Recently in Organic production Category

Urban farming, vertical farms...apartment gardening, these are all new techniques for urban food production in small urban spaces.

Urban food production is a necessary part of food security and reducing the 2,000 miles our typical meal travels to our mouths!

The Windowsfarms Project in New York City is putting together innovative solutions and projects for window gardening.  See their videos at their Windowfarms YouTube channel.

"Killer spices" provide eco-friendly pesticides for organic fruits and veggies

Rosemary, thyme, clove, and mint are well-known spices that are emerging as organic agriculture's key weapons against insect pests.

Scientists in Canada are reporting new research on these so-called "essential oil pesticides" or "killer spices." These pesticides have added to the crop-preserving arsenal of organic growers and offer several advantages over their counterparts -- they're readily available and don't require lots of regulatory approval.

And they're safer for gardeners and farm workers, who are at high risk for pesticide exposure.

Murray Isman, Ph.D., of the University of British Columbia is developing these pesticides.

So, just what is it exactly about these spices that allow them to work their magic outside the kitchen? Here's Dr. Isman again:

"It turns out that some of these oils and some of the chemical constituents in the oils are neurotoxic to many types of insects. At least one of their actions, and we're not certain about all of their actions, one of their actions is they interfere with a neuromodulator in insects called octopamine. It's sort of an internal valium for insects, it sort of calms them down so their nervous systems
don't get overstimulated by external stimuli. If you remove that octopamine, which is what
some of these oils do, they get hyperexcited and eventually die."

These pesticides, usually a combination of spices diluted with water, have added to the crop-preserving arsenal of organic growers and offer several advantages over their counterparts. First, they are readily available and don't require lots of regulatory approval. Also, insects exposed to the spices are less likely to evolve resistance to the toxins. And, they're safer for farm workers, who are at high risk for pesticide exposure. 

"Some of these oils, as some other people have mentioned, are very good antimicrobials,
so they could be very useful against food spoilage organisms, for example. They are useful
against certain plant pathogenic fungi and bacteria, and they do have this phytotoxic effect
on plants, so at high concentrations they can be used as natural herbicides."

These "killer spices" aren't just limited to agricultural use. Some show promise in the home as eco-friendly repellents against mosquitoes, flies and roaches. And, perhaps as an unexpected bonus, these natural pesticides can have a pleasant, spicy aroma. Some in fact contain the same oils used in aromatherapy products, including cinnamon and peppermint.

I've followed the honey bee crisis known as "colony collapse disorder" because of their close connection with our food supply, with nature, and because bees are one of the few "domesticated" insects in our economy.

Science is finally making headway on what is causing the die off of complete hives of bees.

Penn State researchers worked with the National Science Laboratory of the U.S. Department of Agricultural Marketing Service that already tests commodities such as milk and fruits and vegetables.

Honey has not regularly been analyzed, and bee pollen was not a commodity and so was not analyzed at all. The researchers decided to use types of screening the lab uses for milk and apples, which looks at over 170 pesticides. What they found is quite astounding to me... because of what it says about our agricultural practices.

All of the bees tested showed at least 1 pesticide and pollen averaged 6 pesticides with as many as 31 in a sample.

Honeycomb may contain pesticides applied years ago.

Scientists do not know that these chemicals have anything to do with colony collapse disorder, but scientists have concluded that these pesticides are definitely stressors. Penn State's Dr. Maryann Frazier say, "Pesticides alone have not shown they are the cause of CCD. We believe that it is a combination of a variety of factors, possibly including mites, viruses and pesticides."

While beekeepers will have a difficult time controlling pesticide exposure outside the hive, the Penn State researchers tested a method using gamma radiation for reducing the chemical load in beeswax and they found that irradiation broke down about 50% of the acaricides, pesticides that kill mites.

Read all the details at the Environment News Service.

Driving pesticide risks downward is important because, according to pediatrician Alan Greene, M.D., chairman of The Organic Center's board of directors, "Recent science has established strong links between exposure to pesticides at critical stages of prenatal development and throughout childhood, and heightened risk of pre-term, underweight babies, developmental abnormalities impacting the brain and nervous system, as well as diabetes and cancer."

"Yes, with surprising frequency, all Americans, including infants and children, are exposed to pesticides via their diet and drinking water," added Dr. Benbrook.

In fact, Dr. Benbrook noted, recent USDA pesticide residue and food consumption surveys show that most people consume three to four residues daily just through fruits and vegetables.

"Accounting for residues in conventional milk, tap water and other foods, the average American exposes him or herself to ten to 13 pesticide residues daily," Dr. Benbrook added.

The frequency of multiple pesticide residues in conventional produce contributes significantly to each person's daily dose. Multiple residues are eight-times more likely in conventional produce than in organic produce. Reasons why include:

• A conventional spinach sample in 2006 testing was found to have nine residues, a kale sample had 10, and a raisin sample contained 11;
• Almost half the conventional peach samples in 2006 contained five or more residues;
• Conventional sweet bell peppers top the multiple-residue chart, with two samples containing 12 pesticides in 2003 testing; and,
• More than one-third of conventional fruit and vegetable samples in 2006 contained multiple residues.

Converting Nation's Produce Farms to Organic, Coupled with Buying Organic Imported Produce, Would Reduce Pesticide Risks by 97%

The Organic Center bases its 97 percent risk reduction estimate upon a "Dietary Risk Index" (DRI), developed by the EPA's Office of Inspector General (OIG). The EPA-OIG used the index in a 2006 appraisal of the impacts of the 1996 Food Quality Protection Act (FQPA) on pesticide dietary risks.

The Organic Center applied the same DRI to estimate the changes that would occur in risk levels if all produce were grown using organic methods. The Organic Center concluded that a 100 percent reduction in risk is unattainable because of the widespread use of pesticides on conventional farms, and the movement of pesticides in the air and water onto organic farm fields.

"While it will take years to convert most American fruit and vegetable farms to organic methods, the process is well underway and accelerating fast, especially in the Western U.S.," Dr. Benbrook noted. Already, organic produce accounts for nearly ten percent of retail sales of fresh fruits and vegetables. Several major fresh produce grower-shippers have recently announced aggressive timetables to convert all or most of their fruit and vegetable acreage to organic, assuming consumer demand continues to grow.

The report points out that a substantial reduction in pesticide exposure will remove, or markedly lesson, an important risk factor for several serious public health problems.

SOURCE: www.organic-center.org

Converting the nation's eight million acres of produce farms to organic
would reduce pesticide dietary risks by about 97 percent, according to
research from The Organic Center

The Organic Center provides the first-ever quantitative estimate of the degree to which pesticide risks from food can be eliminated through adoption of organic farming methods in "Simplifying the Pesticide Risk Equation: The Organic Option," a new State of Science Review by Dr. Charles Benbrook, the Organic Center's chief scientist.

Less than three percent of the nation's cropland produces fruits and vegetables. Yet, according to The Organic Center, these crops account for most of the pesticide risks from dietary exposure in domestically produced foods. The 97 percent risk reduction can only be achieved if converting domestic cropland of organic is coupled with consumers choosing only imported produce that is certified organic.

The estimates are based on up-to-date pesticide residue data from the U.S. Department of Agriculture, and the Environmental Protection Agency's current methods for estimating pesticide dietary risks.

Founded in 2002, The Organic Center is a non-profit devoted to presenting and providing peer-reviewed scientific evidence on how organic products benefit human health and environmental quality.

Other findings and information shared in the report include:

• An analysis of the significantly greater pesticide risks linked to consumption of imported conventionally-grown fruits and vegetables, as compared to domestically-grown produce.
• Rankings of dietary risk levels in select conventionally-grown fruits and vegetables, arranged to help guide consumers seeking to minimize pesticide risks.
• Suggestions on how to meet dietary guidelines for fruit and vegetable intake in the winter, while also reducing pesticide exposures.
• An overview of pesticide residues found in milk.

The Organic Center offers a free download of its report from their website.