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Month: October 2017 - Organic Lifestyle Magazine Month: October 2017 - Organic Lifestyle Magazine

Dicamba – The Herbicide Monsanto is Promoting to Replace Roundup’s Glyphosate

Dicamba is the active ingredient, or is one of a few active ingredients, in herbicidal products the same way glyphosate is the active ingredient in Roundup. It’s been commonly used for over seventy years in professional landscaping as well as home gardening, and its recent popularity is on the rise thanks to the public gaining knowledge regarding the harmful effects of Monsanto’s Roundup. Monsanto has reintroduced Dicamba as the herbicide for the “next-generation.”

The product is causing damage when it drifts onto other fields, and many state agriculture authorities have either banned the substance or are considering such bans. Dicamba lawsuits from commercial farmers are becoming more frequent as well.

Recommended: White Pigment In Processed Food Worsens Inflammatory Bowel

What is Dicamba?

First developed in England during the Second World War, dicamba is a broad-spectrum herbicide found in several brands of commercial weed killer, including Ortho Weed B Gon, Ace Lawn Weed Killer and Roundup Max. Chemically, it’s part of a group known as the chlorophenoxy family. More specifically, it is an organochloride, a carbon-based compound, the molecules of which contain atoms of the element chlorine. It is derived from benzoic acid, a substance occurring naturally in several plant species and commonly used as a food preservative.” – Dicamba Drift Lawsuit Lawyer – Crop Damage Compensation

Recommended: Too Much Sugar Can Lead to a Higher Risk of Cancer – Study Confirms

For a toxin, Dicamba may be safer to humans than glyphosate. It seems we pass it through our urine, and studies indicate that residues do not bioaccumulate in biological systems. To say a product is “safer,” compared to glyphosate, certainly does not indicate that the product is safe, and no long term studies have been done on the health effects of Dicamba. It’s clearly not good for the environment, and it doesn’t belong in our food supply.

Almost exactly a year ago, on Oct. 27, 2016, farm worker Allan Curtis Jones allegedly shot and killed soybean farmer Mike Wallace on a county road in Arkansas. The sheriff later told reporters that the two men had been arguing. Their dispute, the sheriff said, apparently revolved around a phenomenon known in the region as ‘dicamba drift.’ – NBC News

Related: PCBs, Roundup, and Dicamba – Monsanto’s Current Problems

In the heartland states, NBC reports that farmers are pitted against each other. Farmers not using the product report the chemical has wafted onto their fields and damaged their crops which are not genetically modified to withstand Dicamba.

Jones has pleaded not guilty to a first-degree murder charge. He is slated to go to trial in December.

According to the state’s farm bureau website, Arkansas ranks third in domestic cotton production, accounting for approximately 7 percent of the national crop. The state comes in at 10 in soybean production, and about half of that is exported.

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Pollution Linked to Nine Million Deaths A Year Worldwide

A new report from the Lancet Commission on Pollution and Health found that nine million people died from pollution in 2015. Of that nine million, air pollution causes the majority of them, 6.5 million deaths a year. Water and workplace pollution trail behind with 1.8 and 0.8 million deaths respectively. The highest percentage of pollution deaths occur in countries rapidly industrializing, like India (24.5% of all deaths are from pollution), Pakistan (21.9%), and China (19.5%). These deaths are a big deal, and worldwide costs associated with treating and supporting those affected by the pollution have reached 4.6 trillion dollars.

So who should be worrying about this? The majority of the people reading this are living in developed nations like the United States, where 5.7 percent of deaths are a result of pollution. Long-term exposures or high levels of air pollution lead to decreased lung function, damaged respiratory function, an increased workload for the heart, and other conditions like asthma, bronchitis, emphysema, and possibly cancer. The list of people the pollution effects include pregnant women, the elderly, children under 14, people who work or exercise vigorously outdoors, and anyone with heart or lung disease. Even if you’re not in this growing list of affected people in a rapidly developing country, recent climate events make it clear that we are not ready for many of the challenges of our own making.

What Does Increased Pollution Mean?

Are there any solutions? Recent studies have suggested that B vitamins can offset air pollution. There are ways to efficiently detox the accumulation of heavy metals due to pollution, from activated charcoal to superfoods like chlorella. There are filters available for water and air, plants that purify the air more effectively, and salt lamps to manage indoor air. But to what end? This new report supports the view that we are still not doing enough to combat pollution.

According to Dr. Philip J. Landrigan, one of the co-chairs of the commission behind this report, This is not traditional pollution that is killing people in these rapidly industrializing lower-middle-income countries, it’s urban industrial air pollution — chemical pollution…”

Radioactive cesium isotopes from the nuclear disaster the so-called fingerprint of Fukushima in 2011 reached Canadian waters within two years. What will happen with the well documented Chinese air problems? This is a new reality, and we still don’t know what will happen.

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Too Much Sugar Can Lead to a Higher Risk of Cancer – Study Confirms

A nine-year study by scientists in Belgium found that excess sugar consumption stimulates tumor growth and increases your risk of cancer. Scientists focused on the Warburg Effect, a phenomenon where cancer cells consume glucose and turn it into tumor-feeding lactic acid. According to one of the study’s researchers, Professor Johan Thevelein:

Our research reveals how the hyperactive sugar consumption of cancerous cells leads to a vicious cycle of continued stimulation of cancer development and growth. Thus, it is able to explain the correlation between the strength of the Warburg effect and tumor aggressiveness. This link between sugar and cancer has sweeping consequences. Our results provide a foundation for future research in this domain, which can now be performed with a much more precise and relevant focus.”

Related: Healthy Sugar Alternatives & More

The study used yeast cells to examine the connection between Ras protein activity and the sugar metabolism in yeast. Ras proteins send important signals controlling growth between cells, and mutated versions of these genes are frequently found in tumors. In this study, excess sugar caused the yeast tested to produce overactive Ras proteins.

Professor Thevelein summarized the study,

The main advantage of using yeast was that our research was not affected by the additional regulatory mechanisms of mammalian cells, which conceal crucial underlying processes. We were thus able to target this process in yeast cells and confirm its presence in mammalian cells. However, the findings are not sufficient to identify the primary cause of the Warburg effect. Further research is needed to find out whether this primary cause is also conserved in yeast cells.”

Related: Gluten, Candida, Leaky Gut Syndrome, and Autoimmune Diseases

Too much sugar can increase your risk of cancer and promote tumor growth. This sugar is being consumed through any variety of foods. You could then be forgiven for assuming that a diet with too much sugar is more likely to cause cancer. Yet the Mayo Clinic places that idea firmly in the cancer myth column, which brings up an important question.

Related: Cure Cancer Naturally

As more research confirms that our health is first and foremost a direct product of what we eat, will our current food and medical system be able to acknowledge that before it’s too late?

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Why Are Our Natural Pollinators in Decline?

The loss of biodiversity is a worldwide, urgent crisis. Plant biodiversity is closely connected to insect biodiversity because pollinators assist the plants with reproduction and genetic variation. Research shows that commercial honey bee populations (various species) have decreased in the United States by 30-40% since 2006. Since the majority of food production relies on honey bees, it is important to determine the causes of these changes and implement the necessary solutions, such as reducing pesticide use on crops and implementing more organic agricultural practices. As consumers, our choices directly impact the environment, because many environmental issues are connected to the mass production of food and other goods. Sometimes we do not know about these issues until it is too late to fix them.

Pollinator Decline

The process used to detect declines in insect pollinator populations is very challenging, expensive, and time-consuming. It can take up to 20 years of monitoring to detect a small decline per year in some species such as birds, fish, and plants. With insects, it can take even longer due to the necessary sample sites, and long-term studies to determine the abundance and diversity of species, and it can be difficult to identify specimens to the species level. Although it would require a large investment to establish accurate pollinator monitoring programs at the regional, national or international level, it is worth the investment.

Agricultural and Ecological Value of Pollinators

The value of worldwide insect-pollinated crops is estimated around $200 billion per year. Insect pollination increases the size, quality, and quantity of fruit and/or seeds for the majority of our major crops worldwide. Global agricultural production will decrease significantly if pollinators drastically decline in number, requiring extensive investment to increase their numbers. If too many pollinator species were to go extinct, it would also require the use of alternative pollination techniques in order to maintain current food production rates. This would increase prices for consumers because other pollinating methods, hand or mechanical, are very expensive. It would be advisable to proactively prevent the decline of pollinators before the declines reach crisis levels.

Most of the insect decline research has been focused on “managed” honey bee colonies that are raised by beekeepers. However, there are not many programs that monitor the status of native bees and other wild pollinators such as flies, wasps, moths, and butterflies, which actually can be more effective pollinators of crops than managed honey bees.

In addition to pollinating crops, approximately 75 to 90 percent of all flowering plants are pollinated with the help of insects and other animals. Insects and flowering plants also serve a vital role as a food source for many species within ecosystems around the world. The ecological value of the insects and the plants they pollinate cannot truly be quantified, but it exceeds the contributions to agriculture.

Organic Certification

One potential solution to pollinator species decline would be an increase in organic agricultural practices. Overall, these practices are safer for pollinators and other wildlife. The United States Department of Agriculture (USDA) has a certification process for organic products. In order to qualify for certification, crops must meet a strict set of criteria established by the National Organic Program (NOP) which preserve natural resources and biodiversity (see USDA under “sources” for details). In general, USDA organic crops cannot be exposed to:

  • Radiation
  • Sewage
  • Prohibited pesticides
  • Synthetic fertilizers
  • Genetic modification

Organic livestock regulations include:

  • No antibiotics
  • No growth hormones
  • Fed 100% organic diet
  • Have access to the outdoors
  • Meet animal health and welfare standards

If a multi-ingredient product is labeled USDA organic, it must contain at least 95% organic ingredients. Residue testing is done on an annual basis by accredited certifying agents. The USDA Organic Seal is a leading global standard in organic agriculture.

Colony Collapse Disorder

The causes of pollinator decline are still being researched. Although there has been a decline in pollinators for many years, colony collapse disorder (CCD) was first reported in the U.S. in 2006, when whole colonies of adult honey bees began mysteriously dying. Studies have linked CCD to viruses, bacteria, fungi, mites, herbicides, fungicides, insecticides, habitat loss and cross-country transport. Pollinators also become malnourished as their habitat is destroyed, and as climate change leads to changes in flowering seasons.

Impacts of Chemicals Used in Conventional Agriculture

Herbicides

Although honey bees have received the most attention, species such as the monarch butterfly have also drastically declined since 2012. As herbicides destroy their larval food source, milkweed, they experience nutritional deficiency and habitat loss. Monarchs are known for their long migrations, and they require sufficient nutrition to survive such journeys. Pollinators are dependent on vegetation, just as vegetation is dependent on pollinators. When herbicides kill targeted plants, there are unintended consequences on many other plant species and the animals that rely on their presence. One example of this is the monarch butterfly, which has been negatively affected by the loss of milkweed. Many species of insects rely on very specific plant species for nectar, pollen, and nesting material. Applying herbicides can reduce the abundance of arthropods in general, which includes butterflies, moths, true bugs, flies, and bees among many others. Not only does this reduce insect biodiversity, but the other animals that feed on them, such as birds are also affected. Overall, it is important to minimize the areas of herbicide exposure, especially to native habitat surrounding croplands. It is also important to use selective herbicides that will not affect non-targeted plant species.

Fungicides

Some studies have shown that fungicide presence can contribute to CCD in honey bees. In contrast, other studies have shown that a fungal gut infection, could be the cause of the collapse in bee populations and that a fungicide could reduce CCD. It most likely depends on the type of fungicide used, and whether it is applied to crops or given directly to hives to treat a fungal infection. Because CCD is so complex, continued research is necessary to determine whether a fungicide is one potential solution, but it appears there are positive and negative effects.

Insecticides

A class of insecticides called neonicotinoids have been linked to immune suppression in honey bees, which allows for an increase in fungal infections. The European Commission has banned three neonicotinoids while further research is conducted; however, it is known that neonicotinoids can remain in the environment for at least six years. Although the Environmental Protection Agency (EPA) conducted studies on the residues of neonicotinoids in agricultural environments, there have not been very many studies focused on the levels existing in water sources, due to insecticide runoff. Most species rely on natural water sources for survival, in which case, these chemicals could potentially be found in many animal species.

Two types of neonicotinoids are major pesticides used to treat corn and soybeans in the United States. In addition, plants used for backyard landscaping, that are sold in commercial nurseries, may also have been grown using these pesticides. The toxicity for oral exposure in bees is much higher than contact exposure. For instance, according to the calculated LD50 (lethal dose, and the amount it takes to kill half of an adult hive in 24 hours), and the quantities applied to corn fields, the amount of neonicotinoid in one corn kernel would be enough to kill an entire colony. These findings suggest that testing the drinking water of bees is an important factor when determining the level of toxicity, which typically is underreported. The repeated exposure to various pesticides in nectar, pollen and drinking water, have a direct effect on the decline of bees and other insects.

The costs of neonicotinoids outweigh the benefits which the EPA may have overestimated. They may increase the yield of some crops, but have the potential to reduce biodiversity, negatively impacting species at multiple levels in ecosystems. Ultimately, a growing human population increases the demand for pollinator-dependent crops to meet worldwide consumer needs, yet pollinators continue to decline. This imbalance between supply and demand would most likely cause a food shortage, increasing the price of food for consumers.

Fertilizers

The use of synthetic nitrogen fertilizers instead of manure-based methods can cause significant nitrate contamination of nearby freshwater systems. The use of synthetic nitrogen fertilizers allows farmers to continually grow crops on the same land without waiting for nutrients to return naturally. This appears to be a practical solution to feeding a growing human population; however, studies also show that there is enough food produced annually to feed the current population, it is just an issue of distribution and waste. While issues surrounding food distribution and waste production are very complex, the simple solution of overusing synthetic fertilizers is having negative long-term effects on the environment. Runoff from agricultural land can cause “dead zones” in bodies of water where the oxygen is depleted due to eutrophication (algal bloom, death, and decomposition). This leads to the collapse of local ecosystems and loss of biodiversity because species, such as fish and other invertebrates can die from a lack of oxygen.

Organic methods have a lower yield than conventional methods, which is partially due to the prohibited use of synthetic fertilizers. However, the price we pay for ecosystem damage caused by excess nitrogen is tremendous. One potential solution is the use of leguminous cover crops, such as beans, peas, and clover, to perform nitrogen fixation at a sufficient rate to increase crop yield. Legumes are known for attracting nitrogen-fixing bacteria to their roots. When used as a cover crop (planted over the soil in the offseason), they can help to add nutrients and organic matter to the soil for future crops while also reducing erosion.

Crop yield and GMOs

Reducing wasted food is key to meeting the food demands of the world. Americans waste 215 meals per person, per year. Some argue that in order to use organic farming methods to produce enough food for the world, it would require more land to produce the same amount of food, which would lead to further deforestation and biodiversity loss. Another argument is that genetically modified organisms (GMOs) help us provide enough food for the world, and genetic modification is not permitted by USDA organic certification. However, organic agriculture could produce enough food for the current population, and a potentially larger population without increasing the land use, partially through the use of leguminous cover crops for nitrogen fixation. Organic agricultural methods around the globe do have a lower yield than conventional; however, it depends on the context, and can range from 5 to 34 percent lower. It depends on the crop type, growing conditions and standard of organic practices. Perennial plants, fruit trees, legumes and oilseed crops are the best candidates for high output under organic conditions. Growing a diverse selection of crops, that are grown without insecticides or genetic modification, can protect pollinator populations while maximizing crop yield.

Instead of debating crop yield between conventional and organic agriculture, the focus should be shifted to how much food is wasted, and learning how to be more resourceful with our food, in order to supply enough nutrition worldwide. In this way, we can utilize safer farming methods that support biodiversity while still providing food for a growing human population.

Related: Understanding and Detoxifying Genetically Modified Foods

Conclusion

It is estimated that organic food sales have increased by approximately 20 percent each year since 1990. As consumers continue to become more educated about organic certification and the ways it can affect the environment and their health, the demand will most likely increase. From a long-term environmental perspective, we cannot afford to continue to use conventional agricultural practices. The price premium on organic products today should be considered an investment in the future for our planet and our ability to feed the world.

If insecticides, herbicides, fungicides and synthetic fertilizers have been shown to negatively affect pollinators and many other species, it can be assumed that the use of USDA organic standards in agriculture could be one way to decrease the rate of decline in wildlife populations, and preserve biodiversity. The majority of worldwide crops rely on pollinators for efficient yield. If pollinator populations continue to decline, there will be a significant reduction in food production and an increase in prices for consumers. Purchasing organic foods directly supports an industry using methods found to be safer for bees and other pollinator species. It also meets the demand for higher standards in production and health. If consumers demand certified organic garden and landscaping plants, or at least plants grown without neonicotinoid pesticides, they can assist local pollinator populations with a safe food source. As a result of this demand, the agriculture and retail industries will respond, and organic options will become more affordable and readily available.

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Oversized Eyedrops – Another Way Pharmaceutical Companies Ripoff Consumers

For those who use eyedrops, you may have noticed that it’s nearly impossible to get the entire drop into the eye without spilling. This is by design. For those who don’t use eyedrops, kudos. It’s a racket either way.

NPR reports,

Eyedrops overflow our eyes because drug companies make the typical drop – from glaucoma drugs that cost hundreds of dollars to a cheap over-the-counter bottles – larger than a human eye can hold. Some are so large, that if they were pills, every time you swallowed one, you’d toss another in the garbage.”

Glaucoma specialists Dr. Alan Robin says his patients struggle to make the expensive bottles of medication last. He wants drug companies to design a dropper-bottle to produce smaller drops. The drug companies don’t seem to care.

They had no interest in people, their pocketbooks or what the cost of drugs meant.”

Pharmcuticle companies make it hard for consumers to trust conventional medicine when they continue to put profits before our wellbeing. Is this the business mentality we want to see from companies producing vaccines for children?

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White Pigment In Processed Food Worsens Inflammatory Bowel

White coloring pigments in foods like marshmallows, gingerbread men, and doughnuts typically contain titanium dioxide – a nano-particle metal that food industries argue is harmless to ingest. Once again, reports are surfacing that these tiny metal particles can cause intestinal stress.

In July 2017 Medical News Today reported:

Recently, researchers from the University of Zurich in Switzerland have looked at what happens when the digestive system absorbs nanoparticles of titanium dioxide. Their findings suggest that foods containing titanium dioxide could be particularly harmful for patients with IBD.

This new study, which was led by Dr. Gerhard Rogler, is published in the journal Gut.

The scientists focused their efforts on the NLRP3 inflammasome, which is a protein complex released by the non-specific immune system to flag up potential threats. When activated, the NLRP3 inflammasome triggers inflammation as a way of counteracting the perceived hazard.

“This shows that [titanium dioxide] particles can be absorbed from food under certain disease conditions,” says Dr. Rogler.

The researchers also noted that patients with forms of IBD absorb a significant amount of titanium dioxide in their bloodstream because their intestinal barrier is damaged.” – Medical News Today

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Should You Be on the Ketogenic Diet? The Pros and Cons of Limiting Carbs

There is a ton of hype surrounding the ketogenic diet. Some researchers swear that it is the best diet for most people to be on, while others can provide us with plenty of evidence that it is just another fad diet.

To some degree, both sides of the spectrum are right. There isn’t one perfect diet for everyone or every condition, regardless of how many people “believe” in it. The ketogenic diet is no exception to this rule.

However, there is also plenty of solid research backing up its benefits. In fact, it has been found to be better than many diets at helping people with:

  • Epilepsy
  • Type 2 Diabetes
  • Type 1 Diabetes
  • High Blood Pressure
  • Alzheimer’s disease
  • Parkinson’s disease
  • Chronic Inflammation
  • Obesity
  • Heart Disease
  • Polycystic Ovary Syndrome
  • Fatty Liver Disease
  • Cancer
  • Migraines

Even if you are not at risk from any of these conditions, restricting your carbohydrate consumption may be helpful for you too. Some of the benefits that most people experience are:

  • Better brain function
  • A decrease in inflammation
  • An increase in energy
  • Improved body composition

As you can see, the ketogenic diet has a wide array of benefits, but is it any better than other diets?

The Calorie Conundrum

Many researchers argue that ketosis (burning ketones for fuel) and carbohydrate restriction only play a minor role in the benefits of the ketogenic diet. Their argument is that people tend to eat fewer calories on the ketogenic diet, and this is the main reason for its benefits. The two most important selling points of the ketogenic diet, ketosis and carbohydrate restriction, may just be a red herring.

It is true that people on the ketogenic diet tend to eat less because of how satiating eating a high-fat moderate-protein diet like the ketogenic is for us. It is also true that less calorie consumption leads to improved health and weight loss. These two statements are backed up by plenty of research, but there is something that many researchers don’t consider.

The ketogenic diet elicits many mechanisms in the body and cells that are nonexistent in other diets. These unique mechanisms explain the benefits of the ketogenic diet that eating fewer calories cannot.

Related: Detox Cheap and Easy Without Fasting – Recipes Included

What Restricting Carbohydrates Does to The Body

Frist, let’s see what happens inside of the cells in our body during the ketogenic diet:

  • Ketones are produced, which burn more efficiently than sugar.
  • Burning ketones creates much less reactive oxygen species than sugar, which decreases inflammation.
  • Carbohydrate restriction triggers autophagy (cellular cleaning) and anti-inflammatory processes.
  • Mitochondrial function and production are enhanced, making our cell’s more efficient at using ketones and fat for fuel.

And here’s what happens in the body on a larger scale:

  • Insulin levels decrease because dietary carbohydrate isn’t stimulating its release.
  • Stored fat is burned because the body needs to use alternative fuel sources.
  • Inflammation is reduced because inflammatory fat levels decrease and less reactive oxygen species are formed.

The combination of the cellular and bodily effects of the ketogenic diet provides us with a basis for why they may be more useful than other diets in the treatment of many of the conditions we mentioned earlier.

Who Would Benefit Most From The Ketogenic Diet?

There is convincing evidence supporting that the ketogenic diet can reduce the severity of epilepsy, type 2 diabetes, type 1 diabetes (especially if dairy is eliminated), Alzheimer’s disease, Parkinson’s disease, obesity, heart disease, polycystic ovary syndrome, fatty liver disease, migraines, and certain types of cancer. However, it is important to keep in mind that plant-based whole food diets are also useful in helping people with most of these issues as well.

The primary issues that the ketogenic diet may help with more than a plant-based diet are probably neurological conditions like Parkinson’s, Alzheimer’s, and epilepsy. This is due to how efficient ketones are as a source of fuel for the brain. Some studies also indicate that ketogenic diet may be best for people with type 1 and type 2 diabetes and for people with certain types of cancer that cannot survive without sugar.

Who Shouldn’t Be On a Ketogenic Diet?

Although the ketogenic diet can help with a plethora of conditions, it can also deteriorate the health of others. For example, people with thyroid or adrenal issues and many women will struggle with carbohydrate restriction. This is because carbohydrates help regulate thyroid function, adrenal function, and fertility.

If you are already having issues with one or all of these things, then the limiting carbohydrates may make your health worse. This why it is important to have your lipid, blood sugar, and hormone levels checked before and during a profound dietary change like the ketogenic diet. Everything you do is an experiment on yourself. Just because someone else swears by a certain diet doesn’t mean it will work for you too.

The Takeaway — Should YOU be on the Ketogenic Diet?

Who would benefit the most from going keto? People who have:

  • Epilepsy
  • Parkinson’s disease
  • Alzheimer’s disease
  • Type 1 diabetes
  • Type 2 diabetes
  • Certain types of cancer that cannot survive without sugar

Who shouldn’t restrict carbohydrate intake?

  • People with adrenal issues
  • People with thyroid issues
  • Some women

So, what do you make of this information?

In general, eating more whole foods and less processed foods is what will give you the most bang for your buck. The simplest way to do this is by giving yourself an unbreakable rule like “eat less than 35 grams of carbs per day” (ketogenic diet) or “eliminate added sugar and limit animal product consumption” (plant-based diet). Both of these rules will help you consume more whole foods and less processed foods, which results in fewer calories consumed, less inflammation, less disease, and better health.

Choose whatever rule you think you can stick too and adjust your diet from there based on how your body reacts. It’s that simple. Well, at least it is that simple if you only care about your own health.

Recommended: The Way We Used To Eat – The Real Paleo Diet

The Long-Term Effects of The Ketogenic Diet vs. a Plant-Based Diet

If you have some form of diabetes, a neurological issue, a carb-reliant form of cancer or want to lose weight rapidly, the ketogenic diet may be the best diet for you — at least for the short term (less than six months). Although many research studies have found that the ketogenic diet has no adverse long-term effects and is perfectly safe (for most of the people that were studied), we must consider the impact that this diet has on the environment as well.

Animal products like meat, eggs, and dairy make up the bulk of calories on the ketogenic diets. These animal products are commonly sourced from controlled animal feeding operations that pollute the environment, destroy our soil, torture the animals, and produce nutritionally inferior food. With each purchase of mass-produced, unnaturally-raised animal products, we cast a vote for animal abuse, depleted soil that can’t grow crops, and climate change.

This is why it is best to stick to the rule of “eat whole plant foods and eliminate processed foods” rather than “limit carbohydrates.” If, however, you want to experiment with ketones or the ketogenic diet to see how it affects your health, keep reading below.

The Healthiest Way to Approach the Ketogenic Diet for You and The Environment

There are a couple of ways to get the benefits of the ketogenic diet while improving the environment.

Here’s a brief list of some options:

  • Source your animal products from environmentally conscious farms and businesses. If you are going to eat animal products, source them from U.S. Wellness MeatsWhite Oak Pastures, Polyface Farms, Vital Choice, and Udder Milk to get the healthiest animal products for you, the environment, and the animals.
  • Source all of your produce from local, biodynamic farms. This cuts down on transportation costs and supports local farmers that work with the environment rather than against it.
  • Supplement your diet with ketone boosting supplements. Ketone salts and MCT oil will put your body into ketosis quickly and provide you will most of the benefits of the ketogenic diet. (I personally prefer MCT oil because it is easy to add to salads, sauces, and smoothies, and doesn’t give me any weird side effects like ketone salts do.)
  • Include intermittent fasting in your daily schedule. By skipping one or two meals a day or fasting for the whole day, you can activate many of the health-promoting mechanisms that are commonly experienced by ketogenic dieters.
  • Do a strict environmentally-friendly ketogenic diet for 6 to 12 weeks. Think of the ketogenic diet as a short-term strategy to help improve specific health conditions. After about 6 to 12 weeks, your body will be keto-adapted and you’ll be ready to slowly increase your carbohydrate consumption by eating more whole plant foods.
  • Try a vegan or vegetarian ketogenic diet for 6 to 12 weeks. Eat plenty of low carb vegetables, coconut oil, olive oil, avocado, and nuts. Pasture-raised eggs are also an environmentally friendly option (if you are an ovo-vegetarian).

By following one or all of these strategies, you will experience the benefits of ketosis for yourself. The easiest way to do so is by combining intermittent fasting with MCT oil supplementation.

On the other hand, If you want to experience all of the effects of being keto-adapted, then it’s best to do a strict ketogenic diet for 6 to 12 weeks. This is enough time to see if the ketogenic diet works for you.

Whether or not you decide to try these suggestions, it is important to keep one thing in mind — there is no magical diet that works for everyone. Nutrition is so complicated that gurus, researchers, and health professionals will argue about it for centuries to come.

There is, however, one healthy eating rule that most people can agree on:

Eat food. Not too much. Mostly plants.” – Michael Pollan

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