I'm starting a new thread on this because its a very interesting concept and I think many people will be interested in this discussion. Sasha said to me in another thread that I had not yet "developed what [he] calls fat base pace (FBP), the pace you run when your primary source of fuel is fats. With a good FBP you can take risks because if you crash you are still running respectably. If your FBP is not good, you have to pace yourself right or you pay dearly.
I should note that Sasha indicated that he wasn't quite sure how to improve FBP except just be consistent, get your base mileage in, eat healthy, and wait. While investigating this concept I came across a couple interesting tid-bits and would like to share them. I'm including a link before the tidbit for those interested in the entire article.
1. (
http://www.runnersworld.com/article/0,7120,sss6-242-304--10586-1-1X2-3,00.html) -- "To lose one pound, you need to burn 3,500 more calories than you eat. And running burns about 100 calories per mile. Running also keeps your metabolism elevated for hours after your workout, meaning you burn more calories even while you're sitting at your desk at work or on the living room couch recovering from your run." Huh? You mean to burn 1 pound of fat I need to run 35 miles assuming that my diet is optimally established such that I'm eating ONLY the exact amount of calories I need to maintain daily functions besides running? This simply doesn't seem right. It seems to simplistic, and believe that its an inaccurate assessment of what's really going on for a runner. Additionally, when I get on a treadmill and bang out 8 miles at a pace of 7:30 or so the monitor usually says something like "1250 calories/hour" under my burn rate. So I kept looking and found this next interesting chart.
2. (
http://www.trifuel.com/forums/archive/index.php/t-4436.html) -- Now, this is from some message board thread and the posting person didn't credit the source, so I don't know the accuracy of it. However, here's the post and chart. It should be noted that this chart pertains to cycling, not running, but I would assume there's a close correlation as it pertains to HR.
"It's not quite so simplistic. There's a ratio of fat-to-carb calories that's burnt. People often confuse the percentage of fat-burning with total-calories of fat burned. In general, the higher the intensity up to your LT, the higher the total calories burned from both fat and carbs. Fat-calories also goes up with intensity, just not as much as glycogen. It really depends upon your level of fitness and condition. Let's compare a beginning-rider vs. an elite athlete:"
BEGINNER RIDER
50% max-HR = 500 Cal/hr = 75/25% fat/carbs = 375 fat-calories/hour
65% max-HR = 650 Cal/hr = 60/40% fat/carbs = 390 fat-calories/hour
80% max-HR = 800 Cal/hr = 25/75% fat/carbs = 160 fat-calories/hour
ELITE FIT ATHLETE
50% max-HR = 750 Cal/hr = 80/20% fat/carbs = 600 fat-calories/hour
65% max-HR = 1000 Cal/hr = 75/25% fat/carbs = 750 fat-calories/hour
80% max-HR = 1250 Cal/hr = 65/35% fat/carbs = 813 fat-calories/hour
90% max-HR = 1400 Cal/hr = 25/75% fat/carbs = 350 fat-calories/hour
"Basically, the more fit you are, the more fat/hour you can burn at a higher pace. Your energy and cardiovascular systen becomes more efficient at converting fat to ATP for burning, without resorting to anaerobic fermentation and phospho-creatine at high-effort levels. So the more fit you become, the more total fat-calories you burn at a higher-intensity, even though the percentage is lower compared to a lower effort.
The latest studies appear to show that total-weight loss is more related to total-calories burnt in the workout regardless of whether it's fat or carbs. If you burn off 3000 calories in a workout and eat only 2500 calories a day, you'll lose about 1-lb fat/week regardless of the intensity. You can ride easy for 6-hours a day or ride really hard for 2-hours. The weight-loss will end up being the same. What happens is that after the ride, your body will convert fats into glycogen to replenish your energy stores. So it doesn't matter if you burned up that fat during the ride, or if it's converted later to be used on the next ride, it's still gonna be used up at one point or another to make up the calorie deficit."
If we consider this chart to be accurate, it appears that the best way to burn fat is to work around the 80% of max HR. However, most consistant runners know that its not simply a question of running at a particular HR, but for how long we run there as well. I assume that its fairly accurate to say that when we burn fat we're also working on our FBP. The problem is that we can never really truly work on simply 1 energy system at a time. We're always burning both carbs (sugars) and fats. But different paces will burn a higher percentage of one over the other. Most people store about 1500-2000 calories of glycogen in their muscles as fuel. Generally speaking, most people burn about 100 calories of sugar/mile. So to come close to depleting these storages we need to run 15-20 miles, at which point our bodies switch over to fat. Again this is somewhat simplistic as we're never really burning just sugars or just fats. But theoretically the concept would seem to hold true, deplete the glycogen, keep going, burn fat, teach your body to become more efficient at burning fat. Well, this means a whole lot of running! Probably more running than most non-elites have time for. And it would take years to get to this point.... thus Sasha's comment to "be consistent, get your base mileage in, eat healthy, and wait".
I wonder if there is another way? Note, I'm not suggesting skipping the Long Slow Run. But I'm wondering if there's a modification to the Long Slow Run to get past the sugar burn faster and get into the fat burn sooner, such that for those of us who don't consistently bang out 20+ milers each week can get in more miles in the highly fat burning stage (after 15-20 miles). It should also be noted that the more fit we get the more miles we probably need to run to get into the glycogen deplete state.
A couple things on this. First, its a bad idea to continuously deplete your glycogen stores. Glycogen is needed to maintain neural balances. Deplete them often and over time you'll weaken your nervous system and make yourself susceptible to injury and illness. Second, glycogen replenishment usually occurs within 22-24 hours of a workout and is sped up through carbohydrate intake, especially when done within 2 hours of a workout.
Ah-hah! Here we go. We come full circle to a post I submitted 6 months ago about not taking a day of rest after the long run! If we proceed normally with our glycogen replenishment we've still got about 22 hours where we can do a run in a relatively highly glycogen deplete state. The perfect time for a 'short slow run'. I haven't done any investigating, but I'm suspecting that running the day after a long run, prior to 22 hours, at a slower pace will improve our FBP? I'm also wondering what happens if we were to warm up, run hard, and then enter a prolonged cool-down. I believe that when we go out hard our brain sends messages much like, "uh-oh we need a lot of energy fast ... empty out the glycogen stores" (one reason you shouldn't start a marathon out fast, you'll cycle through more glycogen than your body needs immediately and drain it for what it needs later). But shouldn't this hold true if we're training our FBP? Drain it and get into fat burning?
Sorry about the long post here. And I'm not suggesting a tricking mechnamism that skips the tried and true workout programs. I'm just wondering if we can increase our FBP more efficiently if we were to tweak our long runs here and there away from the singular LSD workout, as well as follow such workouts up with an easy run within 22 hours. I'll now allow the experts on such matters to step up to the plate.
