This use of pesticides is so common that the term pesticide is often treated as synonymous with plant protection product. It is commonly used to eliminate or control a variety of agricultural pests that can damage crops and livestock and reduce farm productivity. The most commonly applied pesticides are insecticides to kill insects, herbicides to kill weeds, rodenticides to kill rodents, and fungicides to control fungi, mould, and mildew.

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A Brief History

Pesticides are not recent inventions. Many ancient civilizations used pesticides to protect their crops from insects and pests. Ancient Sumerians used elemental sulfur to protect their crops from insects. Whereas, Medieval farmers experimented with chemicals using arsenic, lead on common crops.

The Chinese used arsenic and mercury compounds to control body lice and other pests. While the Greeks and Romans used oil, ash, sulfur, and other materials to protect themselves, their livestock, and their crops from various pests.

Meanwhile, in the nineteenth century, researchers focused more on natural techniques involving compounds made with the roots of tropical vegetables and chrysanthemums. In 1939, Dichloro-Diphenyl-Trichloroethane (DDT) was discovered, which has become extremely effective and rapidly used as the insecticide in the world. However, twenty years later, due to biological effects and human safety, DDT has been banned in almost 86 countries.


Definition of Pesticides

The Food and Agriculture Organization (FAO) has defined pesticide as:

any substance or mixture of substances intended for preventing, destroying or controlling any pest, including vectors of human or animal disease, unwanted species of plants or animals, causing harm during or otherwise interfering with the production, processing, storage, transport, or marketing of food, agricultural commodities, wood and wood products or animal feedstuffs, or substances that may be administered to animals for the control of insects, arachnids, or other pests in or on their bodies.

Types of Pesticides

These are grouped according to the types of pests which they kill:

Grouped by Types of Pests They Kill

  1. Insecticides – insects
  2. Herbicides – plants
  3. Rodenticides – rodents (rats & mice)
  4. Bactericides – bacteria
  5. Fungicides – fungi
  6. Larvicides – larvae

Based on how biodegradable they are:

Pesticides can also be considered as:

  • Biodegradable: The biodegradable kind is those which can be broken down by microbes and other living beings into harmless compounds.
  • Persistent: While the persistent ones are those which may take months or years to break down.

Another way to classify these is to consider those that are chemical forms or are derived from a common source or production method.

Chemically-related pesticides:

  • Organophosphate:Most organophosphates are insecticides, they affect the nervous system by disrupting the enzyme that regulates a neurotransmitter.
  • Carbamate:Similar to the organophosphorus pesticides, the carbamate pesticides also affect the nervous system by disrupting an enzyme that regulates the neurotransmitter. However, the enzyme effects are usually reversible.
  • Organochlorine insecticides:They were commonly used earlier, but now many countries have been removed Organochlorine insecticides from their market due to their health and environmental effects and their persistence (e.g., DDT, chlordane, and toxaphene).
  • Pyrethroid:These are a synthetic version of pyrethrin, a naturally occurring pesticide, found in chrysanthemums(Flower). They were developed in such a way as to maximise their stability in the environment.
  • Sulfonylurea herbicides:The sulfonylureas herbicides have been commercialized for weed control such as pyrithiobac-sodium, cyclosulfamuron, bispyribac-sodium, terbacil, sulfometuron-methyl Sulfosulfuron, rimsulfuron, pyrazosulfuron-ethyl, imazosulfuron, nicosulfuron, oxasulfuron, nicosulfuron, flazasulfuron, primisulfuron-methyl, halosulfuron-methyl, flupyrsulfuron-methyl-sodium, ethoxysulfuron, chlorimuron-ethyl, bensulfuron-methyl, azimsulfuron, and amidosulfuron.
  • Biopesticides:The biopesticides are certain types of pesticides derived from such natural materials as animals, plants, bacteria, and certain minerals.
  • Examples of pesticides
  • Examples of pesticides are fungicides, herbicides, and insecticides. Examples of specific synthetic chemical pesticides are glyphosate, Acephate, Deet, Propoxur, Metaldehyde, Boric Acid, Diazinon, Dursban, DDT, Malathion, etc.
  • Benefits of Pesticides
  • The major advantage of pesticides is that they can save farmers. By protecting crops from insects and other pests. However, below are some other primary benefits of it.
    • Controlling pests and plant disease vectors.
    • Controlling human/livestock disease vectors and nuisance organisms.
    • Controlling organisms that harm other human activities and structures.
  • Effects of Pesticides
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  • The toxic chemicals in these are designed to deliberately released into the environment. Though each pesticide is meant to kill a certain pest, a very large percentage of pesticides reach a destination other than their target. Instead, they enter the air, water, sediments, and even end up in our food.
  • Pesticides have been linked with human health hazards, from short-term impacts such as headaches and nausea to chronic impacts like cancer, reproductive harm.
  • The use of these also decreases the general biodiversity in the soil. If there are no chemicals in the soil there is higher soil quality, and this allows for higher water retention, which is necessary for plants to grow.
  • Frequently Asked Questions – FAQs
  • Q1
  • What are the environmental effects of pesticides?
  • Pesticides have the potential to contaminate soil, water, turf, and other vegetation. Pesticides, in addition to killing insects and weeds, can be toxic to a variety of other organisms such as birds, fish, beneficial insects, and non-target plants.
  • Q2
  • What are the types of pesticides?
  • Insecticides, herbicides, rodenticides, and fungicides are examples of well-known pesticides.
  • Q3
  • How long do pesticides last in soil?
  • Persistent herbicides can last anywhere from several months to three or more years before completely decomposing into inert compounds, depending on the type of herbicide and the level of concentration in the soil.
  • Q4
  • Why do we need pesticides?
  • Pesticides are used to control a wide range of pests and disease carriers, including mosquitos, ticks, rats, and mice. In agriculture, pesticides are used to control weeds, insect infestations, and diseases. Pesticides come in a variety of forms, each designed to be effective against a specific pest.
  • Q5
  • Do pesticides affect food?
  • Pesticide residues in or on fruits, vegetables, grains, and other foods decrease significantly as crops are harvested, transported, exposed to light, washed, prepared, and cooked. The presence of detectable pesticide residue does not imply that the residue is dangerously high.

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