Some of the top athletes in the world rely on plyometrics to become faster, more agile and to improve their overall explosiveness.

So why do many football players and coaches shy away from plyometrics?

Some say they can be dangerous.

Others say they’re not necessary for football players because jumping isn’t an inherent focus in every game or for every position.

A few even go so far as to say that unless an athlete can squat 2x their own bodyweight, they shouldn’t be jumping at all.

However, plyometrics are about more than just jumping!

Plyos are used to train what’s known as the “stretch shortening cycle”.

The stretch-shortening cycle (SSC) refers to the ‘pre-stretch’ or ‘countermovement’ action that is commonly observed during movements such as jumping. This pre-stretch allows the athlete to produce more force and move quicker. Though there is controversy surrounding the mechanics responsible for the performance improvements observed from using the SSC, it is likely to be a combination of the active state and the storage of elastic energy within the tendon. Research suggests that training methods which improve muscular pre-activity, such as plyometric and ballistic training, may be beneficial for improving athletic performance.

According to the research, plyometrics training can enhance muscle strength and power (Markovic et al., 2007), speed (Diallo et al., 2001; Impellizzeri et al. 2008; Michailidis et al., 2013) and agility (Arazi et al., 2012; Ramirez-Campillo et al., 2014,).

Studies have found positive effects of short-term plyometrics training on jumping performance in football and other team sport games. It has been reported that plyometric training induces specific neural adaptations such as increased activation of motor units and less muscle hypertrophy than typically observed after heavy-resistance strength training (Sale, 1991).

Plyos are characterised by their use of the stretch-shortening cycle (SSC) that develops during the transition from a rapid eccentric muscle contraction (deceleration or a negative phase) to a rapid concentric muscle contraction (acceleration or a positive phase) (Bedoya et al., 2015; Makaruk et al., 2014; Michailidis et al., 2013). SSC tasks take advantage of the elastic properties of connective tissue and muscle fibers by allowing the muscle to accumulate elastic energy through the deceleration/negative phase and release it later during the acceleration/positive phase to enhance muscle’s force and power output (Michailidis et al., 2013; Padulo et al., 2013).

Therefore, this regime of SSC muscle contractions is a typical part of muscle activity in a number of specific team sport activities including acceleration, changing of directions, vertical and horizontal jumps.

A study by Del Vecchio et al examined the effects of plyos on physical fitness in team sports athletes.

It found that plyometrics training for 4–16 weeks can improve physical fitness in team sport players.

Plyos with low intensity or without progression has lower effects than moderately high intensity and progressive drills. Also the combination of a number of plyometric drills is a more effective method compared to single plyometric drills (i.e. do more than one plyo drill during your sessions). Furthermore, the combination of unilateral and bilateral jump drills seems more advantageous to induce significant performance improvements during high-intensity short-term plyometric training in team sport players.

The general recommendation states that more than 8 weeks of systematic plyometrics training is necessary to improve physical performance in elite players.

However, for children and youth amateurs, short term (<8 weeks) has the potential to enhance a wide range of athletic performance (i.e. jumping, sprinting and agility).

The truth is plyometrics are a key factor in getting faster, more explosive, and developing a quicker first step.

They can even support your kicking power.

There’s no minimum amount of weight you need to squat before using plyometrics.

And there’s no fear of injury, unless you’re performing them wrong.

Plyometrics are just another tool that will help you achieve success.

If you want to be a better overall athlete, you need to be doing plyometrics! Don’t let the misconceptions hold you back any longer!

References:

1.     Slimani M, Chamari K, Miarka B, Del Vecchio FB, Chéour F. Effects of Plyometric Training on Physical Fitness in Team Sport Athletes: A Systematic Review. J Hum Kinet. 2016;53:231-247. Published 2016 Oct 14. doi:10.1515/hukin-2016-0026

Traditional football skills training and ball drills on their own will not make you a faster athlete.

Speed and agility need to be trained in isolation and the development of these two athletic attributes takes place off the field.

Speed & Acceleration

Speed training consists of acceleration mechanics, max speed mechanics and improving rate of force development.

When it comes to football, your straight-line speed can give you the edge over your competition. Being faster than other players will improve your ability to get to the ball on the attack or race back to block a shot as the last line of defence.

However, speed training for football is very different to the kind of speed training elite sprinters will do. All sports performance training should be specific to the sport. Football is reactive and unpredictable. The reason for sprinting is not to reach a finish line. There will be change of direction, acceleration, deceleration, jumping and tackling to consider as well as the sprint! A sprint on a football pitch is also likely to come after you have already spent up to 45 minutes in active competition. 

Acceleration (a critical component of sprinting) separates elite athletes from the rest.  A study by Lockie et al analysed sprinting ability in football players with tests for power, strength and leg stiffness to differentiate elite from non-elite athletes. Subjects were divided into 2 groups based on sprint speed. The elite group were found to have faster acceleration, higher strength and higher power measures than the non-elite group. 

You can work on your acceleration mechanics to make you a more efficient athlete by using some of my favourite drills, including:

-       Staggered broad jumps

-       Ball drops

-       Wall sprints

-       Ground starts

-       Falling starts

-       Jump back starts

Maximum speed is the highest rate of speed an athlete can attain.

In 2020, Mbappe was crowned the world's fastest football player with a top speed of 36+ km/h.

Max speed is particularly important for wide defenders who perform the greatest number of sprints over 20m in a match.  Although wide defenders, wide midfielders and forwards achieve the greatest sprint distance in a match, it is important all players, regardless of position, work on improving their max speed.

Here of some of my favourite max speed drills:

-       A skips

-       B skips

-       Single leg high knees

-       Alternate bounding

-       Elevated hip switch

-       Straight leg shuffle

-       Single leg cycling

Aside from the mechanics and drills, the single most important thing you can do to improve your acceleration and max speed is to get in the gym and improve your rate of force development! Improving RFD will improve a players’ ability to develop larger forces in a shorter period of time making them more explosive. Research shows the combination of both maximal strength and power training improves RFD and is most likely to occur through increases in musculo-tendon stiffness, enhanced muscle force production and increases in neural drive.

Strength training improves rate of force development and has been shown to make football players faster. The value of good sprinting speed for footballers is well supported by research. Ekblom (1986) found that the absolute maximum speed shown during play was one of the parameters that differentiated elite players from those of a lower standard. To be a better player and play at a higher level, you need superior acceleration and maximum speed. 

Agility & Change of Direction

Agility training isn't just about fast feet.

Agility is “a rapid whole body movement with change of velocity or direction in response to a stimulus’’.

It's about integrating the mind and the body to prepare for game situations.

For example, when you're dribbling down the field, and you make a hard cut to get around a defender, that's agility.

To train agility properly, you need to start with change of direction.

These drills should have predetermined movement patterns. In other words, you should know which direction you're going to move before you actually execute the drill. They should include a combination of change of direction "mechanical" drills, plyometrics and drills that sharpen your acceleration and deceleration.

There are loads of change of direction drills you can practice, and you can even make up your own. Some of my favourites for football include:

Linear:

-       Stop and go

-       Accelerate to back pedal

-       Back pedal to hip flip

-       Y cut

Lateral:

-       Lateral shuffle

-       Carioca run

-       Lateral short shuttle

-       Ascending/descending lateral shuffle

You then need to incorporate the cognitive component to properly train agility.

This cognitive component will create better instincts, reactions and more awareness on the field.

Some excellent agility drills for football are the mirror drill and ball drops.

The final point is that each of these drills should be specific to the sport as well as the position!

References:

1.     Lockie RG, Murphy AJ, Knight TJ, Janse de Jonge XAK. Factors that differentiate acceleration ability in field sport athletes. J Strength Cond Res. 2011;25(10):2704-2714

2.     EKBLOM, B. (1986) Applied physiology of football. Sports Science, 3, p. 50-60

3.     Andrzeiewski,M., Chmura,J., Pluta, B., Strzelczyk, R., Kasprzak, A. (2013). Analysis of sprinting activities of professional soccer players. Journal of Strength & Conditioning Research, 27, 2134-2140.

4.     Maffiuletti, N.A., Aagaard, P., Blazevich, A.J., Folland, J., Tillin,N, & Duchateau, J. (2016). Rate of force development: physiological and methodological considerations. European Journal of Applied Physiology, 116, 1091-1116.

Should footballers lift weights?

In a word, YES!

There is a common misconception in football that weight training will make you bulky, slow and heavy.

This may be true to a certain extent if you are lifting weights for the purpose of hypertrophy i.e. bodybuilding. However, for sports performance, the purpose of lifting weights is to improve strength, power, speed and muscular endurance.

Your body responds to the training stimulus you place on it so, as an athlete, you need to lift with intent and with the goal always in mind and at the forefront of the programme.

Lifting weights that are close to your maximum will generate strength gains, whilst performing reps quickly with lighter weights will help to improve speed and velocity.

The benefits of resistance training for footballers are well supported by research. For example, De Proft and colleagues had one group of Belgian professionals perform extra weight training during the season. Compared to a control group who did no additional weight training, the players improved their kicking power and leg strength.

Strength training has not only been shown to make football players stronger and more powerful, but research also shows how it can make them faster. As with strength training, the value of good sprinting speed for footballers is well supported by research. Ekblom (1986) found that the absolute maximum speed shown during play was one of the parameters that differentiated elite players from those of a lower standard. This suggests that better players need superior acceleration and maximum speed to play at a higher level.

Research suggests that maximum strength training with heavy resistances will help improve acceleration and speed. However, max strength training during the in-season is very difficult to incorporate because it is likely to cause muscle soreness and fatigue which is tougher to recover from when training intensity is already very high. The recommendation is therefore two or three heavy strength sessions a week during the off-season, reduced to two in pre-season and then strength should be maintained with one session per week once the competitive season has started.

Resistance training is also thought to play a role in injury prevention in adult and youth athletes. Reilly (1990) showed that the stronger players outlasted the weaker players in terms of a regular place in the team and had reduced injury risks. He recommends that leg strength, in particular, is developed, especially in the quadriceps and hamstrings, to help stabilise the knee joint, which is the most frequently injured joint in football. Reilly found that players who voluntarily completed extra strength training were the ones who suffered the fewest muscle injuries. Since maintaining a fully fit squad can be a big problem, it makes sense for clubs to encourage or schedule general strength training for all players. 

Resistance training should be programmed according to the individual athlete’s goals. The table below shows how resistance training can be programmed for strength, power and endurance gains:

The characteristics and type of resistance training are influenced by training experience (beginner, intermediate, advanced) and time of the season (off-season, pre-season, in-season). If you’re new to weight lifting, you should start with a basic resistance training programme focusing on quads, glutes, hamstrings, gastrocnemius and soleus as well as core stability and upper body strength (specifically for the shoulder muscles which may be prone to injury due to the defensive demands on the pitch). Max strength training should only be undertaken by athletes with experience in lifting weights.

Footballers should use their time during off-season to focus on max strength gains which can then translate into power and speed gains during the pre-season and in-season with the correct programming. If all these recommendations are followed, lifting weights should never make an athlete bulky, slow and heavy.

Strength training is often the missing piece of the puzzle. If you’re not currently strength training, now is your time!

References: 

1.     Baechle, T.R. and R.W. Earle, Resistance training, in Essentials of Strength Training and Conditioning, T.R. Baechle, R.W. Earle, and D. Wathen, Editors. 2008, Human Kinetics: Champaign, IL.

2.     MACKENZIE, B. (2005) Strength training for football players

3.     REILLY, T. (1990) Football. In: REILLY, T. et al. (eds) Physiology of Sports, London: E. and F. N. Spoon

4.     EKBLOM, B. (1986) Applied physiology of football. Sports Science, 3, p. 50-60