Agricultural Chemistry

Introduction

Agriculture chemistry is the study of agricultural production, as well as the interaction of plants, bacteria, animals, and their environment. It is a scientific field that studies the composition of both chemistry and biochemistry. We study the production of food, Agri products, and beverages from raw materials in agriculture chemistry. Herbicides, growth regulators, fertilisers, insecticides, and pesticides are examples of agricultural materials. Agricultural chemistry seeks to increase agricultural yield, improve soil quality and fertility, and increase crop yield.

What is Agricultural Chemistry

Agriculture is the process of raising livestock, crops, and other food products. Agriculture in the modern era includes horticulture, agronomy, dairying, soil chemistry, animal husbandry, and so on. Organic, inorganic, and agricultural products are all studied in chemistry. Agricultural chemistry is the application of both agriculture and chemistry that deals with crop production and improvement. Photosynthesis, fertilisers, pesticides and insecticides, irrigation, agricultural produce storage, food processing, chemicals etc.

Agricultural chemistry is a science concerned with ways to influence chemical and biochemical processes in soil and plants, with plant mineral nutrition and with using fertilizers and other chemical means to improve fertility and increase yield.

Why Agricultural Chemistry is important?

Chemistry plays a significant role in crop and livestock production, controlling pathogens, insects, and weeds, and improving crop yield. The world’s population is growing by the day. To meet the growing population’s demand, agricultural chemistry not only improves crop production resources but also uses crops and crop waste to produce renewable fuel and feedstocks. We know that plants produce food through the process of photosynthesis. It is a natural phenomenon, but we can learn about the mechanism involved in the photosynthesis process thanks to agricultural chemistry. This aided us in increasing crop production.

  1. Agriculture chemistry contributes to soil quality improvement by testing soil and nutrients.
  2. Fertilisers are organic and inorganic compounds that can be found naturally or synthetically. They are applied to the soil during agriculture to increase crop yield. Fertilisers are applied to the soil to provide the macro and micronutrients required for crop production.
  3. Pesticides and insecticides are chemicals that are used in crop production to reduce damage caused by insects and pests.
  4. Agriculture chemistry aids in the storage of food products, such as sulphur dioxide, which is used to keep grains fresh for long-term storage. Salicylic acid and sodium benzoate are used in food preservation and shelf life extension.
  5. Modern agricultural chemistry is now using crop and food waste to produce renewable energy fuels and beverages. Examples include the production of alcohol from bagasse and the use of the Jatropha plant in the production of fuel.
Type of MaterialProducts
FoodRefined oil, Butter, cheese, etc. 
PetroleumKerosene, Diesel, Petrol, etc
ConstructionMortar, glass, chemicals, and chemical compounds.
HouseholdCooking gas, food process.

What is the purpose of Agricultural Chemistry?

Agricultural Chemistry’s goal is to increase crop production by using pesticides, fungicides, fertilisers, and other chemicals.  In modern chemistry, Crops and other crop wastes are used in the production of biofuels and beverages.

  1. As agriculture advances, chemistry improves irrigation techniques through the use of plastic pipes, drip irrigation techniques, sprinkler systems, and so on. Crop production has increased as a result of improved irrigation and a favourable climate.
  2. It has invented preservatives such as salicylic acid and sodium benzoates, as well as other chemicals, to extend the shelf life of food products.
  3. Agricultural chemistry applied science improves crop quality and yield and lowers production costs.
  4. A subfield of agricultural chemistry Chemurgy is working on utilising agricultural products as raw materials for subsequent production such as oil production, petroleum, cooking gas, and so on.

Summary

We learned that agricultural chemistry is a branch of science that deals with the intersection of chemistry and agriculture production. It aids in the production of agricultural products as well as the processing of food and beverages from raw materials. It establishes the relationship between the environment, microbes, plants, and animals. Furthermore, it aids in increasing the quantity and quality of food. Agriculture chemistry incorporates not only chemistry and agriculture, but also microbiology, genetics, physiology, entomology, ecology, and so on.

Frequently Asked Questions

1. Organic fertilisers: what are they?

Ans. Animal manure, fruit and vegetable compost, and fish are examples of living systems from which organic fertilisers are derived. The soil’s microbial population breaks down organic waste. It is rich in potassium, nitrogen, phosphorus, calcium, etc.

2. Inorganic fertilisers: What are they?

Ans. Minerals and synthetic chemicals are used to make inorganic fertiliser, which is synthetic. Petroleum is frequently used to produce inorganic nitrogen.

3. What do you mean by Insecticides and Pesticides?

Ans. Chemicals called pesticides are used to protect crops from things like fungi, weeds, and pests. Chemicals called insecticides are used to eradicate insects that are harmful to crops or livestock.