I Think I Have My Lactate Threshold...What Next?

A personal best is nothing to scoff about. You’re saying prior to this meet you have not pushed beyond 152 bpm for a few months?:applaud: Does this adaptation occur systematically, localized to working groups, or somewhat in between? What about buffering acidosis? For instance, if training on a treadmill a workout geared for lactate tolerance, would the buffering adaptation also be recognized for upper body muscle groups? Thank you very much Steve! That’s right, other than the 3000m for time to establish my lactate threshold, I have not gone above 150s HR in this training cycle. My theory is that I am training certain muscle fibers that are not as fully accessed by doing a set of 50s at 400m pace. Now that’s a great workout, but it may not provide everything you need.hank you very much Steve! That’s right, other than the 3000m for time to establish my lactate threshold, I have not gone above 150s HR in this training cycle. My theory is that I am training certain muscle fibers that are not as fully accessed by doing a set of 50s at 400m pace. Now that’s a great workout, but it may not provide everything you need all the time. During a race, as I understand it, we access different types of muscle fibers as we grow more tired. Thus the need to strengthen all of them from the slowest to the fastest. The other thing I believe has happened is that I have raised my lactate threshold by training at slower paces, below my actual threshold. I could feel it at the end of the race. I never fell apart, and my last 100 was my fastest by six seconds.(Of course that means I should go out faster.) Finally, I think swimming at very low heart rates (108 - 128 BPM) helps with mitochondria production, which provides more energy, and with capillarization, which enables more blood and nutrients to be pushed to the muscle. These are qall only theories, love to hear anyone else’s thoughts. Sorry for the lengthy explanation, but perhaps this will give food for thought to others. God bless!

A personal best is nothing to scoff about. You’re saying prior to this meet you have not pushed beyond 152 bpm for a few months?:applaud: Does this adaptation occur systematically, localized to working groups, or somewhat in between? What about buffering acidosis? For instance, if training on a treadmill a workout geared for lactate tolerance, would the buffering adaptation also be recognized for upper body muscle groups? Thank you very much Steve! That’s right, other than the 3000m for time to establish my lactate threshold, I have not gone above 150s HR in this training cycle. My theory is that I am training certain muscle fibers that are not as fully accessed by doing a set of 50s at 400m pace. Now that’s a great workout, but it may not provide everything you need.hank you very much Steve! That’s right, other than the 3000m for time to establish my lactate threshold, I have not gone above 150s HR in this training cycle. My theory is that I am training certain muscle fibers that are not as fully accessed by doing a set of 50s at 400m pace. Now that’s a great workout, but it may not provide everything you need all the time. During a race, as I understand it, we access different types of muscle fibers as we grow more tired. Thus the need to strengthen all of them from the slowest to the fastest. The other thing I believe has happened is that I have raised my lactate threshold by training at slower paces, below my actual threshold. I could feel it at the end of the race. I never fell apart, and my last 100 was my fastest by six seconds.(Of course that means I should go out faster.) Finally, I think swimming at very low heart rates (108 - 128 BPM) helps with mitochondria production, which provides more energy, and with capillarization, which enables more blood and nutrients to be pushed to the muscle. These are qall only theories, love to hear anyone else’s thoughts. Sorry for the lengthy explanation, but perhaps this will give food for thought to others. God bless!