1. Introduction to Nutrition for Exercise and Health
chapter 1
Physiology of Aerobic & Anaerobic Exercise
Introduction to Nutrition for Exercise and Health
Prof Jennifer Broxterman, RD, MSc
FN3373: Nutrition for Physical Activity
Lecture 2
Author name here for Edited books

2. What Fuels Physical Activity?

3. ATP

4. Hydrolysis of ATP

5. ATP & Energy Use by Exercising Muscles

6. Rephosphorylation of ADP to Form ATP

7. Energy Systems that Replenish ATP
Creatine
Phosphate
Anaerobic
Glycolysis
ATP
Oxidative
Phosphorylation

8. Characteristics of the 3 Energy Systems
Speed of Action
Amount of ATP Replenished
Duration of Action
Creatine Phosphate
Very Fast
Very Small
Very Short
Anaerobic Glycolysis
Fast
Small
Short
Oxidative Phosphorylation
Very Slow
Large
Very Long

9. Energy System 1
Creatine
Phosphate

10. Creatine Phosphate Energy System

11. The CrP Energy System Rephosphorylates ADP to ATP Rapidly
Anaerobic reaction
If [ATP] in a muscle ↓ there is an accompanying ↑ in ADP in the cell
↑ in the activity of CK, allowing the reaction to proceed faster
CrP is stored in very small amounts
At very high-intensity exercise it takes ~ 5-10 seconds for CrP in the muscle to be depleted and fatigue to set in

12. Characteristics of the CrP Energy System
One chemical step
Catalyzed by creatine kinase (CK)
Very fast reaction
One ATP per CrP molecule
5-10 second duration
Anaerobic
Fatigue associated with CrP depletion
Predominant energy system in very high-intensity exercises (power events)

13. Creatine Phosphate & ADP Rephosphorylation

14. The Creatine Shuttle

15. Energy System 2
Anaerobic
Glycolysis

16. 2 Pyruvic Acid molecules
Glucose
GLYCOLYSIS
2 ATP
2 Pyruvic Acid molecules
Anaerobic Metabolism
Aerobic Metabolism
If Oxygen is Present
If Oxygen is Absent
36-38
ATP
Lactic Acid
CO2 + H2O

17. The Anaerobic Glycolysis Energy System

18. Anaerobic Glycolysis

19. Cori Cycle

20. Energy System 3
Oxidative
Phosphorylation

21. 2 Pyruvic Acid molecules
Glucose
GLYCOLYSIS
2 ATP
2 Pyruvic Acid molecules
Anaerobic Metabolism
Aerobic Metabolism
If Oxygen is Present
If Oxygen is Absent
36-38
ATP
Lactic Acid
CO2 + H2O

22. Cellular Respiration Overview
C6H12O O CO H2O + Energy
(glucose) (heat and ATP)
The energy in one molecule of glucose yields 36 ATP
Aerobic respiration involves a series of 3 reactions:
Glycolysis
Krebs Cycle
Electron Transport Chain

23. Glycolysis

24. Oxidative Phosphorylation Energy System

25. Glycolysis, Krebs Cycle, Electron Transport Chain of Oxidative Phosphorylation

27. Macronutrients as Fuel Sources during Exercise

29. Beta Oxidation

30. Respiratory Exchange Ratio

31. Respiratory Exchange Ratio

32. Respiratory Exchange Ratio

33. RER Chart