Energy Systems
ATP-PC
Fuel: PC
Intensity: Max, >95%
Duration: 1-10 secs (dominant 1-5)
Yield: LOW (0.8-1 ATP)
Rate: Fastest
Fatigue: Fuel depletion or metabolic by-product
Recovery: Passive (3-10 minutes)
Sporting Examples: Shot put, sprinting, jumping
Aerobic
Fuel: Glycogen (glycolysis) or Lipids (lipolysis)
Intensity: Submax <85% or rest
Duration: 60 seconds+
Yield: High (glycogen - 38 and fats - 100+
Rate: Glycolysis (moderate) and Lipolysis (slow)
Fatigue: Fuel depletion, increased body temp and neuromuscular events
Recovery: Food, cool down and rest
Sporting examples: marathon, recovery time in sport, long duration
Anaerobic Glycolysis
Fuel: Glycogen (NO O2)
Intensity: High, >85%
Duration: Up to 60 secs, used for repeated efforts
dominant 5-30 secs
Yield: 2 ATP
Rate: Fast
Fatigue: Metabolic By-products (lactic acid/H+)
Recovery: Active
Sporting examples: 400m sprint, repeated efforts in basketball, 100m freestyle
Interplay
Energy systems work together to resynthesize ATP
Each are dominant/predominant at different times depending on:
- Intensity
- Duration
- Fatigue
- Recovery time
Fatigue and Recovery
Fatigue
Fuel Depletion (ATP-PC and Aerobic Glycolysis):
No more fuel is left to resynthesis ATP
Need to rely on next energy system = Slower
Metabolic By-products (Anaerobic glycolysis and ATP-PC):
a by-product from ATP resynthesis with no oxygen that disrupts muscle function
Can be H+ (hydrogen ions) or Pi and ADP
H+ increases acidity of muscles which disrupts/weakens contraction
Build up of Pi or ADP interfers with muscle contraction
Contractions are weaker = less force
Need to slow down to use oxygen = slower
Increased body temperature
Can lead to sweating = decrease in plasma = heart has to work harder
Blood is redistributed to the surface of skin and away from working muscles where its needed (oxygen and nutrients)
Neuromuscular Events
Brain sends weaker signals or less signals in attempt to weaken or stop muscle contraction = have to stop or slow down
Recovery
Active: Keeping heart rate and breathing rate above rest to ensure more oxygen is being consumed and transported to working muscle for recovery
Anaerobic Glycolysis
Passive: remaining still to restore PC
ATP-PC
Acute reposnes
Respiratory
(get more oxygen into the body)
Increase Tidal Volume: Size of breathe
Increase Respiratory Rate: Breathes per minute
Increase Ventilation: Amount of oxygen breathed in and out per minute
Increase diffusion: Amount of O2 moved from lungs to blood
Muscular
(resynthesize ATP for movement
Increased motor unit recruitment: motor units and neurons; messages sent from brain to create muscular contraction
Decrease fuels: Fuels are used to resynthesize ATP
Increase muscle temperature: due to the reactions of creating energy
Increase Lactate production: due to breaking down fuels for energy
Cardiovascular
(transport more blood around the body)
Increased Heart rate: beats per minute
Increased Stroke volume: amount of blood pumped out per beat
Increased distribution to muscles: more blood delivered to muscles
Increased blood pressure: blood is pumped harder out of the hard
Increased AVO2 difference: the amount of oxygen taken in by the muscles
Decrease blood plasmae: The water component of blood - due to sweating
Increased venous return: blood coming back to heart
Oxygen Consumption
Steady state:
- Oxygen supply MEETS oxygen demand
- Aerobic System
Oxygen debt or EPOC:
- At the end of exercise
- Oxygen supply is GREATER then demand to restore the body
- Aerobic system
Oxygen deficit:
- usually at the onset of exercise or when there is an increase in intensity
- Oxygen supply DOES NOT meet demand
- Anaerobic Systems
Lactate Inflection Point
Intensity where lactate production exceeds removal
Athletes would train above LIP to allow for adaptations to occur for them to increase their LIP
Greater LIP allows the athlete to work at greater intensities using aerobic system
Energy Systems, Fatigue and Recovery
Energy Systems
Anaerobic
INFORMATION
Aerobic
INFORMATION
Recovery
Active
Nutrition
INFORMATION
Fatigue
Metabolic by-products
Fuel depletion
INFORMATION
Increase body temp