What are the benefits of the FIVE heart rate zones?

Training zones and physiological adaptations

• Each training zone elicits different physiological adaptations on the human body.
• These physiological adaptations include improved cellular fitness, heart fitness, lung capacity, VO2max, and more.
• Each zone has specific effects meaning that spending time in it will improve only a specific set of these systems and not everyone.
• As a result, when one is looking to get the most out of their cardio training by targeting specific weaknesses their body faces, following a training program with accurate training zones is essential.
• For example, spending a specific period in zone 2 is the essential part of a training program if one is looking to improve their fat burning efficiency.
• If this person hasn’t measured their personalized training zones and instead of training in Zone 2 they’re actually training in Zone 3; they may be getting as much as 40% less positive adaptation in enhancing their fat burning capacity.

The five zones system is the most frequently used one, accurately capturing the difference in metabolic states while remaining practical enough for everyday usage.

Each zone is used for a different purpose as it inflicts different metabolic adaptations on your body. Here are the adaptations each zone will affect:

Zone 5 = Sprint Intervals 10-30 seconds 

• Improves VO2max
• Enhances fat-burning efficiency and good cellular condition
• Increases fatigue threshold
• Feels impossible to continue, completely out of breath, unable to talk
• Short intervals = SPRINT INTERVAL TRAINING but must properly recover in ZONE 1 before starting next sprint interval (as for all intervals)
• Short, intense SPRINT intervals = very fast bouts of intense physical activity where your goal for every set is to get and stay in the highest end of zone 5 for approximately 30 seconds and then recover in zone 1 for 60 seconds .
• Your work and recovery time begin when you enter zone 5 and 1, respectively.
• Zone 5 training will improve your VO2max and peak power output capability (e.g. maximum speed or cycling wattage).
• This exercise intensity is sustainable for 60 to 120 seconds and requires one to train at full potential

 

Zone 4 = High Intensity Intervals 1-5 minutes

• Increases fatigue threshold
• Increases anaerobic threshold
• Improves VO2max
• Difficult to maintain exercise intensity, hard to speak more than a single word
• Heavy endurance
• Medium Intervals = short bouts of intense physical activity where your goal for every set is to get and stay in the lower end of zone 5, top of zone 4, for 1 to 4 minutes, depending on your fitness level, and then recover in zone 1 for the same time as your work duration .
• Your work and recovery time begin when you enter zone 4 and 1, respectively.
• Zone 4 training will help improve your VO2max and ability to sustain high-intensity exercise for prolonged durations by improving lactate shuttling.
• Lactate is a byproduct of anaerobic metabolism, which can also be used as fuel by your muscles.
• For as long as your body can clear fatigue byproducts faster than their being produced, the exercise intensity remains sustainable.
• As a result, the greater your lactate shuttling capability the greater your ability to sustain high exercise intensities for long periods.

Zone 3 = Tempo longer intervals 

• Improves heart fitness
• On the verge of becoming uncomfortable, short of breath, can speak a sentence
• Long intervals, Medium endurance
• They are long bouts of medium intensity where the goal for every set is to get and stay in lower zone 4/top of zone 3 for approximately 10 minutes and then recover in zone 1 for about 5 minutes .
• Your work and recovery time begin when you enter zone 4 and 1, respectively.
• Zone 3 training can help strengthen your pulmonary muscles and improve cardiovascular function.
• It’s an ideal intensity when suffering from a lung or heart problem since its moderate- intensity offers a solid stimulus to the heart and lungs without being exhausting or overly strenuous.

Lactate, also known as lactic acid, is a compound that plays a crucial role in energy metabolism, particularly during exercise. It is produced in the body through a process called anaerobic glycolysis, which occurs when there is an insufficient supply of oxygen to meet the energy demands of the cells.

Here’s a simplified explanation of how lactate is produced and metabolized during exercise:

1. Glycolysis: During intense physical activity, the body needs to generate energy quickly. Glycolysis is the process by which glucose, a sugar derived from carbohydrates, is broken down into pyruvate. This process occurs in the cytoplasm of cells and doesn’t require oxygen.
2. Lactate Formation: Under conditions of high energy demand, when oxygen availability is limited (anaerobic conditions), pyruvate is converted into lactate by the enzyme lactate dehydrogenase. This allows for the regeneration of nicotinamide adenine dinucleotide (NAD+), which is essential for sustaining glycolysis.
3. Energy Production: While glycolysis itself produces some ATP (adenosine triphosphate), the primary energy currency of cells, the conversion of pyruvate to lactate allows glycolysis to continue. Lactate can be used as a fuel source for energy production in certain tissues, such as the heart and skeletal muscles.
4. Lactate Clearance: Lactate is not a waste product; it can be cleared from the bloodstream and converted back into pyruvate in the liver. The Cori cycle is a process where lactate produced in muscles is transported to the liver, converted back to glucose through gluconeogenesis, and released back into the bloodstream for use by muscles.

Contrary to the misconception that lactate causes muscle soreness, it is actually a beneficial process that helps the body maintain energy production during intense exercise. The “lactate threshold” is the point at which the production of lactate exceeds its clearance, leading to an accumulation in the bloodstream. This threshold is often associated with the onset of fatigue during exercise.

In summary, lactate is a key player in energy metabolism, particularly during high-intensity exercise. It serves as an important intermediate in the process of generating ATP and can be efficiently cleared and recycled in the body.

Zone 2: long steady distance 

• Enhances fat burning efficiency and good cellular condition
• Improves recovery capacity
• Feel like you can exercise for long periods of time, able to to talk and hold short conversations
• Base training
• Develops your mitochondrial function and improve your fat-burning efficiency.
• It’s highly recommended for long-range endurance sports and individuals suffering from metabolic syndrome (e.g. Type II Diabetes).
• The improved mitochondrial function will also significantly support recovery capacity helping you to recover faster after intense bouts of exercise.

Zone 1: Recovery from intervals 

• Recovery
• Feels like you can maintain this intensity for hours, easy to breath and carry on a conversation
• Recovery zone when doing Z5 sprints or Z4 HIIT or Z3 Tempo pieces
• Training intensity is typically used for warmup or active recovery (i.e. recovering from intense exercise while moving).

Training Zones and their importance in Health and Performance