organic | GMO SCIENCE https://gmoscience.org A public platform where genetically engineered (GE) crop and food impacts are openly discussed and thoughtfully analyzed. Thu, 30 Nov 2023 00:00:40 +0000 en-US hourly 1 https://wordpress.org/?v=6.4.1 https://gmoscience.org/wp-content/uploads/2023/11/cropped-fav-icon-32x32.png organic | GMO SCIENCE https://gmoscience.org 32 32 Farming Nature’s Way https://gmoscience.org/2022/05/29/farming-natures-way/ Mon, 30 May 2022 02:31:29 +0000 https://www.rhi.bio/?p=677391 Highlights

•Noni trees are a medicinal fruit tree that is native to a large area across Asia and Australia.

•Noni was popular among the ancient Polynesians for its many beneficial phytochemicals and its ability to ease pain topically.

•Steve and Richele Frailey have been cultivating Noni trees on a certified organic farm in Kauai since 1982.

•Steve believes in using nature’s own methods in agriculture, and he uses no cow manure, no organic fertilizers, no organic pesticides and no added minerals.

•Steve’s farming methods are primarily based on mulch, earthworms, and rock dust, and his trees are very healthy, producing fruit all year round.

If you should have the good fortune to spend a vacation in the Garden Isle of Kauai, Hawaii, be sure not to miss the free two-and-a-half-hour tour of the Hawaiian Organic Noni Farm on the North Shore. Steve Frailey and his wife Richele have been harvesting Noni (Morinda citrifolia) on this farm since 1982, when they purchased just 20 acres to begin their adventure. Steve had studied organic farming methods in Missouri in the 1960s, and he had been harvesting fruits on his organic farm in San Diego before coming to Kauai. His Noni farm, now nestled in 70 acres of a beautiful deep valley and a bluff overlooking the ocean, is one of the best examples you will find of how to grow food not only organically but also using basic principles derived from nature. And the organic Noni Fruit Leather that is his primary product is rich in phytochemicals called iridoids, metabolites that have been shown to have neuroprotective, hepatoprotective, anti-inflammatory, antitumor, hypoglycemic, and hypolipidemic activities. Micronutrients include vitamin C, vitamin A, niacin, manganese, and selenium, but its iridoid phytochemical, deacetylasperulosidic acid, is believed to be a key contributor to its medicinal value.

Figure 1: Noni trees can grow up to 40 feet tall. They thrive best when they are in an area with full sun exposure.

Steve discovered that Noni trees were growing wild in his valley when he originally bought the land. At the time, he was unaware of their rich history. He learned that the trees had originally been brought to Hawaii by Polynesians from the Marquesas Islands in French Polynesia. The Polynesians had valued the fruit for its medicinal properties to help heal skin irritations, arthritis and many other ailments for over 2,000 years. In times of famine, the raw food was eaten to nourish the body. In fact, Noni is native to a large area from South Asia to South East Asia to Australia and across the South Pacific Islands. All traditional cultures valued it for its extensive medicinal properties.

Scientific research has identified over 165 beneficial compounds in the raw pulp of Noni. However, Noni fruit is tricky because of fermentation that destroys most of the potency and benefits. The fruit goes from a ripe mature fruit to a fermented fruit very quickly. One of the effects of fermentation is to reduce the number of sulfur-containing esters in the fruit, as these are converted into volatile compounds and lost. In fact, Dr. Brian Issell conducted cancer research for 10 years at the University of Hawaii using only pure non-fermented Noni fruit. According to Dr. Issell, “If fermentation is allowed, then a different chemical profile is present.” In other words, Noni’s potency and beneficial compounds are destroyed through fermentation.

 

Figure 2: Drying mulch on Steve’s farm, basically straw and wood chips.


Figure 3: The Noni flowers emerge from the fruits while they are still small, a most unusual feature of these trees.

Steve’s challenge was how to prevent the fruit from fermenting. His quest was a 50-year journey of research and development, ultimately building a unique low-heat (below 115 degrees F) dehydration process. To be FDA compliant, Steve had independent lab tests conducted in California that showed that their unique process locked in the 165 beneficial compounds found in the raw pulp of Noni. The Lab tests showed that his Noni Fruit Leather has a 2-year shelf life not refrigerated and is 14 times more potent than fermented Noni juice.

Using only mature ripe non-fermented Noni that is grown on the certified organic family farm and keeping the drying temperature below 115 F preserves the maximum beneficial qualities without the use of additives or preservatives. The raw ripe fruit has a unique taste unlike any other fruits, with a distinct blue-cheese-like flavor, which gives it the nickname “cheese fruit.” The dried form’s flavor is distinct but not nearly as cheesy, and it is highly concentrated in lignans, polyphenols and flavonoids that support antioxidant defenses.

On the tour, Steve recommended a book by a Japanese scientist and farmer, Masanobu Fukuoka, titled “One-Straw Revolution,” that he had read many years ago and that was foundational to his own farming practices. The basic principle of the book is that the best forms of cultivation mirror nature’s own laws. In addition to his farm being USDA Certified Organic, Steve uses no cow manure, no organic fertilizers, no organic pesticides and no added minerals. Instead, he grows nitrogen fixing plants and trees that he uses as mulch to support the Noni trees’ nitrogen needs. From his personal experience of over 40 years of growing organically and “mimicking nature,” he uses an abundant amount of mulch in the orchards, occasional foliar spraying of compost teas, rock dust from a local quarry that is high in calcium and many trace minerals, and earthworms.

Figure 4: A papaya tree on Steve’s farm.

 

Over the years, Steve refined his agricultural practices to steadily increase yields from his trees. An extremely important part of his success story involves earthworms. On the tour, he shows the audience a large flat container full of earthworms, that he feeds regularly with pureed vegetarian food waste from the family’s meals. He adds to the worm bed shredded paper and grass from mowing the lawn. It is important to keep the worm bed damp and to keep the worms in the shade and covered loosely with a board to keep out the sunlight. The worms love the pureed food and they produce worm castings that are even better than cow manure to fertilize the Noni trees. He stated that just one cup of the worm castings placed under mulch surrounding the trunk of a Noni tree will be enough to keep the tree producing fruit the whole year round. During the show and tell on the tour about worms, Steve quotes from Charles Darwin who wrote: “There are few animals which have played so important a part in the history of the world as the earthworm.”

Noni trees are remarkably hardy. They can live up to 400 years, and the old trees still bear fruit. Noni trees are unusual in that their flowers emerge from the fruit during the early growth stage. There are abundant honeybees on the property that are attracted to the Noni flowers in a mutual relationship where the bees benefit from the nectar while helping to pollenate the trees.

Steve sells not only the Noni fruit leather, but also various topical medicinal products where Noni is the primary ingredient. Noni is especially known for its ability to reduce arthritic pain, and many athletes have learned to take advantage of it for this reason.

 

 


Figure 5: An apple banana tree on Steve’s farm.

Noni is not the only crop on Steve’s farm. He also harvests apple bananas, papayas and mangoes, all certified organic.

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Dr. Michelle Perro – The Standard American Diet: Overfed and Undernourished https://gmoscience.org/2021/09/04/dr-michelle-perro-the-standard-american-diet-overfed-and-undernourished/ https://gmoscience.org/2021/09/04/dr-michelle-perro-the-standard-american-diet-overfed-and-undernourished/#respond Sun, 05 Sep 2021 00:50:23 +0000 https://drmichelleperro.com/?p=378

Michelle Perro, MD,is interviewed on The Brain Possible podcast to discuss how the Sandard American Diet has led to us being overfed and undernourished. She shares the impact on our children’s health and tips for how we can make changes.

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Healthy Food, Healthy Children https://gmoscience.org/2018/01/31/healthy-food-healthy-children/ Wed, 31 Jan 2018 22:37:33 +0000 https://gmoscience.org//?p=1090 In order to reverse the current health crisis affecting children, we need to rethink our relationship with food and the type of medicine we support, says Professor Vincanne Adams.
Vincanne Adams, PhD is professor of medical anthropology at the University of California, San Francisco. Her research interests include the social studies of science, medicine, politics, and culture, and she has worked in Nepal, Tibet, China and the US. Together with a pediatrician, Michelle Perro, MD, she has written a book, What’s Making Our Children Sick? How Industrial Food is Causing and Epidemic of Chronic Illness, and What Parents (and Doctors) Can Do About It, which is available from Amazon.
The book traces the rise of chronic disease in a growing number of children and adults and places much of the blame on industrially produced food, including genetically modified (GM) crops and their associated pesticides. It also explains simple measures that we can all take to restore ourselves and our families to good health.
GMOScience asked Professor Adams what led her to write the book and how working on it has impacted her life.
Q: Why did you write this book?
When I first met Michelle and began to hear about her medical practices and theories of genetically modified (GM) foods in relation to gut health, I was fascinated. Her work touched on many aspects of the work I had done as a medical anthropologist. This included exploring how non-Western medical systems paid more attention to food and ecosystem-wide, holistic approaches to health. I had been writing and teaching for many years about the politics of science, the outsized role of pharmaceutical companies in medical research and clinical care, and how corporations and corporate influences directly and indirectly harm health. I’m trained as an ethnographer, so I’ve devoted my life to writing about the human effects of larger social and structural problems.
I have to confess that when I first heard Michelle talk about GM foods, I was, like many people, quite skeptical. So even though much of what she described in relation to her clinical practices and her perspectives on the failure of modern medicine to deal with chronic diseases was familiar, I was not sure of the science behind the GM food controversy. I started to explore more and to follow her lead into the literature, getting beyond the first layers of controversy. I was amazed at the way these formed a cataclysm of different problems: the failure of modern medicine to take food seriously, the problem of a rise in many chronic health problems, the holes in our regulatory system when it came to food safety and, of course, the controversy over GM foods.
Initially I thought it would be amazing to write a book about Michelle and her integrative practice. Her stories were fascinating and compelling. When I learned that she had for many years wanted to write a book herself, I decided it would be better to write a book together. It has been a great experience learning how to be a collaborator on such a project. It is part description of Michelle’s work and part critical interrogation of the predicament we face today in the face of industrial food.
For my part, I worked hard over the next years to learn as much as possible about the controversial science around GM foods, the empirical evidence on their safety, and the policies and regulatory environments of agroindustrial foods. As a committed ethnographer, I went with Michelle to meetings of organic and non-organic food industry advocates and to conferences of GM food proponents and critics. I read as much of the science as I could. I interviewed physicians and scientists about the phenomena that Michelle had identified. I shadowed Michelle in her clinical practice and together we interviewed her patients so that I could better understand the human and clinical story behind her ideas about these food-health connections. All this information has been collected in the book.
Q: Can you tell us something about how the book turned out and who it is aimed at?
The book offers original materials that connect the dots of our contemporary situation. Beyond the clinical cases, our book maps out the larger contexts and circumstances that have made these foods problematic. It covers how and why medicine tends to seek pharmaceutical over food-based health solutions; how new biomedical research on things like the microbiome, leaky gut or dysbiosis are still a long way from being incorporated into standard practice guidelines and how integrative doctors are breaking the mold; how agrocorporate investments in scientific research have made it hard for insights about the potential harms of GM foods and their associated pesticides to reach the light of day; and how we might think of a future medicine in relation to our ecosystem health – what we call ‘ecomedicine’. I am as much an activist about these problems as I am a documentarian.
Michelle and I had to make the book both convincing and scientifically sound yet at the same time legible and accessible to a wide public. The case studies from Michelle’s clinical work make the book very readable. Also, the case studies describe health problems that are currently suffered by a large number of people, such as allergies, gut problems, and behavioural disorders, so many readers will see their own experiences reflected in the patients’ stories.
All in all, I think that this book is written for a broad audience while not compromising on the quality of scholarship. I hope my academic colleagues will not only find it compelling and convincing but also that they will teach with it and share it with their networks.
Q: Was there anything that stood out or surprised you when you did your research for the book?
One of the things that surprised me about this project was how convinced I became that GM foods and their associated pesticides were a problem. When I began, I honestly didn’t initially think GM foods were as big a problem as Michelle and others made them out to be. However, the more I learned about the theories of chronic illness that were being talked about in the integrative medical world and the amazing assault-like campaigns to dismiss concern over these food technologies, the more I was convinced.
If I had to pick one most surprising insight about this work, however, it would be the degree to which attacks on scientific credibility have not only defined the work on this area, but also penetrated into the communities of opposition to GM foods. So in the first place, the ways in which the agrochemical industries have tried to silence anyone writing against these technologies, going way beyond simple questioning of the science to full blown character assassination, is to my mind evidence of their suspicion that the existing science alone is not convincing enough. Industry’s and industry-paid spokespersons’ steadfast and persistent campaigns to evade criticism and even questioning of the risks are stunning. At the same time, I’ve noticed that similar critiques of “the science” have trickled down into communities that are opposed to GM foods (based on evidence and not simply on politics). I find this fascinating.
Q: Have you made any changes in your own life (diet, etc) as a result of what you learned when writing this book?
Well, although I always felt that organic foods were probably better for me, I never really thought that eating non-organic was potentially dangerous. But now I certainly try to eat only organic. It is clear that harm from foods functions as more of a ‘carrying capacity’ or ‘toxic load’ issue than a straight ‘eat-this-and-you die’ set of measures. Even so, I pay more attention to gut health in general now.
Working on this book has also shifted my perspective on population health and my vision of a society whose health is impaired, or at least less than robust, for the simple reason that our nutrition is compromised. It starts with a variety of things that compromise gut health, from antibiotics to toxicants in the built environment (such as chemicals used in building materials and soft furnishings) and in body and hygiene products, and extends also to the health of the foods we eat. Going beyond the normal culprits like packaged and processed foods, how healthy are our real foods? Then, we need to talk about toxicants like pesticides in our foods, and foods that have been turned into pesticides via genetic modification. We really don’t know much about these in terms of their safety for humans but we have a considerable body of research based on animal studies that is pointing to risks.
Problems of gut health and compromised food systems don’t work to create acute health crises; rather they produce a slow-building low-grade set of chronic problems in the gut that work their way outward to the skin, the immune system, and the brain. Nearly everyone is dealing with some level of problem on this front, I find. Some are more extreme cases than others. When I began to notice this, I sort of panicked and realized that we need an “all hands on deck” approach to solving these problems. We are, as Michelle says, facing a generational crisis of failing health. Our kids are the canaries in the coal mine in this growing epidemic. Food is not the only reason our kids are sick with more chronic conditions than ever before, but it is perhaps the most important piece of the puzzle.
Q: Is there anything else you wish to say?
The problems we are facing in relation to the impacts of GM agroindustrial food technologies are not going to be solved by individuals changing their diets, although the market forces that could drive change should not be overlooked. These problems occur on multiple levels and in ways that require change in relation to policy, research, market systems and governance. We need to change both our concept of public health and the kind of medicine we practice. On top of this, we need to think about how planetary survival really may depend on organic solutions – the opposite of what GM food scientists and agrochemical companies have been saying for several decades. My hope is that this book will help people think about how a healthy body is really only possible in a healthy food environment. In order to bring that about, we need to rethink our paradigms about the relationships between health and food, food and soil, and our bodies and society, or what we call ecomedicine.
What’s Making Our Children Sick? How Industrial Food Is Causing an Epidemic of Chronic Illness, and What Parents (and Doctors) Can Do About It, by Michelle Perro, MD, and Vincanne Adams, PhD, is published by Chelsea Green and available from Amazon:

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