In last week’s post, we introduced the main physical training components that tennis players likely should focus on during the off-season. To get the best out of this week’s article, I suggest reviewing part 1 of this series first.
In this post, I’d like to tackle a couple key points. First, I’ll outline what a typical training week in the off-season might look like and how the overall cycle takes shape. Next, I’ll take a stab at commenting on the interplay and subsequent management of on-court and off-court training loads. Lastly, I will then offer some feedback - in other words, why it's my belief that training the various qualities outlined in last week’s article shouldn’t stop once the off-season cycle ends.
This is a 2-part post. In today's article, we’ll take a brief look at the most important physical qualities a player should focus on during the off-season and how to best train them. Part 2 will then focus on the application - how a microcycle might be organized, how it fits into the overall training cycle and the interplay between on and off court training.
Medicine ball training is a widely popular training modality amongst tennis players at all ages and levels. More specifically, med ball (MB) training is primarily used to augment rotational power. For a review of the underpinning science and theory on this topic, please take a look at a previous post on this topic. Why augment rotational power though? Today's game is classified as power based - players are hitting the felt off the ball. The rationale from a training perspective is as follows: increase rotational power and you'll increase hitting speeds - whether that's groundstroke or serve speeds.
In last week’s post, we introduced the concept of grit. We also took a closer look at grit’s correlation to elite sport. What did we find? For one, according to recent evidence, elite athletes across many sports are grittier than their non-elite counterparts. Secondly, those same athletes more consistently commit to their sport over the long haul - in other words, they stick to it. And lastly, the grittier athletes (the elite), were more adept at persevering through challenges compared to non-gritty athletes.
Have you ever wondered what separates athletes that ‘make it’ from those who don’t? Are physical skills the key determinant? While at times it may be the case, I’ve seen many players in tennis settings with superior physical abilities get outperformed...so fitness alone isn't the answer. It must be technical and tactical abilities, right? While critical, I’ve also witnessed supreme skill, coupled with a sound game plan, get beaten time and again. So what is it then? All of these factors play a massive role in who succeeds and who doesn’t, I’m sure of it, but in my books, one factor seems to outweigh the rest - by at least a hair. The psychological component.
Tennis itself is primarily an individual sport. Even if you play mostly doubles, individual differences between players exist at all levels of the game. This concept is known in sport science as the principle of individualization. Research studies and coaching experience tell us that all athletes respond differently to training. That’s why many fields of study exist - from psychology, to motor learning and strength & power training - each attempting to answer questions that help us better understand human behaviour and the stress-adaptation process (and why there is so much variation in responses to the same training stimuli!).
In the last couple of posts, we explored two key sport science training principles, progressive loading and variation. These training principles were linked to both off-court as well as on-court training for the elite/developing tennis player - in hopes that they could provide the astute coach or player with more insight into the organization of practices and long-term training schemes. But the principles don’t stop there. There are other of equal - or perhaps even greater - importance, especially when it comes to tennis training.
Specificity is this week’s topic of interest. It’s a term that’s been somewhat of a buzzword for the better part of a decade (or longer). Often times, tennis coaches, players and parents are brought to believe that to be a successful tennis player, one must be subscribed to a physical development program that is ‘tennis specific’. When these same tennis folks see programs that include a variety of plyometric work and ballistic lifting in the weight room instead of rotational band work, quick footwork drills, and other movements that ‘mimic’ tennis play, they think to themselves - “this isn’t tennis-specific”. I’ve got news for you though, there’s only one training component that is truly specific to tennis play and that’s...wait for it….TENNIS!
In last week’s post, we took a closer look at the principle of progressive loading and offered several ways in which we can effectively ‘progress’ a player both on and off the tennis court. To reiterate last week's point, it’s critical that we look at progressions from a long-term macro perspective. Why so? Well, progress is rarely (if ever) linear. Further to that, each of the biomotor qualities that we spoke briefly about last week (speed, strength, stamina, suppleness, skill), improve and regress, depending on which we give greater attention to (i.e. more training stimuli).
Before we can accurately begin developing training programs for our athletes, we should first know a few of the basic scientific training principles that will govern our prescriptions. There are a number of principles - the 4 main ones are as follows: progressive loading, specificity, variation and individualization. While these principles are by no means mutually exclusive, for simplicity, I will present them one by one. In this article, the focus will be on progressive loading.
In tennis, we often talk about a player’s ‘progression’ in terms of their ranking or overall development. While important, these are broad topics that should be dissected further and are beyond the scope of this article. The progressions I’m referring to are based on key variables that can are used to progress an individual’s biomotor capacities (figure below), both on and off the tennis court, over time. That’s what we’ll explore in this post.
Last week I presented in front of the BTV (Bavarian Tennis Verband) - it’s one of the biggest associations in Germany and many of the top junior tennis coaches were in attendance. The topic - how we can use off-court training strategies to accelerate on-court development. I had 3 young junior players helping me during the practical component - going through a series of jumps, bounds, throws, bodyweight exercises and so on. They were 12-13 years old and apparently, some of the best young talents in the country (I never met them previously and had never seen them play or train).
In last week’s post, we took a closer look at the force-velocity relationship and it’s underlying science. Recall that when force requirements are high, velocity outputs will be low - and vice versa. This has important implications because of the different movement requirements on a tennis court along with the methods used to improve relevant athletic qualities. Look at the figure below - it’s a theoretical look at where certain movements and strokes etc. lie on the force-velocity curve (this is an adapted representation based on science and my anecdotal experience). Even some of these movements will have different force-velocity requirements at the muscular level - when decelerating for a wide ball for instance, the initial deceleration step will have higher forces acting on the lower-body then the last step just before planting (because we’re trying to stop from a relatively fast movement speed).
While there was a lot of positive feedback from last week’s post on blocked vs. random practice, there was also a bit of confusion. I suppose the term ‘random’ can be a bit misleading. To clear the air, this week’s post will attempt to clarify the supposed dichotomy between blocked and random practice and offer a slightly different perspective to the argument. Furthermore, there are 2 other forms of practice - called ‘variable practice’ and ‘constant practice’, which can be influenced by both block and random approaches. Lastly, several examples of each practice type will be offered and described, along with the 'why' behind their use.
Many experts in the field of motor learning believe that the way a coach interacts with an athlete, bears a tremendous impact on the improvements that athlete makes. These same experts, however, would argue that the organization of a practice is perhaps even more important than what a coach says to his/her athlete. Let’s assume that to be true for a moment. As a coach, would that change the way you look at your practices? As a player, would it affect your perspective when attempting to improve serve accuracy, for example?
How many players on tour do we hear referring to ‘health’ as being a big part of their success? Many of the top players on both the women’s tour and men’s tour exclaim that being healthy and fit is a big part of their success. But the reverse is also true. How many players have inconsistent results when they aren’t in top form? Obviously it’s impossible to be in top form all the time, but when the balance tilts the other way, that’s usually when injury/illness could be lurking around the corner.
This is the final part of a series of posts on change-of-direction (COD) in tennis…for now anyway. While we’ve touched on a number of key aspects of COD, researchers are only beginning to uncover the complexities of this athletic quality. This week’s post will briefly highlight why many in the tennis world believe that strength training doesn’t have a place when it comes to improving COD ability - and how the landscape has changed; and why straight line sprinting, although initially proposed as a key factor in COD ability, doesn’t really correlate after all. We’ll finish up with some practical examples of how purposeful strength training means can improve each phase of COD - the deceleration, planting and propulsive phases.
In previous posts on COD, we spoke about the importance of reactive strength. In particular, we emphasized the role leg and ankle stiffness plays in the production of reactiveness. Ultimately, high levels of reactiveness are predicated by very fast eccentric-concentric muscle actions. These actions impact a variety of movements in tennis, including any type of first-step reaction that involves very little changes in knee, hip and ankle amplitudes. `
But what about movements that have longer ground contact times? For instance, a player is forced into a deep lunge position - perhaps because of a fast low ball or because they’re retrieving a low volley at net. To recover from these types of scenarios requires qualities that extend beyond reactiveness. This is where strength and power qualities come into play. While reactiveness is great when joint angles are small, inertia is low and ground contacts are short, when these parameters are reversed, fast stretch shortening cycle (SSC) abilities won’t cut it.
Last week we introduced reactive strength and its underpinning qualities. If you haven’t read that post, I strongly encourage you to do so, as it’ll provide a scientific rationale for what’s to come in this article.
Recall that reactive strength is effectively the fast component of the stretch-shortening cycle (SSC) - SSC activity being a rapid change from an eccentric to a concentric contraction that produces more power than would be possible with a concentric only contraction. We also determined that reactive strength is quite important as it relates to change of direction (COD) in tennis. There are 2 reasons for this. First, it’ll improve a player’s split-step ability - effectively allowing for a faster first step initiation - AND it can help with movements - along with recoveries - that are short but require high levels of explosiveness (think of shots that are near you but are coming at you with speed).
The ability to respond quickly and efficiently to an oncoming shot, is perhaps one of the most important qualities a tennis player must possess. This ability is predicated on a number of factors including anticipatory skills, perception skills - picking up cues from the other side of the net, judging the ball appropriately etc. - along with physical qualities, one of them being reactiveness. Further to that, it helps when a player has tremendous change of direction (COD) abilities. Why? Because the player that can recover more efficiently after their previous shot, has a better chance to not only better 'see' the next shot, but also has the ability to respond to that shot with less ‘emergency’ - a term many coaches use.
Are you familiar with the ‘10,000 hour rule’? Many of you probably are. If you’re read Malcolm Gladwell’s book, ‘Outliers’, then you definitely are. The premise goes like this; practice something a lot - 10,000 hours, or about 10 years - and you’ll develop expertise in that particular domain. It sounds simple doesn’t it. But is it truly so? Many of us, or our students, have played tennis for well over 10 years, but I wouldn’t necessarily start calling ourselves ‘experts’. Now we might be pretty good, but expertise, as defined by researchers in this field, means far more than just ‘pretty good’ or even ‘really good’.
What if I could tell you the secret to successfully winning more points and being more in control of a match? Would you want to know? Of course you would! It’s not a secret but sometimes, we look past it, forget about it or take it for granted. You must know the road ahead, because if you know what’s coming next you have an incredible power called Anticipation. Anticipation is the ultimate advantage! The first step in increasing the power of anticipation is to realize and affirm the number one body part that you'll use to play tennis – your eyes. The skill of shifting the eyes from what you just did - striking the ball - to noticing the body position and the racquet position of your opponent, is a critical one. The main reason we lose points and get beat is we fail to anticipate what’s coming next.