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SPEEDBASED TRAINING

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Title: SPEEDBASED TRAINING


1
SPEED-BASED TRAINING
  • for
  • Middle Distance Distance Runners
  • by
  • Lyle Knudson, Ed.D.

2
WHAT IS SPEED-BASED TRAINING?
  • More accurately titled
  • Speed, Speed Endurance, Specific Endurance
    Based Training
  • Training specific to the demands of the event(s)

3
VS.AEROBIC-ENDURANCE BASED TRAINING
  • As has been applied by most U.S. distance coaches
    over the past 35 years.
  • Commonly referred to as the Pyramid Model
  • Develop an Aerobic-Endurance base via long-slow
    running, then gradually transition to include
    training more specific to the event

4
PROBLEMS WITHAerobic-Endurance Based Training
  • Through 60s early 70s, when interval training
    (more like Speed-Based Training) was the primary
    training method, the U.S. dominated middle
    distance and distance running in the world
  • Since then, Aerobic-Endurance Based Training has
    become the dominant approach to U.S. distance
    training, U.S. middle distance and distance
    performances, at all levels, have declined over
    this period. U.S. developed athletes are no
    longer even a factor in world-class distance
    running.
  • There is no valid scientific justification for
    the Aerobic-Endurance Based Training approach.

5
SCIENTIFIC PRINCIPLES OF TRAINING-ADAPTATION
  • Your body adapts to the stresses applied.
  • Your body adapts to the SPECIFIC stresses
    applied.
  • Your body will only adapt to unaccustomed
    stimuli.
  • Adaptation occurs during recovery.
  • Your body also adapts to lack of stress. You
    regress
  • Your body will positively adapt to stress, unless
    the stresses are too great.

6
YOUR BODY ADAPTS TO THE STRESSES APPLIED
  • You train (i.e., apply stress). Then your body
    adapts to be able to perform at higher levels.

7
YOUR BODY ADAPTS TO THE SPECIFIC STRESSES APPLIED.
  • For Example
  • If you properly train Speed, you body will
    adapt to run faster.
  • If you properly train Speed Endurance, your
    body will adapt to run fast longer.
  • If you properly train Specific Endurance, your
    body will adapt to run a specific distance
    faster.
  • If you train long and slow, your body will adapt
    to run longer and slower.

8
YOUR BODY WILL ONLY ADAPT TO UNACCUSTOMED STIMULI.
  • For example
  • To improve speed, you must train faster
    (greater stride length frequency) than your
    current maximum speed.
  • To run your objective race distance faster, you
    must train at paces faster than your current PR
    in that event.
  • If you only train at paces at or slower than what
    youve already accomplished in your event, your
    body will not adapt to run faster.

9
ADAPTATION OCCURS DURING RECOVERY.
  • Full recovery-adaptation from a hard training
    bout requires 48-72 hours of very limited
    activity.
  • High volumes of long-slow running inhibits
    recovery-adaptation.

10
YOUR BODY ALSO ADAPTS TO LACK OF STRESS. YOU
REGRESS.
  • If you dont train a specific event component
    (e.g., speed, speed endurance, specific
    endurance) on a regular basis, you begin to loose
    it.
  • Negative adaptation of a component generally
    begins to occur after a 48-72 hour period of
    non-training of that component.

11
YOUR BODY WILL POSITIVELY ADAPT TO STRESS, UNLESS
THE STRESSES ARE TOO GREAT.
  • If the stresses are too great, you will not
    improve, will regress, and/or will become injured
    or ill.
  • Short-term stresses (e.g., a hard workout) are
    seldom the cause of injury or illness.
  • Cumulative stress (due to lack of
    recovery-adaptation between workouts) is
    generally the cause of lack of improvement,
    regression of performances, and injuries
    illnesses.

12
CONCLUSIONSpeed, Speed-Endurance, Specific-
Endurance Based TrainingNOTAerobic-Endurance
Based Training
13
REVIEW
  • Scientific Principles as they relate to
  • SPEED-BASED TRAINING
  • vs.
  • AEROBIC-ENDURANCE BASED TRAINING
  • (go to SPEED-BASED TRAINING, Introduction page)

14
TO ADHERE TO THE SCIENTIFIC PRINCIPLES OF
TRAINING-ADAPTATION
  • Use Speed, Speed-Endurance, Specific Endurance
    based training.
  • Follow a COMPREHENSIVE and SYSTEMATIC program.

15
COMPREHENSIVE and SYSTEMATIC TRAINING
  • COMPREHENSIVE TRAINING - Identifying and
    properly training all affective components of
    performance in the event(s).
  • SYSTEMATIC TRAINING - For adequate stress and
    recovery (and therefore maximum positive
    adaptation) and to avoid negative adaptation (due
    to lack of stress or over-stress), you must train
    consistently according to training cycles.
    Training Cycles are time periods of
    systematically varying physiological and
    psycho-social stress loads.
  • (will discuss Systematic Training later when
    tying the total program together)

16
COMPREHENSIVE TRAINING
  • PHYSICAL COMPONENTS OF PERFORMANCE WHICH APPLY TO
    THE MIDDLE DISTANCE AND DISTANCE EVENTS
  • Strength - ability to apply force
  • Quickness - frequency of repeating a specific
    movement pattern
  • Power Strength X Quickness the ability to
    apply maximum force over a minimum period of time
  • Speed Power Stride Length (result of Strength
    Technique) X Stride Frequency (result of
    Quickness Technique)
  • Endurance - ability to sustain a movement
    pattern (movement intensity) over an interval
    of time (duration). Four endurances, defined
    by movement duration intensity
  • Aerobic Endurance - long slow
  • Speed (Anaerobic) Endurance - short fast
  • Anaerobic Threshold - moderate duration speed
  • Specific Endurance - ( Anaerobic Aerobic
    specific to event at objective event distance
    and pace

17
NOTE
  • The majority of components are Speed,
    Speed-Endurance, and Specific Endurance related.
  • Aerobic Endurance and Anaerobic Threshold are
    also important components, and will be included
    in the total training program discussed later,
    but are not the dominating factors as practiced
    in most U.S. distance programs.

18
SPEED - Justification
  • WHY IS SPEED DEVELOPMENT IMPORTANT TO DISTANCE
    RUNNERS?
  • The common response is for the finishing kick.
    But in a race of equal runners who know how to
    maximize performance (i.e., run equal optimum
    pace throughout), if you hold back and save/wait
    for the kick, youll be so far behind that a
    great kick is not going to make up the
    difference.
  • The primary benefit of Speed is to be able to run
    more efficiently (i.e., at a faster pace with the
    same effort) throughout the race. For example,
    if youre best 100m time is 15 seconds, youll
    certainly not be able to maintain that pace for a
    200 800m. But if you can run a 12.0 100m, with
    proper Specific Endurance Training, youll be
    able to maintain a 15.0 pace throughout to
    achieve a 200.

19
SHOULD YOU DEVELOP SPEED OR ENDURANCE FIRST?
  • Certainly dont develop Aerobic-Endurance first,
    because long-slow running will cause loss of
    Speed.
  • Some sprint coaches advocate an Inverted Pyramid
    Model, developing Speed first and then adding
    Endurance training to extend the Speed over
    increasingly greater distances.
  • Based on the Scientific Principles, you can and
    should develop Speed and Endurance simultaneously.

20
HOW TO IMPROVE SPEED
  • Speed (velocity) Stride Length X Stride
    Frequency
  • So to improve Speed, increase Stride Length and
    Stride Frequency
  • To increase Stride Length, improve Sprint
    Technique (body positions movement patterns)
    and Strength
  • To increase Stride Frequency, improve Sprint
    Technique and Quickness
  • To increase both Stride Length and Stride
    Frequency simultaneously, reduce ground contact
    by improving Sprint Technique and Power

21
SPRINT TECHNIQUE CHARACTERISTICS
  • Minimize ground contact
  • Run tall
  • Up down (vs. forward back) movements of arms
    and legs relative to body alignment
  • Emphasize front-side (vs. back-side) mechanics
  • Maintain arms at 90 degrees
  • Dorsiflex feet
  • Pawing motion of legs (vs. push in back brake
    in front)

22
ACTIVITIES FOR DEVELOPING SPRINT TECHNIQUE,
STRIDE LENGTH, AND STRIDE FREQUENCY
  • I. DYNAMIC LEAD-UPS
  • Exercises which systematically progress from
    little to optimum ranges of motion, and from slow
    to maximum speed
  • As part of Warm-Up on formal training days
  • Exercises 3 X 15-30m each of
  • Low Knees
  • Sprint Walks
  • Sprint Skips
  • High Knees
  • Build-Ups
  • Accelerations
  • Flyings
  • Start-Throughs

23
II. SPECIFIC SPEED DEVELOPMENT EXERCISES
(conducted at high intensities over short
durations) (benefits)
24
MEASURING/CALCULATING COMPONENTS OF SPEED
DEVELOPMENT, 1
  • Components - Time (per distance),
    Speed/Velocity, Stride Length, Stride Frequency,
    Ground Contact (vs. Air Times)
  • Purpose - Determine where you are now, your
    development needs, and the progress your making
    in Speed development
  • Required - 30m Fly time, video/DVD recording of
    30m Fly, video/DVD player or computer software
    capable of displaying/counting frame by frame

25
MEASURING/CALCULATING COMPONENTS OF SPEED
DEVELOPMENT, 2
  • ALGORITHMS FOR COMPUTING THE COMPONENTS
  • Velocity Distance/Time 30m / 30m Fly Time
  • Time for 5 strides 1/30 X Number of Frames for
    5 strides (assuming frame frequency of 30 frames
    per second)
  • Stride Frequency 5 / Time For 5 Strides
  • Stride Length Velocity / Stride Frequency
  • INTERPRETATION OPTIMUMS
  • Stride length 2.35 2.50 X trochanter length
  • Stride Frequency 4.5 5.0 strides per second
  • Frames Per Stride lt 7
  • Ground time lt 3 frames

26
REVIEW
  • SPEED DEVELOPMENT
  • (go to SPEED-BASED TRAINING, Speed Development
    page)

27
ENDURANCE
  • Definition
  • Classifications
  • Physiology Of

28
DEFINITION OFENDURANCE
  • Endurance - the ability to sustain a specific
    movement pattern (e.g., running at an objective
    pace) over a given interval of time (duration)

29
CLASSIFICATIONS OF ENDURANCE
  • FOUR DIFFERENT INTERDEPENDENT ENDURANCES,
    DEFINED BY MOVEMENT INTENSITY AND DURATION
    DETERMINED BY AEROBIC AND/OR ANAEROBIC ENERGY
    UTILIZATION.
  • Aerobic Endurance - ability to sustain a low
    intensity movement pattern over a long period of
    time
  • Anaerobic Endurance (also called Speed Endurance)
    - ability to sustain a very high movement
    pattern over a short interval of time
  • Anaerobic Threshold - stress level at which
    anaerobic stores begin to be utilized to sustain
    the intensity of the movement pattern
  • Specific Endurance - ability to sustain a
    desired intensity of movement pattern over an
    objective duration requires both aerobic and
    anaerobic energy

30
PHYSIOLOGY OF ENDURANCE
  • Protein Synthesis
  • Generation Of Energy

31
PROTEIN SYNTHESIS
  • THE PRIMARY ADAPTATION MECHANISM IN THE BODY IS
    THE REGENERATION AND INCREASE OF
  • Structural Protein - muscle, connective tissue,
    organs, blood cells, mitochondria,
  • Enzymatic Protein - enzymes, hormones which
    motivate and control cellular function
  • MUST GET THE ESSENTIAL AMINO ACIDS INTO THE CELL,
    AND STIMULATE THE SYNTHESIS OF STRUCTURAL
    ENZYMATIC PROTEIN HOW?
  • Nutrition - adequate protein complex
    carbohydrates (vegetables, fruits, grains)
    limited sugars, starches, and fats
  • Hard Training, specific to event avoid excessive
    long-slow distance (reduces growth hormone
    levels)
  • Adequate recovery-adaptation between hard
    training bouts generally 48-72 hours of easy
    activity

32
GENERATION OF ENERGY (ATP)(Aerobic, Anaerobic,
Anaerobic Threshold, Anaerobic-Aerobic)
  • AEROBIC

33
GENERATION OF ENERGY (ATP)(Aerobic, Anaerobic,
Anaerobic Threshold, Anaerobic-Aerobic)
ANAEROBIC
34
GENERATION OF ENERGY(Aerobic, Anaerobic,
Anaerobic Threshold, Anaerobic-Aerobic)
  • ANAEROBIC AEROBIC

Brief Introduction elaboration when discussing
Specific Endurance
35
ANAEROBIC AEROBIC
  • APPROXIMATE PERCENTAGES OF CONTRIBUTION OF
    ANAEROBIC VS. AEROBIC FOR MAXIMUM EFFORT
    PERFORMANCES IN GIVEN EVENTS.
  • Distance Anaerobic Aerobic
  • 25m 100 0
  • 50m 99 1
  • 100m 98 2
  • 200m 95 5
  • 400m 90 10
  • 800m 70 30
  • 1500m/1600m 50 50
  • 3000m/3200m 30 70
  • 3000mSt/5000m 20 80
  • 10k 10 90
  • 20k 5 95
  • Marathon (42k) 0 100
  • Brief Introduction elaboration when discussing
    Specific Endurance

36
SPEED (ANAEROBIC) ENDURANCE
  • Definition of Speed Endurance - ability to run
    at maximum speed longer (60m gt 150m) provides
    increased capacity of anaerobic stores
    contributing to performance in events requiring
    both aerobic and anaerobic energy
  • Physiological Adaptations to Speed Endurance
    Training - increase of structural enzymatic
    protein increase in anaerobic stores (neural
    impulse, stored ATP, stored CP,
    buffering/tolerance/diffusion of lactic acid
  • Speed Endurance Duration, Energy Sources,
    Training, Recovery

  • Recovery (between reps
  • Duration Energy Sources Training
    (reps) generally 1 min. per 10m)
  • 0-.2 sec. neural impulse ATP 1 change
    in motion 5-15 seconds
  • specific to running
  • 05 sec. neural impulse ATP CP 10m
    50m 1 5 minutes
  • 015 sec. neural impulse ATP CP 60m
    150m 6 15 minutes
  • buffering of lactic acid

37
SPEED (ANAEROBIC) ENDURANCE
  • WHERE IN THE TRAINING PROGRAM?
  • Sprinters (100-400) in Warm-Up (dynamic
    lead-ups) and Specific Endurance Workout (day
    training events 25, 50, 100, 200)
  • Middle Distance (800-1500) in Warm-Up (dynamic
    lead-ups) and Specific Endurance Workout (day
    training events 200, 400)
  • Distance (3000-marathon) in Warm-Up (dynamic
    lead-ups)

38
SPEED (ANAEROBIC) ENDURANCE
  • EXAMPLES OF SPEED ENDURANCE WORKOUTS FOR
    SPECIFIC DAY TRAINING EVENTS
  • Day Training Event In Addition to Dynamic
    Lead-Ups Speed Development Exercises
  • 25m 8 X 1 arms
    action start at 5X seconds
  • 8 X knee
    up-downs, each leg start at 5X seconds
  • 8 X vertical
    jumps from ½ squat position start at 15X seconds
  • 4 X
    start-through 15m start at 2X minutes
  • 4 X flying
    15m start at 2X minutes
  • 50m 1 X flying 35, 30, 25,
    20, 15, 10, 5 3.5, 3, 2.5, 2, 1.5, 1 min. bet.
  • 100m 1 X start-through 10, 20,
    30, 40, 50, 60, 70 1,2,3,4,5,6 min. bet.
  • 200m 3 X 30m build-ups, on curve
    3 minutes between
  • 3 X 30m
    accelerations, on straight 3 minutes between
  • 3 X 30m
    start-throughs, on curve 3 minutes between
  • 3 X 30m
    flyings, on straight 3 minutes between
  • 400m 1 X flying 30, 60, 90,
    120, 150 3, 6, 9, 12 minutes between

39
REVIEW
  • SPEED ENDURANCE TRAINING
  • (go to SPEED-BASED TRAINING, Speed Endurance
    Development page)

40
SPECIFIC ENDURANCE
  • DEFINITION - Specific Endurance is the ability
    to run at maximum pace throughout a specific
    event that requires both aerobic and anaerobic
    energy (i.e., all events 50m through marathon)
  • RELATIONSHIP BETWEEN AEROBIC AND ANAEROBIC ENERGY
    AT DURATIONS INTENSITIES REQUIRING BOTH.
  • (Elaborate over previous introduction)

41
SPECIFIC ENDURANCE
  • APPROXIMATE PERCENTAGES OF CONTRIBUTION OF
    ANAEROBIC VS. AEROBIC FOR MAXIMUM EFFORT
  • IN GIVEN EVENTS
  • Distance Anaerobic Aerobic
  • 25m 100 0
  • 50m 99 1
  • 100m 98 2
  • 200m 95 5
  • 400m 90 10
  • 800m 70 30
  • 1500m/1600m 50 50
  • 3000m/3200m 30 70
  • 3000mSt/5000m 20 80
  • 10k 10 90
  • 20k 5 95
  • Marathon (42k) 0 100

42
TRAINING SPECIFIC ENDURANCE
  • The most specific endurance training is at the
    desired intensity (i.e., pace) of the objective
    event (TD Training Distance).
  • However, for maximum development, you should
    systematically train up to and down to the
    intensity of the objective event.
  • OOD (Over-Over Distance) and OD (Over Distance)
    represents lower intensity but greater duration
    training.
  • UUD (Under-Under distance) and UD (Under
    Distance) represents higher intensity but lower
    duration training.
  • The recommended sequence of formal training (MWF,
    MWSa, or TThSa) over a two week cycle is OOD,
    UUD, OD, UD, TD, and miscellaneous (i.e.,
    competition, simulated competition, or which of
    OOD, OD, TD, UD, or UUD is most needed. See next
    slide for example.

43
SPECIFIC ENDURANCE TRAINING, EXAMPLE
  • If the selected Training Distance is 800m, the
    training objective paces would be sequentially
    at 3000/3200, 200, 1500/1600, 400, and 800
    respectively over a two-week cycle.
  • Assuming the formal training days are TThSa, the
    training objectives and paces would be
  • Days I
    Objective Day Training Event Pace
  • Sunday
  • Monday
  • Tuesday OOD 3000m/3200m
  • Wednesday
  • Thursday UUD 200m
  • Friday
  • Saturday OD 1500m/1600m
  • Sunday
  • Monday
  • Tuesday UD 400m
  • Wednesday
  • Thursday TD 800m
  • Friday
  • 14.Saturday (Miscellaneous)

44
TRAINING SPECIFIC ENDURANCE
  • SELECTING THE OBJECTIVE TRAINING DISTANCE
  • For a given athlete, the Objective Training
    Distance can vary year to year, from season to
    season, or within a season.
  • If the Training Distance is to vary, the athletes
    should train down to up in distance i.e.,
    develop the speed, speed endurance and specific
    endurance to run at the objective pace at the
    shorter distance, then develop the specific
    endurance to extend that pace to the longer
    distance.
  • If an athlete competes in more than one event
    (e.g., 800 1500), the Training Distance should
    be the shorter distance.

45
TRAINING SPECIFIC ENDURANCE
  • OBJECTIVE PACE OF WORKOUTS
  • So that the body will know specifically what its
    supposed to adapt to, the entire workout (i.e.,
    each rep) should be run only at the objective Day
    Training Event Pace.
  • Set recoveries commensurate with the number and
    distance/duration of reps so that the runners
    will naturally run at the objective Day Training
    Event pace when trying to run the total workout
    as fast as possible.
  • The objective workout pace should be faster
    (approximately 3 faster velocity) than the
    current PR in the Training Event for that day.

46
TRAINING SPECIFIC ENDURANCE
  • WORKOUT VOLUMES
  • The total distance/duration, at the objective
    Training Event pace, for the workout should be
  • Training Distance Multiple Total
    Distance
  • 25m 8X 200m
  • 50m 6X 300m
  • 100m 5X 500m
  • 200m 4X 800m
  • 400m 3X 1200m
  • 800m 2.5X 2000m
  • 1500m/1600m 2.25X 3600m
  • 3000m/3200m 2X 6000m
  • 3000mSt/5000m 1.75X 9000m
  • 10k 1.5X 15k
  • 15k 1.5X 22.5k
  • 20k 1.5X 30k
  • Approaching major competitions (e.g., State HS
    Meet, National Championships), to assure full
    recovery/adaptation from any accumulated stresses
    (physical and/or psycho-social), volumes should
    be reduced to approximately 75 and 50 the last
    two weeks prior.

47
TRAINING SPECIFIC ENDURANCE
  • TRAINING TYPES
  • To allow for a variety of training, to
    accommodate/train other aspects (e.g.,
    psycho-social stresses, race strategies), and yet
    meet the aforementioned requirements and get the
    same training effects, workouts should be broken
    down by Training Types. Example workouts for
    different Training Types, for a 1500/1600 as the
    Training Event for the day (therefore,
    approximately 3600m total distance), are
  • SAMPLE WORKOUTS BASED ON DISTANCES
  • Training Type Sample Workout
  • Short Intervals 36 X 100m, 1 minute recovery
    between reps
  • Medium Intervals 18 X 200m, 2 minutes recovery
    between reps
  • Long Intervals 9 X 400m, 3 minutes recovery
    between reps
  • Step-Ups 100, 200, 300, 400, 500, 600, 700,
    800 4 minutes recovery
  • Step-Downs 800, 700, 600, 500, 400, 300, 200,
    100 4 minutes recovery
  • Step Up-Downs 100, 200, 300, 400, 500, 600,
    500, 400, 300, 200, 100 4 min. bet.
  • Step Down-Ups 500, 400, 300, 200, 100, 200,
    300, 400, 500 3 minutes between
  • Sets-Reps 3 X (4 X 300) 2 minutes between
    reps, 4 minutes between sets
  • SAMPLE WORKOUTS BASED ON TIME
  • Training Type Sample Workout
  • Short Intervals 36 X 15, start on 1X minutes
  • Medium Intervals 18 X 30, start on 2X minutes
  • Long Intervals 9 X 100, start on 4X minutes
  • Step-Ups 15, 30, 45, 100, 115, 130, 145,
    200 4 minutes between

48
REVIEW
  • TRAINING SPECIFIC ENDURANCE
  • (go to SPEED-BASED TRAINING and Specific
    Endurance Training page)

49
ANAEROBIC THRESHOLD TRAINING
  • DEFINITION
  • Anaerobic Threshold (AT) training is continuous
    running at approximately anaerobic threshold
    pace, often referred to as quality distance or
    tempo running.
  • An individuals AT pace is most easily estimated
    by running a known long distance (e.g., 5k for
    800/1500 runner, 10k for a 3000 runner, 15k for a
    5000 runner, 20k for a marathoner) at near
    maximum effort, and then computing the pace.
  • Or AT pace is between 140-160 heart rate for
    highly trained runners, 150-170 for younger and
    less developed individuals.

50
ANAEROBIC THRESHOLD TRAINING
  • IMPORTANCE OF
  • ANAEROBIC THRESHOLD TRAINING
  • While not as important to development as Speed,
    Speed Endurance, and Specific Endurance,
    improving the Anaerobic Threshold does allow the
    athlete to sustain a faster pace without using
    Anaerobic stores, particularly relevant in the
    longer distance races.

51
ANAEROBIC THRESHOLD TRAINING
  • WHERE IN TRAINING PROGRAM?
  • AT training on recovery days
  • 1/2AT on recovery days prior to competitions and
    as morning runs on formal workout days
  • To allow for full recovery-adaptation, the
    duration of AT runs must be controlled.

52
ANAEROBIC THRESHOLD TRAINING
  • AT TRAINING
  • Suggested AT training for various objective
    Training Distance events is AR-AT-AR, where AR is
    the time in minutes of Aerobic running. AT is
    the time in minutes at AT pace.
  • AT TRAINING DURATIONS (minutes)
  • Training Distance AR-AT-AR
    1/2AT
  • 800m 6-6-6 6-3-6
  • 1500m/1600m 6-12-6 6-6-6
  • 3000m/3200m 6-18-6 6-9-6
  • 3000mSt/5000m 6-24-6 6-12-6
  • 10k 6-30-6 6-15-6
  • 20k - Marathon 6-36-6 6-18-6

53
AEROBIC ENDURANCE TRAINING
  • DEFINITION - Aerobic Endurance Training (AR) is
    slow continuous running (generally 110-130 heart
    rate for elite runners, 120-140 for less
    developed) over longer distances.
  • IMPORTANCE OF AEROBIC TRAINING - While not as
    important to development as Speed, Speed
    Endurance, Specific Endurance, and Anaerobic
    Threshold training, properly applied Aerobic
    Endurance training aids warm-up recovery and
    contributes progressively to performances at
    greater distances/durations.
  • PROBLEMS WITH EXCESSIVE AEROBIC TRAINING -
    Because high volumes of long-slow running lowers
    the natural growth hormones in the body, it
    detracts from the development of Speed, Speed
    Endurance, Specific Endurance, and Anaerobic
    Threshold characteristics, and therefore actually
    retards development and causes decreases of
    performances in middle distance and distance
    events.

54
AEROBIC ENDURANCE TRAINING
  • AR TRAINING
  • On formal training days, 6 minutes of AR running
    is recommended as initial warmup for, and final
    warmdown from, workouts for middle distance
    runners, 12 minutes each for distance runners.
  • On recovery days, and morning runs on formal
    training days, athletes will do an additional 6
    6 minutes of AR as a part of their AT training.
  • In addition, Sunday AR runs are suggested as
  • SUNDAY AR DURATIONS
  • Training Distance AR Duration
  • 800m 15 minutes
  • 1500m/1600m 30 minutes
  • 3000m/3200m 45 minutes
  • 3000mSt/5000m 60 minutes
  • 10k 75 minutes
  • 20K - Marathon 90 minutes

55
PUTTING IT ALL TOGETHER
  • SYSTEMATIC TRAINING
  • TRAINING CYCLES

56
SYSTEMATIC TRAINING
  • For adequate stress and recovery (and therefore
    maximum positive adaptation) and to avoid
    negative adaptation (due to lack of stress or
    over-stress), you must train consistently
    according to training cycles.
  • Training cycles are time periods of
    systematically varying physiological and
    psycho-social stress loads.

57
MODELING OF TRAINING CYCLES
  • Training cycles can be modeled via a progressive
    sinusoidal curve as illustrated below.
  • Physical stresses are from the intensity and
    duration of training. Psycho-social stresses are
    from the formality of training, emphasis on and
    level of competition, and outside pressures.
  • Generally, a training cycle includes four phases
  • Active Recovery (AR), a period of low physical
    and low psycho-social stresses, allowing full
    recovery from any residual mental or physical
    fatigue from a previous cycle.
  • Training (TR), a period of high physical and
    moderate psycho-social stresses, providing the
    background for later improvements in
    performances.
  • Build-Up (BU), a period of moderating physical
    stresses and higher psycho-social stresses,
    producing increasingly higher levels of
    performances.
  • Optimum Performance (OP), a period of lower
    physical stresses and maximum psycho-social
    stresses, producing the highest levels of
    performances.

58
TRAINING CYCLES
  • Training cycles apply to segments of a career
    (e.g., high school, college, Olympic
    quadrennial), year, season, 1-2 week periods
    within a season, and 2-3 day periods within a 1-2
    week cycle.
  • The most important training cycle is that of 2-3
    day duration, when a hard training bout (high
    physical stress) is followed by 48-72 hours of
    easy activity to allow full recovery and
    adaptation.
  • The Scientific Principles require that you must
    train all components of performance, targeted to
    the specific demands of the event, within each
    2-3 day cycle. Differences in the hard workouts
    in 2-3 day cycles within each 1-2 week cycle
    allow for training up to and down to the specific
    demands of a given training event.
  • The only difference in training between 1-2 week
    cycles, seasonal cycles, annual cycles is to
    vary psycho-social stresses.
  • (Examples for multi-year, annual, season, 1-2
    week cycles.)

59
1 OR 2 WEEK CYCLES
  • Two week cycles are recommended because they
    provide a greater breadth of specific endurance
    training
  • TWO WEEK CYCLE (assuming formal workouts on
    TThSa)
  • Day Training
    Recovery Days
  • Sunday AR
  • Monday AT
  • Tuesday 1/2AT, OOD
  • Wednesday AT
  • Thursday 1/2AT, UUD
  • Friday AT
  • Saturday 1/2AT, OD
  • Sunday AR
  • Monday AT
  • Tuesday 1/2AT, UD
  • Wednesday AT
  • Thursday 1/2AT, TD
  • Friday 1/2 AT
  • Saturday Competition or OOD, OD, TD, UD, or UUD

60
1 OR 2 WEEK CYCLES
  • One week cycles should be used if major
    competitions are scheduled on consecutive weeks.
  • ONE WEEK CYCLE
  • Day Training Recovery Days
  • Sunday AR
  • Monday AT
  • Tuesday 1/2AT, OD
  • Wednesday AT
  • Thursday 1/2AT, UD
  • Friday 1/2AT
  • Saturday Competition or TD workout

61
DAILY TRAINING ROUTINE
  • To include all necessary development components
    in each formal training session, include the
    following steps in a Daily Training Routine,
    applicable to all track field events. Comments
    will indicate how this routine applies to the
    recommended training program for middle distance
    and distance runner.
  • DAILY TRAINING ROUTINE
  • Warm-Up
  • General Preparation - AR (MD 6 minutes D 12
    minutes)
  • Specific Preparation - Dynamic Leadups
  • Specific Event Preparation (included in AR and
    Dynamic Leadups)
  • Technique Training (included in Dynamic Leadups)
  • Power Training (included in Dynamic Leadups)
  • Specific Anaerobic Aerobic Endurance Training
  • Specific Warm-down - AR (MD 6 minutes D 12
    minutes)
  • Strength Training - strength training program
    consistent with rest of training
  • Initiation of recovery adaptation (eat!!, cold
    bath, massage, static stretching, etc.)

62
REVIEW
  • DESIGNING WORKOUTS
  • Setting Annual and Seasonal Cycles
  • Date
  • 1or 2 Week Cycle
  • Week In Cycle
  • Training Days (MWF, MWSa, TThSa)
  • Training Event
  • Pace Objective (OOD, OD, TD, UD, UUD, etc.)
  • Workout Type
  • Train By Distances or Times
  • DAILY WORKOUT
  • ONE/TWO WEEK CYCLE
  • (Go to TF TRAINING, and demonstrate each)

63
EXPECTED RESULTS From Speed Speed Endurance
Specific Endurance Based Training Program
  • EVENT- TIME PROJECTIONS PACES
  • (Go to SPEED-BASED TRAINING and Event-Time
    Projections and Paces

64
EVENT- TIME PROJECTIONS PACES
  • Project from 30m up if run specific time, with
    proper Speed Speed Endurance Specific
    Endurance Based Training, can run projected times
  • Look at specific times at 800m, 1500m, 1600m,
    3000m, 3200m, 3000 Steeple, 5000, 10k, and
    Marathon and see Speed required to achieve these
    levels
  • Interpretation of projections
  • If shorter distance times are better than longer
    distance times - natural propensity toward speed
    vs. endurance AND/OR training has been more
    oriented toward speed vs. endurance. Message -
    maintain speed training, place greater emphasis
    on speed endurance and specific endurance
    training to get better distance times
  • If longer distance times are better than shorter
    distance times - natural propensity toward
    endurance vs. speed AND/OR training has been more
    oriented toward endurance vs. speed. Message -
    maintain specific endurance training place
    greater emphasis on speed and speed endurance
    training to get even better distance times

65
GRAND SUMMARY
  • TO GET MAXIMUM RESULTS FROM YOUR MIDDLE DISTANCE
    DISTANCE PROGRAM, USE A SPEED SPEED ENDURANCE
    SPECIFIC ENDURANCE BASED TRAINING PROGRAM.
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