Tuesday, March 6, 2012

Honey Bees and Bt Corn,Insecticide Use

Farmers have been given the supposed cure to their illness of combating weeds through the use of genetic manipulation to a allow chemicals to be used on crops. It sounded too good to be true just as people have bought into the idea of believing their doctors when they subscribe toxic drugs with huge life threatening side affects to cure human ailments and diseases. The immune system of nature is being damaged and choices of farming methods and use of genetically diverse varieties of crops has dwindled to just a few that Monsanto has orchestrated and therefore dominate the market. Science and technology are wonderful things but they can be detrimental when only used to create domination and control over our freedom of choice.  - Howard Bright
Ion Exchange Inc.
 

Here is an article on the subject.

1.Genetically Engineered Crops in the Real World – Bt Corn, Insecticide Use, and Honey Bees 2.Are Pesticides Behind Massive Bee Die-Offs?
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1.Genetically Engineered Crops in the Real World – Bt Corn, Insecticide Use, and Honey Bees Doug Gurian-Sherman Union of Concerned Scientists, January 10 2012
One of the most frequently mentioned benefits of genetically engineered crops is a reduction in chemical pesticide use on corn and cotton. These chemicals typically kill not only pest insects but also beneficial insects that help control pests or pollinate crops. They may also harm other friendly organisms like birds.
But in reality, corn engineered to kill certain insect pests—AKA Bt corn—has mainly resulted in the replacement of one group of chemical insecticides with another. Previously, corn may have been sprayed, or soil treated with chemical insecticides to control several insect pests, especially corn rootworm. Bt has largely eliminated (at least for the time being) the demand for insecticides to control rootworm or European corn borer.
But those who tout the benefits of GE fail to mention that today virtually all corn seed is treated instead with chemical insecticides called neonicotinoids to ward off several corn insects not well controlled by Bt toxins. And while almost all corn is now treated with insecticide via the seed, substantial amounts of corn went untreated by insecticides prior to Bt. For example, corn alternated (rotated) with soybeans from year to year usually needed little or no insecticide treatment, and only five to 10 percent of corn was sprayed for corn borers.
Dead bees
A new publication by several academic entomologists on the impact of neonicotinoid insecticides on honey bees shows that such seed treatment may be having serious repercussions. Previous research has linked neonicotinoids to bee deaths as a possible contributor to colony collapse disorder, which is wreaking havoc on bees across the United States.
The new research is important in showing that when neonicotinoid insecticides are used as seed treatments, they can migrate through the soil or through the air in dust to other plants near (or in) corn fields, like dandelions, which honey bees prefer as a pollen source. It was already known that this type of insecticide can travel through the plant as it grows, and this study also shows corn pollen contaminated with this insecticide and substantial corn pollen use by honey bees.
Importantly, the amount of the insecticide found in and around corn fields is near the range known to kill honey bees, and dead bees collected near treated fields contained insecticide residues. It is also known that sub-lethal doses of these insecticides can disorient bees, and may make them more susceptible to pathogens and parasites.
There are a few pieces of the puzzle that still remain to be put into place, but it is looking likely that neonicotinoid seed treatments are harming U.S. honey bees.
Let's get real
Other research indicates that corn seed treatment is harming other types of beneficial insects. An extensive study in the U.S. Northeast on many types of beneficial beetles that are found in corn fields showed that neonicotinoid seed treatments likely harmed several of these species, although other species may fill in. This study was limited to beetles, did not include other beneficial insects, spiders and mites, and did not examine the implications for crop damage. Other research has shown that reductions in beneficial organisms can result in decreased crop yields.
In general, current data suggests that the new, ubiquitous seed treatments that have accompanied Bt corn are just as harmful as the insecticides they are replacing.
And it illustrates that the impacts of GE technology must be considered more broadly than just direct harm from an engineered gene or protein. As the authors of one of the studies wrote: "Field experimentation must consider the effects of these broader systems for realistic evaluation of currently deployed transgenic crops."
University of Illinois entomologist Mike Gray, an expert on corn rootworm, summarized the state of U.S. corn production in a recent research article: "The current lack of integration of management tactics for insect pests of maize in the U.S. Corn Belt, due primarily to the escalating use of transgenic Bt hybrids, may eventually result in resistance evolution and/or other unforeseen consequences."
It is not incidental or coincidental that corn seed—and seed from more and more other crops like soybeans—is being treated with insecticides. It is a consequence of the susceptibility of our overly-simplified, biologically-pauperized agricultural system, which relies on piecemeal pest control approaches like Bt and chemical insecticides rather than ecologically based systems that greatly reduce the opportunities for pests to get a foothold.
So, why not GE AND agroecology ?
Some vocal advocates of GE have acknowledged that we need to use better, ecologically based agriculture practices, but maintain that we should integrate GE into those systems. Such an approach would likely improve the sustainability of GE pest control. But how would it advance truly sustainable agriculture?
In healthy agro-ecosystems, there is usually limited need for these types of pest control, and in most cases, that need can be met through breeding at much less expense than GE. The fact is that GE seed is expensive (because GE research and development is very expensive). And the large seed companies have a near monopoly on this technology, so they can jack up seed prices even further. Why should farmers be saddled with these unnecessary costs when cheaper technologies will work in the large majority of cases?
As I have written before, GE may occasionally have a useful role, and may sometimes provide real benefits. But in a sensible agriculture system it is not clear that it is really needed, or worth the cost.
(Thanks to Chuck Benbrook at the Organic Center for alerting me to the new article on bees and neonicotinoid insecticides)
About the author: Doug Gurian-Sherman is a widely-cited expert on biotechnology and sustainable agriculture. He holds a Ph.D. in plant pathology.
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2.Are Pesticides Behind Massive Bee Die-Offs?
Tom Philpott
Mother Jones, Jan 10 2012
For the German chemical giant Bayer, neonicotinoid pesticides—synthetic derivatives of nicotine that attack insects' nervous systems—are big business. In 2010, the company reeled in 789 million euros (more than $1 billion) in revenue from its flagship neonic products imidacloprid and clothianidin. The company's latest quarterly report shows that its "seed treatment" segment—the one that includes neonics—is booming. In the quarter that ended on September 30, sales for the company's seed treatments jumped 28 percent compared to the same period the previous year.
Such results no doubt bring cheer to Bayer's shareholders. But for honeybees—whose population has come under severe pressure from a mysterious condition called colony collapse disorder—the news is decidedly less welcome. A year ago on Grist, I told the story of how this class of pesticides had gained approval from the EPA in a twisted process based on deeply flawed (by the EPA's own account) Bayer-funded science. A little later, I reported that research by the USDA's top bee scientist, Jeff Pettis, suggests that even tiny exposure to neonics can seriously harm honeybees.
Now a study from Purdue University researchers casts further suspicion on Bayer's money-minting concoctions. To understand the new paper—published in the peer-reviewed journal Plos One—it's important to know how seed treatments work, which is like this: The pesticides are applied directly to seeds before planting, and then get absorbed by the plant's vascular system. They are "expressed" in the pollen and nectar, where they attack the nervous systems of insects. Bayer targeted its treatments at the most prolific US crop—corn—and since 2003, corn farmers have been blanketing millions of acres of farmland with neonic-treated seeds.
No one disputes that neonics are highly toxic to bees. But Bayer insists—and so far, the EPA concurs—that little if any neonic-laced pollen actually makes it into beehives, and that exposure to tiny amounts has no discernible effect on hive health. Bayer also claims that bees don't forage much on corn pollen.
The Purdue study calls all of this into question. The researchers looked at beehives near corn fields and found that bees are "exposed to these compounds [neonics] and several other agricultural pesticides in several ways throughout the foraging period." Contradicting Bayer's claim that bees don't forage much in cornfields, they found that "maize pollen was frequently collected by foraging honey bees while it was available: maize pollen comprised over 50% of the pollen collected by bees, by volume, in 10 of 20 samples." They detected "extremely high" levels of Bayer's clothianidin in the fumes that rise up when farmers plant corn seed in the spring. They found it in the soil of fields planted with treated seed—and also in adjacent fields that hadn't been recently planted. And they found it in dandelion weeds growing near cornfields—suggesting that the weeds might be taking it up from the soil.
Most alarmingly of all, they found it in dead bees "collected near hive entrances during the spring sampling period," as well as in "pollen collected by bees and stored in the hive."
Now, neonic pesticides likely have two separate effects on bees: an acute one during spring corn planting, when huge clouds of neonic-infested dust rises up, at doses that kill bees that come into contact with it. Those population losses weaken hives but don't typically destroy them. And then there's a gradual effect—what scientists call "chronic"—when bees bring in pollen contaminated at low levels by neonicotinoids. Research by the USDA's Pettis suggests that even microscopic levels of exposure to neonics compromises bees' immune systems, leaving hives vulnerable to other pathogens and prone to collapse.
The EPA has thus far relied on Bayer-funded research to maintain its registration of clothianidin —even after a leaked document in late 2010 showed  that its own staff scientists found Bayer's research to be shoddy. The agency ignored the ensuing controversy and once again let farmers plant seed treated with Bayer's concoction. The Purdue researchers report that "virtually all" of the vast US corn crop is now planted with seed treated with Bayer's dodgy pesticide, and the technology is rapidly spreading to the other most prodigious US crops: soybeans, cotton, and wheat. Now, ahead of the 2012 growing season, we have peer-reviewed, USDA-funded research that bluntly challenges Bayer's claims and implicates it in colony collapse disorder. Will the EPA look the other way while tens of millions of acres are poisoned for the nation's besieged honey bees?
Frankly, quite probably so. Bees can't organize political campaigns, of course, and the beekeeper lobby doesn't wield much influence in the grand scheme of things—though Pesticide Action Network is working hard to amplify their voice. Bayer, meanwhile, is a paid-up member of Croplife America, a powerful agribusiness interest group that the Obama administration won't likely want to tangle with heading into an election. Bad news for bees—and bad news for the ecosystem of which they're such a vital part: ours.
Tom Philpott is the food and ag blogger for Mother Jones.
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Tuesday, February 07, 2012


You Wont Want to Miss Watching Doc Hammill on RFD TV Feb. 17th


Doc Hammill provides essential advice and rulesto follow to prevent wrecks and accidents when driving horses. Go here and learn all about it.
Watch The Events Page on The Natural Gait website for Our Upcoming Doc Hammill Clinic, held in June, DBA! 
It's an Annual June Event You Won't Want to Miss!

Monday, January 23, 2012


The Natural Gait - Horse Trainer


Hi Terri,
I just wanted to send a picture of the 3 year old gelding Nieche, that you started and we bought from you when you lived in MASS.  He is such a nice horse.  He is better than most of the older horses we ride with!  You helped a lot of us with our horses. You have a gift!  I feel blessed to have been able have lessons that has totally changed  my horsemanship for the better. I cant not thank you enough,for everything and of course the most important Naiche!   Thank you   Theresa J,  
You can contact Terri at The Natural Gait

Wednesday, December 21, 2011


Happy Holidays from All of us.

















Happy Holidays from The Natural Gait
The Natural Gait * Ion Exchange, Inc.
1878 Old Mission Drive, Harpers Ferry, IA 52146
877-776-2208 TheNaturalGait.com * TNGmercantile. ntrlgait@acegroup.cc
Ion Exchange Inc. A Native Seed and Plant Nursery
Hbright@ionxchange.com

Tuesday, December 20, 2011


Learn About Echinecea the Beautiful Purple Coneflower


Purple Coneflower
What Is Echinecea?  
Taken from Hair Boutique.com (Health and wellness tip of the week)
At this time of year colds and influenza becomes a big concern.   Especially during the Holidays when people mingle in larger groups  than normal. Due to the economy, changes in health coverage and other  issues, more people are searching for alternative treatments  for minor health concerns such as colds and flu.
 Echinacea has become more popular as an option. It's often combined  with goldenseal as a herbal alternative for amping up the immune system  to block cold and flu viruses from taking hold.
Used By Native Americans Echinacea angustifolia was widely used for its general medicinal qualities by the Native North Americans who lived in the Midwestern states.
 Native Americans learned of E. angustifolia by observing elk seeking  out  the plants and consuming them when sick or wounded. They identified   those plants as elk root.
Echinacea was one of the  basic antimicrobial herbs of eclectic  medicine from the mid 19th century  through the early 20th century. Its use was documented for snakebite, anthrax, and for relief of discomfort.  In the 1930s echinacea became popular in both Europe and America as a  herbal medicine. Echinacea Is A Flowering Plant Echinacea pronounced ek-i-NAY-sha is a genus of herbaceous flowering   plant in  the Asteraceae daisy family. It's a popular alternative  herbal  style  of treatment believed by many to help with cold and  influenza   prevention and/or treatment. The  generic name Echinacea is rooted in a Greek word echinos,     meaning sea  urchin. It references the spiky appearance and feel of the     flower  heads. Echinacea plants reseed in the fall. New  flowers   will grow where seeds have fallen from the prior year. Echinacea still falls under the category of folk remedy. You should  always consult  with your primary health care provider  before  taking  any type of  herbs or alternative treatments. Species Of Echinacea It's also known as the purple coneflower. It's a North American plant  group with nine species, three of which are commonly believed to help  with cold and influenza prevention. Cold And Flu Properties
The three species valued for their cold and flu properties include: 1.  Echinacea angustifolia – Narrow-leaf Coneflower
 2.  Echinacea pallida – Pale Purple Coneflower
3. Echinacea purpurea – Purple Coneflower, Eastern Purple Coneflower
The  flowering plant is generally found in eastern and central North   America. It thrives in moist to dry prairies and open wooded areas. It   blooms from early to late Summer and is tolerant of drought   conditions. Does Echinacea Really Work? Many people swear by echinacea (or combination remedies) as their go-to herb for preventing or minimizing the impact of colds and flu attacks. Does it really work for everyone who takes it?  Absolutely not.
 There is not one single remedy - prescription or alternative -   which works 100% for all people of all ages. There are a vast number of   variables which have to be considered for any type of remedy. The same   holds true for echinacea. While some users of alternative treatment  swear  by it, others find it doesn't help them at all.
 The truth of whether echinacea works or not, and who it works for, is   generally a matter of personal experience. I personally have been   taking echinacea or echinacea goldenseal formulations for close to 30   years. I believe it helps me when I am fighting off a cold or flu. But it definitely doesn't help some of my family and   friends who've tried it.
After much research I found the liquid capusules available from Gaia  Herbs work best for me.  Herbal teas or herbal pills have not proven to be as effective which confirms my opinion that everyone needs to do their own research, talk to their own health care professionals and make their own  decisions before taking any type of alternative treatment.
 Note: We do not sell Gaia Herbs at HairBoutique.com <http://www.hairboutiquemedia.com/emailmarketer/link.php?M=13681&N=803&L=52&F=H> . I mention Gaia products because they work well for me and I have used them for many years. I am  sure other brands may work just as well, but I can not recommend any which  I have not personally tried.
Not A One Dose Treatment Proponents  of echinacea assert it is not a "one-dose" treatment. In  order for echinacea to work effectively, a dose should be taken at the  very first  sign of cold symptoms.
Subsequent doses are called for every  two to  four hours after the first dose, including during the overnight   sleeping period, until the cold symptoms have disappeared.
The several species of echinacea differ in their precise chemical   constitution, and may provide variable dosages of any active   ingredients. Be sure to read the suggested dosages contained on the product labels or follow instructions from your health care provider.
Possible Side Effects? Always consult with your primary care health consultant before taking echinacea to make sure you are not at risk for any side effects. When taken by mouth, echinacea does not usually cause side effects.   One of the most extensive and systematic studies to review the safety of   echinacea products concluded that overall "adverse events are rare,   mild and reversible" with the most common symptoms being   "gastrointestinal and skin-related." Although rare, echinacea may cause nausea, abdominal cramps, loose bowels, itching and rash.  Nausea and abdominal discomofrt are more pronounced when the product is taken on an empty stomach. Echinacea has also been linked to rare   allergic reactions, including asthmatic attacks, shortness of breath, and one case   of anaphylaxis.
Muscle and joint aches has been associated with   echinacea, but it may have been caused by cold or flu symptoms for which   the echinacea products were administered.
Isolated Cases Of Rare Side Effects There  are isolated case reports of very rare and idiosyncratic  reactions  including thrombocytopenic purpura, leucopenia, hepatitis,  renal  failure, and atrial fibrillation. It is not clear these reactions  were specifically due to echinacea and may have been part of a larger medical issue.
 Experts have expressed concerns that by stimulating immune functions, echinacea   could potentially exacerbate autoimmune disease and/or decrease the effectiveness of immunosuppresive formulas, but this warning is based on theoretical considerations rather than human data.
To date there have been no case reports of any interactions with   echinacea. The "currently available evidence suggests echinacea   is unlikely to pose serious health threats for patients combining it   with conventional formulas." As a matter of manufacturing safety, one investigation by an   independent consumer testing laboratory found that five of eleven   selected retail echinacea products failed quality testing.
 Four of the  failing products contained levels of phenols below the  potency level  stated on the labels. One was  contaminated with lead.
Ultimately only select products which are known for their manufacturing safety and guality practices.
Scientific Reviews Multiple  scientific reviews, trials and meta-analyses have evaluated the   published peer reviewed literature on the immunological effects of echinacea. Reviews of the medicinal effects of echinacea are often  complicated  by the inclusion of a wide range of mixtures. Some formulas are based  solely upon echinacea while others are combinations. Also, some formulations are offered in higher potency or delivery  systems than others. Some use the roots versus other parts of the  plants and some are offered as extracts and expressed juice. There are also three of the nine species known to help with cold and  flu conditions and may be used alone or in combination with each other herbal ingredients.
Contradictory Claims Of Echinacea Effectiveness
Evaluation of the literature within the field generally suffers from a  lack of well-controlled trials, with many studies of lower quality. The results tend to be contradictory. Depending upon what studies you  read, echinacea works or it has no effect. A 2007 study by the University of Connecticut combined findings from  14 previously reported trials examining echinacea. The study concluded echinacea can cut the chances of catching a cold by more than half, and  shorten the duration of a cold by an average of 1.4 days. A  2003 controlled double-blind study from the University of Virginia  School of Medicine and documented in the New England Journal of Medicine  stated that echinacea extracts had "no clinically significant effects"  on rates of infection or duration or intensity of symptoms. The effects held when the herb was taken immediately following  infectious viral exposure and when taken as a prophylaxis starting a  week prior to exposure. An earlier University of Maryland review based on 13 European studies  concluded that echinacea, when taken at first sign of a cold, reduced  cold symptoms or shortened their duration. Use Of Expressed Juice And Similar The European Medicines Agency (EMEA) assessed the body of evidence on echinacea. The EMEA approved the use of expressed juice and dried expressed juice from  fresh flowering aerial parts of Echinacea purpurea for the short-term  prevention and treatment of the common cold. According to their recommendations: 1.  It should not be used for more than 10 days at a time
 2.  Children under the age of one should not take it because they have immature immune systems
 3.  It is generally not recommended for children between 1 and 12 years of age
 4.  Echinacea is not recommended for use by pregnant women and during lactation
 Echinacea As Immunostimulator
Echinacea is popularly believed to be an immunostimulator,  stimulating the body's non-specific immune system and warding off  infections. It is also utilized as a laxative. A study commonly used  to support that belief is a 2007 meta-analysis in The Lancet Infectious  Diseases. The studies pooled in the meta-analysis used different types of  echinacea, different parts of the plant, and various dosages. This  review cannot inform recommendations on the efficacy of any particular  type of echinacea, dosage, or treatment regimen.
The safety of echinacea under long-term use is also unknown.
History Of Echinacea Use
Echinacea angustifolia was widely used by the early Native Americans  for its general medicinal qualities. Echinacea was one of the basic  antimicrobial herbs of eclectic medicine from the mid 19th century  through the early 20th century. Its use was documented for  snakebite, anthrax, and for relief of aches. In the 1930s echinacea  became popular in both Europe and America as a herbal medicine. According to Wallace Sampson, MD, its modern day use as a treatment  for the common cold began when a Swiss herbal supplement maker was  "erroneously told" echinacea was used for cold prevention by Native  American tribes who lived in the area of South Dakota. Although  Native Americans didn't use echinacea to prevent the common cold, some  Plains tribes did use echinacea to treat many of the symptoms which could  be caused by the common cold. The Kiowa used it for coughs and sore throats, the Cheyenne for sore  throats, the Pawnee for headaches, and many tribes including the Lakotah  used it as relief for congestion. Active Substances Like most crude formulas from plant or animal origin, the constituent  base for echinacea is complex, consisting of a wide variety of chemicals  of variable effect and potency. Some chemicals may be directly  antimicrobial, while others may work at stimulating or modulating  different parts of the immune system. All species have chemical compounds called phenols, which are common  to many other plants. Both the phenol compounds of cichoric and caftaric are present in E. purpurea. Other phenols include  echinacoside, which is found in greater levels within E. angustifolia  and E. pallida roots than in other species. When making herbal remedies, these phenols can serve as markers for  the quantity of raw echinacea in the product. Other chemical  constituents that may be important in echinacea health effects include  alkylamides and polysaccharides. Summary Does echinacea work to help boost the immune system and help block  cold and flu viruses from attacking? There is a lot of conflicting  opinions about the value of this herb. Ultimately you need to do your  own research, form your own opinions and always check with your primary care provider. Warning: Always consult your health care provider BEFORE you  undertake any new type of vitamin, mineral program or herbal program of  any type to make sure it does not interfere with any medical treatment  you may currently be on. References Foster, Steven, "Cold Comfort" Longevitiy Magazine, February 1996, 32
 Canlas J, Hudson JB, Sharma M, Nandan  D.,"Echinacea and trypanasomatid  parasite interactions: Growth-inhibitory and anti-inflammatory effects  of Echinacea". Pharm Biol. 2010 Sep;48(9):1047-52
Image courtesy Haap Media, Ltd.