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Thursday, August 12, 2010

Mark's Daily Apple; The Primal Blueprint


The Rules of Living 10,000 Years Ago:

1. Eat lots of animals, insects and plants.



This is the basic description of everything our ancestors ate to get the protein, fats, carbohydrates, vitamins, minerals, antioxidants, phenols, fiber, water and other nutrients necessary to sustain life. But it was a huge list of individual foods – some anthropologists say it may have been 200 or 300 food choices at a time depending upon the geographic area. The net result was a dietary “breakdown” of fat, protein and carbohydrate that was far different from what Conventional Wisdom considers optimum today. This diet provided all the necessary fuel and building blocks that, along with specific exercise, prompted their genes to create strong muscles, enabled them to expend lots of energy each day moving about, to maintain healthy immune systems, to evolve larger brains and to raise healthy children. They ate sporadically, too. When food was plentiful, they ate more than they needed (and stored the excess as fat). When times were scarce, they survived on fat stores. This random or “non-linear” eating pattern kept their bodies in a constant state of preparedness.

2. Move around a lot at a slow pace.



We know that our ancestors spent an average of several hours each day moving about at what today’s exercise physiologists might describe as a “low level aerobic pace.” They hunted, gathered, foraged, wandered, scouted, migrated, climbed and crawled. This low level of activity prompted their genes to build a stronger capillary (blood vessel) network to fuel each muscle cell, to be able to store some excess food as fat, but also to be readily able to convert the stored fat back into energy. Of course, they did all this without the benefit of paved sidewalks or comfortable shoes. Because every footfall landed at a different angle, every muscle, tendon and ligament worked and became stronger together in balance. Note that they did NOT go out and “jog” at 80% of their MAX Heart Rate for long periods of time as Conventional Wisdom suggests today!

3. Lift heavy things.



The women carried their babies much of the time (hey, no babysitters in those days), as well as bundles of firewood, or whatever they had gathered, foraged or scavenged. The men carried heavy spears or other tools, they dragged heavy carcasses of animals they had hunted, and they moved large boulders or logs to build shelters. They also lifted themselves into trees or up onto higher ground when escaping from danger or to scout a new route. The biochemical signals created by these very brief but intense muscle contractions generated a slight surge in growth hormone and a reduction in myostatin gene expression, prompting an increase in muscle size and power; particularly fast twitch fibers.

4. Run really fast every once in a while.



n a world where danger lurked around every corner, your ability to run was a strong indicator of whether you would live long enough to pass your genes down to the next generation.Avoiding a charging beast to save your life, or surging forward to catch a different beast for dinner, the net effect was still survival. A combination of the hormonal events that occurred simultaneously and the resultant gene expression within fast twitch muscle made sure that the next time this happened you could sprint a little faster.

5. Get lots of sleep.



Our ancestors got plenty of sleep. Even after the discovery of fire, it wasn’t as if they stayed up all night partying. From sunset to sunrise it was safer to huddle together and rest. Long days of hunting and gathering and otherwise working hard for every bite of food also required sufficient time to repair and recover. Studies of modern hunter-gatherers suggest it wasn’t necessarily always an uninterrupted nine or ten hours, either. It’s likely that they slept together as families or as small tribes, keeping a watch out for predators, breast-feeding the baby or just dozing in and out throughout the night. Growth hormone and melatonin were the major hormonal players. Of course, the occasional afternoon nap was also available when the urge hit, with no guilt about what else they really should have been doing.


6. Play!



Just like in modern times, all work and no play made Grok a dull boy. Hunter-gatherers have always generally worked fewer hours and have had more leisure time than the average 40-hour-plus American worker. Once the day’s catch was complete or the roots, shoots, nuts and berries had been gathered, our ancestors spent hours involved in various forms of social interaction that we might categorize today as “play.” Young males would chase each other around and wrestle, vying for a place higher up in the tribe social strata. The males might also practice spear- or rock-throwing for accuracy or chase small animals just for sport. Young females might spend time grooming each other. To the extent that play was considered enjoyable, the net effect was to solidify social bonds and to prompt the release of endorphins (feel-good brain chemicals) and to mitigate any lingering stress effects of life-threatening situations.

7. Get some sunlight every day.



Cavemen weren’t really men (or women) who lived their lives in caves all the time. Most of the day, they were in the great outdoors pursuing their various survival tasks. Regular exposure to sun provided lots of vitamin D, an all-important vitamin which they could not easily obtain from food and which their bodies could not manufacture without direct sunlight.

8. Avoid trauma.



Our ancestors required an acute sense of self-preservation matched with a keen sense of observation. Always scanning, smelling, listening to the surroundings, on the watch for danger, aware of what immediate action needed to be taken, whether it was running from a saber-tooth tiger, dodging a falling rock, eluding a poisonous snake, or just avoiding a careless footfall. Remember that a twisted knee or a broken ankle could spell death to anyone who couldn’t run away from danger. In fact, it was probably trauma (or a brief careless lapse in judgment) that was most responsible for the low average life expectancy of our ancestors, despite their otherwise robust good health. Avoid trauma and there was a very good chance you could live to be 60 or 70 – and be extremely healthy and fit. Modern day hunter gatherers maintain strength and health often well into their 80s.

9. Avoid poisonous things.



Man’s ability to exploit almost every corner of this earth was partly predicated on his ability to consume vastly different types of plant and animal life. But moving into a new environment and trying new foods posed a danger that the new food might contain potent toxins. Luckily, our liver and kidneys evolved to handle most brushes with novel-but-slightly-poisonous plant matter – at least to keep us alive anyway if the stomach didn’t regurgitate it first. Our keen senses of smell and taste also helped us sort out the good from the bad. The reason we have a sweet tooth today (dammit) is probably an evolved response to an almost universal truth in the plant world that just about anything that tastes sweet is safe to eat.

10. Use your mind.



Obviously, one of the most important things that separate man from all other animals is his intellectual ability. The rapid increase in the size of our brains over just a few thousand generations is the combined result of a high-fat, high protein diet (see rule #1) and a continued reliance on complex thought – working the brain out just like a muscle. Hunter gatherers all around the world have developed language, tools and superior hunting methods independently. The fact that some haven’t entered the industrial age doesn’t mean they don’t possess the same ability to process information rapidly and effectively (try living in a jungle where you need to catalog thousands of different plant and animal species, knowing which can kill you and which can sustain you).

Healthy:

Ideally, we’d never want to be sick. We’d want to be in the best possible health all of the time.

Energetic:

We’d want to have lots of energy to do all the fun things life has to offer and not feel like we are dragging at any point during the day.

Happy:

No one wants to be depressed or miserable. It’s no way to go through life. We want a reason to get out of bed every day and take on all the challenges and opportunities that lie ahead.

Lean:

We’d want to be in a metabolically balanced state where we burn off our excess or stored fat, where we find a point at which we have enough fat to be healthy, but we rarely (or never) store any more additional fat.

Strong:

Let’s face it: we’d want muscles that not only look great in a bathing suit, but that serve us well in allowing us to move, to play, and to stay balanced throughout that movement. That means well-balanced strength with proportional muscles.

Bright:

We’d want full access to our mental faculties, to be bright and alert, creative, focused when appropriate, able to recall all the great memories, etc.

Productive:

We’d certainly want to feel as if we are contributing to ourselves, our family and socie




http://www.marksdailyapple.com/definitive-guide-primal-blueprint/

1 comment:

  1. Klotho protein deficiency and aging (Article first published online: 2 JUN 2010)

    "It is of interest that both α-kl−/− mice and FGF23 knockout mice show similar symptoms resembling human aging.1,30,34 Both mice also show aberrant renal phosphate re-absorption and enhanced 1,25(OH)2D3 synthesis, leading to the elevation of serum concentrations of phosphate, 1,25(OH)2D3, and calcium. In wild-type mice, administered vitamin D3 alters several gene expressions, including the upregulation of CYP24A1 and vitamin D receptor, and downregulation of CYP27B1. In contrast, these gene responses were not observed in α-kl−/− mice and restriction of vitamin D3 improved abnormal phenotypes of α-kl−/− mice. α-Klotho protein is shown to function in the negative feedback regulation of vitamin D3 synthesis by downregulation of CYP27B1.35,36 These observations indicated that abnormal vitamin D3 metabolism is the main cause of aging phenotypes.35,36"


    Eight Americas: Investigating Mortality Disparities across Races, Counties, and Race-Counties in the United States see 'Figure 1. County Life Expectancies by Race'.
    If you can't be bothered here it is on a blog post


    Now it shows the life expectancy by county for US whites, the higher the latitude the longer they live. Please explain how that tallies with the more is better theory of UV - B / vitamin D

    ReplyDelete