Economic Importance of Fungi
The economic importance of fungi lies across various industries. In agriculture, certain fungi contribute to biopesticides, offering environmentally friendly alternatives for pest control. Biotechnological applications utilize fungi to produce enzymes, antibiotics, and other valuable compounds.
Fungi contribute to the pharmaceuticals and food industry as well. In this article, we will discover the diverse economic importance of fungi, from agriculture to medicine and beyond.
Table of Content
- What is Fungi?
- Economic Importance of Fungi in Agriculture
- Economic Importance of Fungi as Food
- Economic Importance of Fungi in Industry
- Therapeutic uses of Fungi
- Use of Fungi in Bioremediation
What is Fungi?
Definition of Fungi: Fungi are eukaryotic organisms, including molds, yeasts, and mushrooms, characterized by their absorption of nutrients from the environment and cell walls made of chitin.
Fungi are characterized by their unique mode of obtaining nutrients through external digestion. They do so by secreting enzymes into their surroundings to break down organic matter. Fungi play crucial ecological roles as decomposers, aid in nutrient cycling, and engage in symbiotic relationships with various organisms. While some fungi can be pathogenic and cause diseases in plants and animals, others are utilized in biotechnological processes and food production, such as yeast in fermentation.
Their cell walls are composed of chitin, distinguishing them from plants and animals. Fungi lack chlorophyll and rely on organic material for nutrition. The fungal kingdom is vast and essential for various ecological and industrial processes.
Also Read: Difference Between Fungi and Lichens
Economic Importance of Fungi in Agriculture
Fungi are important in agriculture for enhancing soil fertility, aiding plant growth, and decomposing dead plant material to release nutrients.
- They release enzymes like cellulase and lignin to break down complex substances into simpler compounds like carbon dioxide, water, ammonia, hydrogen sulphide, etc, which plants can then use for food production.
- Some fungi also help to control weeds and pests like insects, mites, and nematodes, making them useful alternatives to chemical pesticides.
- Predatory fungi trap and destroy nematodes by forming loops on their mycelium, while others produce sticky conidia (asexual, non-motile spores of a fungus) that stick to passing nematodes and absorb nutrients by special hyphae.
- Fungi like Mycorrhizal fungi form symbiotic relationships with plant roots to improve nutrient uptake, water absorption, leading to increased crop yields.
Some commercialized fungal BCAs used to control pests and their particular host are listed in table.
Biocontrol Agent Fungal (BCAs ) |
Target Hosts |
---|---|
Beauveria bassiana |
Against a wide host range including beetles, caterpillars, Whiteflies, borers, grasshoppers, thrips, and aphids. |
Metarhizium spp |
Beetles, locusts, cockroaches, flies, grasshoppers, spittlebugs, termites ,root weevils, thrips, grubs, and borers |
Hirsutella thompsonii |
Citrus rust mite, hoppers and bug pests, whiteflies, red mites |
Lecanicelium lecanii |
Whiteflies, aphids, thrips, brown plant hoppers, scale insects, mealy bugs and other sucking insect pests of crop plants. |
Trichoderma harzianum |
Parasitic nematodes, bacteria, and especially fungi |
Economic Importance of Fungi as Food
Fungi play a key role in food production and are consumed directly as food. There are approximately 2000 edible species of fungi found worldwide, with about 200 of them being present in the Western Himalayas.
- Some fungi like Mushrooms and truffles, are widely used in many cuisines due to their high nutritional value.
- They are rich in proteins, vitamins, minerals like Zinc, Calcium, Potassium, Iron, and Phosphorus, as well as amino acids.
- Mushrooms have low fat and carbohydrate content. Due to this mushrooms are recommended for heart patients and diabetics.
- Commercial cultivation of mushroom fungi is becoming increasingly popular in developing countries, contributing to the national economy and offering economic opportunities for small farmers.
Also Read: Genetic Engineering in Agriculture
Some Common Examples of Edible Mushrooms are:
Some common examples of edible mushrooms are given in the tablet below.
Common Name |
Biological Name |
---|---|
White button mushroom |
Agaricus bisporus |
Paddy straw mushroom |
Volvariella volvacea |
Oyster mushroom |
Pleurotus florida |
Dhingri Mushroom |
Agaricus campestris |
Also Read: Protein Structure
Economic Importance of Fungi in Industry
A number of Industries have been set up based on beneficial activities of fungi. Fungi have been utilized in a diverse range of industrial applications, either directly impacting materials or providing enzymes for various purposes.
Cheese Production
Certain fungi, commonly known as cheese molds, are essential for enhancing the taste and texture of cheese. The molds used in cheese production are harmless and therefore safe for consumption. Penicillium species like P. roqueforti and P. camemberti are utilized in making Roquefort and Camembert cheese by hydrolysis of fat and add specific flavors.
Also Read: Difference Between Molds And Yeasts
Production of Alcoholic Beverages
Yeast plays a key role in brewing industries by fermenting sugar solutions to produce ethyl alcohol and carbon dioxide through the enzyme zymase.
- Yeasts lack enzyme diastase, so they cannot convert starch into sugar. Various fungi, such as molds, secrete a variety of enzymes that facilitate the fermentation of complex carbohydrates.
- In industrial alcohol production, molds are used as starters to break down starch to sugar, with yeast later used to act on the sugar.
- While molds can complete the fermentation process, but using yeast for the second stage typically results in a better yield
- Popular molds for saccharification include Mucor racemosus, M. rouxii, and some Rhizopus species, while Aspergillus flavus is used in African native beer production.
Also Read: Difference Between Fungi and Lichens
Some examples of fermented products and fungal strains used in fermentation are:
Product |
Fungi used |
---|---|
Wines |
Saccharomyces ellipsoideus |
Beer |
Saccharomyces cerevisiae |
Shoyu (soy sauce) and Miso |
Shoyu koji mold (Aspergillus oryzae) |
Tempeh |
Rhizopus oligosporus or Rhizopus oryzae |
Production of Enzyme
Variety of hydrolytic enzymes were used in various industrial processes like amylases, invertases, cellulases and hemicellulases, pectinases, proteases, laccases, phytases, and lipases. These enzymes degrade complex organic compounds to simpler ones. In recent years many enzymes are commercially produced by using fungi.
Enzymes |
Fungal source |
Uses |
---|---|---|
Amylase |
Aspergillus niger, A.oryzae |
Alcohol industry and Pharmaceuticals |
Invertase |
Saccharomyces cerevisiae |
Paper industry, confectionary |
Cellulase |
Trichoderma konigi |
Production of cheese and hydrolysis of cellulose |
Zymase |
Saccharomyces cerevisiae |
Ethyl alcohol production |
Production of Organic Acid
Several pathogenic Fungi enhance their ability to infect by releasing organic acids or ammonia to change the acidity levels of their host’s environment. This ability of fungi is advantageous for biotechnological production of organic acid.
Organic acid |
Fungi used |
---|---|
Citric acid |
Aspergillus niger, A. wentil |
Gluconic acid |
Aspergillus niger, Penicillium Purpurogenum |
Fumaric acid |
Rhizopus stolonifer |
Kojic acid |
Aspergillus oryzae |
Therapeutic Uses of Fungi
Various Fungi species generate metabolites that are key origins of active pharmaceutical drugs.
- Folk medicine(Traditional home remedies) employs specific mushrooms for therapeutic purposes like Agaricus subrufescens, Ganoderma lucidum, and Ophiocordyceps sinensis.
- Fungi have revolutionized the pharmaceutical industry through the production of antibiotics after the first antibiotic Penicillin was discovered, by Alexander Fleming which has saved countless lives since its introduction.
- Pharmacological studies have identified antifungal, antiviral, and antiprotozoan, immunosuppressants, cholesterol-lowering drugs, and anti-cancer compounds from Fungi, highlighting their importance in modern healthcare.
Also Read: What is the difference Between Fats And Oils
Use of Fungi in Bioremediation
Fungi possess remarkable ability to break down and detoxify diverse environmental pollutants through bioremediation.
- Fungal enzymes can degrade contaminants such as organic chemicals like petroleum hydrocarbons, pesticides and reduce the risks associated with metals and radionuclides, thereby restoring polluted environments.
- Fungi can treat organic or metal contaminants in soil, concentrated or trace organic pollutants in water, remove metals from water, eliminate volatile organic compounds from air, and use extracellular enzymes instead of whole fungal for pollutant removal.
- Fungi’s ability to form extensive mycelial networks contribute to their effectiveness in degrading pollutants.
- This eco-friendly approach to waste management showcases the potential of fungi in combating environmental degradation.
Conclusion – Economic Importance of Fungi
In conclusion, fungi play a vital role in the economy through their diverse applications in varipus fields. Understanding the economic importance of fungi includes their crucial roles in agriculture, medicine, industry, and environmental management, contributing to food production, bioremediation, and antibiotic manufacturing. Acknowledging the economic significance emphasizes the importance of sustainable practices to utilize their potential effectively.
FAQs on Economic Importance of Fungi
What is the Economic Importance of Fungi Class 11?
Fungi hold economic significance in agriculture, medicine, industry, and environmental management through roles like decomposition, food production, bioremediation, and antibiotic production.
What is the Role of Fungi in Biotechnology?
Fungi have played a significant role in biotechnological processes throughout history, including baking, brewing, and the creation of various products such as antibiotics, alcohols, enzymes, organic acids, and pharmaceuticals.
What are the Five Benefits of Fungi?
The important uses of fungi are as follows: It is used in different medical processes, various agricultural practices, plays an important role in the atmosphere, finds uses in economic activities and is used in household processes.
Why are Fungi so Important to Life on Earth?
Fungi is important for us because They break down organic matter and release useful gases. They are used to produce different daily used products. They are used in medicines. They are eaten for different essential nutrients
What is the Economic Importance of Fungi in Agriculture ?
Fungi have various roles in agriculture including biological control, increasing soil nutrients, breaking down organic matter, maintaining soil pH, supporting plant growth, and enhance plant health and increase yields.
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