Top

European Journal of Applied Physiology

Published in:

01-06-2015 | Original Article

Factors to consider when assessing diurnal variation in sports performance: the influence of chronotype and habitual training time-of-day

Authors: Dale E. Rae, Kim J. Stephenson, Laura C. Roden

Published in: European Journal of Applied Physiology | Issue 6/2015

Abstract

Purpose

The aim of this study was to compare morning and evening time-trial performance, RPE and mood state of trained swimmers, taking into account chronotype, habitual training time-of-day and PERIOD3 (PER3) variable number tandem repeat genotype.

Methods

Twenty-six swimmers (18 males, age: 32.6 ± 5.7 years) swam 200 m time trials (TT) at 06h30 and 18h30 in a randomised order.

Results

There was no difference between morning and evening performance when the swimmers were considered as a single group (06h30: 158.8 ± 22.7 s, 18h30: 158.5 ± 22.0 s, p = 0.611). However, grouping swimmers by chronotype and habitual training time-of-day allowed us to detect significant diurnal variation in performance, such that morning-type swimmers and those who habitually train in the morning were faster in the 06h30 TT (p = 0.036 and p = 0.011, respectively). This was accompanied by lower ratings of perceived exertion (RPE) scores post-warm-up, higher vigour and lower fatigues scores prior to the 06h30 TT in morning-type swimmers or those who trained in the morning. Similarly, neither types and those who trained in the evenings had lower fatigue and higher vigour prior to the 18h30 TT.

Conclusions

It appears that both chronotype and habitual training time-of-day need to be considered when assessing diurnal variation in performance. From a practical point of view, athletes and coaches should be aware of the potentially powerful effect of training time on shifting time-of-day variation in performance.

Archer SN, Robilliard DL, Skene DJ et al (2003) A length polymorphism in the circadian clock gene Per3 is linked to delayed sleep phase syndrome and extreme diurnal preference. Sleep 26:413–415PubMed

Archer SN, Viola AU, Kyriakopoulou V et al (2008) Inter-individual differences in habitual sleep timing and entrained phase of endogenous circadian rhythms of BMAL1, PER2 and PER3 mRNA in human leukocytes. Sleep 31:608–617PubMedCentralPubMed

Archer SN, Carpen JD, Gibson M et al (2010) Polymorphism in the PER3 promoter associates with diurnal preference and delayed sleep phase disorder. Sleep 33:695–701PubMedCentralPubMed

Atkinson G, Todd C, Reilly T, Waterhouse J (2005) Diurnal variation in cycling performance: influence of warm-up. J Sport Sci 23:321–329CrossRef

Baehr EK, Revelle W, Eastman CI (2000) Individual differences in the phase and amplitude of the human circadian temperature rhythm: with an emphasis on morningness-eveningness. J Sleep Res 9:117–127CrossRefPubMed

Baxter C, Reilly T (1983) Influence of time of day on all-out swimming. Br J Sports Med 17:122–127CrossRefPubMedCentralPubMed

Bessot N, Moussay S, Gauthier A et al (2006) Effect of pedal rate on diurnal variations in cardiorespiratory variables. Chronobiol Int 23:877–887CrossRefPubMed

Borg G (1998) Borg’s perceived exertion and pain scales. Human Kinetics, Champaign

Brown FM, Neft EE, LaJambe CM (2008) Collegiate rowing crew performance varies by morningness-eveningness. J Strength Cond Res 22:1894–1900CrossRefPubMed

Burgoon PW, Holland GJ, Loy SF, Vincent WJ (1992) A comparison of morning and evening “types” during maximum exercise. J Appl Sport Sci Res 6:115–119

Cappaert TA (1999) Review: time of day effect on athletic performance: an update. J Strength Cond Res 13:412–421

Chtourou H, Souissi N (2012) The effect of training at a specific time of day: a review. J Strength Cond Res 26:1984–2005CrossRefPubMed

Chtourou H, Chaouachi A, Driss T et al (2012a) The effect of training at the same time of day and tapering period on the diurnal variation of short exercise performances. J Strength Cond Res 26:697–708PubMed

Chtourou H, Driss T, Souissi S et al (2012b) The effect of strength training at the same time of the day on the diurnal fluctuations of muscular anaerobic performances. J Strength Cond Res 26:217–225CrossRefPubMed

Dalton B, McNaughton L, Davoren B (1997) Circadian rhythms have no effect on cycling performance. Int J Sports Med 18:538–542CrossRefPubMed

Deschenes MR, Sharma JV, Brittingham KT et al (1998) Chronobiological effects on exercise performance and selected physiological responses. Eur J Appl Physiol Occup Physiol 77:249–256CrossRefPubMed

Deschodt VJ, Arsac LM (2004) Morning vs. evening maximal cycle power and technical swimming ability. J Strength Cond Res 18:149–154PubMed

Dimitriou L, Sharp NCC, Doherty M (2002) Circadian effects on the acute responses of salivary cortisol and IgA in well trained swimmers. Br J Sports Med 36:260–264CrossRefPubMedCentralPubMed

Drust B, Waterhouse J, Atkinson G et al (2005) Circadian rhythms in sports performance—an update. Chronobiol Int 22:21–44CrossRefPubMed

Duffy JF, Dijk DJ, Hall EF, Czeisler CA (1999) Relationship of endogenous circadian melatonin and temperature rhythms to self-reported preference for morning or evening activity in young and older people. J Investig Med 47:141–150PubMed

Hill DW, Cureton KJ, Collins MA, Grisham SC (1988) Diurnal variations in responses to exercise of “morning types” and “evening types”. J Sports Med Phys Fit 28:213–219

Horne JA, Östberg O (1976) A self-assessment questionnaire to determine morningness-eveningness in human circadian rhythms. Int J Chronobiol 4:97–110PubMed

Kerkhof GA (1998) The 24-hour variation of mood differs between morning- and evening-type individuals. Percept Mot Skills 86:264–266CrossRefPubMed

Kline CE, Durstine JL, Davis JM et al (2007) Circadian variation in swim performance. J Appl Physiol 102:641–649CrossRefPubMed

Kunorozva L, Stephenson KJ, Rae DE, Roden LC (2012) Chronotype and PERIOD3 variable number tandem repeat polymorphism in individual sports athletes. Chronobiol Int 29:1004–1010CrossRefPubMed

Kunorozva L, Roden LC, Rae DE (2014) Perception of effort in morning-type cyclists is lower when exercising in the morning. J Sport Sci 32:917–925. doi:10.1080/02640414.2013.873139 CrossRef

Lastella M, Roach GD, Hurem DC, Sargent C (2010) Does chronotype affect elite athletes’ capacity to cope with the training demands of elite triathlon? In: Sargent C, Darwent D, Roach GD (eds) Living in a 24/7 world: The impact of circadian disruption on sleep. Australasian Chronobiology Society Press, Adelaide, pp 25–28

Lucassen EA, Zhao X, Rother KI et al (2013) Evening chronotype is associated with changes in bating Behavior, more sleep apnea, and increased stress hormones in short sleeping obese individuals. PLoS One 8:e56519CrossRefPubMedCentralPubMed

Martin L, Nevill AM, Thompson KG (2007) Diurnal variation in swim performance remains, irrespective of training once or twice daily. Int J Sports Physiol Perform 2:192–200PubMed

McNair D, Lorr M, Droppleman L (1971) Manual for the profile of mood states. Educational and Industrial Testing Service, San Diego

Natale V, Cicogna PC (2002) Morningness-eveningness dimension: is it really a continuum? Pers Individ Dif 32:809–816CrossRef

Pallarés JG, López-Samanes Á, Moreno J (2014) Circadian rhythm effects on neuromuscular and sprint swimming performance. Biol Rhythm Res 45:51–60CrossRef

Parsons MJ, Lester KJ, Barclay NL et al (2014) Polymorphisms in the circadian expressed genes PER3 and ARNTL2 are associated with diurnal preference and GNβ3 with sleep measures. J Sleep Res (Epub ahead of print)

Racinais S, Connes P, Bishop D et al (2005) Morning versus evening power output and repeated-sprint ability. Chronobiol Int 22:1029–1039CrossRefPubMed

Randler C (2008) Morningness-eveningness comparison in adolescents from different countries around the world. Chronobiol Int 25:1017–1028CrossRefPubMed

Reilly T, Garrett R (1998) Investigation of diurnal variation in sustained exercise performance. Ergonomics 41:1085–1094CrossRefPubMed

Reilly T, Atkinson G, Edwards B et al (2007) Diurnal variation in temperature, mental and physical performance, and tasks specifically related to football (soccer). Chronobiol Int 24:507–519CrossRefPubMed

Roenneberg T, Kuehnle T, Juda M et al (2007) Epidemiology of the human circadian clock. Sleep Med Rev 11:429–438CrossRefPubMed

Souissi N, Driss T, Chamari K et al (2010) Diurnal variation in wingate test performances: influence of active warm-up. Chronobiol Int

Tamm AS, Lagerquist O, Ley AL, Collins DF (2009) Chronotype influences diurnal variations in the excitability of the human motor cortex and the ability to generate torque during a maximum voluntary contraction. J Biol Rhythms 24:211–224CrossRefPubMed

Winget C, DeRoshia C, Holley D (1985) Circadian rhythms and athletic performance. Med Sci Sport Exerc 17:498–516CrossRef

Title: Factors to consider when assessing diurnal variation in sports performance: the influence of chronotype and habitual training time-of-day
Authors: Dale E. Rae
Kim J. Stephenson
Laura C. Roden
Publication date: 01-06-2015
Publisher: Springer Berlin Heidelberg
Published in: European Journal of Applied Physiology / Issue 6/2015
Print ISSN: 1439-6319
Electronic ISSN: 1439-6327
DOI: https://doi.org/10.1007/s00421-015-3109-9

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Factors to consider when assessing diurnal variation in sports performance: the influence of chronotype and habitual training time-of-day

Abstract

Purpose

Methods

Results

Conclusions

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Purpose

Methods

Results

Conclusions

Please log in to get access to this content

Other articles of this Issue 6/2015

The physiological responses to repeated upper-body sprint exercise in highly trained athletes

Daily physical activity as determined by age, body mass and energy balance

Functional connectivity between core and shoulder muscles increases during isometric endurance contractions in judo competitors

Endocrine response to acute resistance exercise in obese versus lean physically active men

Muscle and joint responses during and after static stretching performed at different intensities

The effect of an amino acid beverage on glucose response and glycogen replenishment after strenuous exercise