A biomechanical review of factors affecting rowing performance

This review analyses rowing by linking the biological and mechanical systems that comprise the rowing system. Blade force was found to be the only propulsive force to counter the drag forces, consisting of both air drag and hydrodynamic drag, acting on the system. Vertical oscillations of the shell are shown to have minimal impact on system dynamics. The oar acts as the link between the force generated by the rower and the blade force and transmits this force to the rowing shell through the oarlock. Blade dynamics consist of both lift and drag mechanisms. The force on the oar handle is the result of a phased muscular activation of the rower. Oar handle force and movement are affected by the joint strength and torque-velocity characteristics of the rower. Maximising sustainable power requires a matching of the rigging setup and blade design to the rower’s joint torque-velocity characteristics. Coordination and synchrony between rowers in a multiple rower shell affects overall system velocity. Force-time profiles should be better understood to identify specific components of a rower’s biomechanics that can be modified to achieve greater force generation.

[1]  A Millward A study of the forces exerted by an oarsman and the effect on boat speed. , 1987, Journal of sports sciences.

[2]  J. Steinacker,et al.  Physiological aspects of training in rowing. , 1993, International journal of sports medicine.

[3]  A. Mader,et al.  Peak force, velocity, and power during five and ten maximal rowing ergometer strokes by world class female and male rowers. , 1993, International journal of sports medicine.

[4]  Bompa To Technique and muscle force. , 1980 .

[5]  P Pas,et al.  Force-Time Characteristics of the Rowing Stroke and Corresponding Physiological Muscle Adaptations , 1993, International journal of sports medicine.

[6]  T P Martin,et al.  Effect of stroke rate on velocity of a rowing shell. , 1980, Medicine and science in sports and exercise.

[7]  D. Mahler,et al.  Mechanical and physiological evaluation of exercise performance in elite national rowers. , 1984, JAMA.

[8]  D Hawkins,et al.  A new instrumentation system for training rowers. , 2000, Journal of biomechanics.

[9]  B. Sanderson,et al.  Towards optimizing rowing technique. , 1986, Medicine and science in sports and exercise.

[10]  D J Macfarlane,et al.  Instrumentation of an ergometer to monitor the reliability of rowing performance. , 1997, Journal of sports sciences.

[11]  M Senator Why sliding seats and short stroke intervals are used for racing shells. , 1981, Journal of biomechanical engineering.

[12]  T O Bompa Technique and muscle force. , 1980, Canadian journal of applied sport sciences. Journal canadien des sciences appliquees au sport.

[13]  A. Wing,et al.  The coordination and consistency of rowers in a racing eight. , 1995, Journal of sports sciences.

[14]  R Vanderby,et al.  An evaluation of instrumented tank rowing for objective assessment of rowing performance. , 1995, Journal of sports sciences.

[15]  Rodriguez Rj,et al.  Electromyographic analysis of rowing stroke biomechanics. , 1990 .

[16]  David Hawkins,et al.  Relationship between Knee Joint Torque, Velocity, and Muscle Activation: Considerations for Musculoskeletal Modeling , 1998 .

[17]  P. M. Sandborn,et al.  Electromyographic analysis of rowing stroke biomechanics. , 1990, The Journal of sports medicine and physical fitness.

[18]  F Celentano,et al.  Mechanical aspects of rowing. , 1974, Journal of applied physiology.

[19]  F C Hagerman,et al.  Applied Physiology of Rowing , 1984, Sports medicine.

[20]  David Hawkins,et al.  An Investigation of the Relationship between Hip Extension Torque, Hip Extension Velocity, and Muscle Activation , 1999 .

[21]  Kazunori Hase,et al.  Biomechanics of Rowing , 2002 .

[22]  C J Widule,et al.  Kinematic analysis and efficiency estimate of intercollegiate female rowers. , 1983, Medicine and science in sports and exercise.

[23]  W. Spinks,et al.  Discriminant analysis of biomechanical differences between novice, good and elite rowers. , 1995, Journal of sports sciences.