Saturday, August 31, 2019

Why Food is Actually INFORMATION

Views 33956
Food, while being the condition for the possibility of all life itself, is rarely appreciated for its true power. Far beyond its conventionally defined role as a source of energy and building blocks for the body-machine, new discoveries on the frontiers of science reveal that food is also a powerful source of information
We are all hardwired to be deeply concerned with food when hungry, an interest which rapidly extinguishes the moment we are satiated. But as an object of everyday interest and scientific inquiry, food often makes for a bland topic. This is all the more apparent when juxtaposed against its traditional status in ancient cultures as sacred; or in contemporary religious traditions like Catholicism where a cracker still represents the body of Christ (Eucharist). But as my previous investigations into the dark side of wheat have revealed, food is one of the most fascinating and existentially important topics there is. And in many ways, until we understand the true nature of food, and how it is still the largely invisible ground for our very consciousness, we will not be able to understand our own nature and destiny.
How We Got Here
Modern Western concepts of food are a byproduct of a centuries old process of intense secularization. Food is now largely conceived in terms of its economic value as a commodity and its nutritional value as a source of physical sustenance. In the latter regard, its value is quantified through the presence and molecular weight of macro- and micronutrients or its "fat-inducing" calories. In the process of reducing food's value to these strictly quantitative dimensions, it has lost its soul. Food is no longer believed to possess a vital life force, much less a sacred one. But the etymology of sacred, namely, to make holy, and the etymology of holy, which connects to heal, whole, health, implies correctly that food has the ability to "make us whole."
Food As Nourishment On All Levels
If talk of food as "sacred" and "whole-making" sounds pseudo-scientific, consider how Nature designed our very first experience of nourishment (if we were fortunate enough to not have been given a bottle full of formula): breastmilk taken from the mother's breast was simultaneously a nutritional, physical, thermic, emotional, genetic, and spiritual form of nourishment. Food, therefore, can and should never truly be reduced to an object of biochemistry.
And so, as we dig deeper, we discover that the topic of food is a highly cerebral one. And this begins with any simple act of eating, albeit in a slightly different way. It's called the cephalic phase of nutrition, "in your head," which reflects how you are actually experiencing the food: is it delicious? Are you feeling pleasure? These "subjective" aspects profoundly affect the physiology of digestion and assimilation. My colleague Marc David has dedicated many years to waking people up to this amazing process. Food, therefore, begins in a context that transcends merely physiochemical conditions and concerns. The nocebo and placebo effects, which are powerful forces in the setting of clinical medicine, also apply to the field and experience of nutrition. And therefore, it is hard to ignore how this important layer of nutrition: the first-hand experience, and even our intention and level of gratitude, has been lost in the fixation on the chemistry and reductionism of food science.
But the inquiring mind wants more specific scientific answers to the question: how does food makes us whole? How does its arrangement of atoms possess such extraordinary power to sustain our species? Why can't we answer the most rudimentary questions that go back to ancient times, such as the still timeless mystery and miracle of how the bread is transmuted into blood and flesh?
Perhaps, it is the information (and intelligence) within food that will help explain some of this mystery. After all, information literally means "to put form into." This understanding will add much needed depth and nuance to conventional nutritional concepts where food is still conceived as a bunch of essentially dead and uninteresting atoms and molecules.
The Old Story of Food as a Thing
Our concept of food is still generally constrained to the Newtonian view that all things are comprised of atoms, externally related to one another, and built up from there into molecules, cells, etc. The story goes that when we eat things, digestion breaks them down into their constituent parts and our bodies then take these parts and build them back up. This very mechanical, simplistic view, while valid in limited ways, no longer holds true in light of the new biology and science. Along with this view of food as matter, is the correlate perspective, that food can be "burned" for energy and that like a furnace or a car food provides "fuel" measured by calories to drive its engines along. Of course, this is reinforced by nutrition facts labels which make it appear that not much is going on beyond caloric content and the presence or absence of a relatively small set of essential nutrients such as carbohydrates, fats, proteins, vitamins, or minerals, defined by their molecular weight.
This reductionistic view of food I will call, in recognition of Charles Eisenstein's thinking, "the old story of food," and this narrative focuses on two primary dimensions.
Food As Matter
If we are looking at the "material" aspects of food, we are looking at the physically quantifiable or measurable elements. You could not, for instance, objectively "measure" taste, as it differs qualitatively from person to person (so-called "subjective experience). And so, nutritional science focuses on what is presumably "out there" objectively, namely, quantities like the molecular weight of a given substance, e.g. 50 mg of ascorbic acid, 10 grams of carbohydrate, or 200 mg of magnesium. In reality, these objective quantities are influenced by the type of measuring device we use -- and so, there really are no ontologically pure (i.e. "really real") material aspects out there in and of themselves. But for the purposes of clarity, let us assume these material aspects are real, independent of the measuring device or person measuring. These material aspects, while providing information, are not considered to be "informational" in the sense of giving off distinct messages to the DNA in our body, altering expression. They are considered part of the physical world, and therefore while providing building blocks for our body, including its DNA, they are not understood to alter or control the expression of the DNA in a meaningful way. Food, therefore, is considered "dead," and not biologically meaningful beyond its brick and mortar functions in building up the body-machine.
The other primary dimension in this old view is...
Food as Energy
Energy is commonly defined as the power derived from the utilization of physical resources, especially to drive machines. In this view, food provides the fuel to power the body-machine. Food energy is conventionally defined in chemical terms. The basic concept is that animals like humans extract energy from their food and molecular oxygen through cellular respiration. That is, the body joins oxygen from the air with molecules of food (aerobic respiration), or without oxygen, through reorganization the molecules (anaerobic respiration). The system used to quantify the energy content of food is based on the "food calorie," "large calorie," or kilocalorie, equal to 4.184 kilojoules. 1 food calorie is the amount of heat required at a pressure of one atmosphere to raise the temperature of one gram of water one degree Celsius. The traditional way to ascertain the caloric content of a sample of food is using a calorimeter, which literally burns the food sample to a crisp, measuring the amount of heat given off (its caloric content). In order to account for the varying densities of material within a sample, e.g. fiber, fat, water, a more complex algorithm is used today. (alt definition: an amount of food having an energy-producing value of one large calorie)
Again, in this view, food while providing information (caloric content), is not an informational substance in the biological sense (e.g. DNA), but simply a source of energy which can fuel the body-machine.
The New Story: Food as Information
The new view of food as replete with biologically important information, is based on a number of relatively new discoveries in various fields of scientific research.
For instance, the discovery that food contains methyl groups (a carbon atom attached to three hydrogen atoms (CH3)) capable of methylating (silencing) genes, brought into focus the capability of food to profoundly affect disease risk as well phenotypal expression. If folate, B12, or Betaine -- 3 common food components -- can literally "shut off" gene expression with high specificity, food becomes a powerful informational vector. One which may actually supervene over the DNA within our body by determining which sequences find expression.
This discovery of nutrition's prime role in epigenetics opened up an entirely new realm of research, including the disciplines of nutrigenomics, which looks at nutrient-gene interactions, and nutritional genomics, which looks at gene-based risks that provide individualization of nutritional recommendations. Suddenly, almost overnight, food became infinitely more interesting to geneticists, biologists, and medical professionals, in that it as an information vector it could affect, and in some cases control the expression of the DNA, biomedicine's "holy grail."
Food's role as a source of methyl group donors capable of epigenetic modulation of DNA expression is a powerful demonstration of its informational properties, but this is not the whole story…
Food also contains classical genetic information vectors, such as non-coding RNAs, which like methyl donors, have the ability to profoundly alter the expression of our DNA. In fact, there are estimated to be ~100,000 different sites in the human genome capable of producing non-coding RNAs, far eclipsing our 20-25,000 protein-coding genes. These RNAs, together, orchestrate the expression of most of the genes in the body. They are, therefore, supervening forces largely responsible for maintaining our genetic and epigenetic integrity.
These RNAs are carried by virus-sized microvessicles called exosomes found in all the food we eat (they are secreted by all plant, animal, and fungal cells), and survive ingestion to significantly alter our gene expression. In 2012, a groundbreaking study titled, "Exogenous plant MIR168a specifically targets mammalian LDLRAP1: evidence of cross-kingdom regulation by microRNA, found that exosomal miRNA's from rice altered LDL receptors in the livers of Chinese subjects, effectively proving cross-kingdom regulation by microRNA exists, and is occurring on an ongoing basis through the food we eat. Another study, this time in animals, found that exosomes in commonly consumed foods, e.g. grapefruit, orange, affect importnt physiological pathways in the animal's bodies. Essentially, these food components 'talk' to animal cells by regulating gene expression and conferring significant therapeutic effects. The ability of exosomes to mediate the transfer miRNAs across kingdoms redefines our notion of the human species as genetically hermetically sealed off from others within the animal, plant, and fungi kingdoms. In this sense, food borne exosomes are the mechanism through which all living things in the biosphere are intimately interconnected, perhaps even adding a new explanatory layer to how the Gaia hypothesis could be true.
Another important though overlooked mechanism through which food components may carry and transfer energy and information is through so-called prionic conformational states (protein folding patterns). Prions have been primarily looked upon as pathological in configuration and effect. A classical example is the beta sheet formation of brain proteins in Alzheimer's. These secondary protein conformations act as a template through which certain deleterious folding states are transferred laterally between proteins. But prions are not always pathological. For instance, naturally forming prions are essential for the health of the myelin sheath in the brain, and likely perform many other important though still largely unknown functions. So, when we look at the phenomena neutrally, the fact that the conformational state (folding state) of a protein can hold and transfer laterally information essential to the structure and function of neighboring proteins without needing nucleic acids indicates just how important the morphology of food may be. It is possible, therefore, that food, depending on how it is grown and prepared, will have vastly different protein folding patterns which will carry radically different types of biologically vital information. This is another example where one can not exhaustively assess the value of food strictly through quantitative methods, e.g. measuring how much protein there is by weight, but need also to account for qualitative dimensions, e.g. the vast amounts of information contained within secondary, tertially and quaternary conformational states of these protens. 
The "Microbiome of Food" Is Full of Information
Acknowledging the role the microbiome plays in the food we eat further deepens the our understanding of food as information. In fact, the microbiome could be considered food's most profound informational contribution. When we consider the genetic contribution of all the bacteria, fungi, and viruses, naturally found in food (especially raw and cultured varieties), this represents a vast store of biologically meaningful information. Some of this microbial information can even "jump" laterally from these micro-organisms into our body's microbiome, conferring to us significant extra-chromosomal "powers," essentially extending our genetic capabilities by proxy. For instance, a recent study identified a marine bacteria enzyme in the guts of Japanese, presumably a byproduct of having consumed seaweed naturally colonized by it. This marine bacteria enzyme is capable of digesting sulfated polysaccharides -- a type of carbohydrate humans are not equippped to digest because it is marine specific. This indicates that the genes provided by these microbes represent a genetic library of sorts, whose contributions may vastly extend the genetic capabilities of our species. Indeed, the human genome only contains genetic templates for 17 enzymes, whereas the gut bacteria contains genetic information capable of producing hundreds of different enzymes. And these are capable of degrading thousands of different carbohydrates! There are actually many other capabilities provided by these "germs," including the ability to produce vitamins (including vitamin C!)and other essential biocompounds. The microbiome of our food could therefore be considered an information storehouse. To learn more about how this ancient information (even millions of years old) is preserved in raw foods like honey, read my article: Could Eating Honey Be A Form of Microbial Time Travel?
Water As An Information Carrier In Food
Another extremely important element is the role of water in food.  Not only has water been found to carry energy and information, but water has also been identified an instrument of biosemiosis. The water component of food, therefore, could contribute biologically important information -- even genetic and epigenetically meaningfully information -- without needing nucleic acids to do so.
To learn more about how water has "memory," and can store and transmit genetic information, read about the DNA teleportation experiment performed by Nobel laurette Luic Montagnier.
As discussed above, conventional food science starts on a completely dehydrated basis, focusing almost exclusively on the 'dry' measurable material aspects of the food, or the amount of energy it contains (which ironically requires burning off the water to obtain measurements). All readily edible food is hydrated. Were it not, it would be "dehydrated food," which is generally not considered ready to eat. As such, we can not talk about biomolecules without considering their hydration shells as integrally and inseparably bound to the "dry" components, e.g. amino acids, fatty acids, sugars. Water has the capacity to carry information and to determine the structuration and therefore functions of the biochemicals and biopolymers it surrounds. Water, which is capable of taking in free energy from the environment (Pollack's infrared heat), has its own information and energy. This means, therefore, that food qua water content, has the potential to carry relatively vast amounts of information beyond what is found in its material composition itself.
As science progresses, both the quantitative and qualitative elements of water will increasingly be revealed to be vitally important in understanding food as information.
Powerful Implications for the Future of Food and Medicine
When food is looked upon as a vital source of biologically important information which can inform the expression of our genome, it is much easier to understand how our ancestors considered its creation, production, harvesting, cooking, and consumption sacred.
We can also understand how the seeming poetical relationships between foods and organs they nourish may have emerged, via informational bridges described above (RNAs, Prions, water), making possible their "soul connection."
Today, with a wide range of industrial farming technologies changing the quality (and informational component) of our food, it is no longer sufficient to look at only the material aspects of these changes. Irradiation, genetic modification, pesticides, soil quality, processing and a wide range of other factors (intention), may greatly alter the informational state and quality of a good without being reflected in overt changes in grosser qualities like caloric and materially defined dimensions.
No longer can we look at the difference, say, between infant formula and breast milk strictly through the material/energetic lens of conventional nutritional analysis. On an informational level, they are qualitati`vely light years apart, even if they have so many similarities in crude nutritional metrics, e.g. similar carbohydrate and caloric content.
This will be true for all areas of food production, and nutrition, where formerly an essentially dead ontology governed the way we understand and interacted with the things we eat. Once we understand the true implications of food as information, our entire worldview will change. Learn more by reading Sayer Ji and co-writer Ali Le Vere's chapter in this recently published clinician's primer textbook: Revisioning Cellular Bioenergetics: Food As Information and The Light-Driven Body.
For additional research on exosomes and cross-kindgom information transfer, watch Sayer Ji's lecture on the topic by becoming a Professional Member today. Use the coupon code 33GMI for 33% off any membership option today!
Article originally published: 2017-01-15
Article updated: 2019-08-12
Disclaimer: This article is not intended to provide medical advice, diagnosis or treatment. Views expressed here do not necessarily reflect those of GreenMedInfo or its staff.

Grapefruit Seeds Treat Antibiotic-Resistant UTIs

Views 46297
Grapefruit Seeds Treat Antibiotic-Resistant UTIs
Antibiotic resistant urinary tract infections are increasingly common, leaving many looking for natural alternatives. Grapefruit seed extract may be an effective treatment that is safe, affordable and easily accessible
Urinary tract infections (UTIs) are a common nuisance, disproportionately afflicting women, most of who will have a UTI at some point in their lives. UTIs when left untreated or when conventional treatment with antibiotics fail, can progress to more serious kidney infections. They are also of great concern for pregnant women, as the changes in prostaglandins and cytokines they induce can contribute to preterm delivery.
Conventional antibiotics are notorious for killing both the "good" and the "bad" bacteria within the body, as well as leading to the overgrowth of fungi like Candida albicans, which can lead to yeast infections. Moreover, even when conventional antibiotics suppress acute symptoms of infection, they can drive the survival of even more virulent antibiotic resistant bacteria. These surviving colonies form biofilm enabling them to lay dormant and grow back with even greater virulence when the infection recurs post-treatment. 
This is why natural alternatives are becoming increasingly popular, especially those within the food category, like cranberry, whose safety is assured relative to what are often highly toxic conventional antibiotics such as the fluoride-based ciprofloxacin.  You can view our Urinary Tract Infection database for over 20 natural substances that show promise as anti-urinary tract infection agents.
Grapefruit is perhaps the most interesting anti-urinary infection agent we have yet stumbled upon in our research. A remarkable case study published in the Journal of Alternative and Complementary medicine in 2005 titled, "The effectiveness of grapefruit (Citrus paradisi) seeds in treating urinary tract infections," found that the seeds of the grapefruit were highly effective in killing antibiotic-resistant UTIs:
"Three middle-aged males and one female were diagnosed as having urinary tract infections (UTIs) between 2001 and 2003 in the Wesley Guild Hospital, Ilesa, a unit of Obafemi Awolowo University Teaching Hospitals Complex, Ile Ife, Osun State, Nigeria. Of the 4 patients, only the female was asymptomatic. The 3 males had Pseudomonas aeruginosa, Klebsiella species, and Staphylococcus aureus, respectively, in their urine samples, while the female had Escherichia coli. All 4 patients were treated with grapefruit seeds (Citrus paradisi) orally for 2 weeks and they all responded satisfactorily to the treatment except the man with P. aeruginosa isolate. However, the initial profuse growth of Pseudomonas isolate in the patient that was resistant to gentamicin, tarivid, and augmentin later subsided to mild growth with reversal of the antibiotic resistance pattern after 2 weeks' treatment with grapefruit seeds. These preliminary data thus suggest an antibacterial characteristic of dried or fresh grapefruit seeds (C. paradisi) when taken at a dosage of 5 to 6 seeds every 8 hours, that is comparable to that of proven antibacterial drugs."
The authors concluded that based on these case studies, "The adequate clinical response of these patients suggest that the 8-hourly dosage of 5 to 6 seeds of grapefruit seeds taken for a 2-week period may have an effect that is comparable to other proven antibacterial drugs."
They also referenced research on grapefruit seed extract's effectiveness at inhibiting bacteria:
"Recently, it has been confirmed that grapefruit seed extract (GSE) has antimicrobial properties against a wide range of gram-negative and gram-positive organisms at dilutions found to be safe. With the aid of scanning transmission electron microscopy (STEM), the mechanism of GSE's antibacterial activity was revealed (Heggers et al., 2002). It was evident that GSE disrupts the bacterial membrane and liberates the cytoplasmic contents within 15 minutes after contact even at more dilute concentrations. It has also been found that GSE appeared to have a somewhat greater inhibitory effect on gram-positive organisms than on gram-negative organisms; however, its comparative effectiveness against a wide range of bacterial biotypes is significant  (Reagor et al., 2002)."
Indeed, our database contains a number of citations on grapefruit seed extract's anti-microbial activityincluding against MRSA. Also, the more salient difference between GSE is that it also has potent anti-fungal activity, making it superior to conventional antibiotics.
The really amazing thing here is that even if conventional antibiotics were safe, effective, available and inexpensive (which they are not), not everyone in the world has access to them. Grapefruit, and related "medicinal foods," are far easier to acquire, and also provide significant nutritional benefits, which supports the underlying immune system whose status is responsibility for determining susceptibility to infection. We've reported on a similar case study on the use of black seed (nigella sativa) in putting an HIV patient into remission, as well as a case of temporary remission of incurable leukemia using cannabis.  
Case studies always provide a powerful window into the role of ancient food-based healing interventions, which, owing to their non-patentability, will likely never receive the massive capital influxes required to fund the RCTs needed to legitimize them in the eyes of a medical model beholden to pharmaceutical interests. 
Article originally published: 2015-08-04  
Article updated: 2019-08-13
Disclaimer: This article is not intended to provide medical advice, diagnosis or treatment. Views expressed here do not necessarily reflect those of GreenMedInfo or its staff.

Supplements to balance your hormones naturally

balance hormones naturallyPCOS, short for polycystic ovary syndrome, is a hormonal disorder that affects as many as 10 percent of women. Women suffering from PCOS mainly experience insulin resistance and have too much of the male hormone androgen. Additionally, PCOS interferes with their appearance, fertility, menstrual cycle, metabolism, and mood. Many women with this condition take supplements to help improve their symptoms. If you have PCOS, you might try these natural supplements:
  1. Berberine – Berberine is a kind of salt found in some plants and is used in traditional Asian medicine. Research shows that supplementing with berberine regulates blood sugar levels by promoting insulin sensitivity – which is also good for the heart. This supplement may also increase fertility, reduce triglycerides, and lower harmful cholesterol while increasing good cholesterol.
  2. Chromium – Taking chromium may lower blood sugar and regulate insulin levels. Aside from supplements, this trace mineral can be found in foods such as beans, eggs, cereals, lean meats, nuts, seeds, seafood, and peas.
  3. Flaxseed – Flaxseeds are rich in lignan, which may lower androgen levels. As a result, symptoms like irregular periods, excess hair growth, and weight gain may be reduced.
  4. Folate (folic acid) – Taking folate with inositol may increase insulin sensitivity, thereby indirectly increasing fertility. You can get folate in foods like leafy greens, broccoli, artichoke, okra, and soy, or in supplement form.
  5. Inositol – Also known as vitamin B8, inositol is naturally present in the body. However, many women with PCOS supplement with inositol because it promotes hormonal balance and increases their chance of getting pregnant. Inositol supplements also help with blood sugar control and lower levels of testosterone, blood pressure, and cholesterol.
  6. Magnesium – Women with PCOS often tend to have low magnesium levels, so they need to take a magnesium supplement to improve their insulin sensitivity. While you can easily take a supplement, you can also get magnesium through foods like beans, boiled spinach, roasted nuts, shredded wheat, and soy products.
  7. N-Acetyl-Cysteine (NAC) – NAC is an antioxidant that helps PCOS patients fight weight gain, excess hair growth, oily skin, and acne. It also promotes regular menstrual cycles. Most importantly, it improves blood sugar control and increases fertility.
  8. Omega-3s – Omega-3 fatty acids are healthy fats mostly found in fatty fish like tuna, salmon, and herring, but can also be taken as supplement. Many nuts and seeds, such as chia, flax, and walnuts, also contain omega-3 fatty acids. Taking omega-3 supplements reduces inflammation in the body, promotes a regular menstrual cycle, reduces androgen levels, and helps with weight loss.
  9. Vitamin D – This vitamin is not only good for the bones, but also for fighting insulin resistance, irregular menstruation, obesity, and excess hair growth. Getting enough vitamin D may also increase your odds of getting pregnant. Your body makes vitamin D through sun exposure, but you may also get it in supplement form.
  10. Vitex – Also known as chasteberry, vitex is a popular supplement among women with PCOS, because it effectively increases progesterone levels and stimulates ovulation. It also fights common PCOS symptoms like acne, excess hair growth, and premenstrual syndrome (PMS).
  11. Zinc and saw palmetto – Zinc and saw palmetto must be taken together to lower testosterone levels. Zinc reduces acne, excess hair growth, weight gain, and mood swings, while saw palmetto regulates both androgen and estrogen levels. You can get zinc from seafood, especially oysters, beans, nuts, peas, eggs, and lean meats.
Sources include:Managing PCOS symptoms is important to prevent the risk for heart disease, diabetes, endometrial cancer, and high blood pressure. You can also manage your symptoms by making lifestyle changes, such as exercising regularly, reducing your intake of sugar and unhealthy carbohydrates, and relieving stress. (Related: PCOS: Understanding it and treating symptoms naturally.)

100 Reasons To HomeSchool Your  Kids

  June 5, 2019HEALTH AND WELLNESS

This is my 100th article at FEE.org, so here are 100 reasons to homeschool your kids!
    1. Homeschoolers perform well academically.
    2. Your kids may be happier.
    3. Issues like ADHD might disappear or become less problematic.
    4. It doesn’t matter if they fidget.
    5. YOU may be happier! All that time spent on your kids’ homework can now be used more productively for family learning and living.
    6. You can still work and homeschool.
  1. And even grow a successful business while homeschooling your kids.
  2. Your kids can also build successful businesses, as many grown unschoolers become entrepreneurs.
  3. You can be a single parent and homeschool your kids.
  4. Your kids can be little for longer. Early school enrollment has been linked by Harvard researchers with troubling rates of ADHD diagnosis. A year can make a big difference in early childhood development.
  5. Some of us are just late bloomers. We don’t all need to be on “America’s early-blooming conveyor belt.”
  6. Then again, homeschooling can help those kids who might be early bloomers and graduate from college at 16.
  7. Whether early, late, or somewhere in the middle, homeschooling allows all children to move at their own pace.
  8. You can choose from a panoply of curriculum options based on your children’s needs and your family’s educational philosophy.
  9. Or you can focus on unschooling, a self-directed education approach tied to a child’s interests.
  10. Homeschooling gives your kids plenty of time to play! In a culture where childhood free play is disappearing, preserving play is crucial to a child’s health and well-being.
  11. They can have more recess and less homework.
  12. You can take advantage of weekly homeschool park days, field trips, classes, and other gatherings offered through a homeschooling group near you.
  13. Homeschooling co-ops are growing, so you can find support and resources.
  14. Homeschooling learning centers are sprouting worldwide, prioritizing self-directed education and allowing more flexibility to more families who want to homeschool.
  15. Parks, beaches, libraries, and museums are often less crowded during school hours, and many offer programming specifically for homeschoolers.
  16. You’re not alone. Nearly two million US children are homeschooled, and the homeschooling population is increasingly reflective of America’s diversity. In fact, the number of black homeschoolers doubled between 2007 and 2011.
  17. One-quarter of today’s homeschoolers are Hispanic-Americans who want to preserve bilingualism and family culture.
  18. Some families of color are choosing homeschooling to escape what they see as poor academic outcomes in schools, a curriculum that ignores their cultural heritage, institutional racism, and disciplinary approaches that disproportionately target children of color.
  19. More military families are choosing homeschooling to provide stability and consistency through frequent relocations and deployments.
  20. While the majority of homeschoolers are Christians, many Muslim families are choosing to homeschool, as are atheists.
  21. Homeschooling has wide bipartisan appeal.
  22. More urban parents are choosing to homeschool, prioritizing family and individualized learning.
  23. Religious freedom may be important to many homeschooling families, but it is not the primary reason they choose to homeschool. “Concern about the school environment, such as safety, drugs, or negative peer pressure” is the top motivator according to federal data.
  24. Fear of school shootings and widespread bullying are other concerns that are prompting more families to consider the homeschooling option.
  25. Some parents choose homeschooling because they are frustrated by Common Core curriculum frameworks and frequent testing in public schools.
  26. Adolescent anxiety, depression, and suicide decline during the summer, but Vanderbilt University researchers found that suicidal tendencies spike at back-to-school time. (This is a pattern opposite to that of adults, who experience more suicidal thoughts and acts in the summertime.) Homeschooling your kids may reduce these school-induced mental health issues.
  27. It will also prevent schools from surreptitiously collecting and tracking data on your child’s mental health.
  28. Your kids’ summertime can be fully self-directed, as can the rest of their year.
  29. That’s because kids thrive under self-directed education.
  30. Some kids are asking to be homeschooled.
  31. And they may even thank you for it.
  32. Today’s teens aren’t working in part-time or summer jobs like they used to. Homeschooling can offer time for valuable teen work experience.
  33. It can also provide the opportunity to cultivate teen entrepreneurial skills.
  34. Your kids don’t have to wait for adulthood to pursue their passions.
  35. By forming authentic connections with community members, homeschoolers can take advantage of teen apprenticeship programs.
  36. Some apprenticeship programs have a great track record on helping homeschoolers build important career skills and get great jobs.
  37. Self-directed learning centers for teen homeschoolers can provide a launchpad for community college classes and jobs while offering peer connection and adult mentoring.
  38. With homeschooling, you can inspire your kids to love reading.
  39. Maybe that’s because they will actually read books, something one-quarter of Americans reported not doing in 2014.
  40. Your kids might even choose to voluntarily read financial statements or do worksheets.
  41. You can preserve their natural childhood creativity.
  42. Schools kill creativity, as Sir Ken Robinson proclaims in his TED Talk, the most-watched one ever.
  43. Homeschooling might even help your kids use their creativity in remarkable ways, as other well-known homeschoolers have done.
  44. With homeschooling, learning happens all the time, all year round. There are no arbitrary starts and stops.
  45. You can take vacations at any time of the year without needing permission from the principal.
  46. Or you can go world-schooling, spending extended periods of time traveling the world together as a family or letting your teens travel the world without you.
  47. Your kids can have healthier lunches than they would at school.
  48. And you can actually enjoy lunch with them rather than being banned from the school cafeteria.
  49. Your kids don’t have to walk through metal detectors, past armed police officers, and into locked classrooms in order to learn.
  50. You can avoid bathroom wars and let your kids go to the bathroom wherever and whenever they want—without raising their hand to ask for permission.
  51. Research shows that teen homeschoolers get more sleep than their schooled peers.
  52. Technological innovations make self-education through homeschooling not only possible but also preferable.
  53. Free, online learning programs like Khan AcademyDuolingoScratchProdigy Math, and MIT OpenCourseWare complement learning in an array of topics, while others, like Lynda.com and Mango, may be available for free through your local public library.
  54. Schooling was for the Industrial Age, but unschooling is for the future.
  55. With robots doing more of our work, we need to rely more on our distinctly human qualities, like curiosity and ingenuity, to thrive in the Innovation Era.
  56. Homeschooling could be the “smartest way to teach kids in the 21st century,” according to Business Insider.
  57. Teen homeschoolers can enroll in an online high school program to earn a high school diploma if they choose.
  58. But young people don’t need a high school diploma in order to go to college.
  59. Many teen homeschoolers take community college classes and transfer into four-year universities with significant credits and cost-savings. Research suggests that community college transfers also do better than their non-transfer peers.
  60. Homeschooling may be the new path to Harvard.
  61. Many colleges openly recruit and welcome homeschoolers because they tend to be “innovative thinkers.”
  62. But college doesn’t need to be the only pathway to a meaningful adult life and livelihood. Many lucrative jobs don’t require a college degree, and companies like Google and Apple have dropped their degree requirements.
  63. In fact, more homeschooling families from the tech community in Silicon Valley and elsewhere are choosing to homeschool their kids.
  64. Hybrid homeschooling models are popping up everywhere, allowing more families access to this educational option.
  65. Some of these hybrid homeschool programs are public charter schools that are free to attend and actually give families access to funds for homeschooling.
  66. Other education choice mechanisms, like Education Savings Accounts (ESAs) and tax-credit scholarship programs, are expanding to include homeschoolers, offering financial assistance to those families who need and want it.
  67. Some states allow homeschoolers to fully participate in their local school sports teams and extracurricular activities.
  68. Homeschooling may be particularly helpful for children with disabilities, like dyslexia, as the personalized learning model allows for more flexibility and customization.
  69. Homeschooling is growing in popularity worldwide, especially in IndiaAustralia, the United KingdomIsrael, and even in China, where it’s illegal.
  70. Homeschooling grants children remarkable freedom and autonomy, particularly self-directed approaches like unschooling, but it’s definitely not the Lord of the Flies.
  71. Homeschooling allows for much more authentic, purposeful learning tied to interests and everyday interactions in the community rather than contrived assignments at school.
  72. Throughout the American colonial and revolutionary eras, homeschooling was the norm, educating leaders like George Washington and Abigail Adams.
  73. In fact, many famous people were homeschooled.
  74. And many famous people homeschool their own kids.
  75. Your homeschooled kids will probably be able to name at least one right protected by the First Amendment of the US Constitution, something 37 percent of adults who participated in a recent University of Pennsylvania survey couldn’t do.
  76. Homeschooling can be preferable to school because it’s a totally different learning environment. As homeschooling pioneer John Holt wrote in Teach Your Own: “What is most important and valuable about the home as a base for children’s growth in the world is not that it is a better school than the schools but that it isn’t a school at all.”
  77. Immersed in their larger community and engaged in genuine, multi-generational activities, homeschoolers tend to be better socialized than their schooled peers. Newer studies suggest the same.
  78. Homeschoolers interact daily with an assortment of people in their community in pursuit of common interests, not in an age-segregated classroom with a handful of teachers.
  79. Research suggests that homeschoolers are more politically tolerant than others.
  80. They can dig deeper into emerging passions, becoming highly proficient.
  81. They also have the freedom to quit.
  82. They can spend abundant time outside and in nature.
  83. Homeschooling can create strong sibling relationships and tight family bonds.
  84. Homeschooling is legal in all 50 US states and has been since 1993, but regulations vary widely by state.
  85. In spite of ongoing efforts to regulate homeschoolers, US homeschooling is becoming less regulated.
  86. That’s because homeschooling parents are powerful defenders of education freedom.
  87. Parents can focus family learning around their own values, not someone else’s.
  88. Homeschooling is one way to get around regressive compulsory schooling lawsand put parents back in charge of their child’s education.
  89. It can free children from coercive, test-driven schooling.
  90. It is one education option among many to consider as more parents opt-out of mass schooling.
  91. Homeschooling is the ultimate school choice.
  92. It is inspiring education entrepreneurship to disrupt the schooling status quo.
  93. And it’s encouraging frustrated educators to leave the classroom and launch their own alternatives to school.
  94. Homeschooling is all about having the liberty to learn.
Kerry McDonald is a Senior Education Fellow at FEE and author of Unschooled: Raising Curious, Well-Educated Children Outside the Conventional Classroom (Chicago Review Press, 2019). Kerry has a B.A. in economics from Bowdoin College and an M.Ed. in education policy from Harvard University. She lives in Cambridge, Massachusetts with her husband and four children. Follow her on Twitter @kerry_edu.
This article was sourced from FEE.org
Subscribe to Natural Blaze for health freedom and natural living headlines to your inbox. Follow Natural Blaze on Twitter and Facebook.