Pesticides not only prevent and manage pests, but they also kill other bugs like ladybirds and bees. Insecticides, fungicides, weed control agents, and rodent poisons are examples of pesticides. These insecticides work by killing, preventing, or repelling dangerous organisms. The majority of pesticides have an effect on the organism's neurological system.
When plants develop, the nutrients in the soil diminish and are not replenished naturally. Fertilizers are required here to increase nutritional content. Plants require phosphorus, nitrogen, and potassium in order to thrive. All of these are present in variable degrees in fertilisers, as are additional nutrients like as zinc and iron.
Pesticides and fertilisers, while beneficial to plants, may also be toxic. Pesticides injure other creatures inadvertently. Pesticides are also hazardous to humans and beneficial insects such as bees. While discussing the dangers of fertilisers, it is important to remember that they can damage ground water. This is quite dangerous. Moreover, fertilisers promote the growth of hazardous aquatic organisms.
How are fertilisers and pesticides different?
Fertilizers, which come in dry and liquid form, supply the plant with the needed nutrients. Pesticides are applied to plants in order to eliminate, prevent, or control pests such as slugs, insects, fungal diseases (smuts, rots, and mildew), and snails.
Insecticides, fungicides, weed control agents, and rodent poisons are examples of pesticides.
The majority of pesticides have an effect on the neurological system of organisms.
Plants require phosphorus, nitrogen, and potassium in order to thrive. All of these are present in variable degrees in fertilisers, as are additional nutrients like as zinc and iron.
Pesticides injure other creatures inadvertently. Pesticides are also hazardous to humans and beneficial insects such as bees.
Fertilizers leach into the groundwater and poison it. This is quite dangerous. Moreover, fertilisers promote the growth of hazardous aquatic organisms such as algae, which can disrupt aquatic ecosystems.