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Daily News Blog

28
Jul

296 Chemicals in Consumer Products Increase Breast Cancer Risk Through Hormone (Endocrine) Disruption

(Beyond Pesticides, July 29, 2021) New research published in Environmental Health Perspectives finds nearly 300 different chemicals in pesticides, consumer products, and contaminated resources (i.e., food, water) increase breast cancer risks. Breast cancer is the most common cancer among women, causing the second most cancer-related deaths in the United States. Past studies suggest genetic inheritance factors influence breast cancer occurrence. However, genetic factors only play a minor role in breast cancer incidences, while exposure to external environmental factors (i.e., chemical exposure) may play a more notable role. There are grave concerns over exposure to endocrine (hormone) disrupting chemicals and pollutants that produce adverse health effects.

Most types of breast cancers are hormonally responsive and thus dependent on the synthesis of either estrogen or progesterone. Hormones generated by the endocrine system greatly influence breast cancer incidents among humans. Several studies and reports, including U.S. Environmental Protection Agency (EPA) data, identify hundreds of chemicals as influential factors associated with breast cancer risk. Therefore, advocates point to the need for national policies to reassess hazards associated with disease development and diagnosis upon exposure to chemical pollutants. The study’s researchers note, “This study shows that a number of chemicals currently in use have the ability to manipulate hormones known to adversely affect breast cancer risk. […] So, we should be extremely cautious about chemicals in products that increase levels of these hormones in the body.â€

Using high throughput screening (HTP) data from in vitro ToxCast assay (test) developed by EPA, researchers identified chemicals that increase estradiol (a type of estrogen) or progesterone production in H295R cells responsible for hormone synthesis. An increase in estrogen or progesterone is often indicative of breast cancer and other endocrine-related risks. Researchers organized the identified chemicals by order of activity (i.e., efficacy and potency). Lastly, researchers compared the result to in vivo studies/assessments of carcinogenicity and reproductive/developmental toxicity, demonstrating comparable hormone-increasing mechanisms. 

The study results find 296 chemicals associated with an increase in estradiol or progesterone. 182 and 185 different chemicals cause an increase in estradiol and progesterone, respectively, while 71 chemicals are responsible for the increased synthesis of both hormones. Of the chemicals that increase hormone synthesis, only 30 percent are likely reproductive/developmental toxicants or carcinogens from in vivo assessments, while five to 13 percent are unlikely. However, most of the chemicals that increase hormone synthesis lack sufficient in vivo data to gauge health effects. The study finds 29 chemicals associated with an increase in estradiol or progesterone production also have links to mammary tumor development. The researchers find most sources of chemical exposure come from pesticides, consumer product ingredients, food additives, and drinking water contaminants. 

The connection between pesticides and associated cancer risks is nothing new. Several studies link pesticide use and residues to various cancers, from more prevalent forms like breast cancer to rare forms like kidney cancer nephroblastoma (Wilms’ tumor). Sixty-six percent of all cancers have links to environmental factors, especially in occupations of high chemical use. Although the link between agricultural practices and pesticide-related illnesses is stark, over 63 percent of commonly used lawn pesticides and 70 percent commonly used school pesticides have links to cancer. U.S. National Institutes of Health’s National Cancer Institute also finds many cancer-causing substances are endocrine disruptors. The entire endocrine system directly affects traditional endocrine glands and their hormones and receptors (i.e., estrogens, anti-androgens, thyroid hormones). Hence, epidemiology studies find endocrine disruption has close ties to hormone-related cancers like breast cancer. For breast cancer, one and eight women will receive a diagnosis, and genetics can only account for five to ten percent of cases. Therefore, it is essential to understand how external stimuli—like environmental pollution from pesticides—can drive breast cancer development to avoid exposure and lessen potential cancer risks.

This study is one of the first to detect chemical activity using HTP assessments based on an increase in estrogen or progesterone production, rather than the ability to mimic estrogen. The results of the study may serve to encourage government and health officials to reevaluate chemical safety tests. Although researchers are unaware of how these chemicals increase estradiol and progesterone production, they caution that encountering multiple sources of daily exposure increases adverse health risks. The most potent, efficacious chemicals associated with increasing estradiol and progesterone levels displayed higher hormone concentrations and mammary gland effects (i.e., tumors, etc.), among other reproductive toxicities. In vitro assessments, like the one in this study, are vital additions to current toxicology assessments as they are not sensitive to mammary gland effects. 

For decades, Beyond Pesticides has been arguing that the risk assessment process used by EPA for its pesticide registration process is substantially inadequate to protect human health. The study shows some chemicals that increase hormone synthesis are classifiable as “unlikely to have reproductive/developmental toxicity or carcinogenicity.” However, the cohort of “unlikely” chemicals may be smaller than previously thought as EPA fails to adequately consider exposure effects on mammary gland development in its review of animal studies related to pesticide impacts. Therefore, mammary gland tumor development has been improperly dismissed from consideration in the registration process, including pesticides cyfluthrin and 2,4-D precursor, 2,4-DCP. The study also notes that 112 chemicals in consumer products, food, pesticides, or drugs lack adequate carcinogenicity evaluations and urgently require research and exposure reduction methods.

The researchers conclude, “Exposure to many of these chemicals is likely ubiquitous, based on exposure prediction models. We conclude that these [endocrine disrupting chemicals] EDCs are priorities for biomonitoring and exposure reduction as well as for additional study to better understand potential effects on breast cancer and other reproductive and developmental effects.â€

Cancer is a leading cause of death worldwide. Hence, studies concerning pesticides and cancer help future epidemiologic research understand the underlying mechanisms that cause cancer. Furthermore, it is essential to understand the effects endocrine-disrupting chemicals have on human health, especially for latent diseases like cancer. There is a serious deficiency in understanding the etiology of pesticide-induced diseases, including predictable lag time between chemical exposure, health impacts, and epidemiologic data. Therefore, advocates maintain that lawmakers and regulators should take a more precautionary approach before introducing these chemicals into the environment.

With far too many diseases in the U.S. associated with pesticide exposure, reducing pesticide use is a critically important aspect of safeguarding public health and addressing cost burdens for local communities. Beyond Pesticides’ Pesticide-Induced Diseases Database (PIDD) is a vital resource for additional scientific literature that documents elevated cancer rates and other chronic diseases and illnesses among people exposed to pesticides. This database supports the clear need for strategic action to shift away from pesticide dependency. For more information on the multiple harms of pesticide exposure, see PIDD pages on breast cancer, endocrine disruption, and other diseases.

Proper prevention practices, like buying, growing, and supporting organics, can eliminate exposure to toxic pesticides. Organic agriculture has many health and environmental benefits, which curtail the need for chemical-intensive agricultural practices. Regenerative organic agriculture nurtures soil health through organic carbon sequestration while preventing pests and generating a higher return than chemical-intensive agriculture. For more information on how organic is the right choice, see Beyond Pesticides webpage, Health Benefits of Organic Agriculture. 

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: The Tennessee Tribune, Environmental Health Perspectives

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27
Jul

Researchers Develop Pesticide-Free, Mosquito-Proof Clothing

(Beyond Pesticides, July 27, 2021) Researchers at North Carolina State University have developed pesticide-free clothing able to prevent 100% of mosquito bites for the wearer, and published proof of the garment’s effectiveness in a study in the journal Insects. If able to be scaled at a commercial level, the fabrics have the potential to transform personal protective measures for mosquitoes, which often includes in well-meaning consumers spraying toxic pesticides like DEET and permethrin on their body and clothing. “The fabric is proven to work – that’s the great thing we discovered,†said study co-author Andre West, associate professor of fashion and textile design at NC State and director of Zeis Textiles Extension for Economic Development in a press release. “To me, that’s revolutionary. We found we can prevent the mosquito from pushing through the fabric, while others were thick enough to prevent it from reaching the skin.â€

To create the mosquito-proof fabric, scientists turned to physics and mathematical models, rather than looking for new killer chemistries. “Our premise here is: why do we need an insecticide-treated textile when you can do it, now that you know a mathematical formula, without chemistry?†said Michael Roe, PhD, an N.C. State professor of entomology to the News and Record.  Scientists analyzed the mosquito’s morphology, looking for weaknesses that could be addressed by various textiles. Measurements were taken on the mosquitoes’ head, antenna, proboscis and other mouth parts. Then, textile models were with differing pore sizes and thicknesses were developed to address different aspects of the mosquito’s morphology. One had pores small enough to stop the proboscis from entering the skin, another stopped the mosquito from getting its head close enough to the skin, and the third had larger pores but was thick enough to stop skin contact.

Scientists then developed three fabrics based on the models to test in the real world. One was a superfine knit, another was knit, double layered and bonded, and the last fabric was a knit three-dimensional fabric, and thus thicker than the other two. Lab testing found that the fabrics developed by researchers provided bite resistance of 95% or greater.

Scientists then compared the success of their model textiles to the use of permethrin-treated clothing, a common insecticide which, despite being classified as having suggestive evidence of carcinogenicity, is often impregnated in or sprayed onto clothing in attempts to ward away mosquitoes. Results showed that while the pesticide-free woven textiles maintained bite resistance to 95%, permethrin treated clothing’s bite resistance was as low as 80%. Although more mosquitoes landed on the woven clothing, fewer were able to penetrate and reach the skin. And while the permethrin-treated clothing had fewer mosquito landings, those that were able to get near the skin were also able to extract a blood meal.

To ensure their textiles worked outside of the lab, two pieces of bite-proof clothing were constructed – a thin underlayer shirt, and a thicker military style shirt. These garments were tested by having a individual wear the clothing and walk into a cage filled with mosquitoes. For the military-style shirt, bite resistance was 100%. For the underlayer, 96.5% bite resistance was achieved, showing 7 bites out of 200 mosquitoes. Researchers indicate that another layer of clothing would result in 100% effectiveness, and some tweaks to the original garment were also able to achieve this goal. In addition to successfully eliminating mosquito bites, the study indicates that the clothing was comfortable, and still provided good breathability.

“The final garments that were produced were 100 percent bite-resistant,†said Michael Roe, PhD, William Neal Reynolds Distinguished Professor of Entomology at NC State. “Everyday clothing you wear in the summer is not bite-resistant to mosquitoes. Our work has shown that it doesn’t have to be that way. Clothes that you wear every day can be made bite-resistant. Ultimately, the idea is to have a model that will cover all possible garments that person would ever want – both for the military as well as for private use.â€

Eliminating the military’s use of insecticide-treated clothing would be an important step forward in protecting US military members. Previous research has found that combinations of DEET and permethrin used in clothing worn by US service members may have played a role in the development of Gulf War syndrome, a disease characterized by chronic symptoms, including headache, loss of memory, fatigue, muscle and joint pain, and ataxia, which causes an inability to coordinate muscular movements.

Reports indicate that the company Vector Textiles has licensed the patent rights for the garments, and has begun to prototype new clothing, including a pesticide-free mosquito-resistant infant onesie.

While waiting for this revolutionary mosquito-avoidance method to hit the market, continue to take protective measures that do not include the use of DEET, permethrin and other toxic insecticides. Long-sleeve light colored clothing, coupled with least-toxic repellants can adequately address outdoor nuisance mosquitoes. Yard, neighborhood, and community-based measures to remove standing water around properties and encourage neighbors to do the same can also have a dramatic effect at reducing numbers of nuisance biting mosquitoes.

For more information on how to stop the bite, see Beyond Pesticides program page on Safer Mosquito Management. If you’d like to begin educating your neighbors and community about safer ways to manage mosquitoes without the use of toxic insecticides, let the Mosquito Doorknob Hanger help you start the conversation.

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: NC State University (press release), Insects (peer-reviewed journal)

 

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26
Jul

Take Action: Tell EPA Not to Allow Unnecessary Pesticide Risks

(Beyond Pesticides, July 26, 2021) Despite federal law that directs the U.S. Environmental Protection Agency (EPA) to register pesticides only if they do not cause unreasonable adverse effects on humans or the environment, EPA allows pesticides known to cause many adverse effects on humans and the environment. These include health effects such as asthma, autism and learning disabilities, birth defects and reproductive dysfunction, diabetes, Parkinson’s and Alzheimer’s diseases, and several types of cancer—and environmental effects such as decimation of pollinator populations, direct and indirect killing of wildlife, reducing carbon sequestration in the soil, and poisoning air, water, and land. The risks are particularly high for farmworkers and fenceline communities. Why does EPA consider these effects “reasonable†when the pesticides are not necessary to achieve pest management or prevention goals?

Tell EPA not to allow unnecessary pesticide risks.

When evaluating pesticide registration applications, EPA does not require data demonstrating “benefits†against which these risks may be weighed. That kind of calculation only takes place years down the line, if EPA believes there is reason to consider canceling a pesticide’s registration. On the other hand, the existence of organic producers fueling $62 billion in organic sales in the U.S., with virtually all commodities being now grown and processed without toxic pesticides, indicates that a true cost accounting of pesticide use would find these risks unreasonable.

This month, the Rockefeller Foundation released a report estimating that the true cost of food is about three times the $1.1 trillion that consumers pay annually. The report says, “Of the impact areas we assessed in our study, the costs related to human health were by far the most significant driver of unaccounted-for costs, at roughly $1.1 trillion per year. That figure alone nearly doubles the cost of our food system—our national ‘bill’ for the diet-related disease is equal to all the money we currently pay for the food itself.†An additional $100 billion is attributed to the “unaccounted livelihood costs†to the “food workers and producers—who are overwhelmingly from marginalized communities, and in particular from communities of color.â€

The report also calculates that the “unaccounted costs of the food system on the environment and biodiversity add up to almost $900 billion per year. These costs are mainly attributable to two areas: greenhouse gas (GHG) emissions and biodiversity costs.â€

Although not all of the unaccounted costs identified by the Rockefeller Foundation are directly attributable to pesticide use, many are and should factor into EPA’s pesticide registration process. That process should compare those costs, as well as those already identified by EPA, to the organic farming alternative. If the risks can be eliminated by organic farming, then they are unnecessary—and, therefore, unreasonable.

Tell EPA not to allow unnecessary pesticide risks.

Letter to EPA Administrator Michael Regan

I am writing to ask EPA to bring its pesticide registration decision in line with the Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA) “unreasonable adverse effects†standard. The federal pesticide law (FIFRA) directs EPA to register pesticides only if they do not cause unreasonable adverse effects to humans or the environment. Yet EPA registers pesticides known to cause many adverse effects on humans—including asthma, autism and learning disabilities, birth defects and reproductive dysfunction, diabetes, Parkinson’s and Alzheimer’s diseases, and several types of cancer—and the environment—including decimation of pollinator populations, direct and indirect killing of wildlife, reducing carbon sequestration in the soil, and poisoning air, water, and land. The risks are particularly high for farmworkers and fenceline communities. What makes these effects “reasonable†when the pesticides are not necessary to achieve pest management or prevention goals?

When evaluating pesticide registration applications, EPA does not require data demonstrating “benefits†against which these risks may be weighed. That kind of calculation only takes place years down the line, if EPA believes there is reason to consider canceling a pesticide’s registration. On the other hand, the existence of organic producers fueling $62 billion in organic sales in the U.S., with virtually all commodities now being grown and processed without toxic pesticides, indicates that a true cost accounting of pesticide use would find these risks unreasonable.

This month, the Rockefeller Foundation released a report estimating that the true cost of food is about three times the $1.1 trillion that consumers pay annually. The report says, “Of the impact areas we assessed in our study, the costs related to human health were by far the most significant driver of unaccounted-for costs, at roughly $1.1 trillion per year. That figure alone nearly doubles the cost of our food system—our national ‘bill’ for the diet-related disease is equal to all the money we currently pay for the food itself.†An additional $100 billion is attributed to the “unaccounted livelihood costs†to the “food workers and producers—who are overwhelmingly from marginalized communities, and in particular from communities of color.â€

The report also calculates that the “unaccounted costs of the food system on the environment and biodiversity add up to almost $900 billion per year. These costs are mainly attributable to two areas: greenhouse gas (GHG) emissions and biodiversity costs.â€

Although not all of the unaccounted costs identified by the Rockefeller Foundation are directly attributable to pesticide use, many are and should factor into EPA’s pesticide registration process. That process should compare those costs, as well as those already identified by EPA, to the organic farming alternative. If the risks can be eliminated by organic farming, then they are unnecessary—and, therefore, unreasonable.

Please ensure that the pesticide registration process accounts for the true costs of pesticide use so that EPA can health solve public health threats, the climate crisis, and biodiversity decline.

Thank you.

 

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23
Jul

Report Finds True Cost of Food in 2019 Was $2.1 Trillion in Adverse Health, Environmental, and Other Effects

(Beyond Pesticides, July 23, 2021) The Rockefeller Foundation has just published a report, True Cost of Food: Measuring What Matters to Transform the U.S. Food System, which identifies the real-but-under-recognized downsides of the U.S. food system. The report notes that, for all its reputed bounty, the food system “comes with hidden costs — to our health, to our climate,†and to the many people who make sure that food reaches the population. The report calls for a true accounting of the costs of food in the U.S.

Beyond Pesticides welcomes the broad framework of the report, but notes that a true accounting would necessarily include the costs of the externalities of conventional agriculture, including those related to pesticides: the costs of pollution and its cleanup (when that even happens), of lost pollination and biodiversity, of lost productivity from illness, and of health care costs related to pesticide use. Remarkably, for all its repetition of deleterious impacts on climate, biodiversity, and health, the report barely mentions either pesticides’ roles in causing such impacts, or the clear solution to so many of the negatives in the food system — organic, regenerative agriculture.

The report’s economic analysis applies a true cost accounting (TCA) framework to assessing the real costs and impacts of the current system. It asserts, “Our food system is failing us, and too few people understand the true cost of the food we consume, and lack clear incentives to change a system that is costing us dearly. That’s why accounting for the true cost of the food we eat is the first, necessary step towards remaking the incentive structure that drives our food system today.â€

The report identifies primary areas impacted by food production and consumption: environment, human health, biodiversity, livelihoods, and the economy. By its own admission, the report’s analysis focused only on primary impacts of the food system; thus, it did not include downstream impacts, such as secondary impacts on the environment, national security, or educational outcomes (due to nutrition insecurity). It also sought to explore the impacts of both animal welfare and resilience, and to examine ways in which equity issues impact true costs.

The report says that communities of color bear disproportionately the costs of the food system, particularly in health outcomes related to pollution, nutrition insecurity, and environmental injustices. It notes that Black and Brown Americans, who work disproportionately in the food system, shoulder greater proportional burdens related to exposures to pesticides and synthetic fertilizers, and bear greater economic impacts related to livelihoods (e.g., lower typical wages than for White Americans), as well as discriminatory impacts of agricultural subsidies.

The essential rationale of the report’s focus on the need for TCA is that it is impossible to transform a system until the real costs and benefits of it are known. The report asserts, “This lack of transparency and the absence of a codified, unified framework to quantify the ‘true cost’ of the food system means that there is neither a clear line of sight into such costs, nor incentives to reduce these true costs and optimize for the true benefits of food through public spending and private investments.â€

Those “hidden costs†of food the report mentions are invisible to most people: they do not show up in the amounts on consumers’ grocery store receipts because they comprise the externalities the current system fails to account for in most analysis or discussion of food costs. Certain kinds of food costs are represented in the sticker price of food items: those for land, transportation, storage, distribution, and wages of food system workers.

But other significant costs — termed “externalized†because they are not borne by the companies that comprise much of the food system, but are directly or indirectly thrust on the public in multiple ways — do not show up in typical food cost accounting. Those include “downstream†costs of the current food system for: healthcare for diet-related illnesses and other health impacts; loss of ecosystem functioning and biodiversity because of pesticide use, habitat loss, and climate change; agricultural subsidies; pollution of water, soil, and air; inadequate wages for many food workers; and the myriad negative impacts climate change, among others.

Food expenditures — what consumers pay for food of every sort — for 2019 totaled $1.1 trillion. The sum of all the externalized costs that are not covered in the price of food was roughly $2.1 trillion. Together, this means that the real costs of how food was grown, raised, cleaned, processed, transported, distributed, and sold plus all the externalized costs totaled to at least $3.2 billion for that year. Those externalized costs, the report says, were related primarily to human health and environmental impacts, calculated at $1.1 trillion and nearly $900 billion, respectively.

This reports follows on one The Rockefeller Foundation did in 2020 — Reset the Table: Meeting the Moment to Transform the U.S. Food System — that focused on the hunger and nutrition crisis in the U.S. that was present but newly underscored and amplified by the Covid-19 pandemic. That 2020 report endorsed three transitions it called necessary “to transform the U.S. food system to make it more efficient, equitable, healthy, and resilient, both in good times and bad.†Those are: (1) a better integrated nutrition security system, (2) reinvigorated regional food systems, and (3) equitable prosperity throughout the supply chain.

The three top-level findings of this report, reflected in its organization, are: (1) there is urgent need to transform the U.S. food system; (2) the true cost of the U.S. food system is three times what is spent on food; and (3) a better understanding of these costs can provide a foundation for a successful transformation of the U.S. food system.

The 2020 report was oriented around the food/hunger crisis, particularly as it was amplified through the pandemic. This current report says, “The Covid-19 pandemic revealed how unfit our food system is for the 21st century. Knowing the true cost of our food system . . . is the right first step toward making it better, less costly, and less risky. With this kind of analysis, governments, advocates, corporations, and even individuals have the tools and the power to catalyze the systems-level change needed to develop a truly nourishing, equitable, and regenerative food system. . . . We need holistic and transformational change to build a food system that provides healthy and affordable food for all consumers; fair, livable wages, and safe working conditions for workers; viable farming options for rural communities; and efficient and sustainable use of our natural resources, to name a few. We need a system that protects the environment and human health.â€

Beyond Pesticides is in agreement with most of the report’s aspirational framework and guidance. However, if the laudable goals are to be realized, the framework must recognize, specifically identify, and forward two realities: (1) the many damaging impacts from synthetic pesticide (and fertilizer) use in U.S. agriculture, and (2) that “regenerative†agriculture and practices cannot achieve the identified goals unless they are organic regenerative practices. Jay Feldman, executive director of Beyond Pesticides (and former member of the National Organic Standards Board) has said, “Pesticide reduction strategies that allow continued use of toxic substances undermine the soil biology and biodiversity that is critical to healthy plants and unnecessary to achieving pest management goals.â€

When evaluating pesticide registration applications, EPA does not require data demonstrating “benefits†against which health and environmental risks may be weighed. That kind of calculation only takes place years down the line, if EPA believes there is reason to consider canceling a pesticide’s registration. On the other hand, the existence of organic producers fueling $62 billion in organic sales in the U.S., with virtually all commodities being now grown and processed without toxic pesticides, indicates that a true cost accounting of pesticide use would find pesticide risks unreasonable under the “unreasonable adverse effects†standard of the Federal Insecticide, Fungicide and Rodenticide Act (FIFRA). According to Terry Shistar, PhD, Beyond Pesticides board member: “Although not all of the unaccounted costs identified by the Rockefeller Foundation are directly attributable to pesticide use, many are and should factor into EPA’s pesticide registration process. That process should compare those costs, as well as those already identified by EPA, to the organic farming alternative. If the risks can be eliminated by organic farming, then they are unnecessary—and, therefore, unreasonable.â€

Beyond Pesticides has written extensively about pesticide impacts throughout the organization’s history and across many sectors (see, e.g., the Programs navigation on the website homepage). More recently, it has covered the emerging issue of “regenerative†agriculture, as that has enjoyed greater exposure in public policy discussions. Indeed, The Rockefeller Report repeatedly mentions “regenerative†approaches to agricultural production, in the contexts of animal welfare, soil status, climate mitigation.

The “regenerative†movement has focused largely on conservation tillage (i.e., “no tillâ€) practices that help maintain soil structure, as well as on increasing carbon-based (organic) matter in soil, cover cropping, and crop rotations — all of which improve and support soil health. However, as a 2019 Friends of the Earth report noted, “Data indicate that the majority of no-till farmers rely on herbicides such as glyphosate, the active ingredient in Roundup.†“Regenerative†practices in concert with continued use of toxic inputs — synthetic pesticides and fertilizers — are self-defeating. They may sequester more carbon in the soil, but at the same time, the use of these toxic compounds destroys soil biota and causes increased emissions of nitrous oxide (NOx), a greenhouse gas.

Promotion of regenerative agriculture shows up especially in discussions of mitigation of climate emissions and impacts, given that agriculture and forestry account for as much as 25% of human-induced greenhouse gas emissions. Regenerative approaches are widely considered as an important one of the solutions for reducing (or even reversing) these impacts.

However, as Beyond Pesticides recently wrote, “A movement by promoters of chemical-intensive agriculture has fooled some environmentalists into supporting toxic ‘regenerative’ agriculture. The so-called ‘regenerative agriculture’ promoted by these groups ignores the direct climate impacts of nitrogen fertilizers, the damage to soil health caused by pesticides and chemical fertilizers, and the fact that pesticide and fertilizer manufacturing is dependent on fossil fuels, both as key ingredients and for the heat and energy driving chemical reactions. It is important to see through this deception.â€

Organic regenerative practices, however, do reduce greenhouse gas (GHG) impacts: organically managed agricultural soils can sequester significant amounts of atmospheric carbon, and organic practices reduce emissions of NOx. Also, re: the very goals The Rockefeller Foundation report extolls, organic practices broadly deployed would virtually eliminate many of the negative human health, biodiversity, and equity impacts of the current food system. Systems that are organic and regenerative in approach represent the optimum for achieving the goals set out in The Rockefeller Report.

Support for such systems is growing. For example, the Rodale Institute has begun to promote a new certification developed through the Regenerative Organic Alliance: Regenerative Organic CertifiedTM (ROC). This certification, which seeks to label food grown with organic, regenerative approaches, specifically disallows any synthetic inputs.

The Rodale website says, “Though the USDA Certified Organic seal continues to be a rigorous standard, it has some gaps when it comes to soil health and animal welfare requirements. Most importantly, it omits the treatment of farmers and farm workers. Many brands, farmers, ranchers, and nonprofits felt that a more holistic standard could go above and beyond the organic label. . . . [The ROC standard] uses the USDA Certified Organic standard as a baseline. From there, it adds important criteria and benchmarks that incorporate the three major pillars of regenerative organic agriculture [— soil health, animal welfare, and social fairness —] into one certification.â€

The Rockefeller Report asserts, “If left unaddressed, the true cost of food will continue to rise and negatively contribute to climate change, the prevalence of diet-related diseases, and growing inequity. We need a formal integration of a true cost accounting framework into decision-making processes in public policy, private and public investments, and systems design.â€

Some shifts are already under way in the U.S. food ecosystem, according to the report, such as efforts to improve nutrition safety nets and align government procurement with a TCA approach; increasing governmental support for (especially) Black, Indigenous, and small-scale producers; some federal regulatory effort to educate and incentivize the public re: better food choices; and efforts in the private sector to improve nutritional food access and integrate it into healthcare, among others. The report provides access to a searchable database of actions and innovations that could benefit from a TCA approach.

The authors conclude: “We must accurately calculate the full cost we pay for food today to successfully shape economic and regulatory incentives tomorrow. A better appreciation for food’s true cost can help those trying to provide healthy and affordable food for all consumers. It can lead to better long-term decision making about fair, livable wages, and safe conditions for all workers. It can promote innovation to deliver more viable farming methods for rural farmers. And it can help protect, not harm, our planet. By approaching food and the food system as an investment, and understanding its downstream returns, we have the potential to not only lower our true cost of food bill, but also transform the food system.â€

Beyond Pesticides concurs, with the proviso that toxic inputs in agriculture need to be phased out as rapidly as possible. Executive Director Jay Feldman comments, “‘Regenerative’ without specific criteria, standards, and enforcement will not expedite the necessary changes to our food production system. ‘Organic’ is the only standard that embraces the values embraced by the report. But this report can and should serve, with that modification, as a springboard for real and meaningful transformation of our food system.â€

Source: https://www.rockefellerfoundation.org/wp-content/uploads/2021/07/True-Cost-of-Food-Full-Report-Final.pdf

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

 

 

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22
Jul

Deer Ticks Developing Resistance to Popular Tick Control Chemical: Implications of Lyme Disease

(Beyond Pesticides, July 22, 2021) A new study published in the Journal of Medical Entomology finds black-legged ticks (Ixodes scapulari) in New York are developing potential resistance to widely used tick-control pyrethroid insecticide, permethrin. The study suggests continuous use of area-wide, 4-poster devices (devices that attract deer and then apply pesticide to their head, ears, and neck) to apply insecticide treatments on deer to control tick populations promotes resistance.

Resistance is an ever-present issue among chemical compounds (i.e., antibiotics, antimicrobials, pesticides) used in medicine and agriculture, and threatening the ability to prevent disease outbreaks, such as Lyme disease. Furthermore, increasing populations of rodent and mammalian hosts, in addition to warmer temperatures prompted by the climate crisis, allows for disease-carrying ticks to flourish. Lyme disease is the most common vector disease and a primary concern for the general population. Therefore, studies like this highlight the need to assess resistance among disease-vector pest populations regardless of pesticide application methods. The researchers note, “Permethrin susceptibility of tick populations should be monitored from other 4-poster control areas so that guidelines for managing pesticide resistance in the field can be developed.â€

Four-poster devices impart selective pressure on tick populations influencing reproduction and natural extinction of species. However, like mosquitoes, a subpopulation of ticks encountering chemical exposure naturally  alter gene function, which results in resistance to the chemical rather than death. To assess resistance among tick populations, researchers evaluated the susceptibility of deer ticks to permethrin exposure. Deer ticks used in this study came from Shelter Island, NY, and the Cary Institute of Ecosystem Studies (CIES) in Millbrook, NY. Researchers collected Shelter Island ticks from deer at sites where 4-poster devices are in operation. CIES tick collection, also from deer, took place in areas void of 4-poster devices. Researchers used deer tick larvae colonies reared from the Center for Disease Control and Prevention (CDC) laboratory as the control.

The study results find ticks at the Shelter Island site are less susceptible to permethrin treatments than ticks from CDC colonies. Shelter Island ticks are less sensitive to permethrin treatments than CIES ticks, but resistance ratios are small. Although CIES sites did not contain 4-poster devices, these areas still harbor ticks that are less susceptible to permethrin. From these findings, the researchers conclude that field populations of deer tick may be more resistant to permethrin insecticides than lab colonies.

Insecticide resistance has been an issue since the introduction of DDT (dichlorodiphenyltrichloroethane) in the 1940s. Although most countries currently ban DDT use, the compound is not the only chemical pesticide promoting pest resistance. Several current-use insecticides pose the same threat. Area-wide, indiscriminate spraying of insecticides is causing resistance to develop among many pests. Mosquitoes have become increasingly resistant to synthetic pyrethroids, in addition to other classes of insecticides, such as carbamates and organophosphates. In certain tropical regions, pesticide run-off from agricultural fields increases chemically resistant freshwater snails populations that are disease vectors for snail fever. However—unlike mosquito resistance—the occurrence of tick resistance lacks research regarding vector-disease implications and primarily focuses on domestic animal use. Tick resistance develops much slower than mosquito resistance due to a longer lifespan/life cycle and time between generations. However, studies show that cattle ticks are resistant to multiple pesticide chemical classes from direct applications to cattle. Furthermore, three-host species ticks in Florida and Texas demonstrate similar permethrin resistance. Therefore, existing disease control programs overlook possible disease outbreaks from inadequate tick resistance management and a heavy focus on domestic animal uses. 

Development of resistance is an entirely normal, adaptive phenomenon: organisms evolve, “exploiting†beneficial genetic mutations that give them a survival advantage. However, resistance is growing in all sectors of pest control, including critically needed agriculture and medicine. Whether it is antibiotics for bacterial infections, herbicides for weeds/pests, or insecticides to mitigate vector-borne diseases, organisms are becoming resistant to usually toxic compounds. Resistance developing in one of the “sectors†mentioned above can “crossover†to become problematic in another. Agricultural and veterinary uses of antibiotics significantly contribute to the resistance of certain bacteria or fungi to antibiotics that have historically knocked down such infections in humans. Pesticide Action Network North America (PANNA) notes, “The World Health Organization underscored the problem in their 2012 guidance on policymaking for Integrated Vector Management (IVM): ‘Resistance to insecticides is an increasing problem in vector control because of the reliance on chemical control and expanding operations…Furthermore, the chemical insecticides used can have adverse effects on health and the environment.’â€

This study is the first to establish baseline susceptibility for deer ticks to permethrin and offer information on resistance emergence in tick populations under selective pressure from 4-poster devices. Unlike in mosquito control, area-wide pesticide applications for tick control are relatively unconventional. However, 4-poster devices act as an area-wide control method allowing deer to self-apply permethrin treatment via contact with devices while feeding. Although the study finds Shelter Island ticks are less susceptible to permethrin than CIES ticks, the difference in susceptibility is small enough to assert resistance can develop regardless of selective pressure. This assertion indicates permethrin resistance may occur among tick populations in real-world settings already seen among mosquito populations. Growing pesticide resistance often leads to an increase in chemical inputs to control pests.

Tick resistance can augment the use of chemical control methods, including the addition of toxic synergists like piperonyl butoxide (PBO), known to cause and exacerbate adverse health effects from exposure. Exposure to permethrin already has implications for human health, including cancer, endocrine (hormone) disruption, reproductive dysfunction, neurotoxicity, and kidney/liver damage. Furthermore, pets such as cats are extremely sensitive to synthetic pyrethroid insecticides, triggering seizures, tremors, muscle spasms that can lead to death. 

The study results demonstrate a need to address resistance among tick populations, regardless of selective pressure from 4-poster devices. The CDC previously reported that pesticides are ineffective at stopping the spread of Lyme disease, a principal health concern of increasing tick resistance. Therefore, public health advocates say that government and health officials must understand the mechanisms prompting pesticide resistance among tick populations to safeguard human health from widespread diseases lacking effective vaccines.

Jay Feldman, executive director of Beyond Pesticides, has noted, “We should . . . join together to address the root causes of insect-borne disease because the chemical-dependent alternatives are ultimately deadly for everyone.â€

Beyond Pesticides maintains that management strategies to combat insect-borne diseases cannot be successful if they are chemical-intensive. More recent studies focusing on highly toxic permethrin-treated clothing, as a means of tick management, have not been accurately reported in the media. . These strategies ignore the underlying conditions that exacerbate the spread of the disease. Advocates urge that consumers avoid chemicals like DEET and permethrin. Instead, simple repellents like the oil of lemon eucalyptus, picaridin, and insect repellent IR 3535 can effectively deter ticks from finding and attaching to humans. 

The best method to prevent tick bites and the diseases they carry is to wear appropriate clothing (light-colored that covers one’s whole body), a hat, and consider tucking one’s pants into socks. Most important is to conduct regular tick checks as it is critically important to detach a tick from one’s skin as soon as possible after the bite to reduce the chance of disease transfer. If you have an outdoor pet, do not forget to check them as well. Safely kill tick larvae with non-toxic solutions: vacuum daily during flea season (changing bag often); groom pet daily with a flea comb (cleaning comb with soap-water between brushes); frequently bathe pets with soap and water; and frequently wash pet bedding, restricting pet to only one bed. For more information on how to manage ticks safely, see Beyond Pesticides ManageSafe webpage. Additionally, learn more about how to protect your pet from pesticides and the least-toxic controls for tick infestations. 

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: Lyme Disease Association, Journal of Medical Entomology

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21
Jul

Millions of Acres in West To Be Sprayed with Toxic Insecticides for Grasshoppers

(Beyond Pesticides, July 21, 2021) Western states are in the midst of one of the largest spray campaigns in recent history, targeting native grasshopper species on more than two million acres of rangeland with highly toxic insecticides. Grasshopper populations have exploded this year due to the West’s ongoing drought, and government officials at the U.S. Department of Agriculture are hoping that hazardous pesticide use will stop the voracious winged insects from consuming forage used by cattle operations. Environmental groups are urging changes to the program, which has conducted insecticide campaigns against the native grasshoppers since the 1930s. “Aerial application of insecticides on this scale will eliminate millions of insects that pollinate, recycle plant nutrients and perform natural pest control,†said Sharon Selvaggio, Pesticide Program Specialist with the Xerces Society. “Insecticide sprays on this scale across native ecosystems are short-sighted and unsustainable.â€

According to a June 2020 press release, USDA’s Animal and Plant Health Inspection Service (APHIS) is spending $5.3 million dollars of taxpayer money in order to conduct what it calls “suppression treatments.†APHIS claims the $5.3 million will protect $8.7 million worth of agricultural resources, but advocates argue that the agency has failed to meet the “level of economic threshold†required under federal law to justify spraying. Calculations indicate that spraying costs between roughly $2-45 per acre, while the American taxpayer generates roughly $0.17 per acre from grazing leases that charge ranchers a mere $1.35/month to place cattle on public lands in the west.  

Moreover, APHIS’s justification of the expense does not include an evaluation of the ecological costs of the spray campaign. The agency assumes the spray campaign will adequately address the grasshopper infestation, but fails to account for the value of natural predators. Indiscriminate pesticide spray applied across large swaths of land are sure to kill off natural enemies of grasshopper species that may otherwise control the animals and could help prevent future infestations.

In addition to natural predators, there is significant value that can be ascribed to pollinators and other beneficial species that are likely to have their populations reduced by pesticide applications. Western monarch butterflies are on the precipice of extinction, and need improved conditions, not increased threats in order to stave off the worst.

Organic farmers in states like Montana are split on the campaign, according to reports in the Associated Press. Concerns over the loss of certification are butting up against the desire to be a good neighbor. As with other issues concerning drift and organic farming, the onus is on the organic farmer to protect their crops from chemical exposure, not on the applicator to prevent pesticide trespass. This creates an uneven playing field that tilts towards pesticide use as the status quo, despite organic practices being the least impactful, and most sustainable approach to farming and pest management.  

Over the last 15 years, APHIS has primarily relied on the hazardous insecticide diflubenzuron to manage the grasshoppers. But there is indication that, if conditions persist, the agency could employ malathion and carbaryl— some of the most toxic pesticides that remain on the market. Malathion is an acutely toxic organophosphate insecticide that is associated with neurotoxicity, kidney and liver damage, and cancer. A recently published investigative report in The Intercept found that the U.S. Environmental Protection Agency has dismissed evidence linking malathion to cancer for decades. Malathion is also highly toxic to birds and pollinators, and its use jeopardizes over 1,000 endangered species throughout the country.

Carbaryl is a carbamate insecticide that has also been linked to a range of health impacts, from cancer to diabetes and other metabolic diseases, as well as birth defects at concerning low levels. It is acutely toxic to birds, pollinators, and aquatic organisms.

Attempts by APHIS to “suppress†natural fluxes in grasshopper populations are reminiscent of misguided and continued attempts to suppress other natural disturbances in the west, like fires. But, as time has shown, suppression only delays the inevitable. The result is hotter fires, and more intense swings within grasshopper populations. After nearly 100 years of Sisyphean action, advocates are urging APHIS to make this year the last time the federal government conducts this massive ecological poison campaign.

Instead of placing blame on natural processes in order to protect grazing practices that are not natural and in many ways damaging to local ecology, focus should be placed on the human element. Rather than spend millions of dollars on pesticide use, the federal government should make sure that farmers and ranchers who are affected by grasshoppers be adequately compensated for their loss. The widespread use of highly toxic insecticides that can devastate the local environment need not factor in.  Supporting and increasing natural biodiversity, utilizing local fire regimes, and incentivizing modified grazing practices like rotational grazing can all help lessen the effects of grasshoppers on US public lands.

For more information about the dangers pesticides pose to wildlife and biodiversity, see Beyond Pesticides program pages.   

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Correction: This post was updated to specify the date of the USDA APHIS press release, and clarify the primary insecticide APHIS has been using to manage grasshoppers.

Source: Associated Press, Xerces Society

 

 

 

 

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20
Jul

Insecticide Chlorpyrifos Interacts with Genes to Increase Autism Risk, Research Finds

(Beyond Pesticides, July 20, 2021) Chlorpyrifos exposure results in the expression of genetic mutations associated with autism spectrum disorder in a laboratory model, finds research published in Environmental Health Perspectives by scientists at Johns Hopkins Bloomberg School of Public Health. “This is a step forward in showing an interplay between genetics and environment and its potential role for autism spectrum disorder,†says study lead Lena Smirnova, PhD, a research associate in the Department of Environmental Health and Engineering at the Bloomberg School. The findings support reams of research already conducted that show strong associations between autism and exposure to hazardous environmental stressors like toxic pesticides.

Scientists conducted their study using a ‘brain organoid’ model, which is essentially a cluster of cells artificially grown in the lab from stem cells in order to mimic a developing human brain. These tests provide certain benefits over animal testing, as they are more relevant to human disease, and can be performed faster with less cost. The organoid model also represents an improvement on typical 2d cell-based models, increasing cell survival, shelf-life, and thus providing opportunity to model for later stages of brain development.

Brain organoids in this study carried a gene called CHD8, which regulates gene activity critical to brain development. With changes in CHD8 representing one of the strongest links to the risk of developing autism, the study aimed to understand whether chlorpyrifos exposure resulted in any of these alterations. Organoids were exposed to chlorpyrifos at four and eight weeks of development, representing a short term, high exposure scenario. “High-dose, short-term experimental exposures do not reflect the real-life situation, but they give us a starting point to identify genetic variants that might make individuals more susceptible to toxicants,†says Dr. Smirnova.

Exposure to chlorpyrifos at these times did result in measurable effects on CHD8 gene expression. Although the lab created brain organoids only carried a single copy of the CDH8 gene and less than the normal amount of CHD8 protein, chlorpyrifos nonetheless was able to lower its expression further. Researchers describe how this finding shows that environmental exposures can make pre-existing genetic problems even worse.

In addition to altering CHD8 expression, a range of other biomarkers in the brain organoid were identified as those usually found in autistic patients. “In this sense, we showed that changes in these organoids reflect changes seen in autism patients,†Dr. Smirnova says. “Now we can explore how other genes and potentially toxic substances interact.â€

The findings provide a new way to quickly determine the effect of environmental exposures on gene expression. “The use of three-dimensional, human-derived, brain-like models like the one in this study is a good way forward for studying the interplay of genetic and environmental factors in autism and other neurodevelopmental disorders,†says study co-author Thomas Hartung, MD, PhD, professor and Doerenkamp-Zbinden Chair in the Bloomberg School’s Department of Environmental Health and Engineering.

The U.S. Centers for Disease Control and Prevention estimates that 1 in 54 children have been diagnosed with an autism spectrum disorder. Rates of autism have skyrocketed over the last several decades. While some of the rise can be explained by increased testing, and an expansion of the diagnostic criteria for the disorder, it is unable to entirely account for the increased cases. In 1997, 0.1% of children had autism, while in 2010 that number rose to 1%.

“The increase in autism diagnoses in recent decades is hard to explain—there couldn’t have been a population-wide genetic change in such a short time, but we also haven’t been able to find an environmental exposure that sufficiently accounts for it,†notes Dr. Hartung. “To me, the best explanation involves a combination of genetic and environment factors.â€

This determination, and the present study’s findings, are supported by previous scientific literature. A 2018 study published in Pediatric Research reviewed a range of studies linking pesticides to autism and found evidence for an association in both laboratory and epidemiological research. Scientific studies have consistently found elevated rates of autism in areas of high pesticide use. A 2014 study from the University of California, Davis, found that pregnant women living near crops sprayed with organophosphates like chlorpyrifos increased the chance of their child being diagnosed with autism by 60%. For women in their second trimester, chlorpyrifos in particular increased the odds by 3.3x. Another class of insecticides, synthetic pyrethroids, increased autism risk by 87%. Likewise, communities with mosquito adulticide programs were found to be 37% more likely to have higher rates of autism spectrum disorders, according to a 2017 study. Fungicides have also been linked to autism disorders, and a separate study from California researchers connected autism to the herbicide glyphosate, insecticides chlorpyrifos and permethrin, the banned pesticide diazinon, the fumigant methyl bromide, and fungicide myclobutanil.

While some well-meaning health advocates focus on controversial studies relating vaccines to autism, the connection to pesticide exposure is well-researched, and likely a contributing factor to the rise of the disorder over the last several decades. More research is needed to further elucidate the connection, but there is enough evidence available to warrant a precautionary approach, and restrictions on hazardous autism-linked pesticides.

The U.S. Environmental Protection Agency will soon provide a response to a lawsuit urging it to ban all food uses of chlorpyrifos, but even if the agency announces agricultural use cancellations, the chemical will still remain available for golf courses and as mosquito adulticide. In the meantime, parents are taking their fight directly to product manufacturers, and are suing Corteva (DowDupont) for the brain damage and other developmental problems their children suffered while living near chlorpyrifos-treated fields.

Help stop the use of a chemical with strong links to autism by urging EPA to ban chlorpyrifos today. But don’t stop at chlorpyrifos – as banning its use is simply the first step in eliminating other autism-linked neurotoxic pesticides on the market. Tell EPA chlorpyrifos and all brain-damaging pesticides need to be banned immediately.

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: Environmental Health Perspectives, John Hopkins Bloomberg School of Public Health (press release)

 

 

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19
Jul

Take Action: Schools Must Provide and Encourage Organic Food

(Beyond Pesticides, July 19, 2021) As yet another study, “Early life multiple exposures and child cognitive function: A multi-centric birth cohort study in six European countries,†draws attention to the benefits of organic food for the learning young mind, it is important that schools provide organic food to students. The study, conducted by Spanish researchers based at the Barcelona Institute for Global Health, looks at a totality of all environmental hazards that children encounter, rather than individual lifestyle factors. As study co-author Jordi Júlvez, PhD, notes, “Healthy diets, including organic diets, are richer than fast food diets in nutrients necessary for the brain, such as fatty acids, vitamins and antioxidants, which together may enhance cognitive function in childhood.â€

Tell your governor and USDA/Food and Nutrition Service to provide organic school lunches and information for parents.

Researchers find that children who eat organic food display higher scores measuring fluid intelligence and working memory. Lower scores on fluid intelligence tests are associated with children’s fast food intake, house crowding, and exposure to tobacco smoke. Lower scores on working memory tests were associated with exposure to poor indoor air quality.

This study adds to prior research finding that eating a conventional, chemical-intensive diet increases the presence of pesticides and their metabolites in an individual’s urine, including higher pesticide body burden from eating foods grown in chemical-intensive systems. In fact, because of their smaller size, children carry higher levels of glyphosate and other toxic pesticides in their body. Coupled with this research are multiple studies showing that many common pesticides result in developmental problems in children. Most recently, a 2019 Danish study found that higher concentrations of pyrethroid insecticides corresponded to higher rates of ADHD in children. There is also strong evidence that organophosphate insecticides, still widely used on fruits and vegetables in the U.S., are dropping children’s IQs on a national and global scale, costing billions to the economy in the form of lost brain power.

Studies show children’s developing organs create “early windows of great vulnerability†during which exposure to pesticides can cause great damage. This is supported by the findings of the American Academy of Pediatrics (AAP), which concludes, “Children encounter pesticides daily and have unique susceptibilities to their potential toxicity.â€

Switching from a conventional diet of food produced with chemical-intensive practices to organic diet drastically reduces the levels of pesticides in one’s body, with one week on organic food showing a 70% reduction in glyphosate in the body, according to one study. Socio-economic factors play a large role in access to heathy organic foods, and the ability to provide the sort of environment that allows a child’s brain to flourish, so it is important that school lunches, which provide nutrition across socioeconomic classes, help to equalize learning potential. Pitting access and cost against the long-term success of a child’s development puts many parents in an untenable position. The preponderance of evidence points to organic food providing the nutrition needed to give young minds the start they need in life. But eating organic should not be a choice to make – all food should be grown with high quality standards that reject the use of brain-damaging pesticides and protect the wider environment. 

Tell your governor and USDA/Food and Nutrition Service to provide organic school lunches and information for parents.

See the factsheet, Children Need Organic Food.

 

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16
Jul

Death of as Many as 107,000 Bumblebees from Neonicotinoid Insecticides Studied

(Beyond Pesticides, July 16, 2021) Recently published research reviews the 2013 Wilsonville, Oregon mass bumblebee die-off from application of the neonicotinoid dinotefuran on 55 linden trees in a big-box-store parking lot. In that single event, the research paper (published in Environmental Entomology) estimates between 45,830 and 107,470 bumblebees from some 289–596 colonies were killed. Reporting on the new study, by Entomology Today, quotes primary conclusions of the co-authors: “Our study underscores the lethal impact of the neonicotinoid pesticide dinotefuran on pollinating insect populations,†and, “It is likely that the vast majority of mass pesticide kills of beneficial insects across other environments go unnoticed and unreported.†As Beyond Pesticides has chronicled, the U.S. and the world are undergoing a pollinator crisis, caused in significant part by agricultural pesticides.

Dinotefuran, the neonicotinoid (neonic) that killed those Oregon bumblebees, is used against fleas, thrips, tree-boring caterpillars, emerald ash borers, hemlock woolly adelgids, and in the Oregon case, aphids. Entomology Today (ET) notes that the timing of this particular application could not have been worse: it happened on a warm day when the linden trees were in full flower and the bees out in force. Ironically, it occurred during Nation Pollinator Week. ET pens a sour footnote on the event: “The aphids posed no threat to the trees but rather to vehicles parked under them, which were spattered with the aphids’ honeydew waste.â€

The authors write: “In addition to the effects that were documented in this study, there were several other documented pesticide poisonings that took place in Oregon in 2013 and affected bumble bee populations. These poisonings include applications of either imidacloprid or dinotefuran that resulted in lethal and sublethal concentrations . . . of these chemicals in the flowers of treated Tilia trees, up to seven months after the initial application. All dead bumble bees that were sampled had significant levels of imidacloprid or dinotefuran. Thus, the effects of neonicotinoids from applications to ornamental trees on non-target insects like bumble bees are likely widespread in the United States.â€Â 

Given what is known about the damaging impacts of neonics on bees and other pollinators, the study’s assertion of massive under-recognition of lethal neonic impacts is alarming. (See Beyond Pesticides reporting on neonics here, here, and here.) Although the agrochemical industry works hard to promote the idea that pathogens are responsible for the extensive bee and pollinator loss of the past two decades, ample evidence belies this whitewashing. Pointedly, the acute lethal impacts in the 2013 Wilsonville event and another a few days later in Hillsboro, Oregon contravene that contention in stark terms.

Emerging scientific consensus on central causes of bee loss focuses on pesticide impacts and how they make bees more vulnerable to pathogens. As Beyond Pesticides recently wrote, 2019 Canadian research “found that ‘real life’ exposures to neonicotinoid insecticides impair honey bees’ ability to groom harmful mites from their bodies, thus allowing mite populations to thrive.†In addition, Beyond Pesticides has discussed the coincidence, during the early 2000s, of the emergence of CCD [Colony Collapse Disorder] and severe colony losses with the spike in use of neonicotinoid pesticides, particularly delivered as seed coatings. In 2014, a study from the Harvard T.H. Chan School of Public Health showed that two neonics — imidacloprid and clothianidin — significantly harm honey bee colonies during winters.

Further, the damaging impacts of neonicotinoids are not confined to pollinators and their ecosystems. Declines in pollinator populations work their way up and down the food chain, from the plants that depend on pollination to the people that rely on the many foods that pollination provides. Beyond Pesticides wrote in June 2021, “Past research has found that the loss of pollination services would have a devastating impact on global nutritional health, with women and children most affected. . . . Many communities [already] lack access to healthy fruits and vegetables; allowing the pollinator crisis to continue unabated is likely to exacerbate these problems by increasing prices on important staples.â€

At the time, the Wilsonville incident was the largest single mass bumblebee death event ever recorded. Mere weeks ago, Beyond Pesticides wrote about the second highest bee loss in 15 years, as documented in the Bee Informed Partnership’s 2020–2021 National Colony Loss and Management Survey. Populations of both wild and managed bees, as well as of other pollinators, have been devastated during the past two decades — much of that related to acute toxicity, as well as ongoing systemic but sublethal compromise of behaviors that sustain healthy hives and colonies.

The subject study, conducted by scientists from The Xerces Society for Invertebrate Conservation, The Ohio State University, the U.S. Department of Agriculture’s Agricultural Research Service, and the Oregon Department of Agriculture (ODA), asserts: “Insecticides, particularly systemic insecticides including neonicotinoids, are increasingly implicated in bee and other wildlife declines. The spectrum of effects on bees ranges from sublethal (i.e., not causing immediate mortality, rather behavioral and/or biological effects that reduce colony fecundity) to lethal depending on the dose and length of exposure.†(The Xerces Society originally reported the bumblebee deaths in Wilsonville to the Oregon Department of Agriculture.)

Dinotefuran is one of a large class of pesticides called neonicotinoids (neonics). Long-lasting and systemic compounds, they are absorbed into plant tissue and then distributed throughout the plant, making the pollen and nectar toxic to visiting pollinators. The researchers determined that some of the linden trees in the 2013 event were treated via aerial spraying, and some with a soil drench; their data analysis suggests that the soil drench method may actually have more-significant long-term effects on the plant tissues than the foliar method, but the authors acknowledge that these impacts are difficult to quantify.

They do note in their paper that other research has shown that “application of neonicotinoid insecticides on woody landscape plants at any time of year result in nectar residues that exceed concentrations shown to have negative effects on bees, even when label directions to protect pollinators are followed.†They also write, “Recent research suggests that there may be no safe time of year to apply systemic neonicotinoid insecticides to trees and shrubs to avoid sublethal/lethal effects on bees, even if label directions and bee precaution language are followed.â€

According to ET, the linden tree flowers to which dinotefuran was applied in 2013 harbored very high concentrations of the insecticide. In their paper, the researchers note, “While most of the bumble bees that died in this mass killing were of a single, locally common species . . . that likely had the representation, resiliency, and redundancy to recover, there is no way of telling if colonies of rare or at-risk species of bumble bees were affected (we sampled less than 1% of all bumble bees killed). Given the scale and scope of this event, it is likely that if any colonies were nearby, that they may have been severely affected, potentially disrupting conservation and recovery efforts.â€

That Wilsonville application violated dinotefuran’s label instructions, which indicate that the compound is toxic to bees that are exposed to it for more than 38 hours, and that the product is not to be applied to plants’ flowering parts, as was done in 2013. Subsequent to the Wilsonville and Hillsboro bee kills, the state temporarily banned use of the insecticide on plants, even by professional applicators, for 180 days, and indicated that ODA would conduct an investigation into the incidents, and then reassess the ban. In 2015, ODA moved to prohibit the use of pesticide products containing certain neonic active ingredients — dinotefuran, imidacloprid, thiamethoxam, and clothianidin — on linden (Tilia cordata), basswood (Tilia Americana), or other Tilia species trees in the state.

Many pesticides, including neonics, are infamous for their impacts on non-target species, as well as broad damage to ecosystems, habitats, and biodiversity. The study co-authors write, “The lethal effects of pesticide poisoning on non-target beneficial insects continue to occur today, as exemplified by the Wilsonville case, and is a contributor to pollinator decline. Furthermore, even sublethal effects of pesticides are likely interacting with other factors associated with bumble bee decline including habitat loss, climate change, and disease. Combined, these negative factors will likely continue to hinder efforts to recover and repopulate species identified to be at risk of population decline and extirpation.â€

One might wonder, “Where is the U.S. Environmental Protection Agency (EPA) in this crisis of pesticide impacts on bees, other pollinators, and insects generally?†Historically, EPA has moved glacially on protections from this class of compounds. In January 2020, EPA did announce that it would review the registration of several neonics — acetamiprid, clothianidin, thiamethoxam, dinotefuran, and imidacloprid. At the same time, it announced interim decisions on some aspects of the uses of those five neonics. (See the agency’s web page titled “EPA Actions to Protect Pollinators.â€)

The schedule for the registration review is introduced with this text: “The dockets for all the neonicotinoid pesticides have been opened. Our goal is to review the pesticides in this class in the same timeframe so we can ensure consistency across the class. As EPA completes risk assessments for the neonicotinoids, the Agency will pursue risk mitigation, as appropriate.†The public is encouraged to weigh in on the review of these pesticides, and is reminded of what Beyond Pesticides has repeatedly identified and called out: “the folly of the federal regulatory system’s attempts to ‘mitigate risks of pesticide exposure through small and piecemeal rules. ‘Mitigation’ of pesticide risks is a nibble around the edges of a pervasive poison problem.â€

A recent Daily News Blog report said, “Despite [the agency’s] own acknowledgment of [the toxicity of neonics to bees and other pollinators], EPA has done little to curb their use. Indeed, in 2019, the EPA Office of the Inspector General (OIG) reported on the agency’s failure, saying that: “EPA has no means to evaluate the national impact of MP3s [state Managed Pollinator Protection Plans]; the agency has not developed a strategy to use data from a planned fall 2019 survey . . . to evaluate either the national impact of MP3s or the agency’s support of state MP3 implementation efforts; [and] EPA focuses primarily on acute risks (those that occur during a single exposure to a specific pesticide), and gives insufficient attention to chronic exposures to pesticides and to native pollinator protection activities.†Meanwhile, both Canada and the European Union have acted to rein in and ultimately, eliminate at least some neonicotinoids.

Neonicotinoids pose unacceptable threats to bees and other pollinators; their use should be eliminated not only because of those grave threats, but also, because they are not terribly good at their jobs. Ultimately, organic and sustainable farming practices can and should replace the chemical-intensive approaches that dominate agriculture in the U.S. because they eliminate pollinator (and all) toxicity issues, and foster greater resiliency to pests, to boot. That EPA continues to allow their use should be very concerning to everyone.

Learn more with Beyond Pesticides’ fact sheet, Managing Pests Safely Without Neonicotinoids, and its Bee Protective web pages. Beyond Pesticides offers guidance on avoiding use of neonicotinoid pesticides through its fact sheet, Managing Pests Safely Without Neonicotinoids, and its Bee Protective web pages.

Sources: https://entomologytoday.org/2021/07/08/new-study-revisits-2013-pesticide-bee-kill-wilsonville-oregon-dinotefuran/ and https://academic.oup.com/ee/advance-article/doi/10.1093/ee/nvab059/6305931

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

 

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15
Jul

Multi-Crop (Mixed Culture) Farming Practices Promote More Fruitful Farmland than Single-Crop (Monoculture)

(Beyond Pesticides, July 15, 2021) A study by ETH Zurich finds multi-crop (mixed culture) farmlands, which include a diverse array of crops, produce higher biomass and seed yields than single-crop (monocultures). Monocultures are most prevalent among arable farmland as commercial industrial farming uses this practice to increase sowing, managing, and harvesting efficiency for higher yields. However, less crop diversity leads to higher, more intensive pesticide use as pests favor the consistent food availability monocultures provide.

An increase in toxic chemical use threatens human, animal, and environmental health, as well as food security. Ecological research already finds a positive association between plant diversity and biomass productivity in grasslands and meadows. In addition, a University of California, Santa Barbara study demonstrates that crop diversity in commercial agriculture is just as essential to supporting a stable biological system as plant diversity on non-commercial landscapes (i.e., grasslands/meadows). Therefore, this research highlights the need to develop policies that help farmers and global leaders make more knowledgeable decisions regarding crop diversity to sustain yield without toxic pesticides. The researchers note, “While crop diversification provides a sustainable measure of agricultural intensification, the use of currently available cultivars [(plant varieties for selective breeding)] may compromise larger gains in seed yield. We, therefore, advocate regional breeding [programs] for crop varieties to be used in mixtures that should exploit complementarity [(harmonization)] among crop species.â€

It is critical for plants to allocate resources for reproduction or seed-bearing. This allocation of resources for reproduction is a trait known as the harvest index in the agricultural context, which determines how plant biomass converts to seed yield. Hence, this study aimed to assess seed yield and biomass differences between monoculture and mixed culture farming. To do this, researchers replicated a general garden experiment in Switzerland and Spain at two soil fertility levels (unfertilized and fertilized) and four plant diversity levels. Researchers tested eight annual grain crop species: wheat, oat, quinoa, lentil, blue lupin, camelina, linseed, and coriander. The seeds of each crop were planted in alternating, parallel rows 12 centimeters apart and grown without pesticides. Researchers compared the results of 24 different two-species and 16 different four-species mixed cultures to monocultures and a singular, isolated plant.

Overall, the results demonstrate that mixed cultures produce higher yields than monoculture farming. In mixtures of two crops, seed yields increase by 3.4 percent in Spain and 21.4 percent in Switzerland. In four-species combinations, seed yield increases 12.7 percent and 44.3 percent in Spain and Switzerland, respectively. Although seed yield was lower than expected relative to vegetative biomass in Spain, seed production remains higher among mixed cultures.

Since the 1940s, the ecological theory maintains that greater diversity promotes the stability of an ecosystem. However, U.S. commercial agriculture has become more chemical-intensive in its management and less diverse. Commercial, chemical-intensive agriculture has implications on a much grander scale, as farmers more frequently apply pesticide treatments to larger, monoculture crop areas. A growing body of scientific research supports the finding that larger, monoculture croplands contain higher pest concentrations. These regions can foster specific pests that persist as they have ample quantity of the same food source, thus resulting in greater insecticide use. Perversely, monoculture crops induce biodiversity and pollinator loss as exposure causes harm to pollinators and other animals. Pesticides can drift from treated areas and contaminate non-commercial landscapes, limiting pollinator foraging habitat.

Regions like the Midwest, which boasts vast monoculture grain crops, experience high levels of pesticide contamination in nearby water sources. This circumstance is especially concerning as Midwestern waterways previously lacked requirements for the multinational company Syngenta to monitor for atrazine contamination, a ubiquitous pesticide that the company manufactures. Although farmers aim to combat pesticide overuse and drift by using genetically engineered (GE) crops incorporated with pesticides, pests still develop resistance. In turn, farmers continue to use pesticides to combat resistance, but at a much higher rate, prompting a positive feedback loop.

This researcher presents one of the premier studies to demonstrate how crop diversity impacts seed yield on farmland. Researchers attribute additional seed yield from mixed culture farming to the biodiversity effect. This effects states, “A greater variety of plants results in a better use of available resources and more effective, natural pest control.” Small, diverse crop areas can alleviate pest pressure, as food sources differ, barring specific pest persistence.

Although the study finds mixed cultures have a lower harvest index in the agricultural context than expected, the total seed yield remained above monoculture seed production. Researchers attribute the reduction in seed yield among mixed cultures to seeds used in the experiment. Like most commercially grown seeds, those in the experiment are cultivars specifically bred for monocultures, thus perform better in monocultures.

Monocultures are a fairly recent invention of industrial agriculture to mass produce resources for food security. However, this farming practice is a breeding ground for pest infestations, resistance, and thus chemical use to combat these issues. In 2019, Beyond Pesticides set out many of the downsides of monocropping — despite its perceived advantages in terms of ease and economy for growers. Therefore, the convenience of monoculture does not guarantee necessary food security, nor safeguard human, animal, or environmental health. Government officials need to reassess the necessity of monoculture farming and implement mixed culture farming practices to circumvent pest resistance subsequent pesticide use, and vice versa.

The proliferation of large-scale, mono-crop farming has directly increased pesticide use, and existing regulation enforcement are inadequate. Transitioning from chemical-intensive commercial monocultures to diverse, organic mixed cultures can reduce pest presence and pesticide use. Organic agriculture has many health and environmental benefits, which curtail the need for toxic pesticides. Regenerative organic agriculture revitalizes soil health through organic carbon sequestration, while reducing pests and generating higher profits than chemical-intensive agriculture. Learn more about the adverse health and environmental effects chemical-intensive farming poses for various crops and how eating organic produce reduces pesticide exposure. For additional information, see Beyond Pesticides webpage on organic agriculture.

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: Science Daily, ETH Zurich/Nature Plants

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14
Jul

Parents of Harmed Children Sue Manufacturer of Brain-Damaging Insecticide Chlorpyrifos

(Beyond Pesticides, July 14, 2021) Corteva (formerly DowDupont) is facing a potential class-action lawsuit after several California families filed suit claiming that the use of the insecticide chlorpyrifos around their homes resulted in birth defects, brain damage, and developmental problems in their children. Chlorpyrifos is an organophosphate insecticide that has been linked to a range of health ailments, posing significant hazards particularly for pregnant mothers and their children. The lawsuits come as the U.S. Environmental Protection Agency (EPA) approaches a court-imposed 60-day deadline to decide the fate of the pesticide’s registration.

Attorneys for the court cases, filed on behalf of individuals located in four California communities (Fresno, Kings, Medera, and Tulare counties), indicate they intend to pursue class-action status, which would allow additional injured parties to join the lawsuit. The plaintiffs argue that the effects of chlorpyrifos exposure lingers in the agricultural communities where they reside. “We have found it in the houses, we have found it in carpet, in upholstered furniture, we found it in a teddy bear, and we found it on the walls and surfaces,†said Stuart Calwell, lead attorney for the plantiffs. “Then a little child picks up a teddy bear and holds on to it.†Ultimately, 100,000 people in California’s farming regions may need to remove items in their homes that were contaminated by chlorpyrifos, attorneys say.

Each of the four plaintiff families have children with developmental disabilities that they indicate were caused by chlorpyrifos exposure. This real-world occurrence is supported by the scientific literature. Studies find that children exposed to high levels of chlorpyrifos experience mental development delays, attention problems, attention-deficit/hyperactivity disorder problems, and pervasive developmental disorders at three years of age. Concentrations of chlorpyrifos in umbilical cord blood were also found to correspond to a decrease in the psychomotor development and a decrease in the mental development in 3-year olds.  Additional research reinforces these findings, with evidence that children with high exposure levels of chlorpyrifos have changes to the brain, including enlargement of superior temporal, posterior middle temporal, and inferior postcentral gyri bilaterally, and enlarged superior frontal gyrus, gyrus rectus, cuneus, and precuneus along the mesial wall of the right hemisphere.

Although Corteva has dropped out of the chlorpyrifos market, it is not supporting the cancellation of the chemical, and other manufacturers continue to produce it. Three years ago, Hawaii became the first state to begin to phase out chlorpyrifos use. In New York, a law passed by the state legislature implementing a ban prior to Hawaii’s was vetoed by Governor Cuomo (D) and shunted to a slower state rulemaking process. California has likewise initiated rulemaking to ban the chemical, but minor uses are likely to remain.

Meanwhile, EPA, despite a change in administration, has taken no significant action to eliminate chlorpyrifos to date. In May 2021, a federal appeals court gave EPA a 60-day deadline to provide a “legally sufficient response†to a petition originally filed in 2007, urging the agency to ban food uses of the chemical.  Advocates say this is a low bar for the Biden administration to clear. With the Biden EPA, under the leadership of Administrator Michael Regan, defending a broad range of Trump-era pesticide decisions, advocates are concerned that EPA’s Office of Pesticide Programs remains broken.

Like other recent lawsuits filed around toxic pesticide exposure, including Parkinson-linked paraquat and cancer-causing glyphosate, EPA inaction has made it so that the only remedy for affected individuals and communities is the court system.

Canada has begun to quietly phase out chlorpyrifos, and the European Union continues to lead the world in pesticide protections after it decided not to renew its registration for the chemical, permitting only a short grace period of 3 months for final storage, disposal, and use.

If EPA fails to ban chlorpyrifos, it will be a major blow for environmental justice, given that risks of exposure fall disproportionately on low-income African American and Latino families, including farmworker families, who are at the greatest risk of harm. Help stop the ongoing poisoning of these communities by urging EPA to ban chlorpyrifos today. But don’t stop at chlorpyrifos – as banning its use is simply the first step in eliminating other neurotoxic pesticides on the market. Tell EPA chlorpyrifos and all brain-damaging pesticides need to be banned immediately.

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: Associated Press

 

 

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13
Jul

Conservation Genomics Pinpoint Pesticides and Pathogens in Decline of Bumblebees

(Beyond Pesticides, July 13, 2021) Bumblebees exposed to pesticides and pathogens display changes in gene expression that can be pinpointed and analyzed by cutting edge research tools, according to scientists at York university, who utilized the new technique in a study published in Molecular Ecology. This form of next-generation gene sequencing is part of a growing field of science known as conservation genomics, in which entire animal genomes are sequenced to determine conservation problems. “Next-generation sequencing is a totally new way to think about why bees are declining, which could revolutionize conservation biology,†says study coauthor Amro Zayed, PhD, associate professor in biology at York. “We’re looking directly at bee tissues  to try and get clues to the stressors that are affecting this bee. I think this is a gamechanger for sure. With a single study, we are able to implicate a couple of really obvious things we’ve talked about for years – pathogens and pesticides – in the case of Bombus terricola.â€

Researchers focused on Bombus terricola – the yellow banded bumblebee, as its range has declined significantly over the last two decades. The bumblebee was once common throughout the eastern and midwestern part of the U.S. and Canada, but many states have not recorded a single sighting in years.

To determine what environmental stressors were affecting bumblebee gene expression, worker bees were found and collected in Southern Ontario. Eighteen bees were collected from agricultural sites while 12 were from nonagricultural areas; only 30 workers were collected in total in order to lessen the impact on the overall population. The gene analysis was conducted, and able to qualify nearly 9,500 gene expressions in bumblebee guts.

Researchers discovered 61 differentially expressed genes, including those involved in detoxification, as well as those associated with neurodegenerative disorders and immune response. Most of these effects were discovered in bees found in agricultural areas. Bumblebee gene expressions were then compared to how honey bee genes respond when exposed to stressors in the lab (most research available on bee stressors have focused on honey bees). Overlap between the differentially expressed genes analyzed by the next generation sequencing and previous honey bee research found statistically significant overlap in a number of concerning areas. Bumblebees display gene expressions that are associated with exposure to neonicotinoid insecticides, fipronil, and a range of pathogens, including deformed wing virus and sacbrood virus.

“Bumblebee diseases are a key threat and this technology can help us detect new diseases and stressors quickly so we don’t lose species the way we did the rusty-patched bumblebee, where the problem was only detected when it was too late to do anything about it in Canada,†says coauthor Sheila Colla, PhD, associate professor in conservation science at York. “The rusty-patched bumblebee hasn’t been spotted in Canada since 2009.†In the U.S., the rusty-patched bumblebee was listed as endangered in 2017, as populations have declined by an estimated 91% from its levels in the 1990s.

This new approach to conservation genomics allows for quick investigation of stressors occurring in the field. “It bypasses all these lengthy experiments we’d have to do to get ideas about what’s causing the bumblebees demise,†said Dr. Zayed. The present study provides confirmation that bumblebees are being exposed and affected by toxic pesticides. It provides evidence for the idea that pathogens from managed bumblebee and honey bee colonies are spilling over into wild pollinator populations.

Previous research has found that the combined effect of pesticides and pathogens result in greater harm to pollinators. A 2015 report by the European Academies Science Advisory Council found, “Several studies have demonstrated synergistic effects of neonicotinoid residues with bee parasites and viruses. Some effects are behavioral (e.g. blocking the ability of bees to sterilize the colony and their food). Others appear related to limiting the immune response leading either to earlier infection or to increased mortality from infection. Very recent work has shown that the limitation of the immune response after exposure to neonicotinoids can promote viral replication, allowing covert infections to become overt. Such effects reduce honey bee survival and increase developmental deformities. In view of the emphasis placed by some reviewers on assigning honey bee losses to diseases and parasites, this is a critical issue.â€

While the European Union acted on this information to suspend and then eventually ban the outdoor use of neonicotinoid insecticides and fipronil due to pollinator risks, U.S. regulators have done little to address pollinator declines, and earlier this year Canadian regulators began to backtrack on their proposal to prohibit use.

With overwhelming evidence that pollinators are being harmed by these pesticides, the public continues to watch in real time as critically important species of wild pollinators slowly fade out of existence. In addition to the rusty patched and yellow banded, the iconic American Bumblebee has lost 89% of its population over the last 20 years. Eastern monarchs have declined by 80% since the 1990s. Western monarch numbers are in the low thousands, and without change, trending toward extinction.

Help pollinators by calling on your elected representative in Congress to cosponsor the Saving America’s Pollinators Act (SAPA).  If they are already a cosponsor, you’ll be able to send a letter thanking them for their leadership on this critical issue. Please consider following up with a phone call in order to elevate this message to potential cosponsors. For more information on the importance of protecting pollinators from pesticides and other environmental stressors, see Beyond Pesticides’ Bee Protective webpage.

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: York University press release, Molecular Ecology

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12
Jul

Tell Your Congressional Reps to Cosponsor Pollinator Legislation; Thank Those Who Already Have

(Beyond Pesticides, July 12, 2021) During Pollinator Week 2021 in June, U.S. Representatives Earl Blumenauer (D-OR) and Jim McGovern (D-MA) reintroduced the Saving America’s Pollinators Act (SAPA) to reverse ongoing declines in wild and managed pollinators. New data released in June for 2020-21 documents the second highest honey bee losses in 15 years. SAPA uses the latest scientific research and perspectives to ensure that pollinators are protected. The bill suspends the use of neonicotinoid (neonic) insecticides and other pesticides harmful to bees and other pollinators until an independent board of experts determines that they are safe to use, based on a strong scientific assessment.

Ask your elected representative in Congress to support pollinators by cosponsoring Saving America’s Pollinators Act (SAPA). If they are already a cosponsor, use this occasion to thank them for their leadership on this critical issue.

“Without our world’s pollinators, the world would be a very different place. These bees, butterflies, hummingbirds, and other creatures are essential elements of our food system. Losing them means we risk losing the very food we put on our table,†said Rep. Blumenauer. “We must use every tool at our disposal to provide pollinators with much-needed relief from bee-toxic pesticides and monitor their populations to ensure their health and survival.â€

Neonicotinoids are systemic pesticides; once applied to a seed or sprayed on a plant they make their way into the pollen, nectar and dew droplets that plants produce and pollinators feed upon. Exposure impairs pollinator navigation, foraging, and learning behavior, and also suppresses their immune system, making them more susceptible to disease and pathogens like the varroa mite.

American beekeepers have lost over 30% of their hives annually over the past decade, while wild pollinators are threatened with extinction. The iconic American Bumblebee has lost 89% of its population over the last 20 years. Populations of eastern monarchs have declined by 80% since the 1990s. This past year, citizens scientists participating in the western monarch count found a scant 2,000 butterflies—down from 1.2 million in the 1990s, 300,000 in 2016, and 30,000 in 2019. Peer-reviewed scientific studies show all of these impacts to be associated with the use of toxic pesticides.

The harmful effects of neonicotinoids and other pollinator-toxic pesticides are not siloed in the environment, however. Declines in pollinator populations work their way up and down food chains and across food webs, from the plants depending upon pollination, to the people who rely on the healthful, nutrient-dense food that pollination provides. Pollination services are valued at $125 billion globally, and pollinators are responsible for one in three bites of food, including nuts, fruits, and vegetables. Past research has found that the loss of pollination services would have a devastating impact on global nutritional health, with women and children most affected. Already in the U.S., many communities lack access to healthy fruits and vegetables –allowing the pollinator crisis to continue unabated is likely to exacerbate these problems by increasing prices on important staples.

The Saving America’s Pollinators Act will not only save America’s pollinators. SAPA will help people who depend on pollination services for healthy food. SAPA will help underserved communities by eliminating unnecessary exposure to pesticides in public green spaces. SAPA will stop the poisoning of farmworkers who work on the farms that grow the plants that bees and insects pollinate. SAPA will also protect the broader web of life that is being devastated by the use of systemic insecticides. According to the Task Force on Systemic Insecticides, consisting of 242 scientists from across the world, “The balance of evidence strongly suggests that these chemicals [neonicotinoids] are harming beneficial insects and contributing to the current massive loss of global biodiversity.â€

Neonicotinoids also harm people directly when used to manage grub problems on turf, despite the availability of alternative methods.  The latest research links neonicotinoids to nervous system toxicity, reproductive damage, and birth defects. In particular, reviews have found links to birth defects of the heart and brain, and the development of finger tremors. Neonicotinoids appear to disproportionately affect the male reproductive system, and animal studies have found cause for concern – from decreased testosterone levels to abnormal and low sperm count (see NRDC for more on the harms of neonics to human health). As reported by the Black Institute, pesticides like glyphosate are disproportionately sprayed in black and brown communities, where public parks are often the only green space available for family picnics and outings.

Beneficial soil dwelling insects, benthic aquatic insects, and grain-eating vertebrates like songbirds are in danger from neonicotinoid use. Neonicotinoid concentrations detected in aquatic environments present hazards to aquatic invertebrates and the ecosystems they support. Neonics adversely affects shrimp and oyster health, decreasing their nutritional value.

There is also evidence of adverse effects harming bird populations. A single corn kernel coated with a neonicotinoid is toxic enough to kill a songbird. Studies conducted in the wild find songbirds that feed on neonicotinoid-contaminated seeds during their migration route display reduced weigh delayed travel, and low rates of survival. The author of â€Common insecticide threatens survival of wild, migrating birds,†ecotoxicologist Chrissy Morrisey, PhD, told Environmental Health News, “Our study shows that this is bigger than the bees — birds can also be harmed by modern neonicotinoid pesticides which should worry us all.†Data from the Netherlands has shown that the most severe bird population declines occurred in those areas where neonicotinoid pollution was highest. These data are alarming in the context of reports finding three billion birds (30% total) lost since 1970 in part due to pesticide use.

SAPA will reorient pesticide regulation towards the protection of pollinators and ecosystem health–an approach that the U.S. Environmental Protection Agency has long failed to adequately consider.

Specifically, the Saving America’s Pollinators Act:

  • Establishes a Pollinator Protection Board (PPB), consisting of scientists, beekeepers, farmers, and conservationists that have no direct or indirect ties to pesticide companies, in order to evaluate pesticides for their toxicity to pollinators and pollinator habitat;
  • Cracks down on insecticides that are toxic to pollinators by canceling the registration of neonicotinoid pesticides or pesticides containing imidacloprid, clothianidin, thiamethoxam, dinotefuran, acetamiprid, sulfoxaflor, flupyradifurone, or fipronil until they are properly reviewed by the Pollinator Protection Board; and
  • Implements a state-of-the-art monitoring network for native bees, ensuring that experts and the general public have up-to-date information on the status of native bee populations.

The newest bill language also updates the standard to which the PPB regulates toxic pesticides, making determinations on whether the pesticide presents an unacceptable hazard, based upon the potential to cause harm, including injury, illness, or damage to honey bees, and other pollinators, or pollinator habitat. This language would set pesticide regulation more in line with the precautionary approach taken by the European Union and other international bodies.

Ask your elected representative in Congress to support pollinators by cosponsoring Saving America’s Pollinators Act (SAPA). If they are already a cosponsor, use this occasion to thank them for their leadership on this critical issue.

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09
Jul

EPA Agenda Undermined by Its Embrace of Industry Influence, Article Documents

(Beyond Pesticides, July 9, 2021) The investigative online publication The Intercept has turned its attention to the current and historical role of industry in distorting, undermining, and outright suppressing the protective function of the U.S. Environmental Protection Agency (EPA) with regard to pesticide exposures. The subsequent reporting — “The Department of Yes: How Pesticide Companies Corrupted the EPA and Poisoned America†— is a devastating chronicle of the theme and particulars that Beyond Pesticides has covered for years. That is, that EPA has repeatedly disregarded its charge to protect human and environmental health in favor of enabling industry to continue its chemical experimentation on the populace and on the nation’s multiple natural resources. This pattern must change if the agency is to enact its mission and the public is to be protected.

The Intercept interviewed more than 24 people with expertise on the regulation of pesticides, including 14 who have worked in EPA’s Office of Pesticide Programs (OPP). The chief takeaway from those interviews, as written by reporter Sharon Lerner, is that EPA “is often unable to stand up to the intense pressures from powerful agrochemical companies, which spend tens of millions of dollars on lobbying each year and employ many former EPA scientists once they leave the agency. The enormous corporate influence has weakened and, in some cases, shut down the meaningful regulation of pesticides in the U.S. and left the country’s residents exposed to levels of dangerous chemicals not tolerated in many other nations.â€

The Intercept cites several top-level examples of EPA’s failures to protect, unearthed during the research for the article:

  • waiver, at industry request, of the vast majority of toxicity tests that could yield useful information on pesticide impacts
  • squelching of an internal report warning of the link between glyphosate and cancer
  • refusal to investigate evidence of carcinogenicity for another ingredient in Monsanto’s glyphosate-based product, Roundup
  • failure to review evidence of brain-damaging impacts of a neonicotinoid pesticide
  • dismissal of scientific research demonstrating that malathion causes cancer

An especially egregious example of EPA’s abdication of its protective mission is its record on the organophosphate insecticide, chlorpyrifos. The compound acts on pests by inhibiting the function of acetylcholinesterase, an enzyme essential to normal nerve pulse transmission, by binding irreversibly to receptor sites for that enzyme. In that action, it inactivates the enzyme, damages the central and peripheral nervous systems, and disrupts neurological activity. Chlorpyrifos is associated with harmful reproductive, renal, hepatic, and endocrine disrupting effects, and most notably, with neurodevelopmental impacts, especially in children. It is a neurological toxicant that damages their brains and leads to compromised cognitive function, attention deficit disorder, developmental delays, lowered IQs, and a host of other developmental and learning anomalies.

Ms. Lerner interviewed Lianne Sheppard, PhD, a professor and biostatistician at the University of Washington who led 2020 research that investigated a 1972 study that ultimately became foundational to EPA’s approach to the notorious organophosphate. That 1972 research — by Frederick Coulston, a professor at Albany Medical College — was commissioned by Dow Chemical, the manufacturer of chlorpyrifos in the late 1960s. Dr. Sheppard attempted to reproduce the results represented by the study data, but could not.

Further investigation showed that the paper on that research — which was actually written by Dow statisticians — had left out of the data analysis critical information that caused resultant EPA safe exposure limits (“no observed adverse effect levels,†or NOELs) to be, as Beyond Pesticides wrote, “flat out wrong.†In their 2020 peer-reviewed paper, Dr. Sheppard and her co-authors concluded that “the omission of valid data without justification was a form of data falsification.†By 2020, however, massive on-the-ground damage had been done because of EPA’s adoption of the NOELs “justified†by the erroneous data in that paper. And at EPA, presumably, either no one noticed, or no one cared to do anything about it.

The Intercept article summarizes: “On one level, the story of the Coultson paper is simple: Decades ago, a seemingly small omission happened to slip past regulators. And yet the consequences of that one statistical sleight of hand, and the government’s failure to notice it, are immense. Between 1992 and 2017, chlorpyrifos was one of the most heavily used pesticides in the U.S., with some 450 million pounds of it sprayed on crops. Countless children and pregnant people were exposed to what we now know were unsafe levels. And those exposures have since been found to increase the risk of a wide range of neurodevelopmental problems in children, including ADHD and other attention disorders, autism, tremors, and intelligence deficits, as well as memory and motor problems. Although the true toll of that brain damage is incalculable, pediatrician and environmental health researcher Leonardo Trasande estimates that exposure to organophosphate pesticides, the class to which chlorpyrifos belongs, caused children born in the U.S. in a single year — 2010 — to collectively lose 1.8 million IQ points, costing the country $44.7 billion in productivity, education, and health costs.â€

The Intercept article excavates the details of EPA history of dysfunction related to other dangerous pesticides, as well: glyphosate, pelargonic acid, malathion, and the neonicotinoid class of insecticides. It also calls out industry practice (and EPA’s assent) to the ongoing “substitution†of a newer pesticide or a combined protocol (using two pesticides together, mixed either in formulation or on site) to replace a problematic one.

The scientists with whom Ms. Lerner talked reported “immense pressure from within the agency to overlook the risks they found. And several said they faced retribution for calling attention to the dangers of pesticides. ‘If you bring something up that’s an inconvenient truth, you get circumvented for any kind of committee work that you would need to have to get a promotion,’ one toxicologist who used to work for the agency’s pesticide office told The Intercept. ‘It is the unwritten rule that to get promotions, all pesticides need to pass.’â€

Interviewees also noted that such pressure sometimes comes from members of Congress, who contact the agency on behalf of pesticide companies whose products are in review; staff have called such cases “yes packages†— those that “must†be approved, regardless of the science that is supposed to underlie all regulatory decisions. The article cites an example of a “yes package†for a pesticide to treat a papaya virus (which was destroying the crop in Hawaii). No studies of its safety had been conducted, yet EPA managers insisted that agency scientists sign off on its approval. Said one EPA scientist interviewed, “The rest of us are sitting around thinking, ‘OK, you hire the scientists to do the work, and now you’re telling us as regulatory people to make it fit? We’re flat out telling you that’s not OK.’†The company never did submit any data, and that pesticide was approved for use.

Ms. Lerner points out that EPA showed a “promising start†after its 1970 launch. She notes, “In its first decade, the EPA canceled the registration of 12 pesticides, including DDT, aldrin, and dieldrin, which [Rachel] Carson had written about at length. In those early years, the regulatory agency had the power to inspire fear in chemical companies.†But subsequently, in the 1980s, the pace of removal of toxic pesticides from use slowed considerably, with a mere eight being canceled during that decade. From 2000 to 2010, four have been removed, and from 2010–2020, exactly one has been deregistered for use.

Since 1970, EPA has canceled only 37 of the many thousands of pesticides on the market; EPA maintains that it has cancelled 40 “pesticide products.†Those paltry numbers stack up against the 16,800 pesticide products and 1,200 active ingredients overseen by EPA. Once a leader in environmental protections, the U.S. now trails other countries with significant agricultural economies in its protections against toxic pesticides.

A 2019 study by Dr. Nathan Donley of the Center for Biological Diversity noted that, in 2016, the U.S. used more than 300 million pounds of pesticides banned by other countries — largely for environmental and health reasons. Dr. Donley told Ms. Lerner that “at least 85 pesticides banned in China, Brazil, or the European Union were still used in the U.S. in 2016, a number that has almost certainly increased since then.†EPA’s regulatory activity took a dramatic dive during the Trump administration.

The role of the pesticide industry in such EPA failings is not to be underestimated; indeed, industry was courted at EPA from 2017 through 2020. From the 1960s’ attacks on Rachel Carson for her book, Silent Spring, which called out the industry for its devastation of the natural world through its products, the agrochemical industry has engaged in aggressive and unethical behaviors to pursue its one goal, profit, at the expense of human health, ecological, and biodiversity devastation.

Monsanto (now owned by Bayer) has gussied up that goal as the “freedom to operate.†A spokesperson for Bayer responded to an inquiry from Ms. Lerner with this: “Like many companies and organizations operating in highly regulated industries, we provide information and contribute to science-based policymaking and regulatory processes. Our engagements with all those in the public sector are routine, professional, and consistent with all laws and regulations.â€

But the record shows otherwise. In the past two decades, in particular, pesticide companies have exerted unrelenting pushback against almost any proposed regulatory actions, and have used a raft of unsavory tactics to do so. Among them, as the article notes, are “ghostwriting purportedly independent scientific papers, cozying up to regulators, and attempting to discredit journalists who exposed the dangers of Monsanto’s products.†Beyond Pesticides has written about these tactics in its Daily News Blog in 2017 and 2020, and in its journal, Pesticides and You, in 2018.

Monsanto/Bayer has hardly been alone in such campaigns; Dow, Corteva, Syngenta, and others participate, as well. As Charles Benbrook, PhD, a long-time agricultural economist who has investigated the pesticide industry’s “legislative/regulatory pressure activities,†notes: “The regulatory affairs staff of all of these major chemical companies have a very clear job: to propose and gain approval of registrations that expand the ways and places and times that the company’s products can be used and to keep all existing registrations fully in place and resist any changes in labels . . . that might cost them a percent or two in market share. . . . [They] constantly regurgitate their own spin on the science. And they refer to papers that they get into the journals that have been either commissioned or partially or wholly ghostwritten.â€

The companies (and/or their trade associations) also court regulators directly by taking them on junkets so they can “get to know†the farms and farmers that use pesticides. One EPA scientist quoted in the article said, “It felt kind of brain-washy. By the end, I thought, ‘You really do need these chemicals, otherwise you’ll have crop failure.’†Pesticide company representatives are also apparently in the actual EPA headquarters in DC all the time, according to Ms. Lerner’s reporting.

“The representatives of the companies are usually, though not always, friendly and eager to help, according to several scientists who have worked at the agency’s pesticide office. ‘When you come into the lobby, many times there’s a chemical or ag lobbyist there. They just bop in,’ said Karen McCormack, a scientist who retired from the EPA in 2017 after working on pesticides for 40 years. ‘They want to be your friend. They always compliment you. But if you don’t do what they want, they’ll go to your boss or above your boss and say, “We can’t work with you anymore.†And you’ll be taken off the project and put on something that’s meaningless.’â€

Achieving waivers of toxicity testing is another front in industry’s efforts. The article reports, “The EPA’s pesticide office granted 972 industry requests to waive toxicity tests between December 2011 and May 2018, 89 percent of all requests made. Among the tests on pesticides that were never performed were 90 percent of tests looking for developmental neurotoxicity, 92 percent of chronic cancer studies, and 97 percent of studies looking at how pesticides harm the immune system.†Allowing pesticides to come onto market without testing them for toxicities is a gross violation of EPA’s charge. But industry is all about it, and they appear to have had managers in the agency who shared their enthusiasm. Below is a 2018 email invitation to other EPA OPP managers “to celebrate what many people concerned about exposure to pesticides would consider a grim landmark: having waived 1,000 toxicity tests.â€

Ms. Lerner also reports on internal agency retaliation against employees who raise concerns about EPA’s ignoring of pesticide risks, waiving testing, etc. This happens in the forms of removal from committees (or not being appointed to them despite the individual’s relevance and expertise); being passed over for promotion; being “written up†for imagined infractions, or being moved (e.g., demoted) to other positions, among others. Executive Director of Public Employees for Environmental Responsibility Tim Whitehouse indicates that the organization has recently received multiple inquiries and reports from employees in OPP. He commented, “Current and former employees have been reaching out to us in increasing numbers and expressing concerns about the office culture at OPP and the fact that if scientists speak out about their concerns, they will not last long in that division. Morale has been bad, and it’s getting steadily worse over the years.â€

Another problem in the EPA–industry landscape is the “revolving door†of personnel moving from EPA to industry and its trade groups, and vice versa, an issue that Beyond Pesticides has called out. “Since 1974, all seven of the [OPP’s] directors who continued to work after leaving the agency went on to make money from the pesticide companies they used to regulate,†reports The Intercept. Many other officials from EPA have joined the ranks in the agrochemical industry over the decades. “The problem with this continuous flow of experts from the government to pesticide companies — and sometimes back again — isn’t just that it can enable dangerous chemicals to evade regulatory scrutiny but that it also shapes the culture within the agency. ‘Management officials graduate and move to direct hires with the registrants,’†according to Bill Hirzy, a 27-year veteran of EPA. “‘So these management officials are loath to take any action that is likely to limit their post-EPA employment opportunities.’â€

The article suggests that the long-standing, and unofficial but real, enmeshment between the agency and industry helps explain the persistence of poor regulatory performance across multiple federal administrations and the agendas that come with them, including the Biden administration, which has pledged to address the scientific integrity issues at EPA. Lori Ann Burd of the Center or Biological Diversity notes that she has clocked only minor differences to date in EPA’s approach to pesticides under President Joe Biden’s administration. “They’re taking a slightly different tone. But in our litigation, it’s the same brass knuckles, fight to the death over everything.â€

The sheer volume of data and information with which EPA has to contend is another hurdle identified by The Intercept. Corporations are, Ms. Lerner notes, far more powerful and better resourced than the federal agency responsible for regulating them, and can easily generate and submit volumes of information that EPA does not have enough funding, and therefore, staff hours, to evaluate effectively. Ms. McCormack (the retired EPA scientist mentioned previously) commented, “There aren’t enough resources to go through all the studies. And there isn’t enough time. What happens then is that people at EPA look at what the [hired external] contractors said and decide whether to accept it or not. For the most part, they just [do].â€

A further hitch in EPA functioning is the 1947 federal law, FIFRA, itself; it is the authorizing legislation for the oversight and regulation of pesticides. FIFRA (The Federal Insecticide, Fungicide, and Rodenticide Act) was not written with health or environmental protection as its goals. It was written, according to Scott Faber of the Environmental Working Group, “to protect farmers and encourage pesticide companies to bring new products to the market. . . . FIFRA is encoded to approve pesticides.â€

FIFRA says that EPA can refuse to register a pesticide only if the adverse effects it causes (on human health, wildlife, or the environment) outweigh the benefits its use confers (measured in terms of crop yield and quality). Ms. Lerner writes, “So even if a pesticide presents a clear danger, the agency often finds that the danger is outweighed by whatever economic advantages it offers.†EarthJustice attorney Patti Goldman said that EPA looks for ways to “balance out†risks it identifies so as to avoid having to take pesticides off the market. She says, “If EPA finds risk, it will look at benefits to growers. You get to the end, and EPA says the company is willing to use a little less, or use it a little less often, or they’ll put a little bit of a buffer around schools, or require some protective clothing, and then they’ll just say we find the risk is less than the benefits. It’s unprincipled.â€

Beyond Pesticides asserts that EPA must, in evaluating the “reasonableness†of identified risks of pesticides, balance them against the risks presented by other systems. For example, it is obvious that organic farmers raise any and all of the crops in question without toxic pesticides, and therefore, this approach carries none of the identified risks of pesticide use. The serious adverse effects of a given pesticide are necessarily, then, unreasonable — unless EPA can demonstrate that the pesticide can be deployed in a way that eliminates those risks.

The chickens (of decades of toxic, poorly regulated pesticide use) have begun to come home to roost — in the form of increasing numbers and varieties of lawsuits against manufacturers from people who have been harmed. (See, for example, Beyond Pesticides’ coverage of the legion of litigation on glyphosate and dicamba.)

These serious harms have occurred through no fault of the sufferers, but via the combined effects of shameless industry practices and an EPA that is not sufficiently and appropriately resourced — culturally, managerially, statutorily, or funds-wise — to achieve its mission.

Dr. Benbrook asserts that the “inescapable problem is the financial mismatch between the underfunded government agency and the immense corporations that continue to outfox, outmaneuver, and vastly outspend it. How can EPA fight these major chemical companies when they are willing to spend an amount of money that is roughly equivalent to the entire Office of Pesticide Programs annual budget to defend just one chemical?â€

One solution is for EPA to recalibrate itself in alignment with a precautionary approach, and to move aggressively and authoritatively on its protective mission. Others are: Congressional funding of the agency at levels required to perform well; amendment of FIFRA; and EPA Office of the Inspector General and Congressional crackdowns on the ability of industry to interact with the agency, and on the ability of the revolving door to continue to operate. The public can pressure elected officials to take up such measures; find your Senator and Representatives here.

Source: https://theintercept.com/2021/06/30/epa-pesticides-exposure-opp/

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

 

 

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08
Jul

Chemicals, including Pesticides, in Wastewater Discharge Contaminate Oysters in Pacific Northwest

(Beyond Pesticides, July 08, 2021) A Portland State University (PSU) study finds oysters of varying distances from wastewater discharge pipes along the Oregon and Washington state coast contain low levels of chemical contaminants. Although wastewater treatment facilities clean water draining from sinks and toilets, the process does not adequately remove all contaminants. The process can leave behind pharmaceutical drugs and personal care products (e. g., shampoos, make-up, deodorant) residues in treated water. PSU has already found that pesticides from the forestry industry threaten clams, mussels, oysters (bivalves) along the Oregon coast. Marine ecosystem pollution is difficult to track and measure, and pesticide regulations can invoke variations in water quality requirements through discrepancies in buffer zones and application concentrations. The combined presence of pesticides, medicine, and personal care products in aquatic environments has direct implications for species and ecosystem health and indirect consequences for human well-being. Therefore, studies like this can help government and health officials develop strategies to reduce the number of chemicals entering aquatic ecosystems, with researchers noting officials can “better understand whether contaminant exposure affects oyster condition.â€

Researchers wanted to evaluate how proximity to wastewater facilities affects variations in aquatic pollution. Thus, scientists transplanted one-week-old Pacific oysters along the Oregon and Washington coastline, placing oysters near wastewater facilities (unapproved for oyster growing) and oyster aquaculture sites (approved for growing oysters). The researchers collected and analyzed contaminant uptake and oyster condition nine- and 12-months following transplantation.

Spring-time oyster samples, nearest wastewater sites, contain two pharmaceuticals: miconazole (a common antifungal medication) and virginiamycin (a common-use veterinary antibiotic medication). Additionally, researchers find four alkylphenols compounds (industrial chemicals used to make detergents, cleaner, and pesticide products) present in summertime oyster samples at both aquaculture and wastewater sites: 4-nonylphenol (NP), 4-tert-octylphenol (OP), and 4-nonylphenol mono- (NP1EO) and diethoxylates (NP2EO). Although chemical detection frequency is highest in oysters near wastewater facilities, contaminant concentration remains the same across all sample sites. Even in areas where shellfish populations are scarce, oysters still experience chemical exposure from wastewater contaminant uptake. Proximity to wastewater sites determines overall oyster health/condition, as oysters near aquaculture sites have better health conditions.

Chemical contamination is widespread in U.S. rivers and streams, with at least five or more different pesticides present in 90 percent of water samples. Moreover, research finds millions of people already consume drinking water contaminated with pesticides or pesticide compounds from groundwater sheds. Thousands of tons of pesticides and other chemicals enter rivers and streams from agricultural (i.e., crop care, livestock) and nonagricultural sources (i.e., wastewater discharge, landfills). These chemicals contaminate essential aquatic ecosystems, such as watersheds consisting of surface water (e.g., lakes, streams, reservoirs, and wetlands) and groundwater. Although communities around the nation are required to treat their wastewater under the Clean Water Act, the wastewater treatment process does not remove all chemical contaminants, even during high-level treatment processes. The ubiquity of certain compounds makes it difficult to extract all pollutants from the water, which can persist in the water for long periods. Often, wastewater facilities will discharge this “clean†wastewater into nearby water sources. However, the combined impact of contaminated wastewater and chemicals already in waterways has detrimental impacts on aquatic ecosystem health. Moreover, some compounds work synergistically (together) with others to increase the severity of the effect. In addition to adverse health effects on marine organisms, these chemicals harm terrestrial organisms relying on surface or groundwater. Many of these chemicals cause endocrine disruption, reproductive defects, neurotoxicity, and cancer in humans and animals, while being highly toxic to aquatic species. 

Wastewater has long been a source of exposure to pesticides, industrial chemicals, pharmaceuticals, personal care products, and household chemicals. Attempts to reduce wastewater discharge include recycling water for agricultural irrigation. However, similar to discharged wastewater, recycled wastewater presents a risk to human health and the environment from contaminants. Many states use treated wastewater from human sources (e.g., toilets, sinks, baths) or industrial activity (e.g., fracking) to irrigate organic and non-organic crops, compensating for excessive water use. Even if treated produced water bypasses agriculture use, oil and gas companies dispose of produced water in waterways or ground pits (wastewater disposal wells).

Although this study finds that chemical concentrations present in oysters remain under federally established guidelines, aquatic environments continuously encounter environmental pollutants and toxic compounds. These contaminants are known to have harmful biological consequences on both aquatic and terrestrial organisms. The report, “Human Health and Ocean Pollution,†finds that the combination of nonpoint source chemical contamination from microplastics and pesticide runoff can have an adverse synergistic effect on species’ health and ecosystem. Additionally, coastal and offshore aquaculture (farming of aquatic organisms) presents a new, looming threat to marine health. Bivalves like oysters are excellent indicator species, signaling environmental contamination through their sedimentary, filter-feeding diet. However, continuous pesticide inputs into waterways along Oregon and Washington’s coastal zone endanger these species in downstream rivers and estuaries (river mouths). The use of pharmaceuticals, like antibiotics and antifungals treatments, and pesticides in local marine ecosystems (e.g., insecticides to control sea lice in farmed salmon) results in coastal habitat loss and genetic health risks like pest resistance among wild marine organisms. The four alkylphenols compounds within the study, for example, are present in items of everyday use: detergents, cosmetics, soaps, and cleaners, as well as forestry pesticides, which already pose a threat to coastal shellfish health. Furthermore, chemical bioaccumulation can increase exposure levels as some contaminant compounds have a higher tendency to accumulate in plants. These residues can impact vulnerable populations like pregnant women or developing children. 

All aquatic environments are essential to human health and well-being, feeding billions, supporting millions of jobs, and supplying medicinal materials. However, marine species biodiversity is rapidly declining due to overfishing, global warming, pathogens, and pollution. This biodiversity loss results in changes in marine and terrestrial ecosystem function and reduces ecosystem services. The study determines that oyster condition—although better—has the most variation at non-wastewater sites. The difference in oyster conditions indicates the need to understand the role that the ecosystem plays in the irregular distribution of chemical pollutant exposure. Therefore, this study highlights the need to identify nonpoint pollution sources readily contaminating aquatic ecosystems to establish regulations that mitigate adverse effects. The study researchers conclude, “We recommend that future studies expanding on this work use oysters as bioindicators but increase replication at the site level, measure additional environmental covariates to characterize the role of environmental variability in PPCP [pharmaceutical and personal care products] occurrence and oyster health, include measurements at multiple biological levels, and analyze multiple matrices (tissue, water, sediment) for more analytes.â€

Chemical contamination is ubiquitous in terrestrial and marine environments. Therefore, indicator species, like bivalves, can act as sentinel species for chemical contamination, detecting risk to humans by exhibiting signs of environmental threat sooner than humans in the same environment. Unless more is done to address chemical pollution, humans will also continue to see similar declines in general health, fitness, and well-being. For more information about pesticide contamination in water, see the Threatened Waters program page and Beyond Pesticides’ article Pesticides in My Drinking Water? Individual Precautionary Measures and Community Action, where Beyond Pesticides states: “This problem requires individual precautionary measures and preventive, community-based action to protect [individual and public health] and ultimately, stop ongoing pesticide use that ends up in drinking water from numerous agricultural, public land, and home and garden use. Beyond Pesticides urges a solution that keeps pesticides out of the water, rather than trying to clean them up after they enter our waterways and drinking water supply.â€

Beyond Pesticides has long advocated for healthier and more environmentally friendly pest management practices to protect the environment and wildlife, particularly water resources. Therefore, pesticide use should be phased out and ultimately eliminated to protect the nation’s and world’s waterways and reduce the number of pesticides that make their way into drinking water. Additionally, Beyond Pesticides has long advocated for federal regulation that considers potential synergistic and additive threats to ecosystems and organisms from admixtures of pesticides.

Replacing pesticides with organic regenerative systems conserves water, nurtures soil fertility, reduces surface runoff and erosion, and reduces the need for nutrient input (i.e., fertilizers). Most critically, organic systems eliminate the use of toxic chemicals that threaten so many aspects of human and ecosystem life, including water resources. Learn more about the hazards pesticides pose to wildlife and what you can do through Beyond Pesticides’ wildlife program page.

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: Science Daily/PSU, Marine Pollution Bulletin

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07
Jul

Kids Who Eat Organic Food Score Higher on Cognitive Tests, Study Finds

(Beyond Pesticides, July 7, 2021) Organic food consumption among children is associated with higher scores on tests measuring fluid intelligence and working memory, research published in the journal Environmental Pollution finds. The study, conducted by Spanish researchers based at the Barcelona Institute for Global Health, took an exposome approach to environmental exposures, looking at a totality of all environmental hazards that children encounter, rather than investigating individual lifestyle factors one by one. As study co-author Jordi Júlvez, PhD, notes, “healthy diets, including organic diets, are richer than fast food diets in nutrients necessary for the brain, such as fatty acids, vitamins and antioxidants, which together may enhance cognitive function in childhood.â€

Researchers began their study by selecting mother-child pairs enrolled in the Human Early-Life Exposome (HELIX) Project, a pan-European study with projects in multiple European countries. Nearly 1,300 healthy children aged 6-11 were included in the study, as researchers already had pregnancy data and urine samples stored on the participants. To determine other environmental exposures, home addresses were evaluated for their level of pollution and proximity to natural spaces, and children and their mothers were given tests that included a questionnaire on lifestyle factors, including parents smoking and alcohol use, the indoor environment, the child’s diet, physical activity, and other habits. Both computer and clinical tests were conducted to determine fluid intelligence, attention function, and working memory, scored together as cognition. 

Researchers found that children who ate organic food displayed higher scores measuring fluid intelligence and working memory. Lower scores on fluid intelligence tests were associated with children’s fast food intake, house crowding, and exposure to tobacco smoke. Lower scores on working memory tests were associated with exposure to poor indoor air quality.

These results, while interesting, will require further research to clear up other confounding findings from the study. Researchers unexpectedly found that higher exposure to mercury during pregnancy, maternal alcohol exposure, and exposure to a PFAS substance corresponded with better cognitive performance. While increased exposure to green spaces during pregnancy was associated with lower cognitive performance. Scientists indicate these are “unexpected associations†that could be “due to confounding and reverse causality.â€

Study authors also note that broader, socio-economic factors may play into the results. In regards to house crowding, Dr. Júlvez explains that “the number of people living together in a home is often an indicator of the family’s economic status, and that contexts of poverty favour less healthy lifestyles, which in turn may affect children’s cognitive test scores.†Likewise, the result associating organic food consumption with higher rates of cognition could be indicative of socio-economic status as opposed to specific food consumption. Organic foods are becoming increasingly affordable, but many families in Europe and the United States are often torn between providing healthy organic foods for their children and paying for other necessities.

Prior research, however, helps fill in research gaps from the present study. Multiple studies have found that eating a conventional diet will increase the presence of pesticides and their metabolites in an individual’s urine, including higher pesticide body burden from eating conventional foods. In fact, because of their smaller size, children carry higher levels of glyphosate and other toxic pesticides in their body. Coupled with this research are multiple studies showing that many common pesticides result in developmental problems in children. Most recently, a 2019 Danish study found that higher concentrations of pyrethroid insecticides corresponded to higher rates of ADHD in children. There is also strong evidence that organophosphate insecticides, still widely used on fruits and vegetables in the United States, are dropping children’s IQs on a national and global scale, costing billions to the economy in the form of lost brain power.

Switching from a conventional to organic diet will drastically reduce the levels of pesticide in one’s body, with one week on organic food showing a 70% reduction in glyphosate in the body, according to one study. Socio-economic factors play a large role in access to heathy organic foods, and the ability to provide the sort of environment that allows a child’s brain to flourish. Pitting access and cost against the long-term success of a child’s development puts many parents in an untenable position. While a single study’s results can be interpreted in many ways, the preponderance of evidence points to organic food providing the nutrition needed to give young minds the start they need in life. But eating organic should not be a choice to make – all food should be grown with high quality standards that reject the use of brain-damaging pesticides and protect the wider environment. Join Beyond Pesticides as the organization continues to push for that reality.

For more information on determining when to eat organic vs chemically grown food, see Beyond Pesticides article on The Real Story on the Affordability of Organic Food.

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: Barcelona Institute for Global Health, Environmental Pollution  

 

 

 

 

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06
Jul

Are Big Dairies Undercutting Organic Milk Producers and Organic Integrity—and What Can We Do About It?

(Beyond Pesticides, July 6, 2021) ACT NOW: Public Comment Period Ends July 12, 11:59pm (eastern). A new proposed rule on the “origin of livestock†is intended to undo nearly two decades of regulatory failure by the USDA. Organic dairy producers have suffered economic harm and many organic milk consumers have been drinking substandard milk, while the National Organic Program (NOP) failed to promulgate a Final Rule on the issue of transitioning non-organically certified dairy bovine animals to organic production. The public comment period on this rule closes on July 12, 2021 at 11:59pm (eastern).

We all have a stake in growing the organic marketplace by supporting the transition from conventional chemical-intensive practices to clearly defined sustainable and regenerative practices that support family farmers and a production system that confronts the climate crisis, biodiversity decline, and rising public health threats. We do this by supporting transition and then continually improving standards to ensure a robust and healthful organic sector. The issues challenging organic dairy production are a part of the continuous efforts of Beyond Pesticides to ensure organic integrity, while growing the organic market.

Tell NOP to adopt an origin of livestock rule that protects dairy farmers and consumers. 

When the organic rules were first issued, there were no organic animals, so there had to be a way for organic dairies to get started. The National Organic Program (NOP) made an allowance for farmers to convert, over a year with organic management, a distinct conventional herd to organic milk production. This enables farmers to get started in organic dairy by converting from their existing herds. However, over the years some operations, principally large dairies, have used a lack of specificity in the rule to continually bring transitioned conventional animals onto their farms as replacement animals or for expansion. This undercuts dairy farmers who operate with integrity, raising their baby calves from birth organically, and threatens consumers who depend on the wholesomeness of organic milk. 

For nearly two decades, organic dairy producers have suffered economic harm and the NOP organic seal has had its integrity questioned by certifiers, consumers, and Inspectors General as the agency has failed to adopt a Final Rule on the issue of transitioning non-organically certified dairy bovine animals to organic production. As the organic dairy industry has grown, the inconsistency of implementing this exception has increased, and compromise solutions to passing a Final Rule with the support of the organic community have found greater acceptance. There is only one way to close all the loopholes—by prohibiting organic certification of conventional livestock.

We need a Final Rule on the origin of livestock and we need it now. At the beginning of the organic dairy movement, one of the big drivers was economic justice for farmers. We have lost thousands of farmers since then. Organic production was a viable alternative for family-scale producers and it has worked. However, much of the growth in the industry has been usurped by industrial scale operations gaming the system. If it wasn’t for the factory farms there could have been thousands of additional dairies saved and converted to organic. After so many years of failing to adopt this “origin of livestock†rule, NOP needs to hear from all of us who want the best organic milk possible. In doing this, we support small and medium-sized organic dairies, which are most affected by the current state of affairs.

How to Submit Comments

Please feel free to use (copy and paste) Beyond Pesticides’ suggested comments to USDA, asking that the agency adopt a Final Rule on the origin of livestock that modernizes the organic dairy industry to protect small and medium sized dairies and consumers. You may copy and paste the following suggested comments or utilize our more detailed comments to USDA.   

Suggested comments to USDA on origin of organic livestock: (copy and paste)

We need a Final Rule on the origin of organic livestock and we need it now. At the beginning of the organic dairy movement, one of the big drivers was economic justice for farmers. We have lost thousands of farmers since then. Organic production was intended as an alternative for family-scale producers and it has worked. However, much of the growth in the industry has been usurped by industrial scale operations gaming the system. If it wasn’t for the factory farms there could have been thousands of additional dairies saved and converted to organic. The resulting psychological damage to families in rural communities is almost incalculable.

In order to protect the integrity of USDA organic certification and establish a level playing field for a thriving organic dairy market, the Final Rule must:

  • Prohibit organic dairy operations from acquiring transitioned animals to expand or replace animals in the organic dairy herd. USDA should prohibit the sales of transitioned animals as certified organic.
  • Limit the movement of transitioned animals has economic benefits. Start-up operations should buy organically certified cows. Increased demand for animals raised as organic will create a thriving market for organic replacement animals. This will allow small-to-mid-size organic dairy operations to diversify into breeding replacements whose price will reflect the true cost of organic dairy at their scale of production. 
  • Clarify that a “responsibly connected†person who transitions a herd is bound by the same limit as the operation they are connected to. The intent of the rule can be most effectively accomplished by tying the transition to the responsibly connected person(s).
  • Be implemented as soon as it is finalized with transitions already in process completed within 12 months. All requirements of the rule should be implemented immediately upon publication of the Final Rule, with the only exception being those dairies that have already started their transition and were already approved by a certifying agent.
  • Allow one 12-month transition, and one transition only, per responsibly connected person, with no exceptions. This will prevent the rule from being abused.

Thank you for your consideration.

How to Submit a Comment to USDA Via Regulations.gov

Commenting on this proposed rule requires submitting comments through Regulations.gov. Although it takes more than a single click, submitting comments is easy by following these easy steps.

  1. Follow this link to the comment page at Regulations.gov. Click the button “Submit a Formal Comment.â€Â 
  2. In the comment section, insert your comments—write your own or you can copy and paste the suggested comments above.
  3. Fill in your email address. It will not be posted online.
  4. You may want to add a comment about why organic milk and fairness in organic dairy is important to you.
  5. Sign your name if you want.
  6. Check the box confirming that you know you are submitting comments to a public docket.
  7. Press the “Submit Comment†button.

 

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02
Jul

Second Highest Honey Bee Loss in 15 Years Documented

(Beyond Pesticides, July 2, 2021) The second highest bee loss in 15 years has reported by the Bee Informed Partnership (BIP) in its 2020–2021 National Colony Loss and Management Survey, released on June 30. For the “winter†period of October 1, 2020 through April 1, 2021, approximately 32% of managed bee colonies in the U.S. were lost. This represents an increase of 9.6% over the prior year’s winter loss and is roughly 4% higher than the previous 14-year average rate of loss. For all of the past year (April 1, 2020 to April 1, 2021) the colony loss was 45.5%. Beyond Pesticides has covered the related issues of Colony Collapse Disorder (CCD), the ongoing and devastating impacts of pesticides on bees and other pollinators, and the larger context of what some have called the “insect apocalypse.†These recent BIP data appear to indicate that “we,†writ large, are failing to remedy these problems.

Three out of four food crops globally depend on pollinators, at least in part. Commercially kept bees account for a significant portion of pollination of some U.S. crops; almonds are the leading crop, followed by apples and melons. The commercial bee business is huge — a $691 million dollar industry operating across nearly 12,000 managed crop pollination businesses. Farm Progress writes, “Crops that need pollination in the U.S. are valued at about $81.5 billion. . . . Honey bee pollination contributes 23 percent of that value.â€

The BIP research methodology divides the honey bee industry (which does not include wild bees) into three types: backyard beekeepers (with fewer than 50 colonies), “sideliners†(with 51–500 colonies), and commercial (with more than 500 colonies). The report indicates that backyard and sideliner beekeeping enterprises suffer lower losses during the summer period than during the succeeding winter term, whereas commercial keepers’ losses are similar year-round. Whereas backyard beekeepers’ data were logged in the one state in which they are located, the data for sideliner and commercial keepers’ loss rates were integrated into that of each state to which they moved their hives.

It turns out that winter loss rates vary considerably across states. For winter 2020–2021, those rates varied from a low of 21.7% in New Mexico to 58.5% in Michigan. Seventeen states had loss rates above 40%. The number of beekeepers included from each state varied widely, as well, from a mere seven in Louisiana and Mississippi to 570 in Pennsylvania. The actual number of colonies registered in the study ranged from 100 in New Mexico to 169,011 in California.

Many scientists think that such intensive losses as the BIP survey and report document may be due to multiple factors, including pesticide use, pathogens such as the varroa mite and others, reduced foraging habitat because of human infrastructure development, and (for managed hives) stress related to repeated relocations for crop pollination. As the U.S. Environmental Protection Agency (EPA) explains, Colony Collapse Disorder — which began to be recognized in the early 2000s and was named in 2006 — typically manifests as the death and/or disappearance of most of the workers bees from a hive, leaving behind “a queen, plenty of food, and a few nurse bees to care [inadequately] for the remaining immature bees and the queen.†Because the worker bees are responsible for providing the requisite nectar to the queen bee (to nurse baby bees), ultimately the entire colony collapses.

In contrast to the agrochemical industry’s emphasis on pathogens as the chief cause, Beyond Pesticides has reported on research that counters such claims. In 2019, it wrote about Canadian research that found that “real life†exposures to neonicotinoid insecticides (neonics) impair honey bees’ ability to groom harmful mites from their bodies, thus allowing mite populations to thrive. In addition, Beyond Pesticides has discussed the coincidence, during the early 2000s, of the emergence of CCD and severe colony losses with the spike in use of neonicotinoid pesticides, particularly delivered as seed coatings. In 2014, a study from the Harvard T.H. Chan School of Public Health showed that two neonics — imidacloprid and clothianidin — significantly harm honey bee colonies during winters. In addition to exposures to agricultural pesticides through their foraging activities, bees are also exposed to miticides used by beekeepers in attempts to control mite populations in hives.

The continuing losses the BIP report chronicles happen in a wider context of plummeting insect populations, which bodes poorly for biodiversity, ecosystems, and food chains. Wild and managed bee populations, as well as other types of pollinators, are threatened by profligate pesticide use, as Beyond Pesticides reported in 2020. Research has shown that impacts include limited crop yields, adding economic impacts to the list of downsides.

The Beyond Pesticides BEE Protective webpage, “What the Science Shows,†notes: “Multiple studies have confirmed that the levels of neonicotinoid pesticides that bees encounter in the environment are toxic enough to impair foraging, navigational, and learning behaviors, as well as [to] suppress immune responses. These individual impacts are compounded at the level of social colonies, weakening collective resistance to common parasites, pathogens other pesticides, and thus leading to colony losses and mass population declines.â€

The science accumulated over the last decade and a half demonstrates that neonics, and the multitude of pollinator-toxic pesticides, are critical factors in the cause of pollinator declines. Yet pesticide use represents one of the most straightforward and addressable of the causes of colony losses, as compared with the multiple other and daunting contributory problems, such as habitat fracturing and destruction, and climate change. However, EPA has moved glacially in any regulatory response to pesticides’ role in the extreme pollinator loss of the past decade-plus.

In 2016 and 2017, EPA issued reports on inadequate risk assessments it conducted on four bee-toxic neonicotinoids (imidacloprid, and clothianidin, thiamethoxam, and dinotefuran, respectively). Despite identifying significant risks to bees from agricultural applications (foliar, soil, and seed) of these compounds (including from drift), the resulting proposed regulation of neonics was anemic, at best. Rather than genuinely protective proscriptions, EPA focused on reducing impacts of the regulations on growers and enabling their continued use of these toxic pesticides by providing numerous exceptions to compliance.

U.S. Representative Earl Blumenauer of Oregon has repeatedly filed a bill to protect pollinators — dubbed the “Saving America’s Pollinators Act.†In the last (116th) session of Congress, HR 1337 was never brought to a vote. He refiled it in the (current) 117th Congressional Session on June 23; until it acquires a shorter name, it is titled “HR 4079: To direct the Administrator of the Environmental Protection Agency to take certain actions related to pesticides that may affect pollinators, and for other purposes.†Beyond Pesticides encourages members of the public to contact their elected U.S. Representatives to voice strong support for this bill.

Individuals can take other action to mitigate bee and pollinator losses, including: (1) never using pesticides, (2) providing, in their yards and gardens, native plants that can increase food sources available to pollinators, and (3) buying and eating organic (and as locally as possible). For more on these and other actions, see Beyond Pesticides’ webpage on protecting honey bees and wild pollinators.

Source: https://beeinformed.org/2021/06/21/united-states-honey-bee-colony-losses-2020-2021-preliminary-results/

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

 

 

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01
Jul

Disease Carrying Mosquitoes Developing Resistance to Widely Used Mosquito Control Pesticides

(Beyond Pesticides, July 1, 2021) Yellow fever mosquitoes (Aedes aegypti) are evolving resistance to the pyrethroid insecticide permethrin, according to a study published by Colorado State University, highlighting the need to adopt ecologically-based mosquito management. Widespread, intensive use of the pesticide in mosquito control has allowed genetic mutations to persist among these mosquito populations, causing subsequent resistance to permethrin. Pyrethroids are one of the few remaining classes of insecticides available to control yellow fever mosquitos, and resistance threatens the ability to prevent disease outbreaks with chemical-intensive methods. Yellow fever mosquitoes are a vector for numerous untreatable diseases in humans, including dengue, chikungunya fever, and Zika viruses. Hence, this study highlights the significance of addressing pest resistance to pesticide control, particularly to mitigate disease exposure and effects. The researchers note, “This knowledge can help scientists understand how mosquitoes have evolved resistance and when a population can no longer be controlled with permethrin. This understanding will be necessary to develop tools to support future insecticide management strategies.â€

Researchers sequenced the genome of resistant and knockdown (either recovered or dead) mosquitoes after permethrin exposure using a bottle bioassay. The aim was to identify genomic variants/biomarkers associated with specific resistance mechanisms. Two common pyrethroid resistance mechanisms occur among yellow fever mosquitoes: knockdown resistance involving “amino acid substitutions at the pyrethroid target site—the voltage-gated sodium channel (VGSC); [and] enhanced metabolism by detoxification enzymes.†Whether a mosquito displays a resistance or knockdown response to insecticide exposure depends on pyrethroid concentration and genetic background.

The results identify a significant association between pyrethroid resistance and thousands of different single-nucleotide polymorphisms (SNPs) mutations in VGSC. SNPs are variations in genetic sequences (a point mutation) responsible for producing different alleles or gene variants. SNPs in the VGCC and GABA receptor genes have associations with mosquito recovery after knockdown exposure. Furthermore, the study finds a moderate association between resistance and recovery among mosquitoes with mutations in detoxification and cuticle protein genes.

Insecticide resistance has been an issue since the introduction of DDT (dichlorodiphenyltrichloroethane) in the 1940s. In 1972, the U.S. banned the compound as it is highly persistent and harmful to the environment and natural resources. Furthermore, the chemical compound is known to accumulate in fatty human and animal tissue. Exposure to DDT and its breakdown products has links to reproductive dysfunction, endocrine disruption, neurotoxicity, cancer, diabetes, and obesity. Although DDT is no longer manufactured or used in much of the world, its use continues in 19 countries (including China—the primary manufacturer), mainly for mosquito control. In West Africa, DDT resistance was widespread in 53 percent of the territory during 2005 and expanded to 97 percent of the area by 2017. In 2018, Beyond Pesticides reported that “Rampant overuse [of DDT], both to control disease vectors and in agriculture, resulted in the development of significant resistance to the compound. Today, DDT resistance is widespread in Anopheles mosquitoes.†In 2017, Pesticide Action Network North America (PANNA) noted, “Of the 73 countries that provided monitoring data to WHO [the United Nations World Health Organization] from 2010 onward, 60 countries reported insect resistance to at least one insecticide and 50 reported resistance to 2 or more insecticides. This highlights the problem of relying on insecticide-based strategies for vector control. […] Ultimately, disease vectors and parasites develop resistance to the insecticide, and it becomes almost ineffective in the long run.â€

With a DDT ban in most countries, the compound is not the only chemical pesticide promoting resistance as several current-use insecticides pose the same threat. Mosquitoes have become increasingly resistant to synthetic pyrethroids, in addition to other classes of insecticides, such as carbamates and organophosphates. For example, in 2005, mean mortality to deltamethrin was below the WHO (World Health Organization) threshold for confirmed resistance across 15 percent of West Africa; by 2017, that figure rose to 98 percent. East Africa has seen a real, though somewhat less dramatic, increase in resistance to pyrethroids, with an analogous rise in the spread during the same period from 9% to 45% of the region. Therefore, the development of mosquito resistance to these insecticides means that existing mosquito control programs are becoming far less effective.

Development of resistance is an entirely normal, adaptive phenomenon: organisms evolve, “exploiting†beneficial genetic mutations that give them a survival advantage. However, resistance is growing in all sectors of pest control, including critically needed agriculture and medicine. For nearly a century, the human response to resistance is the development of a compound that kills the resistant organism (whether pest or weed or bacterium or fungus), which works for a while. However, the dependence on chemical solutions is increasingly failing. Whether it is antibiotics for bacterial infections, herbicides for weeds/pests, or insecticides to mitigate vector-borne diseases, organisms are becoming resistant to usually toxic compounds. Once an organism inevitably becomes resistant to a particular chemical control, people — the chemical industry, researchers, applicators, farmers, public health workers, clinicians, et al. — will have typically moved on to the subsequent chemical “solution.â€Â PANNA notes, “The World Health Organization underscored the problem in their 2012 guidance on policymaking for Integrated Vector Management (IVM): ‘Resistance to insecticides is an increasing problem in vector control because of the reliance on chemical control and expanding operations…Furthermore, the chemical insecticides used can have adverse effects on health and the environment.’â€

Beyond Pesticides has written extensively on the issue of resistance, particularly the relationship to the use of agricultural and other land-management pesticides, with the central message: resistance is a symptom of the ineffectiveness of chemical-intensive agriculture and leads to increased use of more and more toxic pesticides. In addition, resistance in one of the “sectors†mentioned above can “crossover†to become problematic in another. Agricultural and veterinary uses of antibiotics significantly contribute to the resistance of certain bacteria or fungi to antibiotics that have historically knocked down such infections in humans. Examples include familiar drug names: penicillin, vancomycin, azithromycin, and fluconazole — all of which have become less and less effective as pathogens have developed resistance to them. Furthermore, health officials warn that continuous use of agroindustry-dominant glyphosate will perpetuate antibiotic resistance. Bayer/Monsanto patents glyphosate as an antibiotic since exposure hinders enzymatic pathways in many bacteria and parasites, serving as an antimicrobial. However, glyphosate kills bacterial species beneficial to humans and incorporated in probiotics yet allows harmful bacteria to persist, leading to resistance. This increase in resistance is evident among crops genetically engineered (GE) to be herbicide-tolerant, including glyphosate-tolerant GE seeds. Although one purpose of GE crops is to reduce pesticide use, an increase in resistance can result in additional pesticide use to compensate. 

Overall, the results demonstrate genetic changes result in the development of two types of pyrethroid resistance: VGSC and detoxification metabolism. Researchers suggest mosquitos that recovery from the initial insecticide knockdown contribute to resistance in the field. Sublethal exposure may be responsible for the mosquito’s ability to recover. Rather than dying from dehydration and predation, recovery mechanisms allow mosquitoes to develop resistance over time. This study enables researchers to fully understand the genetic differences among mosquitos who exhibit resistance and those who recover or die. Knowing the role genes play in pesticide metabolism can help researchers fully understand how resistance evolves under field-realistic conditions.

Growing pesticide resistance often leads to an increase in chemical inputs to control pests. Exposure to permethrin already has implications for human health, including cancer, endocrine (hormone) disruption, reproductive dysfunction, neurotoxicity, and kidney/liver damage. Mosquito resistance can augment the use of chemical control methods, including the addition of toxic synergists like piperonyl butoxide (PBO), known to cause and exacerbate adverse health effects from exposure. Therefore, researchers need to understand the mechanisms prompting pesticide resistance among mosquito populations to safeguard human health from disease lacking effective treatment and vaccines.

Beyond Pesticides advocates for alternatives to chemical approaches. The most successful mosquito control programs combine various strategies with community education and require government commitment and political will. For example, Vietnam reduced malaria deaths by 97% and malaria cases by 59% when it switched in 1991 from malaria eradication attempts using DDT to a DDT-free malaria control program. Additionally, a program in central Kenya involves using livestock as bait, introducing biological controls, and distributing mosquito nets in affected areas. Beyond Pesticides maintains that management strategies to combat insect-borne diseases cannot be successful if they are chemical-intensive. These strategies ignore the underlying conditions that exacerbate the spread of the disease. 

Jay Feldman, executive director of Beyond Pesticides, has noted, “We should be advocating for a just world where we no longer treat poverty and development with poisonous band-aids but join together to address the root causes of insect-borne disease because the chemical-dependent alternatives are ultimately deadly for everyone.†He also said, “We should focus on the deplorable living conditions and inequitable distribution of wealth and resources worldwide that give rise to squalor, inhumane living conditions, and the poor state of development that, together, breed insect-borne diseases like malaria.â€

Even if yellow fever, dengue, and chikungunya, are not a local concern, there remains general concern surrounding the diseases mosquitoes can transmit, including West Nile virus and Zika. Beyond Pesticides provides valuable information on mosquito management and insect-borne diseases on the Mosquito Management and Insect-Borne Diseases section devoted to these issues. Furthermore, keep up on pesticide-related science and news, including mosquitos and pesticide resistance on Beyond Pesticides’ Daily News blog.

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: Science Daily, PLOS Genetics

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30
Jun

Vineyard Pesticides Linked to Parkinson’s

(Beyond Pesticides, June 30, 2021) Vineyard farmers who spend more money on pesticide use are more likely to develop Parkinson’s disease, according to research published by French scientists in the journal Environmental Research. With Parkinson’s disease on the rise around the world, and emerging evidence growing for a Parkinson’s pandemic, it is critically important to suss out the factors at play. And as pesticides continue to appear as a driving force for this deadly chronic disease, it is increasingly necessary to pressure regulators to restrict use of these hazardous substances in chemical farming operations.

Researchers used a French National Health Insurance Database to identify incidents of Parkinson’s disease in farmers from 2010-2015. These data were then matched with pesticide expenditures recorded from over 3,500 French farming regions, taken around the year 2000. Models were adjusted for a range of health factors, including smoking, age, and sex.

Results show that accounts of Parkinson’s disease increase as pesticide expenditures increase for farmers working in vineyards. For the highest amounts paid for pesticides, Parkinson’s disease incidence is 16% higher. No connections were found for other cropping systems.

“This result suggests that agricultural practices and pesticides used in these vineyards may play a role in PD and that farmers in these farms should benefit from preventive measures aimed at reducing exposure,†the study reads. The strong link to vineyard production may be due to the sheer amount of pesticides being used in this farming system. Although vineyards account for only 3% of French land, 20% of pesticides purchased are for vineyards. Among the pesticides used, 80% are fungicides.

Researchers found an interesting divide between vineyards that produce wine with a “designation of origin†and those that do not, with those who spend considerably more money on pesticides. “Fighting against pests is a quality guarantee for vineyards with designation of origin, which leads them to increase the number of applications,†the authors write.

Fungicides have long been linked to the development of Parkinson’s disease. A 2008 study by scientists at UCLA found that chronic exposure to dithiocarbamate fungicides like ziram contributed to the development of Parkinson’s. A 2013 meta-analysis found that the fungicides maneb and mancozeb increased Parkinson’s risk by two times. This was found to be in line with the incidence associated with paraquat herbicide exposure, which is currently the subject of an increasing number of lawsuits due to that weed killer’s strong connection to the disease.

Beyond Pesticides Pesticide Induced Disease Database provides references to dozens of peer-reviewed scientific articles connecting the use of pesticides to Parkinson’s disease. The studies provide ample evidence that current regulations governing the use of pesticides are inadequate for the protection of public health. Although pesticide regulators can adequately capture the lethal dose of a pesticide, and often have a good understanding of its acute toxicity, chronic health impacts are woefully unaccounted for.

As a result of inaction by regulators at the U.S. Environmental Protection Agency (EPA) to address chronic diseases like cancer and Parkinson’s, those harmed by pesticide exposure have had to bring their case to the U.S. court system. Lawsuits against Syngenta’s Parkinson’s-inducing paraquat and Bayer/Monsanto’s carcinogenic glyphosate are a testament to the importance  of litigation in holding companies responsible for the harm they inflict, but also an indictment of EPA’s weak regulatory process. Advocates argue that these lawsuits should not be necessary because the individuals adversely affected by these chemicals should never have been exposed to them in the first place.

It is critically important that we begin to unwind chemical farming operations in favor of organic practices, which are safer for farmers, workers, and consumers, as well as the wildlife and pest predators surrounding farm fields. Forward thinking laws and regulations are needed.  Help us tell EPA to consider cutting edge science in risk assessments, so that we can prevent the next pandemic of chronic disease.

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

Source: Environmental Research

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29
Jun

Maine Aerial Forestry Spray Ban of Glyphosate and Other Herbicides Vetoed by Governor, Override Effort Begins

(Beyond Pesticides, June 29, 2021) Maine Governor Janet Mills (D) last week vetoed legislation prohibiting the aerial use of glyphosate and other dangerous herbicides in forestry practices. LD125, An Act To Prohibit the Aerial Spraying of Glyphosate and Other Synthetic Herbicides for the Purpose of Silviculture, was supported by a wide range of health and conservation groups, and aimed to bring the state in line with best practices for public health and the environment. With Maine recently passing one of the strongest consumer bans on pollinator-toxic neonicotinoids, advocates are dismayed by the setback from the Governor’s office.

In a statement to Maine Public Radio, Senate President Troy Jackson said that Governor Mills should stop referring to herself as an environmentalist. “The science across the country, across the world, says that this stuff kills people, kills wildlife,” Mr. Jackson says. “And all that it is, is a giveaway to the large landowners so they can maximize their profits off the lives of the people in Maine and the wildlife in Maine.”

Senator Jackson’s words are stern yet factual. Glyphosate has been identified by the World Health Organization as a probable human carcinogen. Monsanto, now owned by Bayer, has been the subject of high profile lawsuits that have been so successful, the company has set aside $10 billion to resolve existing claims. In addition to cancer, the chemical has been linked to changes in DNA function, adverse birth outcomes, and antibiotic resistance.

Forestry applications also put the environment at risk. Runoff pollutes groundwater, which can run into local rivers, lakes, and streams. Erosion caused by glyphosate use can release legacy pesticides back into the environment, quickly multiplying problems from chemical mixtures. Glyphosate has been found to harm keystone wildlife species that comprise the bottom of the food chain. Likewise, certain glyphosate formulations have been found to harm pollinators directly, but the entire range of herbicides used in forestry will eliminate the floral diversity on which pollinators rely. Just last week a Canadian study found that the use of glyphosate in forestry practices prompted morphological changes that may make them less attractive to pollinators.

While glyphosate is likely the most frequently used pesticide in forestry applications, a range of toxic synthetic pesticides could be used in its place. Like all pesticides registered by EPA’s criticized regulatory process, these chemicals are not reviewed in formulation—and ‘tank mixes,’ with multiple pesticides mixed together—are a popular application technique in forestry operations. Under current EPA regulations, pesticides are not restricted for their ability to cause endocrine (hormone disruption), numerous health endpoints are often left unaddressed, children and other sensitive populations are often not provided protective safety factors, and the manufacturer of the chemical to be registered conducts all the health and safety studies submitted to the agency.

In a statement released after the veto, Governor Mills wrote, “Banning aerial application would force landowners to conduct ground application, which is manually intensive, has a potential greater site disturbance…and may require multiple applications with higher and more dangerous concentration levels to achieve the same level of effectiveness.”

Reports indicate that the Governor came under pressure from large landowners and the forestry industry, powerful forces at the state level in the Pine Tree State. But the reasoning for the veto rings hollow when alternative means of managing valuable timber crops can be successful without the use of toxic herbicides. In the nearby state of Vermont, there has been a ban on aerial pesticide use in forestry since the late 1990s.

Governor Mills indicates that she will work with state agencies to impose further restrictions on the aerial use of pesticides. Senate President Jackson will fight to override the Governor’s veto, although the chance of success is  viewed as slim. If unsuccessful, Senator Jackson indicates that a citizen referendum may be on the horizon.

Maine residents are encouraged to find their Maine state legislators and urge them to override the Governor’s veto. For more information on the dangers pesticides pose to waterways, wildlife and their habitat, see Beyond Pesticides program pages on biodiversity and water contamination.

All unattributed positions and opinions in this piece are those of Beyond Pesticides

Source: Maine Public Radio

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28
Jun

Take Action: Tell EPA to Ban ALL Triazine Herbicides

(Beyond Pesticides, June 28, 2021) The endocrine disrupting herbicide propazine (in the triazine family of frog-deforming endocrine disruptors) is set for cancellation by the U.S. Environmental Protection Agency (EPA). The move would eliminate use of the hazardous herbicide by the end of 2022. However, all pesticides in the triazine class, including atrazine and simazine, have similar properties and should be eliminated from use.

Tell EPA to finish the job by banning all triazines.

In November 2020, Beyond Pesticides and allied environmental groups launched a lawsuit against EPA for its intent to reregister the triazine family of chemicals. The agency’s interim approval of the herbicides, conducted under the Trump administration, eliminates important safeguards for children’s health and a monitoring programs intended to protect groundwater from contamination. As is typical with EPA, the agency merely proposed minor label changes in attempts to mitigate risks identified in its registration review. According to a release from EPA, it made the decision not out of concerns relating to human health and environmental protection, but in order to provide “regulatory certainty†for farmers and local officials.

In March 2021, the Biden administration requested a stay on the atrazine lawsuit brought by environmental groups, as it indicated it would review the Trump administration’s actions on the chemicals. “It is possible that, in response to this review, EPA may undertake actions that could resolve some or all of the issues in this case,†EPA said in its motion to stay, Progressive Farmer reports.

If propazine’s cancellation is the extent of the Biden administration’s corrective actions after the Trump administration’s complete abdication of responsibility to human health and environmental protection, then it is not enough. With greenhouse uses already in the process of cancellation, propazine’s remaining use is on sorghum. Although a hefty 200,000 lbs. of propazine are used each year, mainly in Texas, Oklahoma, and Kansas, this amount pales in comparison to the over 70 million lbs. of atrazine used throughout the United States.

Under an Endangered Species Act review, initiated by EPA only after a lawsuit from health and environmental groups, the triazine chemicals were found to adversely affect a range of species. Propazine was found to harm 64 endangered species, while simazine and atrazine were both likely to harm over 50% of all endangered species and 40% of their critical habitats.

EPA has long known about triazine’s threats to wildlife, including its ability to chemically castrate male frogs. However, the agency has consistently defended the chemical, and                         sat by while independent researchers like Tyrone Hayes, PhD, who conducted seminal research on atrazine’s endocrine disrupting properties, are pilloried by chemical industry propaganda. In a Critical Perspectives piece published in Environmental Toxicology and Chemistry last month, Jason Rohr, PhD, provides an in-depth investigation of the atrazine controversy.

“I argue that the atrazine controversy must be more than just a true story of cover-ups, bias, and vengeance,†he writes in the piece. “It must be used as an example of how manufacturing uncertainty and bending science can be exploited to delay undesired regulatory decisions and how greed and conflicts of interest—situations where personal or organizational considerations have compromised or biased professional judgment and objectivity—can affect environmental and public health and erode trust in the discipline of toxicology, science in general, and the honorable functioning of societies.â€

The triazine class of chemicals also pose significant threats to human health and are particularly concerning in the context of the range of chemicals one may be exposed to in today’s world. As Dr. Hayes noted a recent presentation at Beyond Pesticides’ National Pesticide Forum, “Children in utero may be exposed to over 300 synthetic chemicals before they leave the womb… I would argue that a human fetus trapped in contaminated amniotic fluid is no different than one of my tadpoles trapped in a contaminated pond.â€

Atrazine has been linked to a range of adverse birth outcomes, including smaller body sizes, slower growth rates, and certain deformities like choanal atresia (where nasal passages are blocked at birth), and hypospadias (where the opening of a male’s urethra is not located at the tip of the penis).

While industry consistently lines up local Congressmembers, former EPA officials, and agrichemical lobbyists to pressure EPA to keep triazines in the market, there is no evidence that the herbicides benefit the farmers these officials claim to represent. According to research published in the International Journal of Occupational and Environmental Health, banning atrazine would provide an economic benefit to farmers. “The winners,†the research concludes, “in an atrazine free future would include farm workers, farmers and their families, and others who are exposed to atrazine either directly from field uses or indirectly from contaminated tap water along with natural ecosystem that are currently damaged by atrazine.â€

During the Obama Administration, health and environmental advocates were on the defensive with propazine. After glyphosate-resistant crops predictably invaded genetically engineered cotton fields in Texas, growers requested propazine use on over 3 million acres of farm fields. Although EPA determined Texan farmers met the criteria for an emergency, a decision Beyond Pesticides disagreed with, the agency did find that groundwater risks from the proposed propazine use would be too risky. 

For more information on the dangers of atrazine and its chemical cousins, read Beyond Pesticides comments to EPA, and watch Dr. Tyrone Hayes presentations from former National Pesticide Forum events on Youtube.

Tell EPA to finish the job by banning all triazines.

Letter to EPA Administrator Michael Regan

I am pleased to hear that EPA has cancelled the registration of propazine herbicides. However, the proposed interim decisions (PIDs) on reregistration of atrazine and simazine demonstrate similar risks. These triazines are highly mobile and persistent in the environment and have been linked to numerous adverse health and environmental effects that have motivated many public interest campaigns to ban their use in the U.S. as well as in Europe. The Draft Ecological Risk Assessments for the Registration Review of Atrazine, Simazine, and Propazine dated October 5, 2016 found high risks that were supported by EPA’s assessments.

EPA’s Proposed Interim Decisions present data demonstrating unreasonable adverse effects. These hazards are unacceptable, especially in light of the availability of nontoxic alternatives. The hazards include:

* The technical mechanism of toxicity is perturbation of the neuroendocrine system by disrupting hypothalamic regulation of the pituitary, leading primarily to a disturbance in the ovulatory surge of luteinizing hormone (LH), which results in both reproductive and developmental alterations. Of the numerous adverse effects associated with this disruption, the two that appear to be the most sensitive and occur after the shortest duration (4 days) of exposure are the disruption of the ovarian cycles and the delays in puberty onset.

* Despite these endocrine disrupting effects, the PIDs propose reducing the margin of safety and underestimate exposure to children.

* EPA states, “Based on the results from hundreds of toxicity studies on the effects of atrazine on plants and animals, over 20 years of surface water monitoring data, and higher tier aquatic exposure models, this risk assessment concludes that aquatic plant communities are impacted in many areas where atrazine use is heaviest, and there is potential chronic risk to fish, amphibians, and aquatic invertebrates in these same locations.â€

* In spite of these findings, EPA will increase the level of atrazine allowed in waterways.

Please adhere to the statutory mandate of the Federal Insecticide, Fungicide and Rodenticide Act (FIFRA) and suspend the registration of these pesticides that pose unreasonable adverse health and environmental effects.

Thank you.

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25
Jun

White House Environmental Justice Advisory Council Confronts Institutional Racism with Recommendations

(Beyond Pesticides, June 25, 2021) A consequential report from the White House Environmental Justice Advisory Council (WHEJAC) sets out important and comprehensive recommendations that, if enacted, would put environmental justice on the front burner of national policy. The report spells out a multitude of challenges, and recommendations for addressing them, in service of advancing environmental justice (EJ) across federal agencies. Notably, the U.S. Environmental Protection Agency (EPA) is called out for, among other things, poor protection of farmworkers and their families, who tend to be people of color, from pesticide risks. The report arises from President Biden’s late January 2021 Executive Orders (covered by Beyond Pesticides here) on: (1) tackling the climate crisis with a “whole of government†approach, with an explicit focus on EJ, and (2) recalibrating the functions of the Office of Management and Budget (OMB) to “forward health, racial equity, and environmental stewardship.â€

That early 2021 Executive Order (EO) on climate established the WHEJAC and the Justice40 Initiative, the latter of which aims to direct 40% of some categories of federal investment to historically under-served communities. Those investments, as reported by AgriPulse, would promote “clean energy and energy efficiency; clean transit; affordable and sustainable housing; training and workforce development; the remediation and reduction of legacy pollution; and the development of critical clean water infrastructure.â€

The Executive Order on the OMB charged the agency’s director with providing to the administration “concrete suggestions on how the regulatory review process can promote public health and safety, economic growth, social welfare, racial justice, environmental stewardship, human dignity, equity, and the interests of future generations. The recommendations should also include proposals that would ensure that regulatory review serves as a tool to affirmatively promote regulations that advance these values.â€

Of particular note is language, throughout the report, that acknowledges the role of historic and current systemic racism as it has manifested in “disproportionate harm from environmental contaminants and . . . disproportionate risks from climate change†for disadvantaged communities. It says plainly (in Section 101), “Historically, the Federal Government has taken actions that have perpetuated, institutionalized, or defended injustices that resulted in inequality in exposure to hazardous substances and unequal access to clean water, clean air, healthy food, safe housing, transportation, and other environmental benefits.â€

The document also addresses stakeholder involvement, going straight to the point of the adage, “If you are not at the table, you are probably on the menu.†For example, in Part II “meaningful participation†is described: “potentially affected populations have an opportunity to participate in decisions that will affect their health or environment, that the population’s contributions can influence the agency’s decisions, that the viewpoints of all participants involved will be considered in the decision-making process, and that the agency will seek out and facilitate the involvement of the population potentially affected.†The contrast with written products of the prior administration is head-spinning.

The 91-page report tackles WHEJAC’s “wheelhouse†of concerns: climate; toxics, pesticides, and pollution reduction in overburdened communities; equitable conservation and use of public lands; tribal/indigenous issues; a clean energy transition; sustainable infrastructure (water, built environment, transportation); civil rights; and increasing federal efforts to address current and historic EJ transgressions.

The report integrates many recommendations of the Justice40 Initiative, including specifics on, among others:

  • extending clean energy infrastructure and the multiple benefits of a clean energy transition equitably — pointedly, by getting them successfully to disadvantaged communities, including low-income and indigenous regions and communities, and communities of color
  • relocating housing from toxic sites (e.g., contaminated brownfields), and providing compensation to homeowners whose homes were built on toxic sites with federal funds
  • overhauling rural water infrastructure, and cleaning up drinking water in marginalized communities
  • funding cities and towns to address major infrastructure and environmental protection deficits in EJ communities
  • establishing workforce training and apprenticeship programs for displaced workers in the transition to a clean energy economy
  • developing of a youth climate corps that draws from Black, Hispanic, Tribal, and Asian American and Pacific Islander (AAPI) communities and resources

The WHEJAC report also takes up problems and concerns specific to farmworkers, their families, and their communities on several fronts, including many related to pesticide risks. Recommendations include:

  • addressing increasing heat stress on workers, both generally and in relation to pesticide-related PPE (Personal Protective Equipment)
  • ensuring adequate field sanitation and handwashing facilities
  • finalizing the 2015 proposed rule revoking all food tolerances for chlorpyrifos
  • improving cost-benefit evaluation outcomes by considering the availability of safer alternatives early in EPA analyses, and include the social costs of pesticide use; in addition, creating protocols for gathering actual farmworker exposure data, rather than relying on industry-generated data
  • restoring Obama-era pesticide Application Exclusion Zones (revised by the Trump administration so as to put workers at increased risk)
  • requiring EPA to consult with farmworkers and farmworker organizations on agency decisions about pesticide mitigation measures
  • requiring EPA to protect pesticide applicators, farmworkers, agricultural communities, and consumers from pesticide exposure and drift prior to completion of a pesticide registration review process (including while revocation and/or cancellation proceedings are in progress for certain pesticides)
  • ensuring that EPA accounts, in the registration review process, for cumulative exposures to organophosphate pesticides
  • requiring full and nationwide reporting of pesticide use in agriculture, and in schools and daycare facilities and their surrounds;
  • mandating that EPA’s Office of Chemical Safety and Pollution Prevention account for the differential risks faced by fenceline/EJ communities from chemical pollution, including cumulative exposures, and document these separately from data on the general population
  • requiring EPA to reverse its current approach to occupational hygiene by comporting with OSHA’s (Occupational Safety and Health Administration) hierarchy of protocols: first, eliminate the hazardous agent or substitute a less hazardous one; second, implement engineering controls; and last, require personal protective equipment; EPA currently deploys these in the opposite order, and rarely implements the elimination/substitution practice

Response to the report has been positive in the advocate community. EarthJustice reported a statement from the co-authors of the Equitable and Just National Climate Platform: “The White House Environmental Justice Advisory Council has made an important and historic contribution to advancing environmental justice and protecting overburdened communities from dangerous pollution and harm from climate change. Its recommendations provide a roadmap for President Biden to make progress on environmental, racial, and economic justice and to ensure that at least 40% of federal climate and clean energy investments reach frontline communities. White House officials and federal agencies should immediately incorporate these recommendations to guide the implementation of Justice40 and the President’s other environmental justice commitments to address the disproportionate levels of pollution, chronic disinvestment, and lack of access to capital and economic opportunities in Black, Latinx, Indigenous, and low-income communities burdened by systemic racism and discriminatory federal policies.â€

“The report and recommendations recognize disproportionate risk from toxic chemicals to people of color communities and the failure of statutory and regulatory policy to incorporate these elevated risk factors into allowable use patterns of pesticides and other toxic chemicals,†said Jay Feldman, executive director of Beyond Pesticides.

At least one agricultural organization has taken some umbrage at the report’s commentary on farmworker health and safety recommendations. As reported by AgriPulse, Michael Marsh, CEO of the National Council of Agricultural Employers, commented that some recommendations, such as “access to field sanitation and hand-washing facilities, training in use of and provision of protective equipment for pesticide application, (and) heat stress prevention plans,†have already been implemented by farmers and ranchers for years. “Farmers take the health and safety of their workforce very seriously and it is in the farmer’s self-interest to do so,†he added.

Another industry trade group is displeased with the report, given its relative cold shoulder regarding biofuels. AgriPulse reported the comment of Renewable Fuels Association President and CEO Geoff Cooper: It is “surprising and disappointing that the advisory committee overlooked the benefits of renewable fuels. . . . Ethanol reduces the harmful tailpipe pollution that disproportionately affects low-income and disadvantaged communities, and it slashes the greenhouse gas emissions that are contributing to climate change. In addition, the increased use of ethanol reduces demand for petroleum fuels, which are often manufactured at large industrial refining complexes adjacent to, or in the middle of, urban and suburban neighborhoods.â€

Advocate Michele Roberts, Environmental Justice Health Alliance and WHEJAC member, had this to say: “The voices of the communities that have suffered for too long from legacies of pollution and inequality are finally being heard. Through the White House Environmental Justice Advisory Council, we finally have the seat at the table that we deserve. We know how to remedy the problems that have been placed in our communities, and our recommendations should form the foundation from which the Biden-Harris administration builds its policies to correct environmental, economic, and climate injustice.â€Â 

Moving recommendations from words on paper to concrete actions is where the rubber hits the road. Senior Fellow for Energy and Environment at the Center for American Progress, Cathleen Kelly, said, “There’s going to have to be a lot of focus on strengthening federal investment programs across all of the agencies to make sure that they can actually deliver real and direct benefits to disadvantaged communities.†To that end, AgriPulse adds, Brenda Mallory (chair of the Council on Environmental Quality), Gina McCarthy (National Climate Adviser), and Shalanda Young (Acting Director of OMB) are expected to publish recommendations on the nitty-gritty of how to get that 40% of federal investment to target communities.

Beyond Pesticides, which has long advocated on behalf of farmworkers, welcomes the report’s attention to farmworker, pesticide, and equity issues in particular, as well as the plethora of recommendations that would begin to put EPA on a more protective track. A significant part of addressing the toxic chemicals, climate, and equity crises will be the transition — which cannot happen quickly enough — from currently dominant petrochemical-dependent agricultural and land management practices to organic, regenerative ones that build in agricultural and environmental justice protections.

Such systems would end the poisoning of farmworkers, their families, and landscape workers; protect public health, the environment, and biodiversity; and reduce greenhouse gas emissions, sequestering far more carbon than conventional agriculture can. The shift from a petroleum-based economy, including the agricultural economy, to a much-less-toxic “green†economy would provide myriad benefits across many sectors, including for fenceline communities that have borne the overwhelming brunt of inequities. Environmental justice is an inextricable part of environmental advocacy. Please join Beyond Pesticides in this work.

Sources: https://www.epa.gov/sites/production/files/2021-05/documents/whejac_interim_final_recommendations_0.pdf and https://www.agri-pulse.com/articles/16005-environmental-justice-report-targets-farmworkers-pesticides

All unattributed positions and opinions in this piece are those of Beyond Pesticides.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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