Food Quality Protection Act

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Food Quality Protection Act of 1996
Great Seal of the United States (obverse).svg
Other short titlesMinor Use Crop Protection Act of 1995
Long titleAn Act to amend the Federal Insecticide, Fungicide, and Rodenticide Act and the Federal Food, Drug, and Cosmetic Act, and for other purposes.
Acronyms (colloquial)FQPA
NicknamesFood Quality Protection Act of 1995
Enacted bythe 104th United States Congress
EffectiveAugust 3, 1996
Citations
Public law 104-170
Statutes at Large 110  Stat.   1489
Codification
Acts amended Federal Insecticide, Fungicide, and Rodenticide Act
Federal Food Drug and Cosmetic Act
Titles amended 7 U.S.C.: Agriculture
U.S.C. sections amended
Legislative history

The Food Quality Protection Act (FQPA), or H.R.1627, was passed unanimously by Congress in 1996 and was signed into law by President Bill Clinton on August 3, 1996. [1] The FQPA standardized the way the Environmental Protection Agency (EPA) would manage the use of pesticides and amended the Federal Insecticide, Fungicide, and Rodenticide Act and the Federal Food Drug and Cosmetic Act. It mandated a health-based standard for pesticides used in foods, provided special protections for babies and infants, streamlined the approval of safe pesticides, established incentives for the creation of safer pesticides, and required that pesticide registrations remain current. [1]

Contents

One of the most prominent sections of the act, the specified protections for babies and infants, was the topic of the National Academy of Sciences' 1993 report, Pesticides in the Diets of Infants & Children. The EPA has cited this report as a catalyst for the creation of the FQPA. [2]

Background

Legislation similar to the FQPA was drafted and presented to Congress in 1995 but was never acted on. In 1996, the political landscape had changed and new pressures to act on pesticide control reform surfaced. [3] In 1990, a coalition of environmental groups sued the EPA for failing to enforce the Delaney clause (California ex. rel. Van de Kamp v. Reilly). [4] The Delaney clause, a provision in the Food Additives Amendment of the Federal Food, Drug, and Cosmetic Act, banned all food that contained any trace amount of any pesticide that may cause cancer. [5] Although the EPA argued that the legislation was outdated and should not apply to the current situation, the coalition won in 1995 and the EPA was slated to ban 80 pesticides in late 1996. [5] Under these new, more urgent circumstances, Congress was able to pass a bill that was celebrated by both sides of the debate; farmers, food processors and pesticide manufactures were glad to see the Delaney Clause go, while environmental groups and consumer advocates were pleased to have a formalized safety standard with an added emphasis on children. [6] John Cady, president of the National Food Processors Association, praised the legislation for being "...based on modern, real-world science". [3]

A cropduster spraying pesticide on a field Cropduster spraying pesticides.jpg
A cropduster spraying pesticide on a field

FQPA requirements

The Food Quality Protection Act of 1996 has the following requirements: [7]

Improved health standards for food commodities

The FQPA established a new safety standard (reasonable certainty of no harm) that must be applied to all food commodities. In addition to the new standard the EPA now has to consider the specific risks pesticides might have for infants and children. The FQPA required the re-testing of all existing pesticide tolerance levels, of which there were more 9,700, [8] within 10 years. When assessing this risk the EPA is required to take into account the "aggregate risk" (the exposure to a pesticide from multiple sources) and the "cumulative exposure" to pesticides with similar mechanisms of toxicity. To do this the EPA is required to establish new science policies to assess the risks. [9] The FQPA requires the EPA to set tolerances for pesticide uses that fall under section 18 of the Federal Insecticide, Fungicide, and Rodenticide Act (emergency exemptions).[ citation needed ]

Cumulative risk assessment

The EPA has established guidance for assessing the cumulative risk for multiroute exposures to pesticide groups determined to have a common mechanism of toxicity. [10] The Agency has also published guidance on determining whether chemicals share a common mechanism of toxicity, i.e., whether they can be assessed as a common mechanism group. [11] The risk calculation is based on dose addition, where individual pesticide exposure levels are scaled by their relative potency and then summed. Some key uncertainties in this approach include the possibility that relative potency changes with dose, and the potential for toxicological interactions (dose addition assumes no toxicological interactions [12] ). Another caution is that the resulting risk assessments are not complete environmental health evaluations of all chemical exposures, but only represent risks from those common mechanism pesticides.

Reduced risk pesticides

The FQPA mandates that the EPA expedite the approval of reduced risk pesticides. To be considered reduced risk pesticides must have a proven low-impact on human health, have low toxicity to non-target organisms and have a low potential to contaminate groundwater.[ citation needed ]

Minor uses

The FQPA requires the EPA to give special consideration to pesticides used on products that have less than 300,000 acres of total U.S. production or products that do not have enough economic incentive to either support an initial registration or a continuing registration.[ citation needed ]

Public health pesticides

The FQPA requires the EPA to establish a list of pests that are considered significant to public health and to give special consideration to pesticides with public health uses. The EPA is also required to provide maintenance fee waivers to and encourage the safe and necessary use of methods/pesticides that either combat or control pests that have been deemed of public health importance. The EPA also provides waiver fees for the pesticides used on pests that are deemed of public health importance.[ citation needed ]

Antimicrobial reform

The FQPA mandates the EPA to expedite the review of applications that are requesting the registration of antimicrobial products. The FQPA also exempts certain antimicrobial products from the container provisions in the Federal Insecticide, Fungicide and Rodenticide Act.[ citation needed ]

USDA initiatives

The FQPA requires the conduction of food consumption surveys that track food consumption and related behaviors in the U.S. population. The FQPA mandates the collection of pesticide residue and use data. The Pesticide Data Program (PDP) under the Agricultural Marketing Service of the USDA monitors pesticide residue in the nation's food supply to support FQPA. [13] The FQPA mandated the promotion of integrated pest management solutions. PDP also supports FQPA requirements of stricter safety standards and a reassessment of existing pesticide tolerances. [13]

Other

The FQPA requires that pesticide registration be reviewed periodically, with a goal of once every 15 years. [8] The FQPA mandated changes in the collection of tolerance fees, increasing the amount of fee money from $14 million to $16 million to help with the reassessment of tolerances. The FQPA requires the EPA to specifically screen pesticides for disruption to the endocrine system. [8] The FQPA requires the EPA to establish an integrated pest management education program and implement integrated pest management research and demonstration. The FQPA encourages the syncing of U.S. pesticide tolerances with those of international standards. Under the FQPA individual states are not allowed to set different pesticide tolerances than the EPA and the EPA is required to coordinate data requirements between the state and federal levels. The EPA is required to develop and distribute a food safety brochure and create an annual report on the progress of its registration program.[ citation needed ]

Impact

The FQPA was the most comprehensive reform of food safety and pesticide laws in decades and posed an implementation challenge for the EPA. Immediately following the passing of the FQPA, the EPA moved to create the Food Safety Advisory Committee. [2] The committee was founded with the intention of fostering an open and public implementation process. Within 10 years, the EPA had successfully reassessed 99% of the nation's pesticide tolerances (recommending the revocation of 3,200, recommending the modification of 1,200 and approving 5,237). In addition to the reassessing of pesticide tolerances, the EPA accommodated the use of special classes of pesticides, addressed the public policy issue of clinical studies to verify pesticide effects, and expedited the availability of safe pesticides. [14]

Agronomist Sharon Benzen shows off broccoli grown in a test plot. The crops will be used to help determine appropriate pesticide residue levels. Broccoli crop.jpg
Agronomist Sharon Benzen shows off broccoli grown in a test plot. The crops will be used to help determine appropriate pesticide residue levels.

While the EPA did limit, and in some cases ban, the use of pesticides following the passing of the FQPA, not every stakeholder was pleased with their level of action. Referring to the discrepancies between what constitutes reliable data when determining whether or not to increase the margin of safety tenfold, Richard Weiss (a pesticide expert with the Environmental Working Group) said, "The EPA has failed to comply with the clear intent and requirements of the law". [15] While environmentalists complained, so did farmers. As their ability to harvest quality crops was threatened, farmers said the EPA was unfairly enforcing a "zero risk" instead of a "reasonable certainty of no harm" policy. The EPA responded saying that while they were more stringent after the passing of the FQPA, they were not operating under a no risk/no harm rule. [16]

Emphasis on children

The passing of the FQPA marked the first time the EPA was asked to directly address the risks pesticides pose for infants and children. Because children are smaller, the pesticides they ingest have a proportionately greater impact. The FQPA required the EPA to enforce a safety margin 10 times greater than before if reliable data proving that the pesticide posed no risk for children could not be provided. [15] After the bill's passing, former President Bill Clinton said, "If a pesticide poses a danger to our children, then it won't be in our food". [17]

In 1999, the EPA banned most uses of methyl parathion and azinphos methyl, citing the risks they pose to children. [18] Both methyl parathion and azinphos methyl are organophosphates. Organophosphates are pesticides that kill insects by disrupting nerve impulses. Unfortunately, these pesticides have the same effect on humans. In 2000, the EPA banned another organophosphate, (chlorpyrifos), that was common in the agriculture industry, household cleaners and commercial pest control products, due to a study showing that chlorpyrifos caused weakness, vomiting and diarrhea in baby rats. [19]

The restrictions on these pesticides, although mandated on the premise of child safety, were not received unanimously well by groups outside the EPA. Both agriculture representatives and environmentalists sounded off after the EPA made its decisions. [20] "Chemical Business News" published an article suggesting that the idea that pesticides pose special dangers for children was actually an alarmist issue not based in science. [21] Agriculture lobbies claimed that the banning of organophosphates would cause the agriculture industry an annual loss of $1.8 billion. [22] Environmentalists argued that the EPA was buckling under the pressure of these lobbies and needed to uphold the legal safety standard mandated in the FQPA. [22] In response the EPA published a report saying that they stood by their decisions and the 10 fold safety increase was both conservative and prudent and was only applicable under special circumstances. [20]

Clinical studies debate

In 1998, the EPA placed a moratorium on clinical studies, or human studies, citing both ethical and scientific concerns. [23] While the use of clinical studies for pesticide tolerances had been in decline since the 1980s, the passing of the FQPA re-generated interest in the practice. By testing on humans, pesticide manufacturers could eliminate the additional safety margins required when using data collected from animal testing. [24] Following their moratorium the EPA had the National Academy of Sciences convene a panel of experts to determine the ethical solution to the human studies debate. [23] While the National Academy of Sciences established the panel, both pesticide manufacturers and environmentalists established their own opinions. The Environmental Working Group and the Natural Resources Defense Council argued that clinical studies were both inaccurate and ethically wrong; pesticide manufacturers argued that not only were clinical studies crucial but that they must be allowed to conduct the tests to determine "No observable adverse effects level", meaning they administer the drug until an effect is observed. [25]

The National Academy of Sciences released a report in 2004 supporting the use of clinical studies under strict regulations; the regulations mandated that the study's benefit to society outweigh the risk to the individual, that the study be conducted under a strict ethical code, that there be reasonable certainty that no harm will come to participants and that it has been shown that no other study will work. [26] In 2005, adhering to a congressional directive, the EPA adopted the Human Studies Regulation; the regulations permit human studies, do not allow the use of pregnant women or children in human studies, mandate that a strict ethical code be followed and establish a Human Studies Review Board to oversee the use of human studies. The EPA considers the regulations as a major accomplishment in public policy. [27]

See also

Related Research Articles

<span class="mw-page-title-main">Pesticide</span> Substance used to destroy pests

Pesticides are substances that are used to control pests. They include herbicides, insecticides, nematicides, fungicides, and many others. The most common of these are herbicides, which account for approximately 50% of all pesticide use globally. Most pesticides are used as plant protection products, which in general protect plants from weeds, fungi, or insects. In general, a pesticide is a chemical or biological agent that deters, incapacitates, kills, or otherwise discourages pests. Target pests can include insects, plant pathogens, weeds, molluscs, birds, mammals, fish, nematodes (roundworms), and microbes that destroy property, cause nuisance, or spread disease, or are disease vectors. Along with these benefits, pesticides also have drawbacks, such as potential toxicity to humans and other species.

A biocide is defined in the European legislation as a chemical substance or microorganism intended to destroy, deter, render harmless, or exert a controlling effect on any harmful organism. The US Environmental Protection Agency (EPA) uses a slightly different definition for biocides as "a diverse group of poisonous substances including preservatives, insecticides, disinfectants, and pesticides used for the control of organisms that are harmful to human or animal health or that cause damage to natural or manufactured products". When compared, the two definitions roughly imply the same, although the US EPA definition includes plant protection products and some veterinary medicines.

<span class="mw-page-title-main">Piperonyl butoxide</span> Chemical compound

Piperonyl butoxide (PBO) is a pale yellow to light brown liquid organic compound used as a synergist component of pesticide formulations. That is, despite having no pesticidal activity of its own, it enhances the potency of certain pesticides such as carbamates, pyrethrins, pyrethroids, and rotenone. It is a semisynthetic derivative of safrole.

Under United States law, pesticide misuse is considered to be the use of a pesticide in a way that violates laws regulating their use or endangers humans or the environment; many of these regulations are laid out in the Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA). The most common instances of pesticide misuse are applications inconsistent with the labeling, which can include the use of a material in any way not described on the label, changing dosage rates, or violating specific safety instructions. Pesticide labels have been criticized as a poor risk communication vehicle, leading some officials and researchers to question whether "misuse" is an appropriate term for what are often "unintended uses" resulting from a poor understanding of safety and application instructions. Other kinds of pesticide misuse include the sale or use of an unregistered pesticide or one whose registration has been revoked and the sale or use of an adulterated or misbranded pesticide. Under most jurisdictions, it is illegal to alter or remove pesticide labels, to sell restricted pesticides to an uncertified applicator, or to fail to maintain sales and use records of restricted pesticides.

Restricted use pesticides (RUP) are pesticides not available to the general public in the United States. Fulfilling its pesticide regulation responsibilities, the United States Environmental Protection Agency (EPA) registers all pesticides as either "unclassified" or "restricted use". Unclassified pesticides are available over-the-counter, while the latter require a license to purchase and apply the product. Pesticides are classified as "restricted use" for a variety of reasons, such as potential for or history of groundwater contamination.

<span class="mw-page-title-main">Chlorpyrifos</span> Chemical compound

Chlorpyrifos (CPS), also known as Chlorpyrifos ethyl, is an organophosphate pesticide that has been used on crops, animals, and buildings, and in other settings, to kill several pests, including insects and worms. It acts on the nervous systems of insects by inhibiting the acetylcholinesterase enzyme. Chlorpyrifos was patented in 1966 by Dow Chemical Company.

<span class="mw-page-title-main">Federal Insecticide, Fungicide, and Rodenticide Act</span> US federal law governing pesticide regulation

The Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA) is a United States federal law that set up the basic U.S. system of pesticide regulation to protect applicators, consumers, and the environment. It is administered and regulated by the United States Environmental Protection Agency (EPA) and the appropriate environmental agencies of the respective states. FIFRA has undergone several important amendments since its inception. A significant revision in 1972 by the Federal Environmental Pesticide Control Act (FEPCA) and several others have expanded EPA's present authority to oversee the sales and use of pesticides with emphasis on the preservation of human health and protection of the environment by "(1) strengthening the registration process by shifting the burden of proof to the chemical manufacturer, (2) enforcing compliance against banned and unregistered products, and (3) promulgating the regulatory framework missing from the original law".

A biopesticide is a biological substance or organism that damages, kills, or repels organisms seen as pests. Biological pest management intervention involves predatory, parasitic, or chemical relationships.

Pesticide residue refers to the pesticides that may remain on or in food, after they are applied to food crops. The maximum allowable levels of these residues in foods are stipulated by regulatory bodies in many countries. Regulations such as pre-harvest intervals also prevent harvest of crop or livestock products if recently treated in order to allow residue concentrations to decrease over time to safe levels before harvest.

Acibenzolar-<i>S</i>-methyl Chemical compound

Acibenzolar-S-methyl is the ISO common name for an organic compound that is used as a fungicide. Unusually, it is not directly toxic to fungi but works by inducing systemic acquired resistance, the natural defence system of plants.

<span class="mw-page-title-main">Azoxystrobin</span> Chemical compound

Azoxystrobin is a broad spectrum systemic fungicide widely used in agriculture to protect crops from fungal diseases. It was first marketed in 1996 using the brand name Amistar and by 1999 it had been registered in 48 countries on more than 50 crops. In the year 2000 it was announced that it had been granted UK Millennium product status.

<span class="mw-page-title-main">Organophosphate poisoning</span> Medical condition

Organophosphate poisoning is poisoning due to organophosphates (OPs). Organophosphates are used as insecticides, medications, and nerve agents. Symptoms include increased saliva and tear production, diarrhea, vomiting, small pupils, sweating, muscle tremors, and confusion. While onset of symptoms is often within minutes to hours, some symptoms can take weeks to appear. Symptoms can last for days to weeks.

<span class="mw-page-title-main">Sulfentrazone</span> Chemical compound

Sulfentrazone is the ISO common name for an organic compound used as a broad-spectrum herbicide. It acts by inhibiting the enzyme protoporphyrinogen oxidase. It was first marketed in the US in 1997 by FMC Corporation with the brand name Authority.

<span class="mw-page-title-main">Clothianidin</span> Chemical compound

Clothianidin is an insecticide developed by Takeda Chemical Industries and Bayer AG. Similar to thiamethoxam and imidacloprid, it is a neonicotinoid. Neonicotinoids are a class of insecticides that are chemically similar to nicotine, which has been used as a pesticide since the late 1700s. Clothianidin and other neonicotinoids act on the central nervous system of insects as an agonist of nAChR, the same receptor as acetylcholine, the neurotransmitter that stimulates and activating post-synaptic acetylcholine receptors but not inhibiting AChE. Clothianidin and other neonicotinoids were developed to last longer than nicotine, which is more toxic and which breaks down too quickly in the environment.

<span class="mw-page-title-main">Pesticides in the United States</span> Review of the topic

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<span class="mw-page-title-main">California Department of Pesticide Regulation</span>

The California Department of Pesticide Regulation, also known as DPR or CDPR, is one of six boards and departments of the California Environmental Protection Agency (Cal/EPA).

<span class="mw-page-title-main">Health effects of pesticides</span> How pesticides affect human health

Health effects of pesticides may be acute or delayed in those who are exposed. Acute effects can include pesticide poisoning, which may be a medical emergency. Strong evidence exists for other, long-term negative health outcomes from pesticide exposure including birth defects, fetal death, neurodevelopmental disorder, cancer, and neurologic illness including Parkinson's disease. Toxicity of pesticides depend on the type of chemical, route of exposure, dosage, and timing of exposure.

<span class="mw-page-title-main">Pesticide regulation in the United States</span>

Pesticide regulation in the United States is primarily a responsibility of the Environmental Protection Agency (EPA). In America, it was not till the 1950s that pesticides were regulated in terms of their safety. The Pesticides Control Amendment (PCA) of 1954 was the first time Congress passed guidance regarding the establishment of safe limits for pesticide residues on food. It authorized the Food and Drug Administration (FDA) to ban pesticides they determined to be unsafe if they were sprayed directly on food. The Food Additives Amendment, which included the Delaney Clause, prohibited the pesticide residues from any carcinogenic pesticides in processed food. In 1959, pesticides were required to be registered.

<span class="mw-page-title-main">Tefluthrin</span> Synthetic pyrethroid used as insecticide

Tefluthrin is the ISO common name for an organic compound that is used as a pesticide. It is a pyrethroid, a class of synthetic insecticides that mimic the structure and properties of the naturally occurring insecticide pyrethrin which is present in the flowers of Chrysanthemum cinerariifolium. Pyrethroids such as tefluthrin are often preferred as active ingredients in agricultural insecticides because they are more cost-effective and longer acting than natural pyrethrins. It is effective against soil pests because it can move as a vapour without irreversibly binding to soil particles: in this respect it differs from most other pyrethroids.

<span class="mw-page-title-main">Circle of Poison</span> Export of illegal pesticides

The Circle of Poison (COP) refers to the export of domestically banned pesticides for use on foods elsewhere, some of which returns by way of import. The "circle" is complete when the toxic chemicals that were exported are then used to grow fruit, meat, and produce that are imported and available for domestic consumption. This circle was first identified relative to the United States but the relationship also exists between other nations of the Global North and South.

References

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  2. 1 2 Goldman, Lynn R. (1996). "EPA Seeks Public Health Views on New Pesticide Law". Public Health Reports. 111 (6): 512–514. ProQuest   230146100.
  3. 1 2 Bealey, R (May 10, 1995). "Pesticide Bill Reforms Delaney". Chemical Week.
  4. McCallion, Gail (January 1, 1994). "From the Source to the Mouth: What Can You Reasonably Expect to Find in Your Food". Fordham Environmental Law Review. 5 (1): 189.
  5. 1 2 Lee, G (July 28, 1996). "In Food Safety Changes, Victories for Many". The Washington Post.
  6. Weiss, R (August 4, 1996). "Clinton Signs New Standards on Food Safety; President also Ratifies Gambling Commission". The Washington Post.
  7. "Implementation of Requirements under FQPA". United States Environmental Protection Agency . September 23, 2010. Retrieved October 22, 2010.
  8. 1 2 3 Susan Wayland and Penelope Fenner-Crisp. "Reducing Pesticide Risks: A Half Century of Progress." EPA Alumni Association. March 2016.
  9. "Cumulative Assessment of Risk from Pesticides". June 17, 2015.
  10. http://www.epa.gov/sites/production/files/2015-07/documents/guidance_on_common_mechanism.pdf [ bare URL PDF ]
  11. http://www.epa.gov/sites/production/files/2015-07/documents/guide-2-identify-pest-chem_0.pdf [ bare URL PDF ]
  12. U.S. EPA. 2000. Supplementary guidance for conducting health risk assessment of chemical mixtures. EPA/630/R-00/002. Washington, DC:Risk Assessment Forum.
  13. 1 2 "Food Quality Protection Act | Agricultural Marketing Service". www.ams.usda.gov. Retrieved March 24, 2021.
  14. U.S. Environmental Protection Agency. "Accomplishments Under the Food Quality Protection Act" . Retrieved September 28, 2010.
  15. 1 2 Cushman, J (December 29, 1997). "Environmental Agency Under Fire on Safety Rules". The New York Times. Retrieved October 11, 2010.
  16. Valentine, P (September 10, 1998). "Concern Grows About EPA Rules, Pesticide Limits Worry Farmers". The Washington Post. LexisNexis Academic.
  17. "Clinton Praises Bill Regulating Pesticides". The New York Times. August 4, 1996. Retrieved October 12, 2010.
  18. Wald, M (August 3, 1999). "Citing Children, EPA is limiting use of a Pesticide". The New York Times. Retrieved October 12, 2010.
  19. Revkin, A (June 9, 2000). "EPA, Citing Risks to Children, Signs Accord to Limit Insecticide". The New York Times. Retrieved October 12, 2010.
  20. 1 2 Cushman, J. (December 19, 1997) Pesticide child-safety limits have EPA drawing fire. The Charleston Gazette.
  21. Pesticide Outlook: Are infants and children really more vulnerable than adults to the potential adverse effects of pesticides? (November 16, 2000)
  22. 1 2 EPA Pesticide crackdown gets plenty of complaints. (August 9, 1999) The San Francisco Chronicle.
  23. 1 2 Grady, D (January 9, 2003). "Debate Erupts Over Testing Pesticides on Humans". The New York Times. Retrieved October 18, 2010.
  24. Milloy, S. "EPA's Way of Pulling the Pesticide Plug". The Washington Times.
  25. Franz, N. (August 2, 2000). "Report Sets Stage for Human Testing Debate & Pesticides". Chemical Week.
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