I’ve long preached that you should do workouts that you enjoy. It’s actually pretty easy to make progress, and if you’re consistent about doing those easy things, you’ll soon be achieving milestones that put you far, far, far ahead of the general population.
And how do you know if you’re continuing to make progress with your easy, enjoyable training? You just keep track of some key benchmarks over time, including some standard workouts. If you keep improving in those numbers, you’re doing something right!
For example, easy running guru Maffetone has his athletes run a standard test workout periodically. They run three miles at a pre-determined, low heart rate: if their time improves, they know their aerobic base is improving.
One of my benchmarking workouts is the hike to my favorite camping spot in the Marijuana Highlands. It’s 15 miles of bad, steep terrain. On my first romp out there in 21 months ago, I took a pack weighing 45# (wet) and needed 7 hours to arrive in camp. When I got there I was delirious and sore all over, my feet looked like raw chicken breasts, and it took a long, painful time just to strip off my clothes and boots. On future trips I cut the hike down to 5.5 hours and didn’t wreck myself getting to camp, but it was still a substantial hike.
So I was blown away by my last trip. Despite taking it very easy, I arrived in camp an hour faster than ever before and fresh as a bowl of strawberries. This being my first big romp of the year, I assumed I would be tired and slow, but on the contrary it was barely lunch time and I was sitting in camp with hours of daylight left, tons of pep, and nothing to do.
So I packed up and did the whole thing in reverse! I spent 95 minutes eating nuts, swimming in the stream, and having coffee, and then I rucked up and marched all the way back. It was a joy! I didn’t push myself on the return march (and in fact had to slow down several times to keep my heart rate under control), but without trying I ended up equaling my best-ever time of 5.5 hours.
This was a huge surprise. I figured it would be possible to hike straight back, to save someone’s life or as a stupid stunt, but I supposed you’d have to do it on pure gumption and willpower.
But now I know better because I just did it, out of boredom and with a smile on my face!
Guest author “Dr. Smet” finishes his insider’s tour of the Russian sports science underlying Pavel Tsatsouline’s long-awaited endurance training manifesto, The Quick and the Dead. I follow Dr. Smet’s blog Girevoy Sport After 40to read about top-dog Russian coaching and research from a medical scientist who also practices what he reports on.
Before we start I have to make a disclaimer of sorts. Soviet sport scientists then and Russian scientists now often have fragmented interest and education in the field. Throughout his lectures Selouyanov makes statements that are debatable, to say the least, even though he doesn’t seem to have experience in the subject. For example, his view is tht the only way to increase the strength of the glycolytic muscle fibers is to lift maximal weights to failure. Therefore, if some powerlifters don’t follow that rule and still get strong – that must be steroids, no other explanation is possible. I am not qualified to argue the subject and am only conveying Selouyanov’s work, so take it or leave it.
So let’s get to the most relevant parts of Selouyanov’s teachings.
Muscle fibers Muscle fibers are loosely divided into three types, depending on the activity of the enzymes, in poarticular ATP-ase. Oxydative muscle fibers (type I) have slow ATP-ase, their speed of contraction is slow and they are resistant to fatigue. Glycolytic muscle fibers (type II) have fast ATP-ase, contract quickly and can be either resistant to fatigue (Type IIA) or not (Type IIB). For the purpoose of training muscle fibers can be looked at in the following way: Oxidative fibers – have mitochindrial mass that cannot be developed further. Each myofibril is surrounded by a layer of mitochondria. These fibers use fatty acids in the active state. Intermediate fibers – have lower number of mitochondria. As the result two processes occur during activity: aerobic glycolysis and anaerobic glycolysis. During activity lactate and hydrogen ions are accumulated, so these fibers develiop fatigue, but not as fast as purely glycolytic type. Glycolytic fibers – have no or little motochondria, so that anaerobic glycolysis predominates, with the resulting accumulation of hydrogen ions and lactate.
Factors that determine endurance
According to Selouyanov the difference in endurance can be fully explained by several factors. 1) First, the development of the oxidative muscle fibers. Among well trained endurance athletes oxydative muscle fibers comprise 90 – 100% of the total muscle mass, therefore they don’t produce lactic acid in excessive quantities that cause significant acidosis and the resulting decline oin performance. To the contrary, among untrained individuals 50% of muscle consists of intermediate muscle fibers which, during their progressive recruitment during exercise, accumulate lactate. 2) The second reason for better endurance among trained individuals is that their aerobic system switches on earlier, mostly because they have more oxidative fibers, so that the initial production of lactate is lower. 3) Trained individuals utilize lactate more efficiently. Mitochondria are capable of utilising piruvate, and in the oxidative fibers piruvate is produced from lactate. Fourth reason for better endurance – increased volume of the circulating blood. This, in turn, results in the reduced concentration of produced lactate. The role of the heart. Endurance training leads to the dilatation of cardiac ventricles. This, in turn, makes cardiovascular system more efficient, in the way that the same cardiac output – the amount of blood the heart is capable of pushing though per minute – is achieved by fewer contractions. Training of the heart is a separate topic and will not be discussed here.
Three types of exercises All types of exercises utilised for the training of grapplers can be divided into three types.
Dynamic, maximal anaerobic power, to failure – facilitate the development of myofibrills in glycolytic and intermediate muscle fibers
Stato-dynamic, of maximal anaerobic power (100%), to failure (pain) – develop myofibrills in the oxidative and intermediate muscle fibers
Dynamic and stato-dynamic, of maximal alactic power, done to less than ½ of the limit, performed the light local muscular fatigue, repeated after normalisation of acidosis – facilitate some increase of the myofibrills and mitochondria in the glycolytic and intermediate muscle fibers
Dynamic exercises of near maximal power (90%), done to less than ½ of the limit, performed till light local muscular fatigue, repeated after the elimination of acidosis – facilitate some increase of the myofibrills and mitochondria in the glycolytic and intermediate muscle fibers
Dynamic exercises of submaximal (60 – 80%) power, done to less than ½ of the limit, performed till light local muscular fatigue and repeated after the elimination of excessive acidosis – facilitate some increase of the myofibrills and mitochondria in the glycolytic and intermediate muscle fibers
All exercises of near or sub-maximal anaerobic power, as well as those of maximal aerobic power performed to the limit and causing excessive acidosis (pH < 7.1, lactate > 15 nMoll/L).
All other types of exercises have little useful effect for the development of endurance among grapplers. According to Selouyanov there are two ways to increase endurance and strength in skeletal muscle: increase the number of myofibrills and increase the number of mitochondria. Both are achieved differently in glycolytic (and intermediate) and oxidative muscle fibers, therefore we are left with four training modalities. In order to increase myofibrillar mass four factors must be present.
Reserve of amino acids in the muscle cell (provided by consuming protein)
Increased concentration of anabolic hormones as the result of mental strain
Increased concentration of free creatine in muscle fibers
Increased concentration of hydrogen ions
Increasing the number of myofibrills in the glycolytic muscle fibers. I suspect this part will make quite a few of us cringe. However, the goal of this post is to convey Selouyanov’s opinion on optimal training, so bear with me here. [Editor’s note: In effect, Selouyanov is about to ignore a core doctrine of Pavel Tsatsouline’s, namely the taboo against training to failure.] Glycolytic muscle fibers are activated when maximal muscular effort is required and no earlier. Therefore (according to the good professor), the growth of glycolytic muscle fibers can be achieved only by utilising weights of of maximal or near maximal intensity. The following conditions have to be present:
Intensity of maximal or near maximal intensity – more than 70% of 1RM
Exercise is performed to failure, i.e. to full exhaustion of CPn and achievement of high concentration of free creatine
Number of repetitions – 8 – 12. Last couple of reps have to be forced (with the help of a partner)
Rest – 5 minutes. Should be active, aerobic activity at HR of 100 – 120/min, this helps to utilise lactic acid
Number of sets: 7 – 9 if the goal is growth, 1 – 4 for tonic effect
Number of training sessions per day – one or two, depending on the intensity and athlete’s condition
Number of sessions per week – synthesis of myofibrills takes about 7 days, this is how long the athlete should rest after a training session done to the limit.
Myofibrillar hyperplasia in the oxidative muscle fibers The method for developing myofibrills in oxidative fibers is similar to that for glycolytic muscle cells. With the exception that exercises are performed without relaxation. In that case the capillaries in the muscle are compressed, limiting circulation and leading to the hypoxia of the muscle fibers and the accumulation of lactate and hydrogen ions. I suspect this works similar to the occlusion (Kaatsu) training that became somewhat popular in the recent years. Selouyanov believes that mostly slow/oxidative muscle fibers grow under these conditions – Smet. To get the idea of this method imagine a barbell squat. Except that it is performed in the way that doesn’t allow for the pause at the top, with incomplete range. This way the muscles are continuously contracted to one degree or another, and after 20 – 30 seconds you get the burn, which is the desired effect. The conditions for the efficiency of this method are as follows:
Intensity – medium: 20 – 40% of 1RM
No relaxation pohase during exercise, the muscles are continupusly contracted
Tempo and duration – slect the weight so that the athlete can perform 25 repetitions in 30 seconds. Last few repetitions should cause significant pain.
Rest – 30 seconds (active)
This exercise is performed in series of 3 – 5 sets. 25 reps in 30 seconds equals one set.
Number of series in one session: 1 – 2 for the tonic effect, 3 and more for growth.
Number of sessions per week – exercise is repeated in 3 – 5 days.
There is no mention of rest between series. I suppose it is several minutes, until the muscles feel relatively fresh. Selouyanov recommends doing exercises aimed at growing muscle fibers at the end of the training session and better in the evening. If other types of training is done after this the reduction of glycogen can negatively interfere with the protein synthesis and impair growth. Development of mitochondria in skeletal muscle Formation of mitochondria is controlled according to the principle of the functional criteria. According to this criterion, mitochondria that cannot properly function are eliminated. One of the natural factors leading to the destructurisation of mitochondria is hypoxia (e.g. being at altitude) and accompanying anaerobic metabolism. Similar processes occur during anaerobic training. Several generalisations can be made in regards to mitochondria:
Mitochondria are energy stations of the cell and supply ATP by aerobic metabolism
Mitochondrial synthesis exceeds the destruction during conditions of their intensive functioning (oxidative phosphorilation)
Mitochondria tend to appear in the areas of the cells where the delivery of ATP is required
Intensive destructurisation of mitochondria occurs when the cell is functioning at high intensity in the presence of anaerobic metabolism which leads to the excessive and prolonged accumulation of ydrogen ions in the cell
Based on the above it is possible to develop methods of aerobic development of the cell. Every skeletal cell contains three types of muscle fibers.
Those that are activated regularly during every day activity (oxidative)
Those activated only during training requiring moderate muscular activity (intermediate fibers)
Those that are seldom activated – only during maximal or near maximal effort, such as jumps, sprints etc. (glycolytic fibers)
In well trained individuals oxidative muscle fibers are maximally adapted. In other words, the number of mitochiondria in these muscles cannot be developed any more. It has been demonstrated that aerobic training at the level below anaerobic threshold in well trained athletes has zero value.
Therefore, in order to increase aerobic potential of the muscle fiber it is necessary to build structural basis – new myofibrills. New mitochondria will then develop around these myofibrills. There is a special methodology which has been tested: interval training using two exercises. For example, pushups and pullups from low bar (unloaded, so that the feet are resting on the ground).
General principles of such training are as follows:
Exercises are performed at low intensity, i.e. 10 – 20% 1RM
Exercise is performed at medium or fast tempo
Full ROM is utilised
Duration – until early signs of local muscular fatigue
The template – 5 – 8 repetition of one exercise is followed by 5 – 8 repetitions of another without rest – that is 1 set
No pauses between sets
Number of sets – 5 – 10 (determined by the degree of fatigue) – that’s 1 circle
Number of circles in a session – 1 – 5 (fatigue and is determined by the glycogen stores in muscle tissue)
Session done at maximal volume can be repeated after 2 – 3 days, after glycogen stores are restored
Russian training methods and Russian sports science. Raise your hand if you (a) love these things but (b) don’t read Russian. Then you probably owe almost everything you know to Pavel Tsatsouline, THE great interpreter of that subject and almost the most influential voice in American exercise. Pavel created an appetite for English-language popularizations of Russian training research much greater than any one man can satisfy, even a pedagogical genius like Pavel. Today guest author “Dr. Smet,” a Russian-educated physician practicing abroad, takes us behind the curtain of Pavel’s latest book for a direct look at some of its source material. Dr. Smet’s blog Girevoy Sport After 40is required reading for lean solid dogs, lazy badasses,and grapplers and kettlebell competitors.He has graciously allowed me to cross-post his original piece.-Dog in Chief
Pavel Tsatsouline has finally published his long-awaited book on endurance training, the Quick and the Dead. Despite the hype, in the end I was underwhelmed. Don’t get me wrong: the book has useful information but, as it makes clear on the last page, it is a long infomercial for the StrongFirst Strong Endurance seminar.
The material in the book is based on the research of a few Russian sport scientists and coaches, most notably Victor Selouyanov, previously mentioned in my blog [Girevoy Sport After 40 -ed.] in the post “The Heart is not a Machine.” Selouyanov was a bit of a renegade, and because of disagreements with the science establishment he never completed his doctorate. Nevertheless, his contribution to the understanding of training endurance was invaluable, and Russian sports science is still bitterly divided between his followers and opponents.
Selouyanov wrote several books, among them two that are of interest to me: Physical Preparation of Grapplers and The Development of Local Muscular Endurance in Cyclical Sports. Both deal with endurance, and Selouyanov’s concepts allow a systematic approach to training endurance in pretty much any sport. I will briefly and loosely summarize the most relevant parts of the book for grapplers (my current love).
From practical point of view Selouyanov was talking about two distinct groups of muscle fibers: glycolytic and oxidative. Glycolitic muscles are capable of producing great force, but because they are not very good users of oxygen they get tired quickly – in a few seconds – and are not very useful for activity that requires endurance. Oxidative fibers, on the other hand, do not produce as much force, but are virtually impossible to fatigue in aerobic conditions. Their power production drops from maximal to about 80% and stays there for a long time.
What gets oxidative muscle fibers at the end is the accumulation of lactic acid and, more precisely, hydrogen ions and the resulting acidosis. It happens if the production of lactate exceeds its elimination, which happens when you demand too much work from your muscles.
Oxidative muscles are good users of oxygen because of large number of mitochondria in them. Mitochondria are “power stations” of the cell where oxidation – the reaction between various substrates and oxygen – occurs, which results in the regeneration of ATP, the fuel that feeds the muscle fiber and allows it to contract.
Therefore, in order to develop endurance you have to do two things: build myofibrills (units of which muscle fibers are composed) and build mitochondria around them.
Classification of training loads based on long term adaptation
Methods of training are aimed at changing the structure of muscle fibers in the skeletal and myocardial muscle, as well as other systems (endocrine, for example). Every method is determined by several parameters that reflect the external features of a given activity: intensity of contraction, intensity of exercise, duration (repetition, series of the actual duration of exercise), rest interval and the number of sets or series (explained later). Each method activates internal processes which reflect immediate biochemical and physiological effects of a given training method. The final result is long term adaptation, which is the actual goal of using a particular training method.
For the sake of brevity I won’t spend much time on the internal processes elicited by each training method. I assume everyone reading this is a practitioner and is more interested in the description of the method and the long term adaptation it causes.
And so the methods are classified as follows.
1. EXERCISES OF MAXIMAL POWER
Intensity of contraction – 90 – 100%
Intensity of exercise – 10 – 100%.
Barbell squats and bench press, for example, are activities with low intensity of exercise, but high intensity of muscle contraction. Throws performed with the wrestling dummy in high tempo and low rest intervals is the example of high intensity of both muscular contraction and exercise.
Duration – usually short
Strength exercises are usually done for 1 – 4 repetitions
Speed-strength activity – up to 10 reps
Speed exercises – 4 – 10 seconds
Rest intervals – depends:
For strength exercises – 3 – 5 minutes
Speed-strength exercises – 2 – 3 minutes
Speed exercises – 45 – 60 seconds
Number of series/sets depends on the goals.
So called “developing” sessions use 10 – 40 sets
Weekly frequency depends on the goals.
If the goal is to develop myofibrills in the muscle fiber the series is performed to failure
If the goal is to develop mitochondria the series are performed to light fatigue
You just witnessed a fairly common phenomenon seen in Russian literature: the discordance of content and the title. This is exactly how it is in the text: weekly frequency – to failure or not, depending etc. It doesn’t make sense, I know, but we will have to forgive the good professor. – Smet.
Long term adaptation.
If performed to failure, this method leads to the increase of myofibrills in glycolytic and intermediate muscle fibers
If done to mild fatigue – leads to the increased phosphorylation in glycolytic and intermediate fibers, eventually leading to the increase in mitochondria
2. EXERCISES OF NEAR MAXIMAL POWER
intensity of muscular contraction – 70 – 90%
intensity of exercise – 10 – 90%
Example – barbell squat or bench press done for more than 12 repetitions
If you increase the tempo of exercise and reduce the periods of contraction and relaxation of muscles, you turn these exercises into speed-strength type. Examples include jumping and throwing wrestling dummies
generally 20 – 50 seconds
strength exercise are performed for more than 12 reps
speed strength exercises – 10 – 20 reps
speed exercises – 10 – 50 seconds
for strength exercises – more than 5 minutes
speed-strength activities – 2 – 3 minutes
speed activities – 2 – 9 minutes
This method is aimed at increasing the power of anaerobic glycolysis
Currently there are no publications that demonstrate positive effect of near maximal exercises performed to failure.
However, numerous studies show deleterious effects from this type of exercise.
Long term adaptation:
most effective for increasing myofibrilles in glycolytic muscle fibers
no increase in mitochondria
If terminated well before failure or performed with pauses, this method leads to the development of mitochondria in glycolitic and intermediate fibers: there is no excessive acidosis in the muscle cell, and lactic acid is eliminated during rest.
There is a method used by Russian athletes, called 10×10. An example in the video below:
The session consists of three exercises: pushups, jumps and pullups, all done for 10 reps in a circuit, for ten rounds, the intensity – about 80%. As you can see, the athlete never comes close to failure, and each rep is follower by a short rest – which gives the muscles a chance to get rid of lactic acid and avoid acidosis. This is the example of near maximal training without destroying the body. The coach recommends starting with lower rounds and building up gradually.
Goruck Heavy (May 31 – June 1) commemorating D-Day. San Francisco. Thirteen entered (eight men, five women), ten finished. These are the lessons I learned, first about individual performance (part 1), then about us as a team (part 2), then about my gear choices (part 3).
Absolute Strength and Strength-Endurance
I confirmed my impression from last year that GORUCK events reward absolute strength. Strictly speaking, it might not seem like a “reward,” because you carry more and heavier weights for your team, but you receive the elemental joy of being able to do that for them. For the heaviest coupons, some teammates will lack the strength even to budge them, and others will be able to pitch in bravely but at an unsustainable cost. Ultimately, those top-end coupons must devolve onto a bull-necked, big-thighed few who have large enough reserves of absolute strength that they can spend pretty heedlessly without wrecking themselves.
That is a good time to be strong. If you are strong, you can give your teammates a gift that really means something: you can take on pain for them. No one can walk for them, no one can do their pushups for them, but big weights are different. If you are strong, you can take the sandbag from the small person and the exhausted person and spare them the punishment because it will cost you far less than it will cost them.
Granted, GORUCK events are not strength events, so there are few times when anyone needs to lift something at 90+% of 1RM. But I’d still classify them as trials of strength-endurance. That is, they test your ability to display sub-maximal strength over and over with limited rest. In my approach to strength-endurance, as in many other things, I follow Pavel Tsatsouline’s strategy: if you bump up your absolute strength through high volume, you’ll improve your strength-endurance too. As you raise your one-rep max in weighted pullups, for example, you need less and less effort for each bodyweight pullup and can crank out more reps when you need to.
Speaking of pullups, here alone among bodyweight exercises did I not tire out. For the PT test we cranked out 12 sets of 6 pullups, and to my surprise I found these easy. Three cheers for the “lazy strength” approach of high volume with low intensity!! Unfortunately, we did a lot more pushups (including burpees) than pullups, and I sucked. I’d like to whine about how, with my injury, I was reduced to three weeks of pushup training, but there’s a larger issue: I have always neglected pushups. Had I valued them like pullups and kettlebells, I would have put in a few hundred thousand reps over the years and developed a pushup foundation of granite. With kettlebells I’ve accumulated a million reps, so even if you imprisoned me without a single kettlebell—oh cruel fate!—as soon as I was liberated, in two weeks I’d have my groove back and once more make the 32kg bell my plaything. To a lesser extent, that’s true of pullups too. But I don’t have that kind of foundation with pushups, so I paid for it. If the cadres had wanted to smoke us in PT, and if they had “performance dropped” people who couldn’t keep up, I would have been in serious trouble. So guess what’s never going to happen again!
Speaking of pushups, Cadre Edge taught us some funky breathwork out of the Wim Hof method that involved deep rhythmic breathing followed by all-out pushups on a breath hold. I had never tried this, or heard of it, but it works and I’m incorporating it into my morning Wim Hof routine of breathing and cold water.
And speaking of breathing, I had no trouble doing it! For the first time in my life, this former chubby kid wasn’t near the back of the pack in aerobic endurance. This was a wonderful thing, because for all the strength-endurance challenges, this activity is called “rucking” for a reason, and you need a big aerobic gas tank to do anythingfor 24 hours, so I felt wonderful being able to burn along at close to 14 minutes/mile and experience that as active rest.
So three more cheers for low intensity and high volume! As with “lazy strength,” not only do I thrive on LSD (long, slow distance), I really enjoy it. I probably put in 300 miles in the last three months, and I loved (almost) every moment of it. It’s a time for solitude and meditative quiet, with the moderately elevated heart rate and rhythmic breathing that naturally inclines us to flow and trance states.
Spirit and psyche
I was more composed this year than last. There was no repeat of last year’s surf torture experience of existential horror at the wind’s shrieking, freezing hands pulling me into a tomb of pitiless entropy. Of course I knew that I was safe and not going to die, but I was a quivering wreck and I felt a lonely understanding that nature was prepared to annihilate me with as little notice as it would give a bug who drowns in a swimming pool. This year, there was none of that.
Nor was I tormented by a horrible inner soundtrack. I’m tragically susceptible to songs getting stuck in my head, and last time it was a Rod Stewart song and a Russian rap whose title roughly means, “Fuck you, biyotch.” It was terrible, a true torment. I’m not joking. Stop snickering. So this year I took drastic measures and stayed away from all music for a couple of days and ran a mantra in my head. Once we reached go-time, the mantra ran on an infinite loop all night and all day. Much better!
Strangely, I also had a couple of … “experiences.” It would be a stretch to call them visions, but during Cadre Edge’s first breath session I lost all sense of time and finitude for awhile and woke up (for lack of a better word) to an image of Shiva Nataraja dancing behind a very, very thin curtain. During the second session, which felt head-splitting (in a constructive way), I saw what I interpreted as Krishna in his cosmic form standing in front of the sun disk.
Fuel and hydration
I had the right idea but screwed up the execution by not drinking enough. As far as I can remember, the whole time I only drank 10L, even though I had access to more. That is about 25% less than I thought I would drink, and since my electrolytes were in my water, I wasn’t getting enough. Two or three times I cramped up suddenly and had to mooch some powder off of Mike the generous forester, who is no stranger to outdoor work and had electrolytes up the wazoo.
Nor was that the first time I have wound up short of electrolytes, so that is another item for my Never Again List.
Fueling went alright. Normally low-carb or downright keto, I planned to eat 25g of simple sugars per hour during the event. The idea is that because as a keto athlete you are fat-adapted, you can get away with eating half the carbs of a sugar-burner during a race and avoid GI trouble. And that worked perfectly. I got most of my calories from Tailwind powder dissolved in my water, supplemented with some caffeine additive and about ten tubes of GU. (Hint: Try the French toast flavor! I owe Lean Solid Girl big time for turning me on to those.)
In all, I ate about 3500 calories during the race, a little more than planned but with no ill effect at all. And according to my awesome Tanita scale, I used up a little under half of my body’s supply of fat and dropped from 12% to 7.5% body fat. That is instructive, because when camping I seldom take much food, instead subsisting mostly on bodyfat because it’s just so convenient to eliminate a lot of weight and bulk from my pack. That is one of the rewards of eating keto that compensate for the inconvenience. However, I can see that I’m not leaving myself much margin for safety in remote country. Since I like to camp far from human contact, where a broken leg could mean real trouble, I shouldn’t be quite so cavalier about relying on what turns out to be just a two-day supply of fat.
Heat and Cold
“Weather more than any other variable can break a motherfucker down fast.” –
This time I handled the weather much better, thanks again to Lean Solid Girl, who introduced me to the indispensability of a polypro base layer. On a couple of our misadventures, I ended the day soaked, cold, and even jackhammering while she stayed dry and happy. The difference? Polypro and Goretex. So I’ve made a standing rule that I must always have both in my pack.
That was good, because the oceanside wind was outrageous. If I had dressed as usual in short shorts and a cotton shirt, I would have been in trouble. I even got to see what would have been my fate. One of our teammates was very lightly dressed, and though he started the night as a top-level performer, come daylight I watched him drained of strength and awareness hourly as his body relegated him to “survival mode” and burned more and more of his precious energy just trying to keep his temperate stable. In the final half hour, I legitimately wondered if I was seeing a man swirling the drain into serious medical trouble. He had unbreakable mental fortitude and didn’t quit even when I thought he might pass out, but I was pleased not to be confronted with that choice.
“Like water, volume is soft and yielding. But volume will wear away rock, and it beats the crap out of excess fatigue. As a rule, volume wins over fatigue. This is another paradox: what is soft and voluminous is strong.”
from the lost training manual of Laozi (Lao-Tzu)
In the most original book on training in decades, Pavel Tsatsouline describes a certifiable badass, a special operations ninja-type whom he pseudonymously calls “Victor.” Victor combines a pair of already-extraordinary feats into an extra-extraordinary combination: he runs ultra-marathons of up to 100 miles AND he does pullups with an extra 160# hanging from his waist. That’s a freakish level of endurance and world-class strength, a combination so rare as to seem impossible. (As we have said before, strength and endurance are rivals.) That is what makes Victor an elite among the elite, a certifiable badass.
To reach those heights, Victor trains in a very special way: lazily. Or to be more precise, with low fatigue. From his amazing accomplishments, you might suppose that he spends all day exercising and puking his guts out. Nope. Most days he works out for all of 30 minutes, much of it with a 24kg kettlebell, which is strictly a “Joe Average” weight, and some pushups and pull-ups and yoga. He left behind even low-key barbell training long ago, explaining that when he deadlifted, “I felt my ego pushing me harder and faster than my body wanted to go. So I decided to limit myself to one kettlebell and two [steel exercise] clubs …”
As the core of his lethargic-looking super-routine, Victor runs … sloooooowly. Slowly enough to breath only through his nose, with rhythm and relaxation. He writes:
“The key is … the LOW INTENSITY. I use a heart rate monitor, and I stay at 60% to 65% of my [max heart rate]. This means that I am often walking on the hills. If I ran [faster], my recovery time would be much longer.”
Pavel and Victor are insistent: Victor is not succeeding in spite of his low-key training but precisely because he throttles back. Victor has perfected one way of applying the near-magical formula for productive and happy training: do as much work as possible while staying as fresh as possible.
Are those twelve words too much to remember? Then stencil this on your kettlebells, barbells, and running shoes: Volume Without Fatigue. That is the red thread that runs through many of the successful training philosophies out there, connecting disparate-looking approaches whose only apparent link is that they work well, and it is the subject of our next series, “Farewell to Fatigue: The Way of the Lazy Badass.”