The research done to date on the effects of weight training on cyclists has brought mixed results. The study done by Ben Hurley at the University of Maryland had 10 healthy men take up strength training (bench presses, hip flexions, knee extensions, knee flexions, press-ups, leg presses, lat pulldowns, arm curls, parallel squats, and bent-knee sit-ups) for 12 weeks, while eight other healthy men served as controls.
After 12 weeks, the strength-trained men improved their endurance while cycling at an intensity of 75 per cent V02max by 33 per cent and also lifted lactate threshold (the single best predictor of endurance performance) by 12 per cent.
However, these men were untrained prior to the study and did not carry out regular cycling workouts during the research, so the applicability of these findings to serious athletes is questionable
The study carried out by R. C. Hickson and his colleagues at the University of Illinois at Chicago was considerably more practical. In that investigation, eight experienced cyclists added three days per week of strength training to their regular endurance routines over a 10-week period. The strength training was incredibly simple, focusing on parallel squats (five sets of five reps per workout), knee extensions (three sets of five reps), knee flexions (3 x 5), and toe raises (3 x 25), all with fairly heavy resistance. The only progression utilized in the program involved the amount of resistance, which increased steadily as strength improved.
Nonetheless, the strength training had a profoundly positive impact on cycling performance. After 10 weeks, the cyclists improved their 'short-term endurance' (their ability to continue working at a very high intensity) by about 11 per cent, and they also expanded the amount of time they could pedal at an intensity of 80% V02max from 71 to 85 minutes, about a 20-per cent upgrade.
On the negative side, we have research, carried out by James Home and his colleagues at the University of Cape Town in South Africa, seven endurance cyclists who averaged about 200 kilometers of cycling per week incorporated three strength training sessions into their normal routine. The strength program was relatively unsophisticated, consisting of three sets of up to eight repetitions of hamstring curls, leg presses, and quadriceps extensions using fairly heavy resistance.
After six weeks, the strength training had produced rather impressive gains in strength (the gains averaged a bit more than 20 per cent). However, actual cycling performances were not improved; in fact, they were worse than before the strength training was undertaken! 40-K race times slowed from 59 to 62 minutes, and the strength-trained cyclists complained of feeling 'heavy' and tired during their workouts.
Why did Hickson's study uncover clear advantages associated with strength training for cyclists, while Home's work revealed the reverse?
No one knows for certain, which means it's time for a personal observation. It seems quite likely that the strength training carried out by Hickson's charges improved fatigue resistance in their muscles, permitting them to persist longer both during high-intensity tests of endurance and prolonged efforts at a submaximal (80% V02max) intensity. Meanwhile, it's likely that Home's added strength training sent his athletes into the overtrained - or at least 'stale' - state. The feelings of fatigue which originated shortly after the beginning of strength training suggests that the athletes were simply doing too much work.
Home's cyclists were averaging 124 miles of weekly riding when they started their strength training, while Hickson's athletes were logging considerably fewer miles, so one might be tempted to suggest that strength training can produce major benefits for low-mileage cyclists but does much less for experienced, higher mileage competitors who have already built up considerable strength merely by riding. That certainly wouldn't be an unreasonable thought, but it doesn't explain why strength training per se would actually slow down endurance performances, as it seemed to do for Home's performers (no other study has shown this). It seems very likely that Home's added strength training was simply the straw that broke the camel's back; it wasn't the strength training which slowed the cyclists but the total amount of work they had to complete.
Another issue that was not kept controlled in the studies was nutrition and supplementation which also would have a major impact. It is my personal feeling after three decades in the physical training world that weight training is advantageous in almost all sports when done properly and paired with the correct nutrition.
When we are speaking of the exact skills needed in climbing, how and when to step, climbing techniques and mental skills, there is no substitute for the activity of climbing itself.
However, in order to develop strength levels specific to the sport of climbing such as improving grip strength and upper body strength and endurance climbing will produce very limited or even no results or improvements.
One of the main reasons climbing isn't good for strength training is because in climbing failure is not an option. If you have muscular failure while climbing, it may very well prove fatal. So the goal while climbing id to avoid this completely.
Alternatively, when one is strength training for climbing, one wants to reach and even pass the point of muscular failure as it is this very act that causes the body to respond with an increase in strength to adapt to the stress being place on it. So the two methods are mutually exclusive and you will never achieve maximum strength by climbing alone.
Another example that reinforces the disparity between climbing and strength training for climbing is the way in which you grip the rock. In climbing, the rock demands the climber to use a random variety of many different grip positions and, at times, you may even deliberately vary the way you grip the rock. As a result, it's unlikely that any single grip position will ever get worked maximally and, therefore, the individual grip positions (e.g. crimp, open hand, pinch, etc.) are slow to increase strength.
This should help you understand why a full season of climbing may indeed improve your anaerobic endurance (i.e. endurance of strength), but do little to increase you absolute maximum grip strength.
Therefore, varying grip positions is a great strategy for maximizing endurance when climbing for performance, but it will never work for training maximum grip strength. Effective finger strength training demands you target a specific grip position and work it until failure, which can only be done safely in a non climbing environment.
Finally, it could be better for some climbers to participate in cross training with other activities that are not particularly sport-specific. As an example someone who needs to lose weight should spend the majority of their non-climbing time performing aerobic activity to burn off the excess body fat as it is essential that a climber be as lean as possible for optimum performance.
If someone is totally devoid of at least some modicum of fitness, they would be better off doing some circuit training that will give them both strength and aerobic benefits.
In closing I will say that regardless of your experience level in climbing, you will see a huge improvement by including specialized strength training in your regimen.
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Gregg Hall Hall has sinced written about articles on various topics from Gold Jewelry, Interior Design and Painting. Gregg Hall is a business consultant and author for many online businesses and has been in the fitness industry for over 25 years.He currently lives in Navarre Florida with his 16 year old son. Get the performance bike accessories you need at. Gregg Hall Hall's top article generates over 3600 views. to your Favourites.
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