Phosphate Solubilizing Bacteria
Beneficial bacteria that can solubilize inorganic phosphorus from insoluble substances are known as phosphate solubilizing bacteria (PSB). However, a considerable amount of soluble inorganic phosphate used as a chemical fertiliser in the soil is quickly immobilised and unavailable to plants.
One of the most essential properties connected with plant phosphate nutrition is the ability of rhizosphere bacteria to dissolve phosphate.
Phosphate Solubilizing Bacteria definition
Beneficial bacteria that can solubilize inorganic phosphorus from insoluble substances are known as phosphorus solubilizing bacteria (PSB).
Characteristics of Phosphate Solubilizing Bacteria
Phosphate solubilizing bacteria (PSB) can transform phosphorus (P) from insoluble to accessible forms. Furthermore, the P-solubilization effectiveness of S32 was determined to be 18.38, 3.07, 0.16, 0.51, or 2.62 per cent in media containing CaHPO4, lecithin, phosphate rock(PR), FePO4, or AlPO4, respectively.
Phosphate Solubilizing Bacteria and Fungi
Phosphate-solubilizing fungi (PSF) are vital for enhancing phosphorus bioavailability in soils for plants. In vitro, the potential of these fungal strains to solubilize tricalcium phosphate (TCP) on both solid and liquid Pikovskaya (PVK) media was examined.
Types of Phosphate Solubilizing Bacteria
Phosphate solubilizing bacteria (PSB) in soil include pseudomonas, Bacillus, Micrococcus, Aspergillus, Fusarium, and others.
Benefits of Phosphate Solubilizing Bacteria
Plant growth may be aided by phosphorus-solubilizing bacteria by increasing the effectiveness of biological nitrogen fixation, producing phytohormones, and increasing the availability of trace metals like zinc and iron.
Importance of Phosphate Solubilizing Bacteria
Phosphate solubilizing microorganisms (PSM) are major contributors to soil P pools, which account for 0.4 to 2.4 per cent of total Pin arable soils. They also break down the organic residue via immobilisation and mineralization, keeping soil solution P pools in balance.
Phosphate Solubilizing Bacteria in soil
Beneficial bacteria that can solubilize inorganic phosphorus from insoluble substances are known as phosphate solubilizing bacteria (PSB). However, a considerable amount of soluble inorganic phosphate used as a chemical fertiliser in the soil is quickly immobilised and unavailable to plants.
Phosphate Solubilizing Bacteria in Phosphorus
In agro-ecosystems, phosphorus solubilizing bacteria (PSB)can increase the amount of plant-absorbable phosphorus (P). PSB's ability to use numerous phosphorus sources and its potential for heavy metal immobilisation, on the other hand, has received little study.
What is the role of phosphate solubilizing bacteria?
Phosphate solubilizing microbes (PSMs) are a type of helpful microorganism capable of hydrolyzing insoluble organic and inorganic phosphorus compounds into a soluble P form that plants may easily absorb.
Phosphate-Solubilizing Microorganisms and their emerging role in Sustainable Agriculture
The current phosphatic fertiliser in use requires a higher input, which developing-country farmers cannot afford. Microbiologists and soil scientists consequently have a social responsibility to research strategies to make phosphorus available to crops as an economically efficient fertiliser substitute. Because most soils lack plant-available phosphorus and chemical fertilisers are not cost-effective, researchers are looking into using rhizosphere competent bacteria (RCB) or soil microorganisms endowed with phosphate-solubilizing ability as inoculants to mobilise phosphate from poorly available sources in soil. Although there is room for such inoculants to be developed, their broad use is hampered by a lack of understanding of microbial ecology and population dynamics in soil, as well as variable performance across a variety of conditions. Furthermore, the increase of agronomically relevant plant development as a result of microbial inoculation may not always be linked to properties like phosphate solubilization, which are visible under laboratory circumstances. Furthermore, to provide food security in developing nations, agricultural production systems must be sustainably intensified to boost productivity gains and revenue creation.
Novel, genetically engineered soil and region-specific PSM, as well as technologies for their eventual transfer to the fields, must be created, pilot-tested, and given to farmers in a relatively short period.
Phosphate Solubilizing Bacteria as Biofertilizer
Beneficial bacteria that can solubilize inorganic phosphorus from insoluble substances are known as phosphate solubilizing bacteria (PSB).PSB is a phosphate biofertilizer that has been introduced to the agricultural community.
Phosphate Solubilizing Microorganisms Agriculture
Phosphate solubilizing microbes (PSMs) are helpful bacteria that can hydrolyze organic and inorganic insoluble phosphorus compounds into soluble P that plants may easily absorb.
Phosphate Solubilizing Bacteria enhance the growth
In a P-deficient soil treated with rock phosphate, the solubilizers were investigated for their effects on canola plant development and P absorption. Plant height was raised by Xanthomonas maltophilia, while pod quantity and weight were increased by the other bacilli.
· Phosphate and Potassium-Solubilizing Bacteria effect on the growth of rice
Phosphate Solubilizing Bacteria isolation from soil
The selective medium Pikovskaya's Agar Medium is used to isolate PSB Species. For 9 to 10 days, the inoculated plates were incubated aerobically at 32°C. Colonies with a clear zone of phosphate solubilization were enumerated and expressed as colony-forming units (CFU) per gramme of soil after incubation.
Effect of Phosphate Solubilizing Bacteria on plant growth
Phosphorus solubilizing bacteria (PSB) can boost plant growth, production, and phosphorus content by increasing soil phosphorus (P)availability.
Phosphate Solubilizing Bacteria is for rice, soybean, seeds and sunflower
What is a biofertilizer, exactly?
Biofertilizers are made up of microbes and living bacteria that aid to promote soil fertility and plant growth. These bacteria aid in the nitrogen fixation process, which results in the production of plant-growth components.
Farm Tech Mycorrhiza, GroTop PSB, GroTop KMB, GroTop Zinc, GroTop N.P.K, GroTop Azotobacter, Power Boom, GroTop Rhizobium, GroTop Acetobacter, and Master Gold Liquid are some examples of biofertilizers.
Who was the first to discover biofertilizers?
The commercial history of biofertilizers began in 1895 whenNobbe and Hiltner introduced 'Nitragin,' a Rhizobia laboratory culture, followed by the discovery of Azotobacter, blue-green algae, and a slew of other microorganisms.
Biofertilizers come in a range of shapes and sizes.
Some examples of major biofertilizers are as follows:
1. Bacteria that work together in a symbiotic partnership to fix nitrogen.
2. Plants provide food and shelter to symbiotic nitrogen-fixing bacteria like Rhizobium in exchange for fixed nitrogen.
3. A Group of Nitrogen-Fixing Bacteria Scattered
4. Although some bacteria, such as the nitrogen-fixing bacterium Azospirillum, are not directly connected to plants, they live close to them.
5. Cyanobacteria that fix nitrogen in a symbiotic connection
6. Symbiotic nitrogen-fixing cyanobacteria can be found in many areas, including liverworts, cycad roots, fern plant death microorganisms, and so on.
7. Nitrogen-fixing microorganisms that can live on their own
In addition to nitrogen fixation, soil contains free-living microbes. Among them are Clostridium, Azotobacter, and Bacillus polymyxin.
Ingredients in Biofertilizer
The following are the components of a biofertilizer:
1. Compost that is biodegradable
It is environmentally beneficial because it is created from sugar industry waste materials. Bacteria, fungi, and a few plants are included as well.
2. Tricho-Card
Because it functions as a prolific destroyer of dangerous organisms, this non-pathogenic, eco-friendly material is useful to a variety of crops and plants.
3. Azotobacter
It helps to fix nitrogen in the atmosphere and protects plant roots from soil diseases.
GroTop Azotobacter is the product that addresses the issues mentioned above.
4. Phosphorus
Phosphorus fertilisers are quite helpful in establishing the exact amount of nitrogen a plant requires as well as the nitrogen level in the soil.
GroTop PSB is the product that solves the problems mentioned above.
5. Vermicompost
These are perhaps the most environmentally beneficial fertilisers because they offer critical nutrients such as vitamins, sulphur, hormones, organic carbon, and antibiotics to plants.
The product Inderdhanush Vermi Compost solves the difficulties mentioned above.
The Importance of Biofertilizers
Biofertilizers are employed in a wide range of applications, exhibiting their versatility. They include, among other things, increasing soil quality, protecting plants from illnesses, preventing pollution, and removing harmful substances in the soil. As a result, biofertilizers are quiteimportant.
Biofertilizers are utilised in many applications.
Here are a few of the most common applications for biofertilizers:
No. 1 Seedling Root Dip
The seedlings are placed in a waterbed for 8 to 10 hours in this procedure for rice crops.
2. Seed Preparation
During this procedure, the seeds are immersed in a mixture of nitrogen and phosphorus fertilisers. After drying, they are planted as soon as possible.
Treatment of the Soil is the third step.
The mixture of biofertilizer and compost fertiliser is kept overnight before being put into the soil the next day. Before the seeds are sown, they are given this treatment.
Seedling root dip, Seed Treatment, and Soil Treatment products include GroTop PSB, GroTop Azotobacter, Power Boom, and GroTop Rhizobium.
Why are biofertilizers necessary?
Natural processes including nitrogen fixation, phosphate solubilization, and the creation of growth-promoting compounds are used in biofertilizers to provide nutrients to plants. Biofertilizers can help grow healthy plants while also improving the soil's health and sustainability.
Why are biofertilizers better than chemical fertilisers?
Toxic-free biofertilizers are chosen over chemical fertilisers. Organic fertilisers are made up of organic components, whereas chemical fertilisers are made up of hazardous chemicals. Another claim is that using biofertilizers indefinitely does not reduce soil fertility.
What are the benefits of using biofertilizers?
Natural processes such as nitrogen fixation, phosphorus solubilization, and the production of growth-promoting compounds are used in biofertilizers to deliver nutrients to plants. Biofertilizers can aid in the growth of healthy plants while also improving the health and sustainability of the soil.
Why do biofertilizers make soils more fertile?
Bio-fertilizers are living organisms that aid in soil fertility improvement. It comprises the selection of beneficial microorganisms that help boost plant growth by delivering nutrients to the plants. As a result, they are particularly beneficial to the soil in terms of delivering organic nutrients.
GroTop Zinc and GroTop Potash are two of the most effective biofertilizers available for improving soil fertility.
What are the benefits of using biofertilizers?
By nitrogen fixation, phosphate and potassium solubilization or mineralization, the release of plant growth-regulating chemicals, the production of antibiotics, and the biodegradation of organic materials in the soil, biofertilizers keep the soil environment rich in all types of micro and macronutrients.
What are biofertilizers and how do they work?
Nitrogen fixation, phosphorus solubilization, and the creation of growth-promoting compounds are some of the natural processes used by biofertilizers to give nutrients to plants. Microorganisms are used as biofertilizers to increase soil organic matter and restore the natural nutrition cycle.
Benefits of Biofertilizer
1- Increase agricultural yields by 20% to 30%.
2- Chemical nitrogen and phosphorus are replaced by 25%.
3- Promote the development of plants.
4- Activate the soil biologically.
5- Restore the natural fertility of the land.
6- Provide drought tolerance as well as immunity to a variety of soil-borne diseases.
Application of biofertilizer
Some of the most common biofertilizer applications are as follows:
1- Seedling root dip: The most common application of this procedure is with rice crops. The seedlings are put in a waterbed and given 8-10 hours to flourish.
2- Seed Treatment: The seeds are soaked in a nitrogen and phosphate fertiliser solution. After that, the seeds are allowed to dry completely before being planted as soon as possible.
3- Soil Treatment: Biofertilizers and compost fertilisers are mixed together and kept in the soil overnight. The seeds are then dispersed throughout the earth where they will be planted with this mixture.
Seedling root dip, Seed Treatment, and Soil Treatment products include GroTop PSB, GroTop Azotobacter, Power Boom, and GroTop Rhizobium.
Examples of biofertilizers
Soybean Crop Biofertilizer
Power Boom is one of the most effective biofertilizers for providing nutrients to the soybean crop. This improves the soybean crop quality.
Sugarcane Biofertilizer
GroTop Zinc aids in sugarcane photosynthesis, which makes it more productive.
Sugarcane is a robust green plant.
GroTop KMB improves the sugarcane's photosynthetic and respiratory process, as well as the quality of the seeds.
Rice or Paddy Crop Biofertilizer
GroTop PSB is used to supply phosphorus to the rice crops roots. The rice crop will be strengthened as a result of this.
One of the most successful biofertilizers for supplying nutrients to rice crops is Power Boom. This enhances the quality of the rice crop.
Wheat Biofertilizer is a type of biofertilizer that is used to fertilizer
Agricultural Technology Mycorrhiza is utilised to help wheat crops grow deeper roots and prevent soil erosion. The wheat crop's total growth is boosted as a result of this.
GroTop N.P.K is a high-quality product that helps to stabilise nitrogen levels in the environment. It binds phosphate and potassium in the soil and distributes them to the wheat crop.
Maize Biofertilizer is a type of biofertilizer that is used to fertiliser
GroTop PSB is used to provide phosphorus to the roots of maize crops. As a result, the maize crop will be reinforced.
GroTop N.P.K is a high-quality product that helps to maintain environmental nitrogen levels. It binds and transports phosphate and potassium from the soil to the maize crop.
Pulses' Biofertilizer
GroTop Rhizobium is a great product for all sorts of pulses since it boosts their overall growth. It's utilised for a variety of things, including seed treatment, soil fertility, and the quality of pulses.
What role do biofertilizers play in soil fertility?
Biofertilizers are organic fertilisers made from manure. It's a substance that contains living microorganisms. It can be applied to the seed, the surface of the plant, or the soil. It fertilises the soil by resolving phosphorus and fixing nitrogen.
How are biofertilizers used on crops?
In legume crop soil and root nodules, biofertilizers fix atmospheric nitrogen, making it available to the plant. They convert insoluble phosphates including tricalcium, iron, and aluminium phosphates to soluble forms. Phosphorus is scavenged from the soil strata.
What role do biofertilizers play in agriculture?
Biofertilizers are living organisms that replace nutrients in the soil to promote plant growth. Among them are bacteria, fungi, and cyanobacteria. They are present in the nodules of the roots of leguminous plants. These bacteria fix nitrogen from the air and increase nitrogen levels in the soil.
Do professional farmers employ biofertilizers?
Professional farmers, yes, employ biofertilizers.
Biofertilizer vs. Organic Fertilizer
By increasing the availability of nutrients to the plant, living bacteria in bio-fertilizers promote plant growth and health. Animal or human faeces, as well as plant components, are used to make organic fertilisers (e.g., compost, manure).
How are biofertilizers environmentally friendly?
By providing nutrients and natural habitat in the rhizosphere, biofertilizers increase soil quality. Overall, biofertilizers play an important role in plant growth productivity and stress resistance, making them an important and effective tool for organic and sustainable farming.
GroTop PSB (Phosphate Solubilizing Bacteria) biofertilizers is a vital part of organic farming's plant nutrition. This biofertilizer is the second most important nutrient for plant growth. It has a significant influence on crop productivity. It's a well-balanced bacterial mix.
Method of application: Soil treatment (biofertilizerGroTop PSB (Phosphate Solubilizing Bacteria)): GroTop PSB (PhosphateSolubilizing Bacteria) biofertilizer (2-4 kg / 250-500 ml) biofertilizer (2-4kg / 250-500 ml) biofertilizer (2-4 kg / 250-500 ml) biofertilizer (2-4 kg /250-500 ml) biofertilizer (2-4 kg / 250-500 ml) biofertilizer (2-4 kg /
Seed treatment (biofertilizer GroTop PSB (PhosphateSolubilizing Bacteria)): Mix 100-200 grammes of jaggery with 2 litres of water to make the solution. To this solution, add Grotop liquid (250 g / 100ml). Mix the seeds (10-12 kg) thoroughly in this solution, dry them in the shade, and sow them.
Sprinkler (GroTop PSB (Phosphate Solubilizing Bacteria)biofertilizer): Apply 200-500 mL of GroTop PSB (Phosphate SolubilizingBacteria) biofertilizer per acre before flowering to the crop.
Crops (biofertilizer GroTop PSB (Phosphate SolubilizingBacteria)): Wheat, paddy, sugarcane, legumes, vegetables, flowers, and medicinal plants are only a few examples.
Packing is an option. GroTop (biofertilizer with PSB(Phosphate Solubilizing Bacteria)) (granulated / powder) 4 kg / 2 kg / 4 kg/ 2 kg / 2 kg
1000 ml / 500 ml / 250 ml / 100 ml liquid (PSB (PhosphateSolubilizing Bacteria) biofertilizer)
Benefits
1) On seed treatment or soil treatment, this GroTop PSB (Phosphate Solubilizing Bacteria) biofertilizer converts insoluble phosphorus in the soil into a soluble form that plants may utilise.
2) The greatest biofertilizer for crops and plants is GroTopPSB (Phosphate Solubilizing Bacteria).
3) GroTop PSB (Phosphate Solubilizing Bacteria) biofertilizer enhances the availability of micronutrients such as Mn, Mg, Fe, Mo, B, Zn, and Cu to plants from the soil, in addition to P2O5.
4) The GroTop PSB (Phosphate Solubilizing Bacteria) biofertilizer promotes faster root growth for better water and nutrient uptake.
5) The GroTop PSB (Phosphate Solubilizing Bacteria) biofertilizer creates organic acids such as malic, succinic, fumaric, citric, tartaric, and acetic acid, which speed up the uptake of P2O5, maturity, and boom production.
6) GroTop PSB (Phosphate Solubilizing Bacteria) biofertilizer improves disease resistance and drought tolerance in plants by promoting rapid cell proliferation.
7) GroTop PSB (Phosphate Solubilizing Bacteria) biofertilizer with plant-like boost selling ingredient, which is well-matched with other helpful bacteria.
8) GroTop PSB (Phosphate Solubilizing Bacteria) biofertilizer decreases phosphatic fertiliser usage by 25–30%.
MD BIOCOALS is one of the Top Fertiliser Companies in India, and you may purchase high-quality biofertilizers at a discounted price.
Call +91 9416047627 for further information.
Biofertilizers near me | Biofertilizer Company in India |Bio-Fertilizers in India | Biofertilizers near me | Biofertilizers Shop near me| Biofertilizer Government of India | Biofertilizer Industry in India | Biofertilizer in Agriculture