Biofertilizers: components

Biofertilizers and their components play a vast role in our lives. A huge population of a specific or a group of helpful microorganisms helps improve the soil productivity either by solubilising earth phosphorus or promoting plant expansion through the synthesis of growth improvement substances.

Through this context, we understand the need and types of biofertilizers that help plants grow the different biofertilizers components.

It helps boost economic conditions. We know the microorganism that helps take the proper nutrition by their interactions when they apply to the soil and seed.

Meaning of biofertilizer

Biofertilizers and their components are substances that maintain germs, which enables in promotion of the growth of plants and trees by increasing the supply of necessary nutrients to the plants. It includes living organisms which include fungi, blue-green algae, and bacteria. Biofertilizers, if we break this term into two parts, i.e. bio and fertilisers here, bio means living life, and fertilisers mean enriching the nutrient quality.

Biofertilizers could be defined as a microorganism that enables plants to hold up proper nutrients through their interaction when they are applied through the earth and grain. They stay in joint advantage with the earth.

Biofertilizers are better than chemical fertilizers as they improve the earth’s fertility through chemical norms, which grow and reach out through the soil and degrade. 

Key features of biofertilizers

• These are organisms that increase nutrient availability.
• The main sources are bacteria, fungi, etc.
• Biofertilizers and nutrients through the natural processes of nitrogen fixation, solubilising phosphorus and stimulating plant growth through the synthesis of growth-promoting substances.
• They help build the soil microflora, and improve soil health. Biofertilizers also include organic fertilisers.
• Biofertilizers aim to enhance soil fertility in organic agriculture.

Advantages of biofertilizers

• Biofertilizers work all over the natural environment, the nutrients will be grown on a renewable basis.
• Biofertilizers help maintain the earth’s nature.
• Biofertilizers increase the value of chemical fertilizers.
• Increase the grain yield by 10-40%.
• Improve texture, structure and water-holding capacity of the coil.
• No adverse effect on plant growth by secreting growth hormones.

Disadvantages of biofertilizers

• Biofertilizers need special care for extended term storehouses because they are active.
• Biofertilizers and their components must be used before their expiry date.
• Biofertilizers lose their effectiveness if the earth is too warm or arid.

Sources of biofertilizers

1. Symbiotic bacterium (Rhizobium)
2. Symbiotic nitrogen fixers (Azospirillum)
3. Free-living bacteria (Azotobacter)
4. Phosphate solubilising bacteria (PSB)

Symbiotic bacterium (Rhizobium)

• A symbiotic bacterium occupies the roots of specific legumes to form root nodules that fix atmospheric nitrogen.
• Rhizobium lives in the soil when they come in contact with the roots of leguminous plants. The root hairs penetrate through the root hair into the root tissue.

Symbiotic nitrogen fixers (Azospirillum)

• It is mainly present in cereal plants.
• Inhabits both root cells as well as the surrounding roots.
• Forming symbiotic relations and increasing the nitrogen-fixing potential of the cereal plant.
• These species have been commercially exploited for use as nitrogen supplying biofertilizers.

Free-living bacteria (Azotobacter)

• It provides the required amount of nitrogen to the plant from the soil.
• It is a free-living nitrogen-fixing bacteria existing in alkaline and neutral earth.
• Many strains of azotobacter also display fungicidal properties against certain species of fungus.
• Azotobacter is the largest breathing organism and compels a large quantity of organic carbon for its expansion.

Phosphate solubilising bacteria (PSB)

• PSB is one of the important nutrients after the acetobacter.

• PSB accessible on the earth is in a non-liquid form.
• Commonly it is recharged in the shape of superphosphate solubilizers and charged molecules of Phosphorus are consumed.

Biofertilizer components

Biofertilizer components are:

1. Bio compost
2. Tricho-card
3. Azotobacter
4. Phosphorus
5. Vermicompost

Bio compost

It is one of the eco-friendly crops which are made from waste material released from two or more products, and it dissolves. It is overstated with human-friendly bacteria, fungi and various plants.

Tricho-card

It is a natural and non-pathogenic crop that works in a combination of harvests as well as in horticulture and flowery plants, such as apple, sugar, cotton, corn etc. It behaves as a productive destroyer and adverse.

Azotobacter

It saves the roots from pathogens existing on one planet and plays a crucial role in fixing atmospheric nitrogen.

Nitrogen is the fundamental nutrient for the plant.

Phosphorus

Phosphorus is one of the important nutrients for plant growth and expansion. Phosphate utilising microorganisms hydrolysed insoluble shape put up by plants.

Vermicompost

Vermicompost is an eco-friendly organic fertiliser including vitamins, hormones, organic carbon, and sulphur that assist in expanding the quantity and quality of the earth. It is one of the rapid fixers to improve soil fertility.

Conclusion

Biofertilizers based on renewable energy sources are a cost-beneficial supplement to chemical fertilisers, eco-friendly and can help economise the elevated interest needed for chemical fertilizers as far as nitrogen and phosphorus are related.

Biofertilizer is ready to use the live formulation of such beneficial microorganisms which on application to seed, root or soil the availability of nutrients by their biological activity. It enhances soil fertility and develops essential nutrients for plants. 

Sources of biofertilizers show that various crops are used in the soil to grow plants for the expansion of nutrients.