Who was the first to come up with the idea of using biofertilizers?
The commercial history of biofertilizers began in 1895 with the introduction of 'Nitragin,' a Rhizobia laboratory culture, which was followed by the discovery of Azotobacter, blue-green algae, and a slew of other microorganisms.
Biofertilizers are used in a variety of applications, demonstrating their adaptability. They include, among other things, improving soil quality, protecting plants from disease, reducing pollution, and removing dangerous compounds from the soil. As a result, biofertilizers are crucial.
To deliver nutrients to plants, biofertilizers use natural processes such as nitrogen fixation, phosphate solubilization, and the formation of growth-promoting chemicals. Biofertilizers can aid in the growth of healthy plants while also enhancing the health and sustainability of the soil.
Biofertilizers that are free of toxins are preferred over chemical fertilisers. Organic fertilisers contain organic components, whereas chemical fertilisers contain dangerous chemicals. Another assertion is that utilising biofertilizers indefinitely has no negative impact on soil fertility.
Biofertilizers use natural processes such as nitrogen fixation, phosphate solubilization, and the production of growth-promoting compounds to deliver nutrients to plants. Biofertilizers can help healthy plants thrive while also improving the health and sustainability of the soil.
Bio-fertilizers are live organisms that help boost soil fertility. It is made up of a variety of helpful bacteria that aid in plant growth by supplying nutrients to the plants. As a result, they are very valuable to the soil in terms of organic nutrient delivery.
Biofertilizers keep the soil environment rich in all types of micro and macronutrients 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.
Some of the natural processes used by biofertilizers to provide nutrients to plants include nitrogen fixation, phosphorus solubilization, and the formation of growth-promoting chemicals. In biofertilizers, microorganisms are utilised to increase soil organic matter and restore the natural nutrition cycle.
GroTop PSB is used to give phosphorus to the roots of rice crops. As a result, the rice crop will be reinforced.
Power Boom is one of the most successful biofertilizers forgiving nutrients to rice crops. This improves the rice crop's quality.
Wheat Biofertilizer is a form of biofertilizer used in agricultural technology. Mycorrhiza is used to assist wheat crops in growing deeper roots and preventing soil erosion. As a result, the total growth of the wheat crop is improved.
GroTop N.P.K is a high-quality solution that aids in nitrogen level stabilisation in the environment. It binds and distribute phosphate and potassium in the soil to the wheat crop.
Maize Biofertilizer is a form of biofertilizer used to fertilise crops.
GroTop PSB is applied to the roots of maize crops to deliver phosphorus. The maize crop will benefit as a result.
GroTop N.P.K is a high-quality product that aids in the preservation of environmental nitrogen levels. It binds to phosphate and potassium in the soil and transfers them to the maize crop.
GroTop RhizobiumBiofertilizer for Pulses is an excellent solution for all types of pulses since it promotes overall growth. It is used for a variety of purposes, including seed treatment, soil fertility, and pulse quality.
Biofertilizers are manure-based organic fertilisers. It's a substance made out of living microorganisms. It can be applied to the seed, the plant's surface, or the soil. It improves soil fertility by resolving phosphorus and fixing nitrogen.
Biofertilizers fix atmospheric nitrogen in legume crop soil and root nodules, making it available to the plant. They are capable of converting insoluble phosphates such as tricalcium, iron, and aluminium phosphates to soluble forms. Phosphorus is scavenged from the strata of the soil.
Living organisms that replace nutrients in the soil to encourage plant development are known as biofertilizers. Bacteria, fungus, and cyanobacteria are among them. They can be found in the nodules of leguminous plants roots. These bacteria fix nitrogen from the air and enhance soil nitrogen levels.
Living bacteria in bio-fertilizers boost plant growth and health by increasing nutrient availability to the plant. Organic fertilisers are made from animal or human faeces, as well as plant components (e.g., compost, manure).
Biofertilizers improve soil quality by supplying nutrients and natural habitat in the rhizosphere. Overall, biofertilizers contribute significantly to plant growth productivity and stress tolerance, making them an important and useful tool for organic and sustainable farming.
This is an excellent biofertilizer. It converts insoluble potash into soil-soluble potash, making it available to plants. It serves as plant food.
Use the following method: Soil treatment: Mix 2-4 kg of Grotop potash biofertilizer (250-500 millilitres) with Inderdhanush organic manure and keep it in the shade for a while. It should be applied per acre before sowing or in a standing crop.
Prepare the solution by combining 100-200 grammes of jaggery in 2 litres of water. To this solution, add (250 g / 100 ml) Grotop liquid. Then, combine 10-12kg seeds and dry them in the shade before sowing.
Sprinkler: Before flowering, apply 200-500 mL of Grotop organic manure per acre.
Crops include wheat, paddy, sugarcane, legumes, vegetables, flowers, and medicinal plants, among others.
Packing Options (Granulated / Powder) 4 kilo / 2 kilo