Pesticide misuse

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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). Pesticide misuse encompasses a range of practices, including overapplication, incorrect timing, and the use of banned substances. This global issue not only threatens environmental safety but also undermines efforts towards sustainability. The risk of pesticide pollution at a global scale necessitates a concerted effort to understand and mitigate misuse. 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 Other kinds of pesticide misuse include the sale or use of an unregistered pesticide or one whose registration has been revoked and the sale or use of an adulterated or misbranded pesticide.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.

Contents

Pesticides are toxic compounds, and their labels are specifically designed to encourage safe and effective use. Ignoring the directions can lead to civil and criminal charges and civil liability for damages to other parties.

Health effects

In humans

Pesticide misuse can lead to pesticide poisoning, the consequences of which range from mild skin irritations to seizure to death. The effects of poisoning vary drastically depending on dosage and levels of exposure. The types of pesticides most often present in poisonings are organophosphates and N-methyl carbamates, pyrethrin and synthetic pyrethroid insecticides, and organochloride insecticides. Certain fumigants, nematicides, herbicides, and dipyridyls are also common in cases of pesticide poisoning. [1]

One of the best known cases of pesticide misuse in recent history involved the application of a pesticide intended for outdoor agricultural use (methyl parathion) to homes in Mississippi for cockroaches and other home pests. Two exterminators were charged with multiple criminal charges after their ongoing use (of several years) was exposed. A number of residents, including two infants, suffered symptoms of pesticide poisoning. A number of homes and business, including several day care centers and schools were rendered uninhabitable or unusable. Heavy fines and prison terms followed for the perpetrators. [2]

In other animals

Pesticide misuse can also endanger wildlife and other environmental resources.

Birds Birds are particularly susceptible to pesticide exposure. Certain pesticides, such as organophosphates and carbamates, interfere with the nervous systems of birds, leading to reduced reproductive success and increased mortality rates. The thinning of eggshells caused by DDT, a now-banned pesticide, is a well-documented example. This phenomenon led to a decline in the populations of several bird species, including the bald eagle and peregrine falcon.

Mammals Mammals can also suffer from pesticide exposure. Rodents and other small mammals are at risk of ingesting pesticides directly or through contaminated food sources. This can result in acute poisoning or chronic health issues, such as reproductive and developmental problems. Predatory mammals, such as foxes and weasels, can be indirectly affected through bioaccumulation, where they consume prey that has been exposed to pesticides.

Insects Beneficial insects, including pollinators like bees and butterflies, are highly vulnerable to pesticides. Neonicotinoids, a class of insecticides, have been linked to the decline of bee populations due to their neurotoxic effects. These pesticides impair foraging behavior, reduce reproductive success, and increase susceptibility to diseases and parasites. The decline in pollinator populations poses a significant threat to biodiversity and agriculture.

Aquatic Life Aquatic animals are impacted by pesticide runoff from agricultural fields and urban areas. Fish and amphibians are particularly at risk as pesticides can contaminate water bodies, leading to lethal and sublethal effects. Pesticides can disrupt the endocrine systems of fish, affecting their growth, reproduction, and development. Amphibians, which have permeable skin, are highly sensitive to waterborne pesticides, leading to population declines and deformities.

Reptiles Reptiles, such as snakes and lizards, can also be affected by pesticide exposure. These animals may encounter pesticides through direct contact with treated areas or by consuming contaminated prey. The impacts on reptiles can include decreased fertility, altered behavior, and increased mortality rates.

Notable Instance of Pesticide misuse: A Florida man was recently cited and fined $23,100 for using the pesticide Aldicarb on deer carcasses to kill coyotes, for storing the pesticide in unlabeled containers, and not being a certified applicator. [3]

Specific label directions are given on materials that are toxic to bees, because these pollinators are considered an important environmental resource. A typical bee-protection label direction reads: "This product is highly toxic to bees exposed to direct treatment on blooming crops or weeds. Do not apply this product or allow it to drift to blooming crops or weeds if bees are visiting the treatment area." [4] In 2013, over 25,000 bumblebees died as a result of pesticide misuse in Wilsonville, Oregon. [5] A South Carolina farmer was also cited and fined for pesticide misuse, because he sprayed a blooming cucumber field while bees were foraging on the blossoms, causing a serious bee kill. Similar bee kills have impacted US beekeepers and the growers who need bees for pollination billions of dollars in losses. Efforts to curb pesticide misuse are critical, especially in agricultural countries where literacy barriers and lack of training contribute significantly to the problem. Programs like Integrated Pest Management (IPM) training have shown promise in reducing misuse and enhancing crop yields.

Contributing factors

Pesticide misuse occurs most frequently in developing countries and in countries with predominantly agricultural economies. [6] Several factors contribute to pesticide misuse, but ecological researchers have found language barriers and illiteracy to be among the most common. Safety data sheets for pesticides are available in a variety of languages, but the farmers and agricultural workers who are responsible for pesticide application are often unable to read them. Limited education and a lack of proper training tend to be among the most significant contributing factors to improper handling and application of pesticides. The majority of agricultural workers and rural farmers in developing countries have received only a few years of primary education, which contributes to the illiteracy of these populations. [7] Farmers in underdeveloped countries also frequently misuse pesticides due to improper training; however, Integrated Pest Management training has been shown to reduce rates of improper handling and application of pesticides while simultaneously increasing crop yields. [8]

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.

<span class="mw-page-title-main">Insecticide</span> Pesticide used against insects

Insecticides are pesticides used to kill insects. They include ovicides and larvicides used against insect eggs and larvae, respectively. Acaricides, which kill mites and ticks, are not strictly insecticides, but are usually classified together with insecticides. The major use of Insecticides is agriculture, but they are also used in home and garden, industrial buildings, vector control and control of insect parasites of animals and humans. Insecticides are claimed to be a major factor behind the increase in the 20th-century's agricultural productivity. Nearly all insecticides have the potential to significantly alter ecosystems; many are toxic to humans and/or animals; some become concentrated as they spread along the food chain.

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">Pyrethrin</span> Class of organic chemical compounds with insecticidal properties

The pyrethrins are a class of organic compounds normally derived from Chrysanthemum cinerariifolium that have potent insecticidal activity by targeting the nervous systems of insects. Pyrethrin naturally occurs in chrysanthemum flowers and is often considered an organic insecticide when it is not combined with piperonyl butoxide or other synthetic adjuvants. Their insecticidal and insect-repellent properties have been known and used for thousands of years.

<span class="mw-page-title-main">Carbofuran</span> Toxic carbamate pesticide

Carbofuran is a carbamate pesticide, widely used around the world to control insects on a wide variety of field crops, including potatoes, corn and soybeans. It is a systemic insecticide, which means that the plant absorbs it through the roots, and from there the plant distributes it throughout its organs where insecticidal concentrations are attained. Carbofuran also has contact activity against pests. It is one of the most toxic pesticides still in use.

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

Imidacloprid is a systemic insecticide belonging to a class of chemicals called the neonicotinoids which act on the central nervous system of insects. The chemical works by interfering with the transmission of stimuli in the insect nervous system. Specifically, it causes a blockage of the nicotinergic neuronal pathway. By blocking nicotinic acetylcholine receptors, imidacloprid prevents acetylcholine from transmitting impulses between nerves, resulting in the insect's paralysis and eventual death. It is effective on contact and via stomach action. Because imidacloprid binds much more strongly to insect neuron receptors than to mammal neuron receptors, this insecticide is more toxic to insects than to mammals.

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

In organic chemistry, 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.

Pesticides vary in their effects on bees. Contact pesticides are usually sprayed on plants and can kill bees when they crawl over sprayed surfaces of plants or other areas around it. Systemic pesticides, on the other hand, are usually incorporated into the soil or onto seeds and move up into the stem, leaves, nectar, and pollen of plants.

<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".

<span class="mw-page-title-main">Aldicarb</span> Chemical compound (insecticide)

Aldicarb is a carbamate insecticide which is the active substance in the pesticide Temik. It is effective against thrips, aphids, spider mites, lygus, fleahoppers, and leafminers, but is primarily used as a nematicide. Aldicarb is a cholinesterase inhibitor which prevents the breakdown of acetylcholine in the synapse. Aldicarb is considered "extremely hazardous" by the EPA and World Health Organization and has been banned in more than 100 countries. In case of severe poisoning, the victim dies of respiratory failure.

<span class="mw-page-title-main">Dichlorvos</span> Insect killing chemical, organophosphate

Dichlorvos is an organophosphate widely used as an insecticide to control household pests, in public health, and protecting stored products from insects. The compound has been commercially available since 1961. It has become controversial because of its prevalence in urban waterways and the fact that its toxicity extends well beyond insects. Since 1988, dichlorvos cannot be used as a plant protection product in the EU.

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

Dimethoate is a widely used organophosphate insecticide and acaricide. It was patented and introduced in the 1950s by American Cyanamid. Like other organophosphates, dimethoate is an acetylcholinesterase inhibitor which disables cholinesterase, an enzyme essential for central nervous system function. It acts both by contact and through ingestion. It is readily absorbed and distributed throughout plant tissues, and is degraded relatively rapidly. One of the breakdown products of dimethoate is omethoate, a potent cholinesterase inhibitor, is ten times more toxic than its parent compound.

Neonicotinoids are a class of neuro-active insecticides chemically similar to nicotine, developed by scientists at Shell and Bayer in the 1980s.

<span class="mw-page-title-main">Organophosphate poisoning</span> Toxic effect of pesticides

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">Environmental impact of pesticides</span> Environmental effect

The environmental effects of pesticides describe the broad series of consequences of using pesticides. The unintended consequences of pesticides is one of the main drivers of the negative impact of modern industrial agriculture on the environment. Pesticides, because they are toxic chemicals meant to kill pest species, can affect non-target species, such as plants, animals and humans. Over 98% of sprayed insecticides and 95% of herbicides reach a destination other than their target species, because they are sprayed or spread across entire agricultural fields. Other agrochemicals, such as fertilizers, can also have negative effects on the environment.

<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">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">Terbufos</span> Chemical compound

Terbufos is a chemical compound used in insecticides and nematicides. It is part of the chemical family of organophosphates. It is a clear, colourless to pale yellow or reddish-brown liquid and sold commercially as granulate.

References

  1. O'Malley, Michael (April 1997). "Clinical evaluation of pesticide exposure and poisonings". The Lancet. 349 (9059): 1161–1166. doi:10.1016/S0140-6736(96)07222-4. PMID   9113024. S2CID   28511066.
  2. "Exterminators Held in Use Of a Poison Inside Homes". The New York Times. 17 November 1996.
  3. "Florida Men Sentenced for Poisoning Wildlife and Hunting Dogs in Bullock County". 30 April 2015.
  4. Ellis, J. D.; Klopchin, J.; Buss, E.; Diepenbrock, L.; Fishel, F. M.; Kern, W. H.; Mannion, C.; McAvoy, E.; Osborne, L. S.; Rogers, M.; Sanford, M.; Smith, H.; Stanford, B. S.; Stansly, P.; Stelinski, L.; Webb, S.; Vu, A. (2021-01-25). "ENY-162/IN1027: Minimizing Honey Bee Exposure to Pesticides". Electronic Data Information Source (EDIS). Institute of Food and Agricultural Sciences (IFAS), University of Florida . Retrieved 2021-02-27.
  5. "Massive bee die-off found in Wilsonville". Archived from the original on 2021-03-01. Retrieved 2013-06-30.
  6. Goldberg, Karen A. (1985). "Efforts to Prevent Misuse of Pesticides Exported to Developing Countries: Progressing Beyond Regulation and Notification". Ecology Law Quarterly. 12 (4): 1025–1051. JSTOR   24112835.
  7. Akter, Mousumi; Fan, Liangxin; Rahman, Md Mokhlesur; Geissen, Violette; Ritsema, Coen J. (November 2018). "Vegetable farmers' behaviour and knowledge related to pesticide use and related health problems: A case study from Bangladesh". Journal of Cleaner Production. 200: 122–133. doi:10.1016/j.jclepro.2018.07.130. S2CID   158629020.
  8. Gautam, Shriniwas; Schreinemachers, Pepijn; Uddin, Md. Nasir; Srinivasan, Ramasamy (December 2017). "Impact of training vegetable farmers in Bangladesh in integrated pest management (IPM)". Crop Protection. 102: 161–169. doi: 10.1016/j.cropro.2017.08.022 .
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