Exponential growth combined with exponential decline explains lifetime performance evolution in individual and human species

The physiological parameters characterizing human capacities (the ability to move, reproduce or perform tasks) evolve with ageing: performance is limited at birth, increases to a maximum and then decreases back to zero at the day of death. Physical and intellectual skills follow such a pattern. Here, we investigate the development of sport and chess performances during the lifetime at two different scales: the individual athletes’ careers and the world record by age class in 25 Olympic sports events and in grandmaster chess players. For all data sets, a biphasic development of growth and decline is described by a simple model that accounts for 91.7% of the variance at the individual level and 98.5% of the variance at the species one. The age of performance peak is computed at 26.1 years old for the events studied (26.0 years old for track and field, 21.0 years old for swimming and 31.4 years old for chess). The two processes (growth and decline) are exponential and start at age zero. Both were previously demonstrated to happen in other human and non-human biological functions that evolve with age. They occur at the individual and species levels with a similar pattern, suggesting a scale invariance property.

[1]  M. J. Turner,et al.  Percentage Decline in Masters Superathlete Track and Field Performance With Aging , 2003, Experimental aging research.

[2]  K. Kitani The Hayflick Lecture for 2006 35th American Aging Association , 2007 .

[3]  Thomas M. Hess,et al.  Aging and cognition : knowledge organization and utilization , 1990 .

[4]  R. Schulz,et al.  Peak performance and age among superathletes: track and field, swimming, baseball, tennis, and golf. , 1988, Journal of gerontology.

[5]  Olivier Hermine,et al.  Athlete Atypicity on the Edge of Human Achievement: Performances Stagnate after the Last Peak, in 1988 , 2010, PloS one.

[6]  Gerard E. Dallal,et al.  Effects of age and gender on physical performance , 2007, AGE.

[7]  P. Kirk Visscher,et al.  Lifetime learning by foraging honey bees , 1994, Animal Behaviour.

[8]  David N. Reznick,et al.  Effect of extrinsic mortality on the evolution of senescence in guppies , 2004, Nature.

[9]  T. Spector,et al.  A Common Variant in the Telomerase RNA Component Is Associated with Short Telomere Length , 2010, PloS one.

[10]  J. Schoenberg,et al.  Growth and decay of pulmonary function in healthy blacks and whites. , 1978, Respiration physiology.

[11]  T. Salthouse When does age-related cognitive decline begin? , 2009, Neurobiology of Aging.

[12]  E. Nieschlag,et al.  Reproductive functions of the ageing male. , 2004, Human reproduction update.

[13]  D. Moore,et al.  A study of age group track and field records to relate age and running speed , 1975, Nature.

[14]  S. Wullschleger,et al.  Photosynthesis of individual field-grown cotton leaves during ontogeny , 1990, Photosynthesis Research.

[15]  R. Howard Objective evidence of rising population ability: a detailed examination of longitudinal chess data , 2005 .

[16]  Leonard Hayflick,et al.  Entropy Explains Aging, Genetic Determinism Explains Longevity, and Undefined Terminology Explains Misunderstanding Both , 2007, PLoS genetics.

[17]  Hirofumi Tanaka,et al.  Declines in physiological functional capacity with age: a longitudinal study in peak swimming performance. , 2003, Journal of applied physiology.

[18]  E. Krenning,et al.  Peak bone mineral density, lean body mass and fractures. , 2010, Bone.

[19]  J. Brisswalter,et al.  Age-Related Decline in Olympic Triathlon Performance: Effect of Locomotion Mode , 2009, Experimental aging research.

[20]  A. Bejan,et al.  Unifying constructal theory for scale effects in running, swimming and flying , 2006, Journal of Experimental Biology.

[21]  Neil Charness,et al.  Chapter Eight Expertise and Aging: Life in the Lab , 1990 .

[22]  Jae-Yong Lim,et al.  Work function of MgO single crystals from ion-induced secondary electron emission coefficient , 2003 .

[23]  V. Wright,et al.  Age-Related Rates of Decline in Performance among Elite Senior Athletes , 2008, The American journal of sports medicine.

[24]  J. Starkes,et al.  Explaining performance in elite middle-aged runners: contributions from age and from ongoing and past training factors. , 2008, Journal of sport & exercise psychology.

[25]  Robert W. Fogel,et al.  The Escape from Hunger and Premature Death, 1700-2100: Europe, America, and the Third World , 1989 .

[26]  Hirofumi Tanaka,et al.  Invited Review: Dynamic exercise performance in Masters athletes: insight into the effects of primary human aging on physiological functional capacity. , 2003, Journal of applied physiology.

[27]  A M Nevill,et al.  Are there limits to swimming world records? , 2007, International journal of sports medicine.

[28]  N. Charness,et al.  A multilevel model analysis of expertise in chess across the life span. , 2007, Psychology and aging.

[29]  R. Davison,et al.  Indoor 16.1-km time-trial performance in cyclists aged 25 – 63 years , 2008, Journal of sports sciences.

[30]  R. Fair Estimated Age Effects in Athletic Events and Chess , 2006, Experimental aging research.

[31]  Olivier Hermine,et al.  The Citius End: World Records Progression Announces the Completion of a Brief Ultra-Physiological Quest , 2008, PloS one.

[32]  Benoit B. Mandelbrot,et al.  Fractal Geometry of Nature , 1984 .

[33]  T. Garland,et al.  THE EVOLUTION OF AGING AND AGE‐RELATED PHYSICAL DECLINE IN MIC SELECTIVELY BRED FOR HIGH VOLUNTARY EXERCISE , 2006, Evolution; international journal of organic evolution.

[34]  Hirofumi Tanaka,et al.  Endurance exercise performance in Masters athletes: age‐associated changes and underlying physiological mechanisms , 2008, The Journal of physiology.

[35]  F. Broekmans,et al.  Relationship of serum antimüllerian hormone concentration to age at menopause. , 2008, The Journal of clinical endocrinology and metabolism.

[36]  P. Medawar UNSOLVED problem of biology. , 1953, The Medical journal of Australia.

[37]  J. Husak Does survival depend on how fast you can run or how fast you do run , 2006 .

[38]  R. M. Alexander Models and the scaling of energy costs for locomotion , 2005, Journal of Experimental Biology.

[39]  J. Bradbury Peak athletic performance and ageing: Evidence from baseball , 2009, Journal of sports sciences.

[40]  Longitudinal trends in track and field performances. , 1984, Experimental aging research.

[41]  A. Barry Baker,et al.  Aging Performance for Masters Records in Athletics, Swimming, Rowing, Cycling, Triathlon, and Weightlifting , 2010, Experimental aging research.

[42]  J. Starkes,et al.  Does Lifelong Training Temper Age-Related Decline in Sport Performance? Interpreting Differences Between Cross-Sectional and Longitudinal Data , 2007, Experimental aging research.

[43]  Jörn Rittweger,et al.  Sprint and endurance power and ageing: an analysis of master athletic world records , 2009, Proceedings of the Royal Society B: Biological Sciences.

[44]  J. Toussaint,et al.  From Oxford to Hawaii Ecophysiological Barriers Limit Human Progression in Ten Sport Monuments , 2008, PloS one.

[45]  R. Hilborn,et al.  Predation by Bears Drives Senescence in Natural Populations of Salmon , 2007, PloS one.

[46]  R. Fogel The Escape from Hunger and Premature Death, 1700–2100: References , 2004 .

[47]  H. Armah Brain Volume Decline in Aging: Evidence for a Relation Between Socioeconomic Status, Preclinical Alzheimer Disease, and Reserve , 2010 .

[48]  H. Guénard,et al.  European reference equations for CO and NO lung transfer , 2008, European Respiratory Journal.

[49]  M. Mintun,et al.  Brain volume decline in aging: evidence for a relation between socioeconomic status, preclinical Alzheimer disease, and reserve. , 2008, Archives of neurology.

[50]  S. Escolano,et al.  Technology & swimming: 3 steps beyond physiology , 2010 .

[51]  A. Nevill,et al.  Are there limits to running world records? , 2005, Medicine and science in sports and exercise.

[52]  D. Irschick,et al.  How does selection operate on whole-organism functional performance capacities? A review and synthesis , 2008 .

[53]  George C. Williams,et al.  PLEIOTROPY, NATURAL SELECTION, AND THE EVOLUTION OF SENESCENCE , 1957, Science of Aging Knowledge Environment.

[54]  W. Hamilton The moulding of senescence by natural selection. , 1966, Journal of theoretical biology.