We know that drinking tap water drugs us into submission. We know that most of the food grown in America is genetically modified organisms (GMOs) that are affecting us on a genetic level. What we are just finding out is that water containing pharmaceuticals applied to plants ends up in the plants; imagine that? If you haven’t started a garden and bought a water filtration system yet, WHAT are you waiting for? What? Are you still thinking that you can just be on autopilot and not fully engaged in taking care of yourself and your family now that the global cabal has all the gears of the machine in place and has cranked it up to full-tilt? WAKE THE **** UP!!!!
From Natural News:
(NaturalNews) Agricultural crops can absorb pharmaceuticals found in the water used to irrigate them or the sewage sludge used to fertilize them, according to a study conducted by researchers from the University of Toledo-Ohio and published in the journal Environmental Science & Technology.
When humans consume pharmaceuticals, active traces of those drugs are excreted in their feces and urine. Modern treatment methods for water and sewage do nothing to remove these biologically active chemicals.Previous studies have shown that crops grown directly in animal manure can absorb veterinary drugs, and that cabbages grown hydroponically can absorb human drugs. To simulate more natural agricultural conditions, researchers grew soybeans — the second most widely planted crop in the United States — in regular soil. Half the crops were fertilized with solid waste, while the other half were irrigated with chemical-spiked water. In order to simulate the reclaimed sewage or wastewater commonly used in industrial agriculture, the researchers spiked water and waste with the drugs carbamazepine (an anticonvulsant), diphenhydramine (Benadryl) and fluoxetine (Prozac), along with the common antimicrobial chemicals triclosan and triclocarban.
Using mass spectrometry, the researchers then analyzed the plants’ tissues just before flowering and after the production of beans. The plants absorbed carbamazepine, triclocarban and triclosan from both soil and water, although absorption from water was greater. All three chemicals accumulated in root tissues, stems and leaves, while the antimicrobial compounds also accumulated in the beans. Diphenhydramine and fluoxetine accumulated in low concentrations in the roots.
The health effects of this absorption remain unknown, but they could be severe. Triclosan, for example, has been shown to build up in the bodies of humans and other animals.
“Triclosan disrupts hormones, can affect sexual function and fertility, and may foster birth defects,” write Frank Lipman and Mollie Doyle in their book Spent: Revive: Stop Feeling Spent and Feel Great Again.
“If you find those compounds in the plant, what are they going to do to the plants or to animals that eat the plants?” researcher Chenxi Wu asked.
Sources for this story include: Crops Absorb Pharmaceuticals From Treated Sewage (Chemical & Engineering News)
On a completely related note:
Animals in factory farms are given doses of antibiotics — both to keep them alive in stressful, unsanitary conditions, and to make them grow faster. The practice leads to new strains of antibiotic-resistant bacteria, such as the now-widespread form of staph (MRSA) known as ST398.
Federal regulators have in the past refused to release estimates of just how much antibiotics the livestock industry uses. But recently the FDA released its first-ever report on the topic. And the amount? Twenty-nine million pounds of antibiotics in 2009 alone.
According to Grist:
“[T]he Animal Health Institute, a veterinary-drug trade group, estimated total use in livestock at 17.8 million pounds. The industry has been clinging to that number ever since … [T]he industry figure is woefully off — about 40 percent lower than the real one.”
Dr. Mercola’s Comments:
MRSA ST398, also known as “the pig strain” of MRSA, was first discovered in pigs and pig-farm workers in the Netherlands in 2004. Since then, this livestock MRSA strain has spread across Europe, Canada and the United States, causing both mild and life-threatening infections, and has even been found in retail meat in Canada.
This livestock-acquired strain of MRSA (ST398) adds to an already troubling situation.
The human community-associated strain of MRSA, USA300, already affects close to 100,000 people a year in the US, and caused 18,600 deaths in 2005 alone. To put that number into perspective, HIV/AIDS killed 17,000 people that same year.
What’s worse, it appears the various MRSA strains can be transmitted from humans to animals and vice versa, putting the health of both humans and animals (including pets) at ever increasing risk.
According to a 2009 University of Iowa study, 70 percent of hogs and 64 percent of workers in industrial animal confinements tested positive for the antibiotic resistant strain of MRSA. The study pointed out that, once MRSA is introduced, it could spread broadly to other swine and their caretakers, as well as to their families and friends.
Extended Spectrum Beta Lactamase (ESBL) is another antibiotic-resistant bacteria that has killed both people and swine.
But what has spawned these deadly superbugs?
Agricultural Antibiotic Overuse has Created New Hard-to-Eradicate Human Diseases
It’s important to realize that antibiotic-resistant disease like MRSA is a man-made problem, created by the excessive use of antibiotics. Medical overuse of antibiotics is one aspect, but the greatest, and most hidden, factor is the excessive use of antibiotics in food production.
Chickens, cattle and hogs are fed antibiotics, not to treat disease, but to make them grow faster, which increases profit margins for livestock producers.
It’s been unclear just how many antibiotics were really used in the manufacturing of our food—until now.
According to the first-ever report by the US Food and Drug Administration (FDA) on this subject, factory farms used a whopping 29 million pounds of antibiotics in 2009 alone.
Back in 2001, a report issued by the Union of Concerned Scientists estimated that the non-therapeutic livestock use of antibiotics accounted for 70 percent of the total antibiotic use in the US, and when all agricultural uses were considered, they estimated the share could be as high as 84 percent!
Clearly, agricultural antibiotic use is the smoking gun in the battle against antibiotic-resistant superbugs.
But what can YOU do about it?
Choose Your Foods Wisely
Granted, conventional medicine still needs to curtail its prescriptions for antibiotics, but even if you use antibiotics judiciously you’re still exposed to great amounts of antibiotics from the foods you eat.
This is one of the primary reasons why I ONLY recommend organic, grass-fed, free-range meats or organic pasture-raised chickens, as non-medical use of antibiotics is not permitted in organic farming. (That, plus the fact that they are far superior to farm-raised meats in terms of nutritional content, which I’ll discuss below).
Reduced Antibiotic Use in Farming PROVEN to Reduce Human Disease
Studies have shown that when you reduce the use of antibiotics in meat production, human disease caused by antibiotic resistant strains of bacteria is significantly reduced as well.
For example, once Australia banned the use of fluoroquinolones in all food animals, only two percent of Australian patients tested positive for the drug resistant strain of Campylobacter jejuni (a leading bacterial cause of food-borne illness that has exhibited drug-resistant strains), whereas the prevalence of drug resistance can be as high as 29 percent in countries that allow the use of fluoroquinolone.
And, according to a 2006 study published in the Journal of Infectious Diseases, bacteria from conventional chicken, and people who ate the chicken, became resistant to Synercid (a strong antibiotic used to treat antibiotic-resistant bacteria) more often than the bacteria found in antibiotic-free chicken, or in vegetarians.
In fact, the study found it was rare to find drug-resistant bacteria among antibiotic-free chicken, while the majority of bacterial isolates from conventional poultry were resistant.
The study indicated that the use of antibiotics in poultry (in this case the antibiotics were used to promote growth) may harm humans’ health in the long-term.
Still, the US meat industry is extremely resistant to the idea of getting rid of these drugs, and I don’t think we’ll see any major change in this area until or unless laws are enacted to curtail its use.
Until then, it’s up to you to make up your own mind about what you want to buy…
The Superior Health Benefits of Organic Meats
There are many reasons to go organic when it comes to meats.
Many people do not realize that aside from the antibiotic problem, conventional livestock feed is also laced with pesticides, which may then be transferred to you. In fact, conventionally-raised, factory-farmed beef is a primary source of both antibiotics and pesticides!
So, if you’re short on cash and want to get the biggest bang for your buck, opt for organic beef over organic vegetables.
In addition to being free of hormones, antibiotics and pesticides, grass-fed animals also produce meat that is nutritionally far superior to their factory-farmed counterparts.
For an excellent in-depth look at how commercial beef is really raised, please read California rancher Dave Evans’ article “Better Beef,” published in the March 2008 issue of Best Life magazine.
As for the nutritional differences, grass-fed beef is lower in fat than regular beef and, more importantly, contains three to five times more conjugated linoleic acid (CLA), a fatty acid, than grain-fed animals.
- Fighting cancer and diabetes
- Helping you lose weight
- Increasing your metabolic rate, a positive benefit for promoting normal thyroid function
- Helping you maintain normal cholesterol and triglyceride levels
- Enhancing your immune system
If you don’t purchase safe meat from our store, nor have access to a local farmer, farmer’s market, or CSA program, I would encourage you to search for grass-fed beef ranchers in the United States that can ship good quality meats right to your door.
Over and Beyond Antibiotic-Resistance…
Last but not least, let’s swing back to the overuse of antibiotics in medicine for a moment. Because in addition to promoting antibiotic-resistant disease, the use of antibiotics will also have the immediate health effect of killing off all the healthy, beneficial bacteria in your body as well.
This too can have a significant, detrimental impact on your health.
As an adult, you have three to four pounds of beneficial bacteria and yeast living within your intestines. These microbes compete for nutrients from the food you eat. Usually, the strength in numbers that beneficial bacteria enjoy both keeps the ever-present yeasts in check and causes them to produce nutrients such as the B vitamins.
However, every time you swallow antibiotics, you kill these beneficial bacteria within your intestines. When you do so, you upset the delicate balance of your intestinal terrain. Yeasts grow unchecked into large colonies and take over, in a condition called dysbiosis.
Yeasts are opportunistic organisms. This means that, as your intestinal bacteria die, yeasts thrive, especially when their dietary needs are met.
Using their tendrils (hyphae), yeast can literally poke holes through the lining of your intestinal wall, which results in a syndrome called leaky gut. In addition, parasitic yeasts can also cause you to change what you eat by causing “cravings” for carbohydrates like sugar, pasta and bread, for example.
So, it should come as no surprise that weight gain counts as one of the telltale signs of antibiotic damage and subsequent yeast overgrowth.
By altering the normal terrain of your intestines, antibiotics can also make food allergies more likely. An array of intestinal disorders can ensue, as well.
Sadly, many doctors dismiss the connection between their patients’ intestinal disorders and the drugs they themselves prescribed. So, beware, and always make sure to repopulate your gut with a high quality probiotic every time you use an antibiotic.
The prevalence of antibiotics in the meats you eat could potentially also contribute to this intestinal imbalance, making organic, grass-fed meats all the more appealing.