectively, for medium level (n = 14), and were not significantly different (P>0.05). Mean heart rates during competition were significantly higher compared with that during warm-up for both elementary and medium levels (P < 0.001). Mean heart rate during competition (elementary and medium data combined) was significantly correlated with mean heart rate during warm-up (r2 = 0.503; n = 50; P < 0.001). There was no association between heart rate, warm-up duration and score or placing. These observations suggest that competitive dressage at BD elementary and medium levels is only moderately aerobically demanding.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 2009

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Footnotes

Present address: English Institute of Sport, Coleridge Road, Sheffield, Yorkshire S9 5DA, UK.

References

1 McArdle, WD, Katch, FI and Katch, V (1991). Energy, nutrition and human performance. In: McArdle, WD and William, D (eds) Exercise Physiology. Philadelphia, PA: Lea and Febiger.Google Scholar
2 Snow, DH, Mason, DK, Ricketts, SW and Douglas, TA (1983). Post race biochemistry in Thoroughbreds. In: Snow, DH, Persson, SGB and Rose, RJ (eds) Equine Exercise Physiology. Cambridge: Granta Editions, pp. 389394.Google Scholar
3 Sampson, SN, Tucker, RL and Bayly, WM (1999). Relationship between VO2max, heart score and echocardiography measurements obtained at rest and immediately following maximal exercise in Thoroughbred horses. Equine Veterinary Journal Supplement 30: 190194.CrossRefGoogle Scholar
4 Prince, A, Geor, R, Harris, K and Hoekstra, S (2002). Comparison of the metabolic responses of trained Arabians and Thoroughbreds during high and low intensity exercise. Equine Veterinary Journal Supplement 34: 9599.CrossRefGoogle Scholar
5 Davie, AJ, Priddle, TL and Evans, DL (2002). Metabolic responses to submaximal field exercise tests and relationship with racing performance in pacing Standardbreds. Equine Veterinary Journal Supplement 34: 112115.CrossRefGoogle Scholar
6 Amory, H, Art, T, Linden, A, Desmecht, D, Buchet, M and Lekeux, P (1993). Physiological response to the cross-country phase in eventing horses. Journal of Equine Veterinary Science 13(11): 646650.CrossRefGoogle Scholar
7 Marlin, DJ, Harris, PA, Schroter, RC, Harris, RC, Roberts, CA, Scott, CM, Orme, CE, Dunnett, M, Dyson, SJ, Barrelet, F, Williams, B, Marr, C and Casas, I (1995). Physiological, metabolic and biochemical responses of horses competing in the speed and endurance phase of a CCI**** three-day event. Equine Veterinary Journal Supplement 20: 3746.CrossRefGoogle Scholar
8 White, SL, Williamson, LH, Maykuth, PL, Cole, SP and Andrews, FM (1995). Heart rate response and plasma lactate concentrations of horses competing in the speed and endurance phase of 3-day combined training events. Equine Veterinary Journal Supplement 20: 5256.CrossRefGoogle Scholar
9 Marlin, DJ and Allen, JC (1999). Cardiovascular demands of competition on low-goal (non-elite) polo ponies. Equine Veterinary Journal 31(5): 378382.CrossRefGoogle ScholarPubMed
10 Art, T, Amory, H, Desmecht, D and Lekeux, P (1990). Effect of showjumping on heart rate, blood lactate and other plasma biochemical values. Equine Veterinary Journal Supplement 9: 7882.CrossRefGoogle Scholar
11 Lekeux, P, Art, T, Linden, A, Desmecht, D and Amory, H (1991). Heart rate, haematological and serum biochemical responses to show jumping. In: Persson, SGB, Lindholm, A and Jeffcott, LB (eds) Equine Exercise Physiology 3. Davis, CA: ICEEP Publications, pp. 385390.Google Scholar
12 Barrey, E and Valette, JP (1992). Measurement of heart rate, blood lactate and haematological parameters during show jumping competitions ranging from regional to international level. Proceedings of the Association of Equine Sports Medicine.Google Scholar
13 Covalesky, ME, Russoniello, CR and Malinowski, K (1992). Effects of show jumping performance stress on plasma cortisol and lactate concentrations and heart rate and behaviour in horses. Journal of Equine Veterinary Science 12(4): 244251.CrossRefGoogle Scholar
14 Sloet van Oldruitenborgh-Oosterbaan, MM, Wensing, TH, Barnveld, A and Breukink, HJ (1991a). Heart rate, blood chemistry and performance of horses. The Veterinary Record 128: 175179.CrossRefGoogle Scholar
15 Schott, HC, Marlin, DJ, Geor, RJ, Holbrook, TC, Deaton, CM, Vincent, T, Dacre, K, Schroter, RC, Jose-Cunilleras, E and Cornelisse, CJ (2006). Changes in selected physiological and laboratory measurements in elite horses competing in a 160 km endurance ride. Equine Veterinary Journal Supplement 36: 3742.Google Scholar
16 Clayton, HM (1991). Conditioning Sports Horses. Sport Horse Publications. Canada.Google Scholar
17 Holmstrom, M, Magnusson, LE and Philipsson, J (1990). Variation in conformation of Swedish Warmblood horses and conformational characteristics of elite sports horses. Equine Veterinary Journal 22: 186193.CrossRefGoogle Scholar
18 Clayton, HM (1989). Time-motion analysis in equestrian sports: the Grand Prix dressage test. Proceedings of the American Association of Equine Practitioners 35: 367373.Google Scholar
19 Lindner, A (2002). Training of horses used for dressage. In: Lindner, A (ed.) The Elite dressage and Three-Day-Event Horse. Conference on Equine Sports Medicine and Science 2002. Saumur, France, pp. 7583.Google Scholar
20 Schmidt, RA and Lee, T (1999). Motor Control and Learning. In: Liebermann D, Katz L, Huges MD, Bartlett RM, McClements J, Franks IM. (2002). Advances in the application of in- formation technology to sport performance. Journal of Sports Sciences 20: 755–769 Campaign, IL: Human Kinetics.Google Scholar
21 Clayton, HM (1993). Development of conditioning programs for dressage horses based on time-motion analysis of competitions. Journal of Applied Physiology 74(5): 183187.CrossRefGoogle ScholarPubMed
22 Murray, RC, Mann, S and Parkin, TDH (2006). Warm-up in dressage competitions: association with level, competition type and final score. Equine and Comparative Exercise Physiology 3(4): 185190.CrossRefGoogle Scholar
23 Fregin, GF and Thomas, DP (1983). Cardiovascular response to exercise in the horse. A review. In: Snow, DH, Persson, SGB and Rose, RJ (eds) Equine Exercise Physiology. Cambridge: Granta Editions, pp. 7690.Google Scholar
24 Piccione, G, Fazio, F and Giudice, E (2000). Cardiac parameters of the evaluation of performance in the athletic horse. In: Lindner, A (ed.) The Elite Show Jumper. Dortmund: Lensing Druck, pp. 161164.Google Scholar
25 Cikrytova, E, Kosteclecka, B, Kovar, J, Horak, F and Hanak, J (1991). Standardised exercise test on a track to evaluate exercise capacity in different breeds of horses. In: Persson, SGB, Lindholm, A and Jeffcott, LB (eds) Equine Exercise Physiology 3. Davis, CA: ICEEP Publications, pp. 3740.Google Scholar
26 McKeever, KH and Malinowski, K (1997). Exercise capacity in young and geriatric female horses. American Journal of Veterinary Research 58(12): 14681472.CrossRefGoogle Scholar
27 Marlin, DJ, Schroter, RC, White, SL, Maykuth, P, Matthesen, G, Mills, PC, Waran, N and Harris, P (2001). Recovery from transport and acclimatisation of competition horses in a hot humid environment. Equine Veterinary Journal 33(4): 371379.CrossRefGoogle Scholar
28 Hamlin, RL, Klepinger, WL, Gilpin, KW et al. (1972). Autonomic control of heart rate in the horse. American Journal of Physiology 222: 976.CrossRefGoogle ScholarPubMed
29 Erickson, HH, Lundin, CS, Erickson, BK and Coffman, JR (1991). Indices of performance in the racing Quarter horse. In: Persson, SGB, Lindholm, A and Jeffcott, LB (eds) Equine Exercise Physiology 3. Davis, CA: ICEEP Publications, pp. 4146.Google Scholar
30 Thomas, DP and Fregin, GF (1990). Cardiorespiratory drift during exercise in the horse. Equine Veterinary Journal Supplement 9: 6165.CrossRefGoogle Scholar
31 Sloet van Oldruitenborgh-Oosterbaan, MM, Wensing, TH, Barnveld, A and Breukink, HJ (1991b). Workload in the horse during a vaulting competition. In: Persson, SGB, Lindholm, A and Jeffcott, LB (eds) Equine Exercise Physiology 3. Davis, CA: ICEEP Publications, pp. 331336.Google Scholar