| Peer-Reviewed

Energy Expenditure of Collegiate Golfers in a Competitive Setting

Received: 15 August 2018     Accepted: 11 September 2018     Published: 15 October 2018
Views:       Downloads:
Abstract

Collegiate golf is physically demanding; however, little research has been done to establish the energy expenditure (EE) and metabolic demand on a golfer during competition. With advances in wearable technology, it has become easier to gain knowledge on physical activities outside the lab. Therefore, the purpose of this study was to determine the amount of EE a collegiate golfer expends during a competitive golf tournament. METHODS: Eight NCAA-caliber golfers (4 males; 4 females) participated (Age: 19.3 ± 2.0 years; WT: 149.5 ± 13.4 pounds; Bag WT: 22.3 ± 2.0 pounds; Bag Wt./Body Wt.: 15.0 ± 1.8%; HT: 67.7 ± 3.6 inches;% Body Fat: 20.0 ± 7.3%). One VO2max and two randomly ordered 6-minute steady-state walk (6MW) tests were performed. One 6MW was completed with a weight vest simulating each golfer’s bag weight, and the other was completed without the vest. RESULTS: Phase 1, males had a lower% BF (p=0.03), higher FFW (p=0.03), VO2max (p=0.02), max heart rate (p=0.04), max RER (p=0.03), and max VE (p=0.02) compared to females. Looking at caloric expenditure during all 6MW tests, the Garmin VivoactiveHR™ overestimated calories expended compared to the metabolic cart kcals (+22.4%; p=0.01). For the 6MW without the bag, stepwise regression showed in order of importance heart rate, distance covered, and step count entered the equation (r-squared = 0.966, p=0.0021). Phase 2, females had higher scores (females: 87.5 ± 6.43 strokes; males: 76.75 ± 4.65 strokes), walked a greater distance (females: 7.43 ± 0.23 miles; males: 7.37 ± 0.18 miles), took longer to complete the golf rounds (females: 282:42 ± 37:16 minutes; males: 266:05 ± 11:10 minutes), and had a greater average HR (females: 121.99 ± 15.26 bpm; males: 111.00 ± 4.31 bpm). The Garmin VivoactiveHR™ underestimated the female golfers’ kcal expenditure by 6.22% compared to the metabolic predicted kcals; however, the males experienced an overestimation of 5.3% by the Garmin VivoactiveHR™. The stepwise regression conducted on the golf tournament data indicated that calories/hour (p=0.00) and time (p=0.00) affected Garmin VivoactiveHR™ kcal expenditure the most. CONCLUSION: The Garmin VivoactiveHR™ was unable to accurately estimate caloric expenditure during the in-lab and golf tournament testing.

Published in American Journal of Sports Science (Volume 6, Issue 4)
DOI 10.11648/j.ajss.20180604.13
Page(s) 144-156
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2018. Published by Science Publishing Group

Keywords

Wearables, Energy Expenditure, Steady-State Exercise, Golf

References
[1] Zunzer, S. C., von Duvillard, S. P., Tschakert, G., Mangus, B., & Hofmann, P. (2013). Energy expenditure and sex differences of golf playing. Journal of Sports Science, 31 (10), 1045-1053.
[2] Ziegenfuss, T. N., Habowski, S. M., Lemieux, R., Sandrock, J. E., Kedia, A. W., Kerksick, C. M., & Lopez, H. L. (2015). Effects of a dietary supplement on golf drive distance and functional indices of golf performance. Journal of the International Society of Sports Nutrition, 12 (4), 1-14.
[3] Stevenson, E. J., Hayes, P. R., & Allison, S. J. (2009). The effect of a carbohydrate-caffeine sports drink on simulated golf performance, Applied Physiology, Nutrition, and Metabolism, 34, 681-688.
[4] Evans, K. & Tuttle, N. (2015). Improving performance in golf: Current research and implications from a clinical perspective. Brazilian Journal of Physical Therapy, 1-9.
[5] Levine, J., (2005). Measurement of energy expenditure. Public Health Nutrition, 8 (7A), 1123-1132.
[6] Brooks, G. A., Fahey, T. D., Baldwin, K. M. (2005). Exercise Physiology: Human bioenergetics and its applications (4th ed.). New York: McGraw-Hill.
[7] Smith, M. (2010). The role of physiology in the development of golf performance. Journal of Sports Medicine, 40 (8), 635-655.
[8] Najafi, B., Lee-Eng, J., Wrobel, J. S., & Goebel, R. (2015). Estimation of center mass trajectory using wearable sensors during golf swing. Journal of Sports Science and Medicine, 14, 354-363.
[9] El-Amrawy, F. & NouNou, M. I. (2015). Are currently available wearable devices for activity tracking and heart rate monitoring accurate, precise, and medically beneficial? The Korean Society of Medical Informants, 21 (4), 315-320.
[10] Bassett Jr, D. R., Rowlands, A. V., & Trost, S. G. (2012). Calibration and validation of wearable monitors. Medicine and Science in Sports and Exercise, 44 (1 Suppl 1), S32-S38.
[11] Wang, R., Blackburn, G., Desai, M., Phelan, D., Gillinov, L., & Gillinov, M. (2017). Accuracy of wrist-worn heart rate monitors. Journal of the American Medical Association: Cardiology, 2 (1), 104-106.
[12] Murakami, H., Kawakami, R., Nakae, S., Nakata, Y., Ishikawa-Takata, K., Tanaka, S., & Miyachi, M. (2016). Accuracy of wearable devices for estimating total energy expenditure: Comparison with metabolic chamber and doubly labeled water method. Journal of the American Medical Association: Internal Medicine, 176 (5), 702-703.
[13] Sell, T. C., Abt, J. P., & Lephart, S. M. (2008). Physical activity-related benefits of walking during golf. Science and Golf V: Proceedings of the World Scientific Congress of Golf, 128-132.
[14] Kras, J. & Larsen, B. (2002). A comparison of health benefits of walking and riding during a round of golf. International Sports Journal, 6, 112-116.
[15] Albinali, F., Intille, S. S., Haskell, W., & Rosenberger, M. (2010). Using wearable activity type detection to improve physical activity energy expenditure estimation. Proceedings of the 12th ACM international conference on Ubiquitous computing, 311-320.
Cite This Article
  • APA Style

    Kaela Hierholzer, Amanda Salacinski, Peter Chomentowski III, Craig Broeder. (2018). Energy Expenditure of Collegiate Golfers in a Competitive Setting. American Journal of Sports Science, 6(4), 144-156. https://doi.org/10.11648/j.ajss.20180604.13

    Copy | Download

    ACS Style

    Kaela Hierholzer; Amanda Salacinski; Peter Chomentowski III; Craig Broeder. Energy Expenditure of Collegiate Golfers in a Competitive Setting. Am. J. Sports Sci. 2018, 6(4), 144-156. doi: 10.11648/j.ajss.20180604.13

    Copy | Download

    AMA Style

    Kaela Hierholzer, Amanda Salacinski, Peter Chomentowski III, Craig Broeder. Energy Expenditure of Collegiate Golfers in a Competitive Setting. Am J Sports Sci. 2018;6(4):144-156. doi: 10.11648/j.ajss.20180604.13

    Copy | Download

  • @article{10.11648/j.ajss.20180604.13,
      author = {Kaela Hierholzer and Amanda Salacinski and Peter Chomentowski III and Craig Broeder},
      title = {Energy Expenditure of Collegiate Golfers in a Competitive Setting},
      journal = {American Journal of Sports Science},
      volume = {6},
      number = {4},
      pages = {144-156},
      doi = {10.11648/j.ajss.20180604.13},
      url = {https://doi.org/10.11648/j.ajss.20180604.13},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajss.20180604.13},
      abstract = {Collegiate golf is physically demanding; however, little research has been done to establish the energy expenditure (EE) and metabolic demand on a golfer during competition. With advances in wearable technology, it has become easier to gain knowledge on physical activities outside the lab. Therefore, the purpose of this study was to determine the amount of EE a collegiate golfer expends during a competitive golf tournament. METHODS: Eight NCAA-caliber golfers (4 males; 4 females) participated (Age: 19.3 ± 2.0 years; WT: 149.5 ± 13.4 pounds; Bag WT: 22.3 ± 2.0 pounds; Bag Wt./Body Wt.: 15.0 ± 1.8%; HT: 67.7 ± 3.6 inches;% Body Fat: 20.0 ± 7.3%). One VO2max and two randomly ordered 6-minute steady-state walk (6MW) tests were performed. One 6MW was completed with a weight vest simulating each golfer’s bag weight, and the other was completed without the vest. RESULTS: Phase 1, males had a lower% BF (p=0.03), higher FFW (p=0.03), VO2max (p=0.02), max heart rate (p=0.04), max RER (p=0.03), and max VE (p=0.02) compared to females. Looking at caloric expenditure during all 6MW tests, the Garmin VivoactiveHR™ overestimated calories expended compared to the metabolic cart kcals (+22.4%; p=0.01). For the 6MW without the bag, stepwise regression showed in order of importance heart rate, distance covered, and step count entered the equation (r-squared = 0.966, p=0.0021). Phase 2, females had higher scores (females: 87.5 ± 6.43 strokes; males: 76.75 ± 4.65 strokes), walked a greater distance (females: 7.43 ± 0.23 miles; males: 7.37 ± 0.18 miles), took longer to complete the golf rounds (females: 282:42 ± 37:16 minutes; males: 266:05 ± 11:10 minutes), and had a greater average HR (females: 121.99 ± 15.26 bpm; males: 111.00 ± 4.31 bpm). The Garmin VivoactiveHR™ underestimated the female golfers’ kcal expenditure by 6.22% compared to the metabolic predicted kcals; however, the males experienced an overestimation of 5.3% by the Garmin VivoactiveHR™. The stepwise regression conducted on the golf tournament data indicated that calories/hour (p=0.00) and time (p=0.00) affected Garmin VivoactiveHR™ kcal expenditure the most. CONCLUSION: The Garmin VivoactiveHR™ was unable to accurately estimate caloric expenditure during the in-lab and golf tournament testing.},
     year = {2018}
    }
    

    Copy | Download

  • TY  - JOUR
    T1  - Energy Expenditure of Collegiate Golfers in a Competitive Setting
    AU  - Kaela Hierholzer
    AU  - Amanda Salacinski
    AU  - Peter Chomentowski III
    AU  - Craig Broeder
    Y1  - 2018/10/15
    PY  - 2018
    N1  - https://doi.org/10.11648/j.ajss.20180604.13
    DO  - 10.11648/j.ajss.20180604.13
    T2  - American Journal of Sports Science
    JF  - American Journal of Sports Science
    JO  - American Journal of Sports Science
    SP  - 144
    EP  - 156
    PB  - Science Publishing Group
    SN  - 2330-8540
    UR  - https://doi.org/10.11648/j.ajss.20180604.13
    AB  - Collegiate golf is physically demanding; however, little research has been done to establish the energy expenditure (EE) and metabolic demand on a golfer during competition. With advances in wearable technology, it has become easier to gain knowledge on physical activities outside the lab. Therefore, the purpose of this study was to determine the amount of EE a collegiate golfer expends during a competitive golf tournament. METHODS: Eight NCAA-caliber golfers (4 males; 4 females) participated (Age: 19.3 ± 2.0 years; WT: 149.5 ± 13.4 pounds; Bag WT: 22.3 ± 2.0 pounds; Bag Wt./Body Wt.: 15.0 ± 1.8%; HT: 67.7 ± 3.6 inches;% Body Fat: 20.0 ± 7.3%). One VO2max and two randomly ordered 6-minute steady-state walk (6MW) tests were performed. One 6MW was completed with a weight vest simulating each golfer’s bag weight, and the other was completed without the vest. RESULTS: Phase 1, males had a lower% BF (p=0.03), higher FFW (p=0.03), VO2max (p=0.02), max heart rate (p=0.04), max RER (p=0.03), and max VE (p=0.02) compared to females. Looking at caloric expenditure during all 6MW tests, the Garmin VivoactiveHR™ overestimated calories expended compared to the metabolic cart kcals (+22.4%; p=0.01). For the 6MW without the bag, stepwise regression showed in order of importance heart rate, distance covered, and step count entered the equation (r-squared = 0.966, p=0.0021). Phase 2, females had higher scores (females: 87.5 ± 6.43 strokes; males: 76.75 ± 4.65 strokes), walked a greater distance (females: 7.43 ± 0.23 miles; males: 7.37 ± 0.18 miles), took longer to complete the golf rounds (females: 282:42 ± 37:16 minutes; males: 266:05 ± 11:10 minutes), and had a greater average HR (females: 121.99 ± 15.26 bpm; males: 111.00 ± 4.31 bpm). The Garmin VivoactiveHR™ underestimated the female golfers’ kcal expenditure by 6.22% compared to the metabolic predicted kcals; however, the males experienced an overestimation of 5.3% by the Garmin VivoactiveHR™. The stepwise regression conducted on the golf tournament data indicated that calories/hour (p=0.00) and time (p=0.00) affected Garmin VivoactiveHR™ kcal expenditure the most. CONCLUSION: The Garmin VivoactiveHR™ was unable to accurately estimate caloric expenditure during the in-lab and golf tournament testing.
    VL  - 6
    IS  - 4
    ER  - 

    Copy | Download

Author Information
  • Department of Sport, Exercise, Recreation, and Kinesiology, East Tennessee State University, Johnson City, USA

  • Exercising Nutritionally, LLC, Lisle, USA

  • Department of Kinesiology and Physical Education, Northern Illinois University, De Kalb, USA

  • Exercising Nutritionally, LLC, Lisle, USA

  • Sections