Title: Energy Pathways, Training Theory and Recovery Processes Author: jwing Last modified by: jwing Created Date: 11/14/2003 5:58:03 PM Document presentation format – PowerPoint PPT presentation
These activities are sport specific and allow power to be developed
19 Exam question June 2003
Sprinters and endurance athletes train to delay a particular energy pathway from becoming the dominant energy provider.
i) Identify the energy pathway and state why both types of athlete seek to delay it. (3 marks)
20 Answer
The pathway that they seek to delay is the Lactic Acid/Anaerobic Glycolysis Energy Pathway.
Why ?
The sprinter can work harder/faster/longer in the ATP-PC pathway.
The endurance athlete can work longer/harder and more efficiently in the Aerobic energy pathway
The adverse effects of the Lactic acid pathway cause the muscles to stop contracting (remember the Sliding Filament Theory and LA stops Ca2 binding to the Active sites on the Actin Filaments which stops the Myosin Rods from forming a cross-bridge)
21 Question
Explain how the 2 different athletes might achieve this.
Sprinter
Increase stores of ATP and PC by increasing muscle size/space to the phosphagens (HYPERTROPHY)
Regular training will deplete these store and supercompensation may occur
2. Endurance athlete
Increase VO2 Max by increasing the bodys ability to USE air/improve CV efficiency
Train just above the AnaerobicThreshold
22 800m requirements
Speed
High levels of CV endurance
Ability to tolerate high levels of LACTATE
Muscular endurance
23 Energy Continuum
There are 3 ways of providing energy for muscular contractions
ATP-PC
Lactic Acid
Aerobic
Duration and intensity of exercise determine how we resynthesise ATP
24 How do we generate energy for 800m?
An elite male 800m runner takes 1min 45 secs to run 800m
The ATP-PC pathway cannot be used
The LACTIC ACID pathway has to be utilised
25 The Lactic Acid Pathway(Anaerobic Glycolysis)
ATP ADP P Energy
Glycogen ADP ATP Pyruvic Acid
The breakdown of glycogen is called Glycolysis and causes Pyruvic Acid and H ions to be formed
These H ions need to be removed because a build up causes muscle cells to become acidic and interferes with muscle function
Carrier molecules called NAD and FAD will remove the H ions to the ETC only if oxygen is available
H ions build up and are accepted by the Pyruvic Acid to form LACTIC ACID and affect muscle function
26 800m training guidelines
Need to generate Lactic Acid
Then develop tolerance to lactic acid
By training when lactic acid is present in the muscles
Any intense prolonged exercise will cause a build up of lactic acid
27 800m training sessions
4 x 600m _at_ target race time pace
3 x 800m _at_ 10 slower than target time
2 x 1000m
Recoveries are long enough to allow HR to drop but not for lactic acid to fully clear
28 Recovery from 800m training
ATP and CP regenerate after 3-5 mins
Clearing Lactic Acid can take up to an hour (cool down can assist)
29 Excess Post-exercise Oxygen Consumption
Oxygen Deficit the difference between oxygen consumed during exercise and the amount that would have been consumed had AEROBIC metabolism been reached immediately
30 Factors contributing to EPOC
Lactate removal
Resynthesis of ATP and CP
Elevated body temp
Elevated hormones
Post exercise elevation of HR and breathing
Restoration of muscle and blood oxygen
31 The 2 components of EPOC
1.Fast Alactic component
50 of PC is restored in 30 secs
75 in 60 secs
100 within 3 mins
32 2 components of EPOC
2. Slow Lactacid component
Clearing Lactic Acid
70 is oxidised
20 is converted to glucose
10 is converted to protein
This can take an hour
33 Adaptations to high intensity exercise
Strength training can lead to HYPERTROPHY of muscles
There is an increase in the rate of GLYCOLYSIS due to increased level of enzymes. More lactic acid can be produced
Increases in PHOSPHOCREATINE and GLYCOGEN stores in the muscles
8 weeks of anaerobic training shows an increase in muscle buffering capacity by 12-50. The trained athlete can cope with high levels of lactic acid because the H ions are buffered
34 Marathon Requirements
High levels of CV endurance
Very high VO2 Max
High level of muscular endurance
Determinaton
35 How do we generate energy to run a Marathon?
Elite male runner take 2hrs 10 mins, elite female 2hrs 20 mins
This is a long time to maintain muscular contractions
Exercise intensity is relatively low and is AEROBIC
36 Aerobic Energy Pathway
ATP ADP P Energy
Glycogen ADP ATP Pyruvic Acid
Glycolysis causes a build up of H ions and because oxygen is available the NAD and FAD carriers are able to transport the H ions into the ETC where carbonic acid is formed.
Carbonic acid is unstable and breaks down to form carbon dioxide and water (this is breathed out during exercise)
37 Energy Yields from each pathway
ATP-PC gives 2 ATP
Lactic Acid (Krebs Cycle) 2 ATP
Aerobic gives 34 ATP
Therefore if the Aerobic Pathway is utilised an athlete can exercise for longer (at a lower intensity)
38 How to train for the Marathon
Lots of running!
Up to 100 miles per week
Different types of sessions
Early morning to utilise fat stores (Glycogen sparing)
39 Running Sessions for Marathon
Speed sessions
10 x 600m _at_ 5K pace
10 x 400m _at_ 5K pace
4 x 2000m _at_ 10K pace
40 Other Marathon sessions
Longer runs
10 miles
15 miles
20 miles
Often early morning runs with the speed sessions in the afternoon
41 Recovery from Marathon training
Re-hydrate 60 of our body is made up of water
Replenish Glycogen stores
It may take 24 hrs to fully replenish glycogen stores (implications for structuring training intensity)
42 Adaptations to Aerobic Training
Capillarisation
More motochondria
Glycogen and myoglobin stores increase
Increased ability to mobilise fat as a fuel and a drop in lactate production
Increase in blood volume, stroke volume and Cardiac Output (Q SV x HR)
Better utilisation of oxygen
There is an increased ability to work at a higher of VO2 Max without reaching lactate threshold
43 PERIODISATION
Dividing an annual plan into smaller manageable blocks
MACRO cycles
MESO cycles
MICRO cycles
44 A Single Periodised Year 45 Periodisation
This concept allows athletes to cycle their training to maximise improvements
Blocks of hard work are followed by blocks of easier training
This approach ensures that each successive peak is higher and fitness improves leading to a competitive peak such as an Olympic Games or World Championships
46 Energy Continuum 47 Question
Identify an athletic race that falls midway on the continuum. Explain the reason for its position and the energy pathways that would predominate during the different stages of the race.
(Unit 6 June 2003)
48 Answer
1500m
All 3 energy pathways are predominate at different stages
It is considered as being equally aerobic/anaerobic
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