Food & Personal Health

The connection between the food we eat and our health is undeniable. Although the relationship is complicated – and often downright confusing, given the constant stream of new scientific studies and media coverage of food and nutrition – you can be sure of one thing: choosing sustainable food is a no brainer when it comes to achieving optimal health. When you make the connection between sustainable agriculture and your health, you are on the right path.

What Does it Mean to Eat Sustainably?

Sustainable agriculture is a way of growing or raising food, including animals, in an ecologically and ethically responsible manner using practices that protect the environment, safeguard human health, are humane to farm animals, and provide fair treatment to workers. Eating “sustainably” means eating food that is grown or raised according to these principles.

Eating sustainably provides numerous personal health benefits, including decreased exposure to harmful substances such as pesticides, antibiotic-resistant bacteria, and unhealthful food additives, and the potential to increase consumption of certain nutrients and antioxidants. Finally, eating sustainably means that you are supporting a more environmentally and socially responsible food system. A win-win situation!


The Health Benefits of Eating Sustainably

Eating sustainably-grown unprocessed (or minimally processed) food, such as whole grains, legumes, and fresh fruits and vegetables, has a number of health benefits, including decreased total cholesterol levels, decreased risk of certain cancers, increased colon function, and increased intake of important nutrients and minerals.  F F FEating meat, eggs, and dairy products from pastured animals also has health benefits when these products are consumed in moderation.  F F  

Sustainable Fruit, Vegetables, and Grains

Although increasing intake of fruit, vegetables, and grain in general is important, there is some evidence that sustainably grown fruit, vegetables, and grains are higher in nutrients. This is related to several factors, including the ways in which the food was grown, harvested, and transported.  F

Growing Methods

Organic  Gproduction improves soil health, which in turn improves plants' root systems and the ability to absorb vital nutrients.  FIn addition, organic fertilizers provide a wider range of micronutrients that the plant can take up through its root system.  For example, a recent study demonstrated that organically grown tomatoes have higher levels of flavonoids, potent antioxidants found in plants.  FOther studies have found higher levels of several antioxidants in many varieties of organically grown fruits and vegetables and lower levels of important nutrients, such as vitamin C, in fruits and vegetables grown using commercial nitrogen-based fertilizers.  F F 

Plant Harvest and Transportation

Fruit and vegetables that are in-season, harvested closer to their peak ripeness, and transported shorter distances (as is common with sustainably grown, locally sourced food) also retain more nutrients.  FIndustrially produced fruits and vegetables are frequently picked unripe, then artificially ripened, which decreases vitamin C content and other nutrients.  F FLong storage and long-distance transportation also decreases vital nutrients through bruising and temperature fluctuation.  F

Animal Products

Pastured animal products tend to be more healthful than products from animals raised in factory farms.  GMeat and dairy from pastured  G animals has higher levels of omega 3s, vitamins A and E, and other antioxidants.  FGrass-fed beef is also lower in fat and has higher ratios of “good” cholesterol (HDL) versus “bad” (LDL) cholesterol.  FEggs from chickens allowed access to forage have higher levels of omega 3s and Vitamin E.  F

  • Vitamin E is an important antioxidant and is critical to immune function and other metabolic processes.  F 
  • Vitamin A is important to vision, reproduction, immune function and other bodily processes.  F 
  • Omega 3s and omega 6s are essential fatty acids that are important in brain function and cardiovascular health.  F F 

It is interesting to note that consumption of omega 3s and omega 6s has been especially altered by industrial agriculture. Historically, the human diet consisted of a roughly equal ratio of omega 3s to omega 6s.  FIn modern times, this ratio increased to approximately 20-30 : 1,  Fprimarily due to increased consumption of omega 6-rich corn and soy products (which are found in processed and “junk” food) and decreased consumption of omega 3-rich foods, such as pastured animal products, leafy greens, nuts, and fish.  F F

In general, eating pastured animal products in moderation does not appear to have the same negative health consequences as eating highly processed animal products or corn-fed industrial meats and may even confer some health benefits. However, it should be noted that high consumption of red meat in general, especially processed meat (such as hot dogs and bacon), has been linked to increased overall mortality.  F

Industrially Produced Food & Health

Like much of the industrialized world, the US is in the midst of an alarming obesity epidemic: the prevalence of obesity in US adults in 2009-2010 was 35%, while 60% of Americans are now classified as overweight.  FWith the obesity epidemic comes chronic diseases, such as Type II diabetes, heart disease, and stroke,  Fall of which have been linked to the so-called “Western” diet: a diet full of high fat and processed meats, carbohydrate- and salt-laden junk food, and sodas sweetened with high fructose corn syrup (HFCS).

In addition to the obesity epidemic and the chronic diseases related to it, consuming an industrially produced diet has other important health consequences that are directly tied to production methods:

Decline in Nutrients in Food

Modern industrial crops are bred for high yield, ease of transport, and fast growth, rather than for nutrient content.  FAs a result, macro- and micronutrients (which are important components of our diet) have declined in the food supply, since new industrial crops often have fewer nutrients than their older counterparts.  F FThere have also been decreases in protein, iron, potassium, calcium, riboflavin, ascorbic acid, zinc, selenium, and other essential nutrients (both macro- and micro-) in many conventionally grown fruits, vegetables, and grains.  F F

  • Micronutrients include minerals, vitamins, and organic acids that our bodies need to function properly.  F 
  • Macronutrients are nutrients that must be consumed in fairly large quantities for the body to function, including fiber, protein (and amino acids), water, carbohydrates, and fats.  F 

The nutrient content of animal products has also declined with the rise of factory farming and the reduced availability of pastured animal products. Higher yields of milk common in industrial dairies tend to correspond to lower concentrations of protein, fat, and other milk components.  FIndustrially raised animal products such as beef have lower levels of important nutrients and are higher in fat and LDL (“bad”) cholesterol.  F   

Pesticides

Pesticides used in the production and processing of conventionally grown fruit, vegetables, and grains are a significant health concern. Pesticides have been linked to a number of health problems, including neurologic and psychological problems, cancer, and other diseases.  FThese health risks are borne not only by consumers, but by farmworkers and communities near industrial farms. Children are especially susceptible to the harmful effects of pesticide residues due to their lower body mass and higher rates of consumption of affected products.  FIn children, pesticide exposure can cause delayed development; disruptions to the reproductive, endocrine, and immune systems; cancer; and damage to other organs.  F 

Antibiotics

Since the types of antibiotics  G used in animals are often the same used to treat humans, antibiotic use on farms is an important public health issue. Vast quantities of antibiotics are given to factory farmed animals; in fact, approximately 80% of all antibiotics sold in the US are administered to farm animals,  Fprimarily to promote growth and compensate for crowded, stressful, unsanitary conditions in factory farms.

This high level of antibiotic use promotes the development of antibiotic-resistant bacteria,  F which have been found in air, water, and soil around factory farms, and in the foods these operations produce.  FAntibiotic resistance is the process by which bacteria become resistant to treatment using certain antibiotics. Resistant bacterial infections are increasingly common and can be extremely dangerous.  For example, Methicillin-resistant Staphylococcus Aureus (MRSA) is a type of bacteria resistant to several common antibiotics (including penicillin, amoxicillin, and methicillin) that can cause skin infections, blood infections, pneumonia, and death.  FIn addition to MRSA, other organisms, such as Campylobacter, a bacterium that can cause severe intestinal disease, have also shown signs of antibiotic resistance likely caused by non-therapeutic antibiotic use in farm animals.  FSustainably raised animals are given antibiotics only when sick, not for growth promotion or for other prophylactic reasons.

Food Safety and Foodborne Illness

As food production and distribution has become increasingly industrialized and globalized, food safety problems, such as food contamination and foodborne illness, are also on the rise.  F

Animal Feed

Commercial animal feed often contains many unsavory – and potentially harmful – substances, including metal compounds, dangerous pathogens (e.g., salmonella), known carcinogens (e.g., dioxins and PCBs), plastics, rendered animal products, and animal waste, which may contain antibiotics and hormones.  F F Some feed additives, such as arsenic compounds, can degrade into potent carcinogens (cancer-causing agents).  FArsenic compounds are approved as a feed additive in the US, and are given to chickens to enhance growth and to control parasites.  F

Many of these additives or contaminants, as in the cases of arsenicals and PCBs, can accumulate in animal tissue. For example, arsenic has been found in chicken meat and liver, causing elevated intakes of arsenic in the US due to increased chicken consumption.  FPCB and dioxin contamination are a special concern in farmed fish, especially salmon. One study reports that farmed salmon is the most PCB-contaminated animal product in the US; the contamination is primarily from commercial fish feed.  F

Other Food Additives and Byproducts

Some substances are added to foods to enhance texture, appearance, or taste, while other contaminants are byproducts of industrial processes. In addition to the well-known 2007-2008 melamine adulteration of infant formula and pet food, a number of other melamine-contaminated products have been recalled from US distribution, including candy, cookies, chocolate, coffee, and milk.  FMelamine exposure can cause kidney stones and kidney failure. In another example of food contamination, mercury is used in the production of high fructose corn syrup and has been found in varying concentrations in the finished product.  FAs US consumption of HFCS climbs (as of 2009, per capita HFCS consumption was 50 g per day), mercury in HFCS may be an increasing health risk.  FMercury exposure causes neurological problems and is especially dangerous to children.

Foodborne Illness

Recent multi-state outbreaks of foodborne illness such as Salmonella, E.coli, and Listeria, have involved a wide variety of foods, including ground beef, poultry, tuna, sprouts, lettuce, and cantaloupe.  FAntibiotic-resistant pathogens, weak food safety standards, and inadequate food safety inspection procedures have made foodborne illnesses increasingly dangerous.

The CDC estimates that 48 million incidents of foodborne illness occur annually in the US.  FThe top three foods causing foodborne illness were poultry, beef, and fish, while the organism causing the most hospitalization and death was Salmonella.  FThe unsanitary, crowded conditions in factory farms increase the possibility that animal products from these facilities will be contaminated with a dangerous pathogen.  FThis, coupled with the consolidation of meat and produce production and the increasingly fast line speeds in industrial slaughterhouses, increases the risk of improper processing, handling, and/or preparation that can potentially contaminate large quantities of food distributed over vast geographic areas. Foodborne illness caused by industrially produced food has also become difficult to trace and monitor due to national and international distribution of food products and the increasingly common involvement of multiple farms, food processors, and food distributors in a single outbreak.  F 

Genetically Modified Organisms

Genetically modified organisms (GMOs) are created by introducing specific traits (genes), either synthetically created or from an existing organism, into a different plant or animal.  As of 2011, 88 percent of US corn, 94 percent of soybeans, and 90 percent of cotton grown in the US is genetically modified (additional GMO crops are currently on the market or in the development process).  FMany GMO crops are grown to address problems that arise from large-scale industrial crop production, such as vulnerability to weeds and insects.  FThere is a great deal of debate in the scientific literature as to whether the studies conducted by the major corporations promoting GMOs are sufficient to prove that they are safe for human consumption.  FSome studies conducted on animals indicate that GMO feed may cause toxic effects, especially in the renal (kidney) and hepatic (liver) systems.  FSome countries have chosen to apply the precautionary principle to GMOs – i.e., in the absence of scientific consensus or proof that GMOs are safe, they are assumed to be unsafe until proven otherwise.

Finally, there is evidence that GMO corn, soybeans, and cotton production has increased pesticide use (the adverse health effects of which are discussed above) primarily due to the rise in herbicide-resistant weeds.  F

Other Public Health Issues

Avoiding industrially produced food is not only beneficial to personal health; it is also beneficial to public health. Industrial agriculture poses a number of serious health threats to farm and food-production workers, members of communities surrounding industrial farm operations, and society at large. 

How to Eat Sustainably

Eating a diet full of sustainably grown fruit, vegetables, and grains, along with moderate consumption of sustainably raised animal products can improve health and reduce risk for certain diseases, such as obesity, heart disease, and diabetes. Use Eat Well Guide to find local and sustainable food. Ask your farmer questions about the way your food was grown or raised.

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