Strength and Conditioning Fundamentals
The Benefits of
Strength Training for
Endurance Athletes
Travis M. Erickson, MS, CSCS
Introduction
Many athletes abhor the idea of running
laps for football or being on the stationary
bike to cut weight for wrestling, but if the
desire to compete remains strong enough
for an athlete even after their athletic
career is completed, they may actually
find themselves entertaining the idea of
competing in an endurance race of some
sort. Of course this is only one example of
why an athlete may get into endurance
sports; other examples such as a desire to
lose weight, remain healthy, or picking an
activity that does not hurt (e.g. a basketball player who begins swimming because
chronic knee pain does not allow them to
Intelligent use of the
weight room can
have a dramatic influence on the success of
the competitor."
run up and down the court anymore).
The point isnot all endurance athletes
were born endurance athletes.
An endurance newbie often has no
idea how to train for the sport. He or she
may simply buy a pair of running shoes
and begin running. This is not a bad
way to start, but at some point if this
person is going to get serious about actual
competition, he or she is going to need
to learn how to train for the sport.
The endurance athlete who was born
to run, cycle, or swim, likely has this
information down already, but there may
be one area lacking in their training:
effectively using the weight room to best
enhance performance. This is an area
where the cross-over athlete may have an
advantage. It is no secret that one is more
likely to see the football team in the
weight room than the cross country team.
Although a football-specific workout is
not designed to enhance cardiovascular
fitness, it stands to reason that athletes
who were previously engaged in sports
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that required use of the weight room are
more likely to return to the weight room
again due to the enjoyment that they may
have had there and experience in doing
such activities.
From this standpoint, the 35-year-old
former basketball player who wants
to seriously compete in 10ks could
have an advantage over the 35-year-old
non-athlete who just decided to begin
running. Intelligent use of the weight
room, just like intelligent implementation
of a running program, can have a
dramatic influence on the success of the
competitor. This success can be defined
as faster running times, but can also be
extended to include reduced injury risk,
and an overall heightened enjoyment of
the sport, a goal that many athletes surely
have.
Training
In very general terms, sports have an
in-season and an off-season. The goals of
these different periods vary drastically, as
should the training. During the off-season,
an endurance athlete is often looking to
incorporate a variety of different training
methods (commonly referred to as crosstraining) as they look to expand their
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�S&C Fundamentals
endurance base. The exercise intensities
are often fairly low, but the duration
of activity is fairly long. During the
in-season period, the athlete has scheduled some races of varying importance.
The training becomes more intense
(workouts at race-pace for example),
which may be slightly shorter in total
The Benefits of Strength Training for Endurance Athletes
duration. Obviously this is a simplification of the process, as each athlete will
utilize his or her own strategy, but in
general terms, it is how most endurance
athletes train throughout the year.
The resistance training program should,
in essence, parallel this pattern of training.
The common fault for endurance
athletes is that the lifting workout never
really changes. The athlete continues to
do circuit training or high repetitions
and sets throughout the year at very low
intensities. Tables 1 and 2 demonstrate
how strength programs should be designed
for endurance athletes.
Table 1. Endurance Off-Season
Program variables
Repetitions per Set
Notes
Day
Order
Exercise
Rest
1a
Back squats (figure 1)
20
20
20
20
60s
Stay light and go deep
2a
Walking lunges
15
15
15
60s
15 repetitions on each leg
3a
Romanian deadlifts (figure 2)
20
20
20
45s
Keep weight on heelsslight bend in knee
4a
Leg extensions
20
20
20
45s
May be contraindicted for some people
5a
Calf raises
20
20
20
45s
Seated or standing
6a
Anterior tibialis exercise
20
20
20
45s
Anti-shin splints exercise
7a
Leg raises
20
20
20
45s
For lower abdominals
1a
Bench Press
20
20
20
20
60s
2a
Bent over barbell row (figure 3)
20
20
20
20
60s
Keep back bent overdont jerk
3a
Flat DB chest flyes
20
20
20
60s
May use machine instead
4a
Front lat pulldown
20
20
20
60s
May do pull-ups instead (or pull-up assist)
5a
DB shoulder press
15
15
15
60s
May use machine instead
6a
DB bicep hammer curls
20
20
20
45s
Seated or standing
7a
Cable tricep pushdowns
20
20
20
45s
Rope or bat attachment
8a
Weighted crunches
20
20
20
45s
Or crunch machine
9a
Oblique crunches
20
20
20
45s
Twisting crunches or machine
1a
DB step-ups
15
15
15
15
0s
Alternate legs15 each
1b
Push-ups
15
15
15
15
0s
1c
Step-back (reverse) lunges
15
15
15
15
0s
1d
Seated row
15
15
15
15
0s
2a
Leg press
15
15
15
15
0s
2b
DB lateral raise
15
15
15
15
0s
2c
Stability ball leg curls (figure 4)
15
15
15
15
0s
Or machine leg curl
2d
DB pullovers
15
15
15
15
0s
Get a good stretch
3a
EZ bar bicep curls
15
15
15
15
0s
3b
Back extensions
15
15
15
15
0s
3c
EZ bar lying tricep extensions
15
15
15
15
0s
Hold dumbbells or use body weight only
* The third day is a circuit day: go through circuit 1 twice and then go to circuit 2 and then three. After you have gone
through each circuit twice, go through all three circuits again. There should be little to no rest between exercises.
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�S&C Fundamentals
The Benefits of Strength Training for Endurance Athletes
Table 2. Endurance In-Season
Program variables
Repetitions per Set
Notes
Day
Order
Exercise
Rest
1a
Split jerk (figure 5)
2 min
Barbell or dumbbellland in split position
2a
Back squat
2 min
Go pretty heavy
3a
Forward stepping lunge (figure 6)
2 min
Do all one leg first, then the other
4a
Bench Press
2 min
5a
DB shoulder press
90s
6a
Tricep exercise (choice)
90s
7a
Weighted crunch
15
15
15
90s
8a
Oblique crunches
15
15
15
90s
1a
Standing tuck jumps (figure 7)
3 min
Be quick off the ground and jump high
2a
Alternating leg bounding (figure 8)
3 min
4 bounds each leg
3a
Underhand medicine ball throw
(figure 9 & 10)
3 min
Throw backwardsuse 6 12 lbs ball
4a
Bent over barbell row
2 min
5a
Bicep exercise (choice)
90s
6a
Back Hyperextensions
12
12
12
90s
* Find a soft surface to do your jumpsgrass works well, just make sure there are no holes.
Note that the workouts are very different
from one another. As stated earlier, many
athletes choose to train in the same
manner the whole year, but this method
does not take advantage of the bodys
ability to specifically adapt to the workout variables that are presented during
each phase of training. An endurance
athlete should not have the goal of
achieving their fastest times during the
off-season because there are no races then.
Likewise, this athlete should not do heavy,
intense lifting during this time either.
When in the meat of the competition
schedule, the athlete needs to remain
healthy and fast. The more intense, but
lower volume lifting workout is meant
to accomplish these goals. Table 3
explains the rationale between the key
differences between the two workouts.
appreciate what intense resistance training
will do for them in their sport. Some
fear that they will add unnecessary bulk
to their frame, or that heavy lifting will
reduce their VO2 maximum and thereby
make them slower. These fears are not
unfounded, as heavy lifting will add lean
muscle tissue, and high intensity, long
rest period workouts can have the effect
of reducing aerobic efficiency. However,
these adaptations will only happen if
this workout is maintained over a long
period of time (several months). But,
when properly inserted into a workout
over a short period (two different four
week periods), the adaptation is mainly
neural in nature, meaning there is only a
small physiological change that would
have any chance of negatively influencing
the endurance athlete1.
Most endurance athletes who have little
experience in resistance training will not
Even for those who buy in to an aggressive
in-season program for endurance activi-
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ties, may do so for the wrong reasons.
They believe that the only time in which
being fast and powerful would be of real
benefit to the endurance athlete would
be during the final kick, or perhaps
climbing a difficult hill.
Suppose, for example, that you could
reduce the number of strides you took in
a distance race by 10%. Do you think
that this would allow for faster running
performance? Tall, lanky runners with
long, loping strides are often the envy of
their shorter counterparts. You cannot
change how tall you are, but you can
influence your running stride by learning
better running mechanics, and also
increasing the amount of force with
which you push-off the ground on each
step. A small increase in force will allow
for a slightly longer stride
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�S&C Fundamentals
For example, let us assume that a given
runner has a stride length of five feet.
During the course of a 5K race they
would take 3280 strides. An increase in
stride length of just 6 inches would
allow for the individual to take just 2981
strides, a reduction of over 9%. Heavy
resistance training, and specifically some
form of plyometric training, is the
best way to increase stride length, and
therefore running economy.
Conclusion
In endurance competition, individuals
who come from a strong resistance
training background but have never
participated in endurance sports may
The Benefits of Strength Training for Endurance Athletes
have a leg-up on those who have never
lifted weights before, because they are
accustomed to a variety of lifting protocols
including power type exercises and plyometrics. These athletes may, therefore,
be able to successfully enter the fun and
personally challenging realm of competitive athletics again even though their
football or track and field days are long
gone. Although resistance training is not
a panacea for all athletes, if one is serious
about taking his or her training to
the highest level, even the endurance
athlete has to seriously consider how
resistance training can positively
influence performance.
Figures
Figure 1. Back Squat
Table 3. Differences between in-season and off-season programs
Acute
Program
Variable
Off-season
In-season
Volume
The high volume in the off-season is
meant to increase local muscular
endurance. This is meant to parallel the
longer duration running, cycling, etc.
that is also going on at this time to help
build a stronger endurance base
Lower volume in-season allows for
higher intensities. In addition, high
stress demands of intense endurance
workouts and races require lower
lifting volume to reduce the risk of
overtraining
Intensity
Very low intensity during this time period ensures that some degree of aerobic benefit is seen, but it is also
required to be low when the volume is
so high
A higher intensity during this period is
utilized to elicit a neurological
response that makes the muscles
stronger and more powerful, which will
enhance stride length, thus increasing
running efficiency/economy
Rest
Periods
Short rest periods keep the heart rate
up and blood pumping, which adds to
the endurance qualities of the athlete
during this period
Longer rest periods are required in order
to "re-load" the muscles with the fuel
necessary to exert high levels of force
and power. High complexity activities,
such as plyometrics, require a longer rest
period for the nervous system to adapt
Choice
Exercise are basic in nature that hit all
major muscle groups. There are a combination of multi- and single-joint
activities, and some are in place to aid
in injury prevention
Exercises are sports-specific in nature or
purposely chosen to be explosive.
Single-joint exercises are included, but
not required as part of the workout, as
they do not typically aid the athlete at
this time
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Figure 2. Romanian Deadlift
Figure 3. Bent Over Barbell Row
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�S&C Fundamentals
The Benefits of Strength Training for Endurance Athletes
Figure 4. Stability Ball Leg Curl
Figure 7. Standing Tuck Jump
Figure 10. Underhand Medicine Ball
Throw 2
References
1. Enoka R. (2002). Neuromechanics
of Human Movement, 3rd Edition.
Champaign, IL: Human Kinetics.
About the Author
Figure 5. Split Jerk
Figure 8. Alternate Leg Bounding
Figure 6. Forward Stepping Lunge
Figure 9. Underhand Medicine Ball
Throw 1
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Travis M. Erickson, MS, CSCS, is in his
second year as a lecturer in the Exercise
and Sport Science department at the
University of Wisconsin at La Crosse
(UW-L), where he teaches undergraduate
and graduate biomechanics and also serves
as the director of the undergraduate
Strength and Conditioning Concentration.
In this capacity he teaches a variety of
strength training classes that explore training
techniques, exercises, and adaptations to
resistance training. Travis coaches the
jumpers on the UW-L track and field team
that has won the last eight NCAA
Division III national titles. He is also the
head strength coach for the universitys
football and wrestling teams.
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