CrossFit Conditioning: Build Endurance with Zone Training, a practical guide (part 2)

In the first post, I broke down the theory, how to categorize different types of conditioning using a simple 3-zone model, how to think about training organization, and how to assess key thresholds like aerobic and anaerobic capacity. Curious? Click this link to read the blog. Now it’s time to shift gears.

In this second part, I’ll focus on the practical application: how to actually improve conditioning for CrossFit. I’ll discuss how to build an aerobic base, improve your anaerobic threshold, and push your VO₂max. Whether you’re trying to recover faster, hang on longer in tough Metcons, or compete at a higher level, this post will give you actionable strategies to build a better engine.

Build Your Aerobic Base for CrossFit Conditioning: Why It Matters and How to Train It

If there’s one thing that pays off over time, it’s a strong aerobic base. To quickly recap, I define the aerobic base by the aerobic threshold, which is the highest sustainable output you can achieve before your anaerobic system kicks into the next gear. Aerobic Zone 1 runs exactly up to the aerobic threshold, separating Zone 1 and 2. Improving your aerobic base means improving your body’s ability to deliver oxygen to the working muscles. This means:

• Increased work capacity of the muscle due to improved oxygen delivery

• Better recovery between rounds and sessions, due to faster clearance and quicker replenishment

• Higher sustainable power output, due to a higher threshold

Traditionally, this is built with long, steady work—nasal-breathing efforts popularly called “Zone 2,” which, in our 3-zone model, is actually Zone 1. For athletes already training hard multiple times a week, this low-fatigue option is likely the best choice.

However, the adaptations you get from long steady work aren’t unique to that type of training. What drives adaptation is the product of intensity × time, and higher intensities bring more adaptations per unit of time. But here’s the issue:

1. For significant adaptations to occur, a relatively large training dose needs to be accumulated.

2. Higher intensities come with exponentially increasing fatigue and recovery costs.

This explains why, for people already training close to their limits due to the amount of high-intensity CrossFit, accumulating the required volume at high intensity is not an option. However, those who are not yet close to their recoverable volume might be better off increasing the intensity of their overall training load to increase training results—especially if they don’t have the option of doing more total training.

This is why, for the average class member training 2–3x a week, high-intensity CrossFit-style training is likely the most optimal. So:

• If you’re training 4–5x/week: Use low-intensity aerobic work to keep progressing without burning out.

• If you’re only training 2–3x/week: Moderate-to-high-intensity sessions likely give you more bang for your buck.

Practical training example monostructural-workout example:

• 45+ minutes of biking at or around the aerobic threshold

Practical training example mixed modal-workout example:

• AMRAP 45:

• 500m row

• 50m sled push (RPE 6–7)

• 10 deadlifts @ 40% 1RM

• 100m KB carry

• 20 air squats

How to Prescribe Pacing in CrossFit Conditioning: RPE, Heart Rate, and FTP

• RPE 5–6

• +/- 75% of FTP score

• Highest pace while comfortably nose breathing

• 60–70% of max heart rate

• Sustainable rounds/intervals

CrossFit and the Anaerobic Threshold: How to Train Your Redline for Performance

Your anaerobic threshold is your redline—the highest sustainable pace before fatigue kicks in hard, due to increasing dependence on anaerobic metabolism. Think: CrossFit Open-style efforts. The threshold is the separation between Zone 2 and 3, and Zone 2 is what is called the anaerobic zone.

The majority of CrossFit work is done here, so even though it’s an important threshold to train and push, most competitive athletes probably need to back off from this type of training. Additionally, in some cases, this threshold is actually most effectively raised by improving maximal power output, VO₂max, or one’s aerobic base—not by pushing the actual threshold. But more on that some other time.

For this article, I’ll focus on direct targeting of the anaerobic threshold. Improving the anaerobic threshold means improving the highest sustainable power output. One’s pace and durability at the anaerobic threshold are arguably the most important aspects of the engine. Improving the anaerobic threshold means improving your race speed or capacity to operate at race speed for longer times.

To train it directly, you want to train at or around the threshold, push close to the limit, but still make sure you keep the efforts sustainable:

• Do 4–8 minute intervals at 80–90% effort

• Rest equally or slightly less than the work

• Keep the pacing steady and sustainable

Example sessions:

Monostructural:

• 4–6 rounds

• 4:00 on bike @ RPE 7–8

• 2:00–4:00 recovery spin

Mixed-modal:

• 4–6 x AMRAP 4:

• 50 double unders

• 10 burpees

• 10 thrusters (light)

• Max row calories @ RPE 8

Goal = consistent performance across rounds, not all-out efforts.

VO₂ Max Training for CrossFit: Smarter Workouts to Raise Your Engine Ceiling

VO₂max is your aerobic ceiling—the highest rate at which your body can consume oxygen, which is the result of your body’s ability to uptake, transport, deliver, and use oxygen. For athletes new to conditioning training, raising your VO₂max raises every threshold below it.

Additionally, with more experienced athletes, we also see that when one’s anaerobic threshold is relatively close to one’s VO₂max, raising one’s VO₂max is a necessary step to push the anaerobic threshold higher. Just as with the anaerobic threshold, in later stages of training, pushing VO₂max up sometimes requires training of other qualities first.

Early on, simple protocols like 40/20 intervals or short AMRAPs deliver strong results. But as you advance, so should your training. VO₂max isn't one-dimensional—it’s the sum of:

• Oxygen uptake → Train your lungs

• Oxygen transport → Train your heart and blood flow

• Oxygen utilization → Train your muscle endurance

Looking at the direct interventions targeting VO₂max:

Example sessions:

• 3 rounds for time of:

• 6 x 40 seconds max effort / 20 seconds rest Echo Bike

• Rest 6:00 between rounds

• 3 x AMRAP 5:

• 2 rounds of:

• 15 thrusters (unbroken)

• 15 burpee box jump overs

• Max calories on rower in remaining time

• Rest 5:00 between AMRAPs

CrossFit Conditioning Recap: Train Smarter to Improve Endurance and Recovery

CrossFit conditioning isn’t just about surviving Metcons and pushing hard. Once you become more advanced, developing your engine needs to be done with strategy and purpose. Use zone-based training to balance intensity and volume. Test your thresholds to track progress. Mix in targeted monostructural work to build capacity without burnout.

Conditioning isn’t guesswork—it’s training with intention.

Ready to step it up and improve your engine? Let’s have a quick chat!

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FAQ

What’s the best way to improve CrossFit conditioning?

A: Combine aerobic base building, anaerobic threshold training, and VO₂ max intervals using zone-based programming to target all energy systems effectively.

Why is VO₂ max important in CrossFit?

A: VO₂ max determines how efficiently your body uses oxygen. A higher VO₂ max means better endurance, faster recovery, and sustained performance in tough Metcons.

What’s the role of Base training in CrossFit?

A: Base (aerobic threshold) training builds your base by improving oxygen delivery, enabling faster recovery between efforts and supporting higher work capacity.

How often should CrossFit athletes train their aerobic base?

A: At least 2–3 sessions per week, for those training 4–5x/week. Long, steady monostructural efforts work best for aerobic adaptations, but if you can manage a long mixed modal session that keeps your heart-rate low, that might work as well.

What’s a good CrossFit workout to improve VO₂ max?

A: Try 6×40s max effort / 20s rest intervals or 3×5-minute AMRAPs using thrusters, burpees, and rowers with complete rest between sets for optimal intensity.