One of the highest sweat rates ever recorded was that of marathon runner Alberto Salazar at the 1984 Olympics in Los Angeles. In the months leading up to the games, which were expected to be oppressively hot, the marathoner was put through a regimen of temperature acclimation training with the goal of helping him adapt to running in the heat. While聽Salazar placed only 15th overall,聽the program was deemed a success, physiologically speaking鈥攙itals taken after the race found that Salazar鈥檚 hormonal and thermoregulatory systems . His body had compensated by causing him to sweat at an incredibly high rate鈥攁bout three聽liters per hour, compared to the roughly one liter per hour for an average human.听聽
Researchers have been looking at the effects of heat on athletic performance for decades, and their results have been consistently surprising. Studies have found that, in addition to an increased rate of perspiration, training in the heat can increase an athlete鈥檚 blood plasma volume (which leads to better聽cardiovascular fitness), reduce overall core temperature, reduce blood lactate, increase skeletal muscle force, and, counterintuitively, make a person train better in cold temperatures. In fact, heat acclimation may actually be more beneficial than altitude training in eliciting positive physiological adaptations, says Santiago Lorenzo, a professor of physiology at Lake Erie College of Osteopathic Medicine and a former decathlete at the University of Oregon. 鈥淗eat acclimation provides more substantial environmental specific improvements in aerobic performance than altitude acclimation,鈥 he says. And in contrast聽to the聽聽philosophy, we more quickly adapt to heat stress than we do to hypoxia.听In other words, heat training not only does a better job at increasing V02聽max than altitude, but it also makes athletes better at withstanding a wider range of temperatures.听
Heat training not only does a better job at increasing聽V02聽max聽than altitude, but it also makes athletes better at withstanding a wider range of temperatures.
Athletes can adapt to heat in one of two ways. The first is through incremental improvements in tolerance over time鈥攚ork out in the heat a little bit every day, and eventually your body will dissipate heat more effectively. The second way is through聽thermotolerance, which is a cellular adaptation to an extreme heat experience,聽like suffering such severe dehydration after a run that you need an IV. Essentially, if you shock your system, your body will be able to聽withstand greater temperature stresses later on. But successful heat adaptation is difficult鈥攁nd clearly dangerous鈥攖o achieve outside of controlled settings. Lorenzo explains that performance gains are possible only when athletes elevate their core body temperature, and without careful monitoring, it鈥檚 possible to elevate your core temperature to .听
When performed safely, however,聽heat training聽can have extraordinary聽effects.听This phenomena fascinates Chris Minson, a professor of human physiology at the University of Oregon, who studies heat acclimation responses in athletes. According to , heat training聽can聽expand聽blood plasma volume, but Minson聽says there also seem to be inexplicable changes to the heart鈥檚聽left ventricle, which helps to increase oxygen delivery to the muscles. In addition, he says that athletes who train in warm temperatures generally get better at regulating heat by sweating earlier, as Salazar did, or developing a colder resting body temperature.听
A by a group of researchers in New Zealand also found that overall volume of blood plasma increased at a greater rate when athletes did not drink water during聽exercise.听While some coaches are carefully experimenting with dehydration, Minson and Lorenzo are not聽because it adds too much additional stress. However,聽they do say聽that this type of training聽can be beneficial because it produces a higher number of 鈥渉eat shock鈥 protein聽cells.
Ahead of Western States this June, ultrarunning coach Jason Koop聽worked on heat training with聽Amanda Basham and聽eventual winner聽Kaci聽Leckteig.听Koop聽believes this type of聽acclimating is聽a good example of blending an academic concept with real-world training. But, says Koop, 鈥渁t a certain level, you have to compromise training quality for the heat acclimation. Acclimating to the heat is additional聽stress [on the body],聽just like more miles or intervals, so you can鈥檛 simply pile it on. Something on the training side has to give.鈥
One method of heat acclimation that Minson uses with his athletes is to do hard workouts on colder days or earlier in the morning, and聽then start training in hotter conditions with less intensity. He is聽also looking into adding heat in ways that wouldn鈥檛 require an athlete to train in high temperatures at all鈥攗sing hot tubs, for instance.听
All this being said, not everyone responds to heat at the same rate聽or with the same physiological gains, which makes it similar to altitude training in that it might make a high-performing age grouper, college athlete, or elite a little better, but it won鈥檛 compensate for intelligent, consistent training.
How to Incorporate Heat Acclimation into Your Training Schedule
When acclimating to heat, you鈥檒l be forced to compromise training聽quality, says聽Koop. While he understands the benefits of heat acclimation, he still prioritizes smart, solid training. But if you want to incorporate heat into your workouts, here鈥檚 how he recommends doing it safely.听
1.听First, pick a protocol (sauna, hot bath, or exercising in the heat) that minimizes the impact on training, both physically and logistically.
2.听Koop most commonly recommends that his athletes use a dry sauna immediately after running. 鈥淚t doesn鈥檛 impact training nearly as much as running in the heat, and the effects are similarly positive,鈥 he says. He often tells his athletes聽to not drink water during these sessions聽to enhance the effect. Koop聽recommends spending 20-to-30-minutes in the sauna, depending on tolerance.听
3.听Koop says that when he has his athletes exercise in the heat鈥攅ither naturally or by wearing extra clothing to simulate the experience鈥攊t will be on a long, slow day for 60 to聽90 minutes. The time completely depends on the athlete鈥檚 tolerance and previous experience. But he stresses to not do this on a recovery day, because heat training is an added stress on the body. Koop recommends drinking 30 to聽40 ounces of an electrolyte drink per hour during these sessions 聽And for safety, he advises using聽low-traffic sidewalks and bike paths鈥攏ot聽trails.听
4.听Despite the benefits of heat training, Koop reminds his athletes that running in the heat is extremely difficult and usually replaces a hard day. 鈥淵ou are substituting one potential gain for another one,鈥 he says. In other words, use it carefully.