Author: Kurt Madden

by Kurt Madden and Terry VanderWert

Introduction

“I’m 77 and have been doing tri since age 63. VO₂max info that is specific would be helpful. Research suggests that one can’t really increase it as we age. Hanging onto what we’ve got seems to be the objective.”

That request from a reader is a smart and practical way to frame it. With aging, we rarely regain the VO₂max of our youth, but smart training and lifestyle choices can significantly slow the decline. In fact, many masters athletes manage to maintain impressive aerobic capacity well into their 70s and beyond.

In this post, we will discuss (1) what VO₂max is and how it typically changes, (2) the physiological causes of decline (with distinctions between men and women), and (3) evidence-based strategies to blunt that decline, tailored for women and for men. We close with a selection of research papers you can link to for deeper dives.

What Is VO₂max?

VO₂max (maximal oxygen uptake) is the maximum rate at which your body can take in, transport, and use oxygen during intense exercise. It’s a well-accepted benchmark of cardiorespiratory fitness and endurance potential, that is the product of the amount of blood the heart pumps and the amount of oxygen our muscles extract. This product is often normalized by body weight to yield values reported in the technical literature.

For those interested in the calculation, here is the definition in the form of an equation:

• VO₂max = (CO – (C_a – C_v))/W (units: mL·kg^-1·min^-1), where
  • CO = Cardiac Output typically measured in Liters per minute (L/min), which represents the volume of blood the heart pumps per minute.
  • C_a = Amount of oxygen (in milliliters of oxygen per 100 milliliters of blood) in arterial blood
  • C_v = Amount of oxygen (in milliliters of oxygen per 100 milliliters of blood) in venous blood
    • NOTE: The value of C_a – C_v is the amount of oxygen removed from the blood as it passes through the muscles and internal organs.
  • W = Weight of the individual in kilograms (kg)

Measuring VO₂max

There are two primary ways to measure VO₂​max: the highly accurate, but more involved, Gold Standard, and the accessible, real-world field tests.

The Gold Standard is a VO₂​max lab test performed in a clinical setting under the supervision of medical or exercise professionals. It involves running on a treadmill or cycling on a stationary bike while wearing a tight-fitting mask that directly analyzes the oxygen you breathe in versus what you breathe out (indirect calorimetry). This method provides the most accurate number, making it the preferred choice for elite athletes, clinical diagnostics, and precise exercise prescription. However, it requires specialized, expensive equipment, is time-consuming, and demands exercising to exhaustion, which isn’t suitable for everyone.

A more accessible approach for determining VO₂​max for active older athletes involves a 1.5-Mile Run Test (also known as the Cooper test, developed by Dr. Kenneth Cooper). With this test, the athlete plugs their time to run 1.5 miles into a scientifically validated equation.

While not as precise as the lab test, this field test is easy to administer, requires minimal equipment, and provides a repeatable benchmark for tracking fitness improvement over time. Other field tests to estimate VO₂​max, including a walking test, may be more appropriate for those just beginning to train for triathlon or other multisport endurance events.

How VO₂max Changes With Age and Sex

The reader’s comment at the beginning of this post suggested a tendency for VO₂max to decline with age, which is generally the case.

General Decline With Age

As we get older, our VO₂max gradually decreases. For adults who are mostly sedentary, this drop averages about 10 percent per decade after the age of 25 or 30, or roughly 1 percent per year.

Studies that have tracked men and women over many years show a fairly wide range in how much VO₂max declines. On average, men lose about 0.4 to 0.5 milliliters of oxygen per minute per kilogram of body weight each year, while women tend to lose around 0.2 to 0.35. These numbers can vary depending on how active a person remains and how VO₂​max is determined.

Research from long-term projects such as the Baltimore Longitudinal Study shows that the decline becomes more noticeable later in life, especially after age 70. People who stay active experience much smaller drops than those who become less active. In fact, well-trained older athletes often see only about half the decline of sedentary adults—about 5 percent per decade instead of 10 percent.

It’s also important to note that the decline is not perfectly linear. It often accelerates when training volume or intensity decreases or when health conditions limit activity. Additionally, studies that compare younger and older people at one point in time (called cross-sectional studies) usually underestimate the true rate of decline seen in long-term (called longitudinal) studies that follow the same individuals over decades.

Overall, while the average adult can expect a 5–10 percent drop in VO₂max per decade, consistent exercise—especially aerobic and strength training—can greatly slow this decline and help maintain a higher level of fitness into the later decades of life.

Differences in Decline Between Men and Women

At any given age, women’s VO₂max values are typically about 15–30 percent lower than men’s. This is believed to be a result of men’s larger hearts, greater blood volume, and higher hemoglobin levels. However, as both men and women age, the pattern of change in their VO₂max declines differs slightly. As pictured in the chart below, some research shows that men may experience a steeper decline than women. Because of this, the gap between men’s and women’s VO₂max values often narrow in the later decades of life. (The lower decline by age decade for women closes the gap between the initially higher values for men.)

Causes for VO₂max Decline With Age?

The gradual decline in VO₂max that comes with aging results from several physiological changes affecting both how much oxygen the heart and lungs can deliver and how efficiently the muscles can use it. These changes happen in everyone, but the reasons and patterns differ slightly between men and women.

Central (Heart and Circulatory) Factors

One major reason VO₂max decreases with age is that the cardiovascular system becomes less efficient at pumping and distributing oxygen-rich blood. The maximum heart rate—the fastest your heart can beat—drops by about five to ten beats per decade. This limits the overall cardiac output, or the total volume of blood the heart can deliver per minute.

As the heart and blood vessels age, they also become less elastic. The heart’s ability to fill and contract strongly during intense exercise declines, and arteries become stiffer, which reduces blood flow. Even in highly trained athletes, these central changes gradually lower the body’s ability to move oxygen from the lungs to the working muscles.

Peripheral (Muscular and Metabolic) Factors

At the same time, changes occur in the muscles themselves. With age, most people lose muscle tissue, a process known as sarcopenia. This reduces the amount of “machinery” available to use oxygen during exercise.

Mitochondria—the energy-producing parts of cells—also decrease in number and efficiency, meaning muscles can’t generate energy as effectively as before. Capillary density within the muscles tends to decline, so less oxygen is delivered to each fiber. Fat tissue can infiltrate muscles, reducing their quality and function.

Together, these changes make the muscles less capable of extracting and using oxygen even when it is available.

Differences Between Men and Women

As people age, both men and women experience a decrease in VO₂max, but the main reasons for this decline tend to differ between the sexes. For men, the drop in VO₂max is mostly tied to the heart’s reduced ability to pump blood and deliver oxygen throughout the body. Men typically start with higher VO₂max values because they have larger hearts, more blood volume, and higher hemoglobin levels to help carry oxygen. As they age, these heart and blood-related factors tend to diminish the most, leading to a greater absolute loss in VO₂max.

Women, on the other hand, are more affected by changes in their muscles as they age. The loss of muscle mass, as well as the muscles’ ability to extract and use oxygen, plays a bigger role in their declining VO₂max. After menopause, hormonal shifts—like a drop in estrogen and testosterone—cause blood vessels to become less flexible and make it harder for the body to grow new capillaries. This limits oxygen delivery to muscles and speeds up muscle loss and the drop in mitochondrial function, which means muscles become less efficient at using oxygen.

Even though women’s VO₂max values are generally lower than men’s, most of this difference can be explained by differences in body composition, especially muscle mass. When VO₂max is adjusted for the amount of lean muscle—especially in the legs—the gap between men and women narrows a lot. In fact, by late life, the difference between men’s and women’s VO₂max becomes smaller, partly because men’s cardiac output declines more steeply, while muscle-related changes dominate in women.

The Bottom Line

In summary, men are more likely to see VO₂max fall due to heart and blood changes, while for women, the main causes are loss of muscle and reduced muscle quality combined with hormonal changes. Despite these differences, staying active with endurance and strength training is key for both sexes to slow down these age-related declines and minimize the VO₂max gap.

Next, we’ll show how we can use this knowledge to tailor training for the older male and female triathletes.

Strategies to Slow the Decline in VO₂max

As we have just stated, the decline in VO₂max that comes with age is real—but it’s far from inevitable. Research shows that the rate of decline can be cut nearly in half through consistent training and healthy lifestyle choices. Even into the 70s and 80s, both men and women can improve or maintain much of their aerobic capacity.

Below are the most effective, science-supported strategies for preserving VO₂max, followed by specific guidance for men and women.

Universal Strategies for Men and Women

1. Keep Moving—Consistency Is Everything

The single most important factor in slowing VO₂max decline is maintaining regular aerobic activity. People who stop training often lose VO₂max rapidly, but those who continue—even at lower intensity—keep much more of their capacity. Activities such as swimming, cycling, brisk walking, and running all count. The key is to stay consistent year-round.

2. Include a Mix of Intensities

Research shows that a blend of steady, moderate workouts and occasional higher-intensity intervals provides the best results. Intervals—short bouts of harder effort followed by recovery—stimulate the heart, lungs, and muscles in ways steady exercise alone cannot. Even one or two short interval sessions per week can help preserve aerobic power.

3. Maintain Mobility, Stablity, and Muscle Strength

Because muscle loss contributes directly to lower VO2max, strength training is essential. Two or three sessions per week that focus on major muscle groups—especially the legs, hips, and core—can preserve muscle quality and improve endurance performance. Bodyweight, resistance bands, light weights, and yoga all work if used consistently and progressively.

Additionally, it is imperative to start with mobility and stability exercises prior to adding additional load or weight to ensure you have a solid framework.

Related post: My Experience with Mark Allen’s Strength Training for Triathletes

4. Allow for Recovery and Adaptation

Older athletes need more recovery time between demanding workouts. Adequate rest, good sleep, and attention to early signs of overtraining help prevent setbacks. Think of recovery as part of training, not as time off.

Furthermore, easy walking sessions can be viewed as active recovery, as compared to passive recovery, and can be a big bonus.

5. Fuel and Hydrate Well

Adequate protein intake (around 1.2–1.6 grams per kilogram of body weight per day) supports muscle repair and growth. Staying hydrated and consuming enough calories also help the cardiovascular system function effectively. Proper nutrition ensures that the body has the raw materials it needs to adapt positively to exercise.

Related post: What Masters Athletes Need To Know About Nutrition

6. Track and Adjust

Periodic testing—whether through a lab VO2max test, a fitness tracker estimate, or even time trials—can show how your fitness is changing. Monitoring helps you adjust training volume or intensity before a small dip turns into a long-term loss. Testing on a monthly or quarterly basis should be of great benefit.

Strategies Specifically for Men

For men, the primary goal is to maintain cardiac strength and blood delivery.

• Continue doing moderate-to-vigorous aerobic training several days each week.
• Include intervals or tempo workouts that elevate heart rate and stimulate stroke volume.
• Combine aerobic training with strength training to preserve lean muscle and testosterone levels, both of which support oxygen transport.
• Ensure adequate protein and nutrient intake to support muscle repair and maintain energy levels.
• Monitor recovery carefully—higher intensity brings benefits, but only when balanced with sufficient rest.

Strategies Specifically for Women

For women, the focus should include maintaining muscle quality and supporting hormonal balance.

• Pair regular aerobic training with frequent resistance work to prevent muscle loss and keep mitochondria active.
• Because estrogen decline affects vascular flexibility and oxygen delivery, aim for a variety of activities—cycling, swimming, walking, and yoga all help circulation and recovery.
• Ensure adequate protein and nutrient intake to support muscle repair and maintain energy levels.
• Short, higher-effort intervals can still produce significant gains, even in the late 70s, as shown in research on postmenopausal women.

Balance and Enjoyment for the Long Haul

Finally, it’s important to remember that longevity in training depends on enjoyment and sustainability. Triathlon offers a perfect balance of swimming, cycling, and running—three activities that spread out the physical stress and keep workouts interesting. Mixing in rest days, flexibility sessions, and easy social rides or swims makes it easier to stay active for the long haul.

The Bottom Line

Regular aerobic exercise, combined with strength work including mobility and stability work, recovery, and good nutrition, can dramatically slow the decline in VO₂max that comes with aging. For both men and women, the goal isn’t to stop the clock—it’s to stay strong, mobile, and capable for as long as possible. Consistency and a balanced approach are what make that possible.

The encouraging news is that both sets of changes can be slowed significantly through consistent endurance and resistance training. By challenging the cardiovascular system and maintaining strong, active muscles, older athletes—men and women alike—can keep their VO₂max far higher than what would be expected for their age.

Suggested Training Week for a 75–80-Year-Old Triathlete (Example)

Below is a sample training week that incorporates the above elements for female and male triathletes.

The structure and volume are similar, but the emphasis shifts slightly—men focus more on maintaining cardiac output and higher-intensity aerobic capacity, while women place more emphasis on preserving muscle mass, vascular flexibility, and recovery.

Remember to tailor session durations, intensity, and volume according to your fitness, injury history, and recovery capacity.

	Typical Week for a 75–80-Year-Old Female Triathlete
Day	Emphasis	Sample Session
1	Swim + Technique / Aerobic	30–40 minutes focusing on stroke efficiency, balance, and controlled breathing. Include short aerobic efforts.
2	Bike / Steady Endurance	60 minutes steady aerobic pace (70–80% HR) to build capillary density and endurance; maintain comfort and posture.
3	Strength & Core (Muscle Maintenance	45 minutes focusing on major muscle groups (legs, glutes, hips, core). Include light resistance work and balance drills to counter muscle loss.
4	Run / Walk or Aqua Jog	30 minutes easy to moderate effort, emphasizing soft surfaces and form. Use aqua jogging if joint discomfort occurs.
5	Recovery + Flexibility	30 minutes of gentle swim, yoga, or Pilates. Focus on mobility, joint health, and blood flow.
6	Brick (Bike + walk/Run)	40–45-minute ride followed by 10–12-minute easy walk-run. Prioritize smooth transitions and low-impact endurance.
7	Rest / Active Recovery	Easy walk or stretching; optional light strength maintenance or balance work.

	Typical Week for a 75–80-Year-Old Male Triathlete
Day	Emphasis	Sample Session
1	Swim + Aerobic Technique	35–45 minutes focusing on steady aerobic pace and breathing control; moderate drills for efficiency.
2	Bike / Endurance + Intervals	60 minutes including 4 × 4-minute intervals at 85–90% HR or power; recovery between intervals. Focus on maintaining cardiac output.
3	Strength & Core	45 minutes of full-body strength (legs, hips, upper body, core). Include resistance bands or light weights to sustain power output.
4	Run / Walk Intervals	30–35 minutes alternating run and walk segments; aim for moderate effort. Focus on leg turnover and aerobic rhythm.
5	Swim / Recovery	30 minutes easy swimming or aqua jogging. Light drills and stretching to aid recovery.
6	Brick (Bike + Run)	45-minute ride + 10–15-minute easy run or walk-run. Moderate intensity to simulate race conditions.
7	Rest / Active Recovery	Gentle walk, light yoga, stretching, foam rolling. Emphasize mobility and flexibility.

Notes / adjustments:

• On higher-intensity days (Day 2, Day 6), ensure preceding and following days have lighter loads or recovery.
• Rotate in weeks with reduced volume or “recovery weeks” every 3–4 weeks.
• Monitor fatigue, sleep, soreness, heart-rate variability, and adjust training intensity accordingly.

Using the TriDot Training Platform

To take the guesswork out of your training sessions and receive an optimized and personalized training program for a 75 – 80-year-old triathlete, you might want to utilize TriDot which can add benefits such as:

• Personalized training adjusted for age, fitness, and recovery.

• Focus on the “right training” rather than simply more training.

• Continuous adjustments and feedback to reduce injuries and overtraining include mobility, stability, and strength training.
• Environmental normalization and training stress are quantified.
• Support, community, and structure.
• Race-preparation tailored for multiple levels and multiple distances.
• Choose from several subscription levels that will meet your needs.

Following is a sample of a week of training from TriDot for Gene Peters, an 81-year-old triathlete. Gene won his age group at the recent Ironman California event on October 20, 2025. The plan shown emphasizes a large amount of recovery.

Feel free to use Kurt’s sign-up link (https://app.tridot.com/onboard/sign-up/kurtmadden), which includes three free consulting sessions.

Key Takeaways & Practical Tips

Men and women start with different physiological baselines, but consistent endurance and strength training benefit both sexes. Staying active not only slows the decline in VO₂max but also helps minimize the differences between men and women as they age. In summary, here are the main lessons from research:

• Decline in VO₂max with age is inevitable—but modifiable. How much you lose depends heavily on what you do, not just what your genes say.
• Consistent, lifelong training is the most powerful “anti-aging” tool for VO₂max preservation.
• Men and women share most mechanisms of decline, but women face additional challenges from hormonal shifts, muscle quality, and metabolic changes.
• Tailor training smartly: use interval work, strength training, proper recovery, and nutrition to maximize your retained capacity.
• Small gains are possible, even at advanced age, especially if training is consistent, targeted, and adaptive.
• Remain adaptable — listen to your body, monitor trends, and don’t be afraid to back off temporarily if signs of overreaching appear.

For Further Investigation

Want to look at the research more closely? Here are the top ten research papers and related reports we identified while preparing this post.

• The Effect of Aging on Relationships Between Lean Body Mass and VO₂max
• Is the Age-Associated Decline in VO₂max More Rapid in Men and Women?
• Sex Differences in VO₂max and Endurance-Exercise Performance
• Aerobic Training in the “Oldest Old”: The Effect of 24 Weeks of Training
• VO₂max: Can Veteran Athletes Prevent a Decline in Aerobic Capacity?
• Why VO₂max Declines with Age — and What to Do About It
  • Note: this paper, which is based on longitudinal studies, contains data showing a peak VO₂max at around age 30 and a later age at which the rate of decline for men surpasses that for women.
• Hormonal and Metabolic Changes of Aging and the Influence of Exercise
• The Impact of Age on VO₂max: A Comprehensive Guide — BodySpec
• A Good VO₂max Chart by Age, Gender, and Sport — INSCYD
• CDC Physical Activity Guidelines for Older Adults

Questions – Comments

Have you been tracking your VO₂​max? Either way, how will you use this information? Share your questions and thoughts in the Comments below.

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