Article

Rugby fitness training - a scientific apprach

Topic: SportsFeaturing Ben WilsonPublished July 20, 2007
No ratings yet2,001 viewsSign in to rate
A periodized approach to rugby fitness training.nnRugby union traditionally was a sport that was played by amateurs who trained like amateurs. Since the advent of professionalism which has trickled down throughout the league structures it is now common place to see the majority of rugby players training in their own time. As is seen with many people in the gym the new found enthusiasm for fitness may not paralleled by the same level of knowledge about how to train.nnRugby produces some unique training requirements not seen in other sports. It is a sport that caters for all types of physiques and places demands on almost all the bodies' physical characteristics.nnI will not go into an in-depth discussion of the various requirements of rugby and variations for each position. However, I will briefly review the main requirements for success. The demands of rugby are varied and I could almost list every physical ability and say it impacts upon performance, however the main factors are:nn• Aerobic power - more specifically a high aerobic power over a pure steady state aerobic base e.g. a good 6 minute run test score more important than good 10 km time. (Obviously these two are highly integrated but still are different).n• Lactate tolerance - The key limiting factor during play, affects both aerobic power and speed endurance.n• Speed - More specifically acceleration and repeated sprint speed endurance.n• Agility - The ability to decelerate and change direction or move in a non linear direction.n• Strength - Both maximum strength and speed strength and as any sport requires a strong core as a foundation.nnTo add to this you could easily point out maximum speed is important in many situations and you can never be called too fast, but in general it is not too decisive. Muscles size is also not hugely important to success as it is your strength, absolute, relative and fast speed that is more important. Though one factor affecting maximum strength is of course muscle cross section area. I have not mentioned above about flexibility but just like core strength it is a fundamental that needs to be used to restore ideal posture and muscle lengths. How much flexibility is optimal past these ideal lengths is an issue of much debate and beyond the scope of this article. nnTo effectively cover all the main attributes a rugby player needs to optimize performance he must cover six main types of training methods:nn• Aerobic training - To develop lactate tolerance and aerobic power.n• Sprint training - To enhance acceleration and repeated sprint speed endurance.n• Resistance training - To build maximum and fast speed strength.n• Agility training - to learn effective mutli-directional movements and changes of pace.n• Plyometric training - To support speed strength in linear and multi directional movements.n• Core and flexibility training - To create the underlying foundations of all the above training.nnThese methods will develop all the attributes that are stressed on the rugby field. These can be combined into three sessions, a track session - Sprint training, agility and plyometrics, a gym session - Strength and core training and an aerobic session. This does not need to take up your whole life but just a few hours per week if following an optimal training routine. nnTo go through each training method is of course beyond the length of this article and is comprehensively covered in my book1. Ignoring the specific details of each training method we can instead focus upon the underlying design of the training programmes within each of the six methods above.nnPeriodization principles.nnMost of us are aware of periodization, yet so few people integrate this fully into their training programmes. I believe this is due to the complexity of the theory. The reason periodization was created was to:nn1) Maximise the response from the training stimulus.n2) Allow continuous gains to be made from week to week and year to year.n3) Avoid injury and overtraining.nnPeriodization seems to suffer from an all or nothing approach, either a scientifically designed programme is used or nothing is implemented. However most trainers are using the theory without knowing it. Forget macro cycles, training variables and such, if viewed on a sliding scale then the most basic form of periodization is setting a new programme every month. Which most people do, the next level up would be applying a certain type of training for a few weeks then changing the focus, e.g. an endurance phase then strength phase. This again is easy to implement. How far to advance the system up to the traditional theories of step load progression of intensity and macro, meso cycles, weekly load variation etc is dependent on many a factor including the athlete you are working with.nnI present here a method of using periodization that can be implemented by trainers or players alike. The key to using periodization is to determine the training phase and setting appropriate training parameters. Then using these you can cycle the parameters over the duration of that training phase.nnLet me explain, as an example, say you are looking to increase the muscle size of the prime movers used in rugby, this is known as specific hypertrophy phase using traditional periodization terminology2. The general guidelines for this would be 6 - 12 reps with around 3 minutes rest using the necessary exercises. A simple way to introduce periodization would be, over a 6 week phase to vary the reps as below:nnWeek 1 & 2 12 RepsnWeek 3 & 4 9 repsnWeek 5 & 6 6 repsnnThis is using the foundation principles of program design, it is increasing the intensity while decreasing the volume - Classic periodization!3. This method can and should be extended across all the training phases within your resistance training routines. nnLet's take a look at a typical off-season. To maximise the gains from resistance training you would build a base early in the off-season followed by focusing on increasing muscle size then developing maximum strength and converting this to power so your are physically at your biggest, strongest and most explosive by the start of the next in-season. nnTo do this you could have four training phases, preparation, hypertrophy, strength and power phase.nnOff-seasonnPreparation Hypertrophy Strength PowernnWith each phase you can associate the traditional training parameters to achieve the goal of that phase's training. For example, preparation4 uses sub maximal lifts for between 5 to 15 reps, hypertrophy uses 6 - 12 reps to failure, strength 1 - 5 rep max and power for sake of argument 2 - 6 reps with sub-maximal loads (please note there are many methods for power development beside this). nnUsing these phases is already putting the science of program design into practise. This can be further enhanced by varying the reps within each phase. This will maximise the training response over the phase:nnSeason Off-seasonnPhase Preparation Hypertrophy Strength PowernReps 15 10 5 12 9 6 5 3 1 6 4 2nnThrough such simple variations of one training variable you have introduced intensity and volume manipulation throughout the course of the off-season and within the phases themselves. This will produce more optimal results. For each training phase a different exercise routine would be followed to introduce specificity and you could also vary the rest periods to further extrapolate the volume, specificity and intensity relationships. nnIf you now start introducing recovery weeks you begin to incorporating the other needs of periodization - avoiding overtraining and maximising adaptation. This can be furthered enhanced by using specified variations in training intensity within the weekly micro cycles, e.g. heavy and light days and before you know it you are applying the main bulk of periodization and reaping its benefits on athletic performance.nnThe above serves to exemplify how to easily introduce periodization into resistance training, of course these principles need to be taken and applied to the other training methods also, e.g. aerobic, agility, plyometrics etc. Again the exercises within each phase and variation in training parameters, e.g. volume, intensity need to be designed and altered to mediate the required changes across the off-season or during the in-season.nnIf this sounds too simple then just remember that periodization is a relative rather than an absolute. It is about maximising the response from training while ensuring the athletes does not suffer injury or over training. The benefits of using an undulating model versus a linear model5 or the fitness fatigue theory over classical6 are all well and good, but the crux of the matter is putting in place a periodized routine of some sorts. This can be done by:n• Applying training phases during the year to achieve a certain training outcome.n• Varying the reps, rest, intensity over the training phase.n• Using recovery weeks, days and techniques to ensure the body is fresh.nnThis is all covered in my book Rugby fitness training: A twelve month conditioning programme. Though it is a book designed for rugby players the principles outlined above are central to its theme. It will teach you how to take the general principles and apply them to you or your clients training routine.nnIn the programme section I have added three rugby programmes, these serve just to as an example of a possible routine, the success of the programme will rely more on how you as the coach manipulate the training variables within each training phase and change the training between the individual phases. nnBen Wilson BSc (Hons) CSCS NSCA - CPT CMTA Dip nnNotesnn1) Rugby fitness training: A twelve month conditioning programme, Crowood press n2) Periodization: Theory and methodology of training, Tudor O Bompa (Human kinetics, chapter 7 Page 165 n3) Stone, M.H and H.S. O Bryant. Weight training: A scientific approach. Minneapolis MN, Burgess 1987 n4) Sometimes called anatomical adaptation under traditional periodization nomenclature.n5) Haff, G.G Phd. Roundtable discussion: Periodization of training Part 1 & 2, Journal of strength & Conditioning Volume 26, Number 1 , Pages 50 -59, number 2 Pages 56 -70 n6) Chiu L, Barnes J L, The fitness fatigue model revisited: Implications for planning short and long term training. Journal of Strength & Conditioning Volume 25, number 6, Pages 42-51.nnBen WIlson BSc (Hons) CSCS NSCA-CPT CMTA DipnOne2one nutritionnRugby fitness training.com

Article author

About the Author

I possess a degree in chemistry and I am qualified to teach metabolic typing nutrition. I attained the Certified strength and conditioning certificate through the NSCA and their certified personal trainer certificate. To complement this I completed further study in personal training, athletic preparation, lifestyle coaching and Emotional freedom technique (EFT). I am Author of the top selling book Rugby fitness training: A twelve month conditioning programme and run the websites http://www.one2onenutrition.co.uk and http://www.rugbyfitnesstraining.com

Further reading

Further Reading

4 total

Article

Sports play a powerful role in personal growth. Beyond physical fitness, they develop discipline, consistency, and the ability to make thoughtful decisions under pressure. Athletes—professional or amateur—rely heavily on structured planning and data awareness to improve performance and stay focused on long-term goals. This article explains how sports encourage responsible planning , data-driven thinking , and self-control , all of which are essential life skills. Discipli

January 15, 2026

Article

Sports have entered a new era. It is no longer just about physical strength or raw talent — it is about strategy, analytics, and precision. Teams and athletes that use data intelligently are redefining what it means to win. Smarter Strategies in Modern Football Football clubs today operate like data-driven ecosystems. Every pass, sprint, and recovery is tracked, analyzed, and optimized. Coaches use predictive tools to plan substitutions, manage workloads, and design flexibl

October 31, 2025

Article

rnSports are more than just competition—they’re a reflection of life itself. Whether you’re chasing a ball, crossing a finish line, or setting a personal record, sports teach us lessons that go far beyond the field. Every athlete knows that success doesn’t come overnight; it’s built through persistence, patience, and purpose. How Sports Shape Our Mindset When you train for any sport, your body becomes stronger—but your mind becomes unshakable. You learn to embrace

October 18, 2025

Article

Image source: Unsplash Understanding how the body responds and adapts to physical activity is crucial for optimizing athletic performance. Sports physiology provides a foundation for this knowledge, helping athletes and coaches make informed decisions about training and recovery. As the body undergoes stress from exercise, it experiences immediate and long-term changes, from increased heart rate to improved muscular strength and endurance. According to Quentin Geczy , monitor

July 31, 2025