How We Get the Energy to Run

Energy System Characteristics
System	Power (rate of ATP production)	Capacity (total ability to produce ATP)	Fuels Used
Phosphagen System	Very High	Very Low	creatine phosphate stored ATP
Glycolysis	High	Low	blood glucose muscle & liver glycogen
Aerobic System	Low	Very High	blood glucose muscle & liver glycogen adipose & intramuscular fat

Fat, which is stored as triglyceride in adipose tissue underneath your skin and within skeletal muscles (called intramuscular triglyceride), is the other major fuel for the aerobic system, and is the largest store of energy in the body. When using fat, triglycerides are first broken down into free fatty acids and glycerol (a process called lipolysis). The free fatty acids, which are composed of a long chain of carbon atoms, are transported to the muscle mitochondria, where the carbon atoms are used to produce acetyl CoA (a process called beta-oxidation). Following acetyl CoA formation, fat metabolism is identical to carbohydrate metabolism, with acetyl CoA entering the Krebs cycle and the electrons being transported to the electron transport chain to form ATP and water. The oxidation of free fatty acids yields many more ATP than the oxidation of glucose or glycogen. For example, the oxidation of the fatty acid palmitate produces 129 ATP. No wonder you can sustain an aerobic activity longer than an anaerobic one.

More: 3 Long-Run Principles to Remember

Understanding how energy is produced for physical activity is the basis for getting the most out of your workouts. So, next time you get done with a workout and think, "I have a lot of energy," you'll know exactly where you got it.

Energy System Workouts

Be sure you warm-up and cool-down before and after each workout.

Phosphagen System:
Short, very fast sprints lasting 5 to 15 seconds with 3 to 5 minutes rest between each. The long rest periods allow for complete replenishment of creatine phosphate in the muscles so it can be reused for the next interval.

2 sets of 8 x 5 seconds at close to top speed with 3:00 passive rest & 5:00 rest between sets
5 x 10 seconds at close to top speed with 3:00-4:00 passive rest

Glycolysis:
Fast intervals lasting 30 seconds to 2 minutes with an active recovery period twice as long as the work period (1:2 work-to-rest ratio).

8-10 x 30 seconds fast with 1:00 active recovery
4 x 1:30 fast with 3:00 active recovery

Aerobic System:
While the phosphagen system and glycolysis are best trained with intervals since those metabolic systems are only emphasized during high-intensity activities, the aerobic system can be trained with both continuous exercise and intervals.

60 minutes at 70 to 75 percent max heart rate
15- to 20-minute tempo run at lactate threshold pace (about 80-85 % max heart rate)
5 x 3:00 at 95 to 100 percent max heart rate with 3:00 active recovery

More: Should You Run More Miles?

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How We Get the Energy to Run

Energy System Workouts

Jason R. Karp, Ph.D.

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