Bifidobacterium animalis supports gut health, aids digestion, and boosts immunity, promoting a balanced intestinal flora for optimal digestive wellness. < Microbial Species Bifidobacterium animalis Bifidobacterium animalis supports gut health, aids digestion, and boosts immunity, promoting a balanced intestinal flora for optimal digestive wellness. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Immune System Support It strengthens the immune system by stimulating the production of immune cells, helping the body combat infections and illnesses. Lactose Digestion Support This strain aids lactose digestion, making it beneficial for individuals with lactose intolerance by reducing discomfort and enhancing nutrient absorption. Gut Health Promotion This bacterium produces short-chain fatty acids (SCFAs) that nourish colon cells, maintaining a healthy gut barrier and reducing inflammation for digestive health. Digestive Health Enhancement This probiotic improves digestive health by balancing gut microbiota, alleviating constipation, and promoting regular bowel movements for gut function. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Key Features All microbial strains are characterized using 16S rDNA. All products are non-GMO. No animal-derived materials are used. The typical shelf life is 2 years. All strains are screened in-house using high-throughput screening methods. We can customize manufacturing based on the required strength and dosage. High-resilience strains Stable under a wide pH range Stable under a broad temperature range Stable in the presence of bile salts and acids Do not show antibiotic resistance Packaging Material The product is packaged in a multi-layer, ultra-high barrier foil that is heat-sealed and placed inside a cardboard shipper or plastic drum. Shipping Shipping is available worldwide. Probiotic packages are typically transported in insulated Styrofoam shippers with dry ice to avoid exposure to extreme high temperatures during transit. Support Documentation Certificate of Analysis (COA) Specifications Material Safety Data Sheets (MSDS) Stability studies (18 months) Certifications ISO 9001 ISO 22000 HACCP Halal and Kosher Certification (for Lactobacillus strains) FSSAI Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Bifidobacterium bifidum Bifidobacterium breve Bifidobacterium infantis Bifidobacterium longum Clostridium butyricum Lactobacillus acidophilus Lactobacillus bulgaricus Lactobacillus casei More Products Resources Read all

Bacillus subtilis is a Gram-positive, endospore-forming bacterium widely studied for its roles in agriculture, biotechnology, and molecular biology. It functions as a biocontrol agent by producing antimicrobial compounds, enhances plant growth via phytohormone production and nutrient solubilization, and participates in bioremediation by degrading organic pollutants. Its utility in industrial processes stems from its production of enzymes, antibiotics, and biopolymers. As a model organism, B. subtilis provides insights into sporulation, biofilm formation, and gene regulation, underscoring its scientific and practical significance. < Microbial Species Bacillus subtilis Bacillus subtilis is a Gram-positive, endospore-forming bacterium widely studied for its roles in agriculture, biotechnology, and molecular biology. It functions as a biocontrol agent by… Show More Strength 1 x 10⁹ CFU per gram / 1 x 10¹⁰ CFU per gram Product Enquiry Download Brochure Benefits Bioremediation: Breaks down organic contaminants in soil, contributing to environmental cleanup and restoring soil health. Nutrient Availability: Enhances the solubility of nutrients in the soil, facilitating better uptake by plants for improved growth and yield. Soil Structure Improvement: Enhances soil structure and aeration through the production of biofilms, promoting beneficial microbial activity and root development. Disease Resistance: Induces systemic resistance in plants against various soil-borne pathogens, reducing the need for chemical pesticides. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Biological Disease Control: Produces a wide array of antimicrobial lipopeptides (e.g., iturins, fengycins, surfactins) that inhibit soil-borne pathogens like Fusarium , Rhizoctonia , and Botrytis . Induces systemic resistance (ISR) in plants, activating innate defense pathways. Plant Growth Promotion: Secretes phytohormones such as auxins (IAA), gibberellins, and cytokinins that stimulate root and shoot development. Enhances seed germination, chlorophyll synthesis, and nutrient uptake efficiency. Phosphate Solubilization: Produces organic acids that release insoluble phosphates, improving phosphorus availability to plants. Stress Tolerance: Improves plant resilience to drought, salinity, and oxidative stress via enhanced antioxidant enzyme activity and root system development. Enzymatic Activity: Secretes chitinases, cellulases, and proteases that degrade pathogen cell walls and contribute to nutrient cycling. Additional Info Target pests: Fungal Diseases: Botrytis , Powdery Mildew , Anthracnose Bacterial Diseases: Pseudomonas spp ., Erwinia spp ., Xanthomonas spp . Soil Diseases: Rhizoctonia , Pythium , Fusarium , Phytophthora Recommended Crops: Cereals, Millets, Pulses, Oilseeds, Fibre Crops, Sugar Crops, Forage Crops, Plantation crops, Vegetables, Fruits, Spices, Flowers, Medicinal crops, Aromatic Crops, Orchards, and Ornamentals. Compatibility: Bacillus subtilis is compatible with Bio Pesticides, Bio Fertilizers, and Plant growth hormones but not with chemical fertilizers and chemical pesticides. Shelf Life: Stable within 1 year from the date of manufacturing. Packing: We offer tailor-made packaging as per customers' requirements. Dosage & Application Wettable Powder: 1 x 10⁸ CFU per gram Other Uses: It can be used as seed care: Mix 10g Bacillus subtilis with 10g crude sugar in sufficient water to make a slurry and coat 1kg seeds. Dry in shade and sow / broadcast / dibble in the field. Do not store treated / coated seeds for more than 24 hours. Foliar Application: 1 Acre dose: 3-5 kg, 1 Ha dose: 7.5 - 12.5 kg Soil Application (Soil drench or Drip irrigation): 1 Acre dose: 3-5 kg, 1 Ha dose: 7.5 - 12.5 kg Soil Application (Soil drench or Drip irrigation) for Long duration crops / Orchards / Perennials: 1 Acre dose: 3-5 kg, 1 Ha dose: 7.5 - 12.5 kg. Apply 2 times in 1 Year. Before onset of monsoon and after monsoon. Seed Dressing: 1 Kg seed: 10g Bacillus subtilis + 10g crude sugar. Foliar application for Long duration crops / Orchards / Perennials: 1 Acre dose: 3-5 kg, 1 Ha dose: 7.5 - 12.5 kg. Apply 2 times in 1 Year. Soluble Powder: 1 x 10⁹ CFU per gram Foliar Application: 1 Acre dose: 1 kg, 1 Ha dose: 2.5 kg Soil Application (Soil drench or Drip irrigation): 1 Acre dose: 1 kg, 1 Ha dose: 2.5 kg Seed Dressing: 1 Kg seed: 1g Bacillus subtilis + 10g crude sugar. Soil Application (Soil drench or Drip irrigation) for Long duration crops / Orchards / Perennials: 1 Acre dose: 1 kg, 1 Ha dose: 2.5 kg. Apply 2 times in 1 Year. Before onset of monsoon and after monsoon. Foliar Application for Long duration crops / Orchards / Perennials: 1 Acre dose: 1 kg, 1 Ha dose: 2.5 kg. Apply 2 times in 1 Year. Seed Dressing Method Mix Bacillus subtilis with crude sugar in sufficient water to make a slurry. Coat seeds and dry in shade. Sow / broadcast / dibble in the field. Do not store treated / coated seeds for more than 24 hours. Soil Application Method Mix Bacillus subtilis at recommended doses in sufficient water. Drench soil at early leaf stage / 2-4 leaf stage / early crop life cycle. Drip Irrigation: If there are insoluble particles, filter the solution and add to drip tank. For long duration crops / Perennial / Orchard crops: Dissolve Bacillus subtilis at recommended doses in sufficient water. Apply as a drenching spray near the root zone twice a year. First application before the onset of the main monsoon / rainfall / spring season, and second application after the main monsoon / rainfall / autumn / fall season. Foliar Application Method Foliar application to be done at early disease incidence. 1-2 follow-up sprays at weekly intervals. Mix Bacillus subtilis at recommended doses in sufficient water. Spray on foliage / fruit / plant. Apply twice a year for long duration crops. First application before the onset of the main monsoon / rainfall / spring season, and second application after the main monsoon / rainfall / autumn / fall season. Note: Do not store Bacillus subtilis solution for more than 24 hours after mixing in water. FAQ Can B. subtilis replace chemical fungicides? Yes, it provides biological control through antimicrobial production and immune stimulation, making it ideal for organic systems. Is it effective in all soil types? It performs well in most soils, especially when applied with organic amendments to support microbial activity. Does it remain viable in storage? Its spore-forming nature allows a shelf life of 1–2 years under proper storage conditions. How does it enhance drought resistance? By boosting root development and antioxidant enzyme levels, it increases plant resilience under water stress. Can it be combined with other inputs? Yes, it is compatible with most biofertilizers and organic nutrients. Avoid co-application with broad-spectrum chemical fungicides. How to take Bacillus subtilis for maximum benefits? Take Bacillus subtilis as directed on the supplement label, preferably with or after meals, and use it consistently to allow stable colonization in the gut. How Bacillus subtilis enhances your gut microbiome? Bacillus subtilis helps balance gut bacteria by inhibiting harmful microbes, supporting digestive enzyme activity, and strengthening the intestinal environment. Related Products Saccharomyces cerevisiae Bacillus polymyxa Thiobacillus novellus Thiobacillus thiooxidans Alcaligenes denitrificans Bacillus licheniformis Bacillus macerans Citrobacter braakii More Products Resources Read all

Nano Anpeekay Fertilizers Recommended for Corn, Soybean, Fruits, Vegetables, Rice, Sugar cane, Wheat, Cotton, Tobacco, and any other crops Nano Anpeekay Fertilizers Nano Anpeekay Fertilizer is a customized liquid nutrient premix containing colloidal particulates of phosphorus, colloidal particulates of potassium, embedded in a colloidal amino acid matrix; along with, protease, phytase, and phosphatase enzymes for use in Agricultural fertilization programs and animal feed supplementation. This blend has been delicately handled to ensure the full benefit of a boost to the metabolism of high-performance ruminants, poultry, fish, prawn, agricultural crops in a safe naturally occurring manner. Benefits Improve plant health Increases the level of energy, water and nutrient holding capacity Improves plants resistance against pest and diseases It works well in alkaline and neural soils Supplemental for missing nutrients of the plants Water soluble and bioavailability Composition/Technical Specifications How it Works Nano Anpeekay Fertilizers are totally bioavailable and enter into the plant system as a bio encapsulated molecule in whole and results in no antagonisms. Natural Ionised Phosphorus and Ionised Potassium and Colloidal Protein successfully combined with a biopolymer. The biopolymer employed by us is based on three natural organic polymers which exist in all living animals. This product is totally bio assimilable as a whole without breaking up and will also improve the performance of the microflora that may be present in the soil, plant, or GI tract of animals. Dosage and method of Application 8 – 16 ml per liter of water for spraying, sprinkler or drip, to be applied during before sowing when the crop is 1 – 2 weeks old one week before flowering 1 – 2 weeks before harvest Compatibility Compatible with chemical fertilisers and chemical pesticides. Shelf Life & Packaging Shelf life : Best before 24 months, Stored in room temperature. Packaging : 25 Liters For more useful fertilzers visit Nano fertilizers Downloads Product Information Click here for Product Enquiry

Bacillus firmus enhances phosphorus availability in soil, stimulates root growth, improves fruit quality, and protects against soil-borne diseases. Compatible with bio-pesticides and bio-fertilizers. < Microbial Species Bacillus firmus Bacillus firmus enhances phosphorus availability in soil, stimulates root growth, improves fruit quality, and protects against soil-borne diseases. Compatible with bio-pesticides and bio-fertilizers. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Enhance Fruit Development and Quality Improves the size, taste, and overall quality of fruits. Increase Sugar Content in Fruits Elevates the sugar levels in fruits, leading to sweeter and more nutritious produce. Protection Against Drought and Diseases Provides resilience against drought conditions and some soil-borne diseases, ensuring healthier plant development. Promote Root Growth Stimulates the development of a robust root system, enhancing nutrient uptake and plant stability. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References 1. Nematode Biocontrol and Root Interaction Bacillus firmus I-1582 effectively degrades nematode eggs, colonizes plant roots, and induces systemic resistance in tomato via salicylic acid (SA) and jasmonic acid (JA) signaling pathways. Ghahremani et al., 2020 – Frontiers in Plant Science Culture filtrates of B. firmus induce paralysis and mortality in nematodes, inhibit egg hatching, and demonstrate antagonistic activity through secondary metabolites. Mendoza et al., 2008 – Biocontrol Science and Technology A split-root study demonstrated both localized and systemic effects of B. firmus GB-126 in suppressing soybean cyst and root-knot nematodes. Schrimsher et al., 2012 – Experimental Study 2. Plant Growth Promotion and Genomic Insights Whole-genome sequencing of strain TNAU1 revealed genes associated with indole-3-acetic acid (IAA) biosynthesis, nutrient solubilization (phosphorus and potassium), nitrate transport, nematicidal proteases, and antibiotic biosynthetic clusters. Settu et al., 2023 – Physiological and Molecular Plant Pathology 3. Enzyme Production and Biotechnological Applications An extracellular nuclease from B. firmus VKPACU-1 displays high specificity for RNA and DNA substrates, indicating potential for biocatalytic and bioremediation applications. Kumar & Kannan, 2011 – Nucleosides, Nucleotides & Nucleic Acids Two xylanases purified from B. firmus exhibit activity over a wide pH range and efficiently degrade xylan to xylo-oligosaccharides, supporting their use in biomass conversion. Tseng et al., 2002 – Enzyme and Microbial Technology 4. Immunomodulatory Properties B. firmus functions as a potent polyclonal B cell activator, enhancing the production of immunoglobulins (notably IgA and IgG) in vitro, with implications for probiotic and adjuvant applications. Prokešová et al., 2008 – Folia Microbiologica Mucosal administration of B. firmus significantly enhanced systemic and mucosal antibody responses to a model antigen in animal models, indicating its potential as a mucosal immunoadjuvant. Mlčková et al., 2001 – Immunology Letters Mode of Action 1. Nematode Control B. firmus produces bioactive secondary metabolites that paralyze and kill nematodes such as Meloidogyne incognita and Radopholus similis . Culture filtrates alone can reduce egg hatching and cause up to 96% mortality in nematode juveniles (Mendoza et al., 2008) , (Settu et al., 2023) . It also degrades nematode eggs directly and colonizes plant roots, creating a physical and chemical barrier against nematode infection (Ghahremani et al., 2020) . 2 . Induction of Plant Resistance In plants like tomato, B. firmus activates systemic resistance by upregulating salicylic acid (SA) and jasmonic acid (JA) pathway genes, helping the plant fight off nematodes and potentially other pathogens (Ghahremani et al., 2020) . These effects can be systemic or localized, depending on the crop and context (Schrimsher et al., 2012) . 3. Plant Growth Promotion Genome analysis reveals genes responsible for: IAA (Indole-3-acetic acid) production (a plant hormone) Phosphorus and potassium solubilization Nitrate transport These contribute to enhanced nutrient uptake and overall plant growth (Settu et al., 2023) . 4. Enzymatic Activity B. firmus secretes nucleases and xylanases, which break down DNA, RNA, and complex polysaccharides—helping degrade organic matter and releasing nutrients in the soil (Kumar & Kannan, 2011) , (Tseng et al., 2002) . 5. Immunomodulatory Effects In animal models, B. firmus stimulates both systemic and mucosal immune responses by increasing the production of immunoglobulins (IgA, IgG) and cytokines (e.g., IFN-γ), making it a candidate as an oral adjuvant or probiotic (Prokešová et al., 2008), (Mlčková et al., 2001). Additional Info Recommended Crops: Cereals, Millets, Pulses, Oilseeds, Fibre Crops, Sugar Crops, Forage Crops, Plantation crops, Vegetables, Fruits, Spices, Flowers, Medicinal crops, Aromatic Crops, Orchards, and Ornamentals. Compatibility: Compatible with Bio Pesticides, Bio Fertilizers, and Plant growth hormones but not with chemical fertilizers and chemical pesticides. Shelf Life: Stable within 1 year from the date of manufacturing. Packing: We offer tailor-made packaging as per customers' requirements. Dosage & Application Seed Coating/Seed Treatment : 1 kg of seeds will be coated with a slurry mixture of 10 g of Bacillus firmus and 10 g of crude sugar in sufficient water. The coated seeds will then be dried in shade and sow or broadcast in the field. Seedling Treatment : Dip the seedlings into the mixture of 100 grams of Bacillus firmus and sufficient amount of water. Soil Treatment : Mix 3-5 kg per acre of Bacillus firmus with organic manure/organic fertilizers. Incorporate the mixture and spread into the field at the time of planting/sowing. Irrigation : Mix 3 kg per acre of Bacillus firmus in a sufficient amount of water and run into the drip lines. FAQ What is Bacillus firmus? Bacillus firmus is a beneficial, spore-forming bacterium widely used in agriculture for biological nematode control and plant growth promotion. It also has potential uses in immunology and biotechnology. How does B. firmus control nematodes? It produces bioactive compounds that paralyze and kill nematodes such as Meloidogyne incognita and Radopholus similis. These compounds also reduce egg hatching and juvenile survival (Mendoza et al., 2008) . Can B. firmus boost plant immunity? Yes. It induces systemic resistance in plants like tomato by activating salicylic acid (SA) and jasmonic acid (JA) signaling pathways, helping plants defend against pests and diseases (Ghahremani et al., 2020) . How does it promote plant growth? B. firmus produces plant growth-promoting substances like indole-3-acetic acid (IAA) and helps solubilize nutrients like phosphorus and potassium, improving nutrient uptake and plant development (Settu et al., 2023) . What enzymes does B. firmus produce? It secretes nucleases that degrade DNA and RNA, and xylanases that break down plant cell walls. These enzymes assist in nutrient recycling and potential industrial applications (Kumar & Kannan, 2011) , (Tseng et al., 2002) . Does B. firmus have medical or probiotic uses? Yes. It stimulates the immune system, especially IgA and IgG production, and has shown adjuvant potential in mucosal immunization studies (Prokešová et al., 2008). 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Rhodococcus terrae enhances soil structure and nutrient availability, degrades organic pollutants, promotes plant growth with growth-promoting substances, improves root development and stress tolerance. < Microbial Species Rhodococcus terrae Rhodococcus terrae enhances soil structure and nutrient availability, degrades organic pollutants, promotes plant growth with growth-promoting substances, improves root development and stress tolerance. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Bioremediates soil contaminants Rhodococcus terrae has the capability to degrade various organic pollutants and contaminants in soil, contributing to soil remediation efforts. Enhances degradation of organic matter in soil Facilitates the breakdown of organic matter, releasing nutrients and improving soil health and nutrient cycling for plants. Increases soil aggregation Promotes soil structure by enhancing aggregation, which improves soil porosity, water infiltration, and root penetration for healthier plant growth. Fixes nitrogen in association with plants Enhances soil fertility by converting atmospheric nitrogen into forms usable by plants, reducing the need for nitrogen fertilizers. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Shelf Life: Stable within 1 year from the date of manufacturing. Packing: We offer tailor-made packaging as per customers' requirements. Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Bacillus amyloliquefaciens Bacillus azotoformans Bacillus circulans Bacillus pumilus Pseudomonas fluorescens Pseudomonas putida Vesicular arbuscular mycorrhiza Williopsis saturnus More Products Resources Read all

Verticillium Chlamydosporium: Biological nematicide with enzyme action, sustainable pest management without environmental residue. < Microbial Species Verticillium chlamydosporium Verticillium Chlamydosporium: Biological nematicide with enzyme action, sustainable pest management without environmental residue. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Minimal Environmental Impact Acts as a biocontrol agent with minimal environmental impact and no residual toxicity, suitable for organic farming practices. Effective in Various Agricultural Settings Provides effective nematode control across different crops and agricultural environments, supporting sustainable pest management. Enhances Soil Biodiversity Promotes the growth of beneficial microorganisms in the soil, contributing to improved soil health and fertility. Enzymatic Degradation of Nematode Cuticles Produces enzymes that penetrate nematode cuticles, disrupting their physiological functions and contributing to their control. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Target pests: Roundworms, cyst nematodes, and root-knot nematodes Recommended Crops: Vegetables, fruits, spices, flowers, medicinal crops, orchards, and ornamentals Compatibility: Compatible with Bio Pesticides, Bio Fertilizers, and Plant growth hormones but not with chemical fertilizers and chemical pesticides. Shelf Life: Stable within 1 year from the date of manufacturing. Packing: We offer tailor-made packaging as per customers' requirements. Dosage & Application Wettable Powder: 2 x 10⁶ CFU per gram Soil application (Soil drench or Drip irrigation): 1 Acre dose: 10-50 Kg 1 Ha dose: 25-125 Kg Seasonal crops First application at land preparation stage / sowing / planting Second application three weeks after first application Soil application (Soil drench or Drip irrigation) for Long duration crops / Orchards / Perennials: 1 Acre dose: 10-50 Kg 1 Ha dose: 25-125 Kg Apply 2 times in 1 Year. Before onset of monsoon and after monsoon. Seed Dressing: 1 Kg seed: 10 g Verticillium Chlamydosporium + 10 g crude sugar Soluble Powder: 2 x 10⁶ CFU per gram Soil application (Soil drench or Drip irrigation): 1 Acre dose: 10-50 Kg 1 Ha dose: 25-125 Kg Seasonal crops First application at land preparation stage / sowing / planting Second application three weeks after first application Soil application (Soil drench or Drip irrigation) for Long duration crops / Orchards / Perennials: 1 Acre dose: 1-5 Kg 1 Ha dose: 2.5-12.5 Kg Apply 2 times in 1 Year. Before onset of monsoon and after monsoon. Soil Application Method Mix Verticillium Chlamydosporium at recommended doses with compost and apply at early stages of crop growth along with other biofertilizers. Apply twice for seasonal crops like vegetables: First application at land preparation stage / sowing / planting Second application three weeks after first application Drip Irrigation: If there are insoluble particles, filter the solution and add to the drip tank. Long duration crops / Perennial / Orchard crops: Dissolve Verticillium Chlamydosporium at recommended doses in sufficient water and apply as a drenching spray near the root zone four times a year. First application should be before the onset of the main monsoon/rainfall/spring season, and the second application after the main monsoon/rainfall/autumn/fall season. Verticillium Chlamydosporium may be used along with Paecilomyces lilacinus as a very effective nematode control application. Seed Dressing Method Mix Verticillium Chlamydosporium with crude sugar in sufficient water to make a slurry. Coat seeds and dry in shade before sowing/broadcasting/dibbling in the field. Do not store treated/coated seeds for more than 24 hours. FAQ Content coming soon! Related Products Paecilomyces lilacinus Pochonia chlamydosporia Serratia marcescens More Products Resources Read all

Bacillus licheniformis is a robust, spore-forming bacterium widely recognized for its diverse applications in agriculture, bioremediation, and industrial processes. It enhances soil fertility by solubilizing phosphorus, fixing nitrogen, and producing plant growth-promoting substances like phytohormones. This bacterium also produces enzymes such as proteases, amylases, and cellulases, which contribute to the decomposition of organic matter and nutrient cycling. In bioremediation, B. licheniformis degrades pollutants, including hydrocarbons, and tolerates extreme environmental conditions. Additionally, its ability to produce antimicrobial compounds helps suppress plant pathogens, making it a valuable tool for sustainable agriculture and environmental management. < Microbial Species Bacillus licheniformis Bacillus licheniformis is a robust, spore-forming bacterium widely recognized for its diverse applications in agriculture, bioremediation, and industrial processes. It enhances soil fertility by solubilizing… Show More Strength 1 x 10⁹ CFU per gram / 1 x 10¹⁰ CFU per gram Product Enquiry Download Brochure Benefits Heavy Metal Detoxification Helps remove toxic heavy metals from contaminated environments, reducing their harmful impact on ecosystems. Enzyme Production Produces enzymes like proteases and amylases that aid in breaking down organic matter, improving soil and water quality. Pollutant Degradation Effectively degrades pollutants like hydrocarbons, contributing to the cleanup of oil spills and industrial waste. Agricultural Benefits Promotes plant growth by improving nutrient availability, enhancing soil health, and supporting sustainable agriculture. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Contact us for more details Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Saccharomyces cerevisiae Bacillus polymyxa Thiobacillus novellus Thiobacillus thiooxidans Alcaligenes denitrificans Bacillus macerans Citrobacter braakii Citrobacter freundii More Products Resources Read all

Frateuria aurantia is a beneficial bacterium solubilizing potassium present in the soil, converting it into a form that plants can utilize. This product is recommended for soils with potassium deficiency. < Microbial Species Frateuria aurantia Frateuria aurantia is a beneficial bacterium solubilizing potassium present in the soil, converting it into a form that plants can utilize. This product is recommended… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Improved Plant Immune System Enhances plant resistance to pathogens and environmental stresses, promoting healthier growth and higher yields. High Germination Rate Promotes better seed germination, ensuring establishment and early growth of crops. Root Development Stimulates root growth and proliferation, enhancing nutrient and water uptake for plant vigor. Stress Reduction Mitigates environmental stressors, improving plant resilience to adverse conditions and maintaining optimal growth. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Recommended Crops: Cereals, Millets, Pulses, Oilseeds, Fibre Crops, Sugar Crops, Forage Crops, Plantation crops, Vegetables, Fruits, Spices, Flowers, Medicinal crops, Aromatic Crops, Orchards, and Ornamentals. Compatibility: Compatible with Bio Pesticides, Bio Fertilizers, and Plant growth hormones but not with chemical fertilizers and chemical pesticides. Shelf Life: Stable within 1 year from the date of manufacturing. Packing: We offer tailor-made packaging as per customers' requirements. Dosage & Application Seed Coating/Seed Treatment: 1 kg of seeds will be coated with a slurry mixture of 10 g of Frateuria Aurantia and 10 g of crude sugar in sufficient water. The coated seeds will then be dried in shade and sow or broadcast in the field. Seedling Treatment: Dipped the seedlings into the mixture of 100 grams of Frateuria Aurantia and sufficient amount of water. Soil Treatment: Mix 3-5 kg per acre of Frateuria Aurantia with organic manure/organic fertilizers. Incorporate the mixture and spread into the field on the time of planting/sowing. Irrigation: Mix 3 kg per acre of Frateuria Aurantia in a sufficient amount of water and run into the drip lines. FAQ Content coming soon! Related Products Bacillus mucilaginosus More Products Resources Read all

Lactobacillus helveticus helps improve digestion, boosts immune health, and may reduce anxiety and stress through its calming effects. < Microbial Species Lactobacillus helveticus Lactobacillus helveticus helps improve digestion, boosts immune health, and may reduce anxiety and stress through its calming effects. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Digestive Health Support This probiotic promotes gut health by aiding digestion and alleviating symptoms of gastrointestinal discomfort. Stress and Anxiety Reduction It has been linked to reduced stress and anxiety levels, promoting mental well-being through the gut-brain axis. Lactose Digestion Aid It helps break down lactose, making it beneficial for individuals with lactose intolerance and improving dairy digestion. Immune System Enhancement This strain boosts immune function by increasing the production of antibodies and enhancing the body’s defense against infections. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Key Features All microbial strains are characterized using 16S rDNA. All products are non-GMO. No animal-derived materials are used. The typical shelf life is 2 years. All strains are screened in-house using high-throughput screening methods. We can customize manufacturing based on the required strength and dosage. High-resilience strains Stable under a wide pH range Stable under a broad temperature range Stable in the presence of bile salts and acids Do not show antibiotic resistance Packaging Material The product is packaged in a multi-layer, ultra-high barrier foil that is heat-sealed and placed inside a cardboard shipper or plastic drum. Shipping Shipping is available worldwide. Probiotic packages are typically transported in insulated Styrofoam shippers with dry ice to avoid exposure to extreme high temperatures during transit. Support Documentation Certificate of Analysis (COA) Specifications Material Safety Data Sheets (MSDS) Stability studies (18 months) Certifications ISO 9001 ISO 22000 HACCP Halal and Kosher Certification (for Lactobacillus strains) FSSAI Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Bifidobacterium animalis Bifidobacterium bifidum Bifidobacterium breve Bifidobacterium infantis Bifidobacterium longum Clostridium butyricum Lactobacillus acidophilus Lactobacillus bulgaricus More Products Resources Read all

Indogulf BioAg is a leading manufacturer and exporter of nitrogen-fixing bacteria, revolutionizing the way crops are grown worldwide. We are a Manufacturer & Global Exporter of Acetobacter, Azospirillium, Azotobacter, Rhizobium, Nitromax, and other Bacterias. Contact us @ +1 437 774 3831 < Microbial Species Nitrogen Fixing Bacteria Nitrogen-fixing bacteria are naturally occurring microorganisms essential to the nitrogen cycle. They possess the unique capability to convert atmospheric nitrogen (N₂)—which is inert and unavailable directly to plants—into bioavailable nitrogen compounds such as ammonia (NH₃) or ammonium ions (NH₄⁺). This crucial biological process, termed biological nitrogen fixation, significantly enhances soil fertility, reduces dependency on synthetic fertilizers, and supports sustainable agriculture and environmental conservation. At IndoGulf BioAg, we specialize in cultivating high-quality, non-GMO, robust strains of nitrogen-fixing bacteria tailored for diverse agricultural applications. Leveraging advanced biotechnological methods and rigorous quality control, our products consistently deliver superior performance, reliability, and sustainability. Product Enquiry Distinction Importance and Versatility Nitrogen Fixation Mechanism Agronomic Benefits Application & Dosage FAQ FAQ What soil conditions favor nitrogen-fixing bacteria? Optimal pH 6.0–8.0, moderate moisture (60–70% field capacity), and organic matter >1.5%. How quickly will I see results after application? Initial benefits (root vigor) appear within 3–4 weeks; significant yield improvements by crop maturity. Are there compatibility issues with chemical inputs? Avoid simultaneous application with broad-spectrum fungicides. Integrate with herbicides and insecticides per label guidelines. Why choose biological fixation over synthetic N? Enhances soil health, reduces greenhouse gas emissions, and improves long-term sustainability of farming systems. Importance and Versatility Soil Fertility and Nutrient Cycling Nitrogen-fixing bacteria play a critical role in replenishing soil nitrogen levels, forming a vital component of the nitrogen cycle . These bacteria convert atmospheric nitrogen (N₂)—which plants cannot utilize directly—into biologically accessible forms such as ammonia (NH₃) and ammonium ions (NH₄⁺). This process, known as biological nitrogen fixation, significantly enhances soil fertility. By naturally enriching soils with essential nitrogen, these bacteria support plant growth, increase crop yields, and promote robust root development. Additionally, nitrogen-fixing bacteria improve nutrient cycling efficiency by decomposing organic matter and recycling nitrogen compounds within the soil ecosystem, maintaining nutrient availability and reducing the need for external nutrient inputs. Sustainable Agriculture The use of nitrogen-fixing bacteria represents a sustainable and environmentally friendly alternative to synthetic nitrogen fertilizers. By integrating these microorganisms into agricultural systems—such as through inoculants or by planting nitrogen-fixing legumes—farmers can substantially decrease their dependence on chemical fertilizers. This approach not only lowers production costs but also enhances agricultural sustainability by promoting natural soil health, reducing the environmental footprint, and supporting resilient agricultural practices that conserve resources for future generations. Incorporating nitrogen-fixing bacteria into crop management strategies aligns with organic farming principles and contributes to long-term productivity without sacrificing soil health or environmental quality. Environmental Benefits Reduction in Greenhouse Gas Emissions : Excessive use of synthetic nitrogen fertilizers leads to significant emissions of nitrous oxide (N₂O), a potent greenhouse gas with a global warming potential far greater than carbon dioxide. By reducing reliance on synthetic fertilizers through the use of nitrogen-fixing bacteria, farmers can significantly mitigate these harmful emissions, contributing to efforts aimed at combating climate change and reducing the agricultural sector's carbon footprint. Prevention of Soil Degradation: Natural nitrogen enrichment by nitrogen-fixing bacteria enhances soil organic matter, improving soil structure, aeration, and moisture retention capacity. This reduces soil erosion, compaction, and degradation often associated with heavy chemical fertilizer use. Furthermore, minimizing chemical contamination promotes healthier soil ecosystems and biodiversity, fostering a balanced microbial environment essential for sustainable agriculture. Water Pollution Mitigation: Nitrogen runoff from excessive synthetic fertilizer application frequently contaminates groundwater and surface water, leading to eutrophication, algal blooms, and ecosystem damage. By incorporating nitrogen-fixing bacteria to naturally supply plants with nitrogen, agricultural practices can significantly decrease nitrogen runoff. This helps preserve water quality, protects aquatic ecosystems, and ensures safer drinking water sources, aligning agricultural productivity with environmental conservation. How it works Mechanism of Biological Nitrogen Fixation Biological nitrogen fixation is an essential microbial-mediated biochemical process whereby inert atmospheric nitrogen gas (N₂) is transformed into bioavailable ammonia (NH₃). This intricate process is pivotal for maintaining ecological balance and agricultural productivity, comprising the following sequential steps: Atmospheric Nitrogen Capture: Specialized nitrogen-fixing microorganisms, including symbiotic bacteria associated with legume roots (e.g., Rhizobium species) and free-living soil bacteria (e.g., Azotobacter ), effectively capture atmospheric nitrogen gas. Catalytic Role of Nitrogenase Enzyme: The enzyme nitrogenase orchestrates the energy-dependent conversion of atmospheric nitrogen into ammonia. This catalytic reduction is an ATP-intensive reaction requiring strictly anaerobic conditions to ensure optimal enzyme functionality and prevent oxidative damage to nitrogenase components. Integration and Utilization of Ammonia: The ammonia produced through nitrogen fixation serves as a critical nitrogen source. Within symbiotic interactions, host plants directly assimilate ammonia to synthesize essential biomolecules, such as proteins and nucleic acids. Conversely, in free-living bacterial systems, ammonia is released into the soil, enhancing nutrient availability and benefiting surrounding plant and microbial communities, thereby improving overall soil health and fertility. Distinction Nitrogen-fixing bacteria are broadly categorized based on their interactions with plants: 1. Symbiotic Nitrogen-Fixing Bacteria These microorganisms form beneficial, mutualistic associations with certain plants, particularly legumes. Rhizobium species : The most prominent symbiotic nitrogen fixers, Rhizobium bacteria colonize legume roots (beans, peas, lentils, clover), forming specialized structures called root nodules. Within these nodules, nitrogenase enzymes actively convert atmospheric nitrogen into ammonia, providing the host plant with essential nitrogen nutrients. In exchange, plants supply the bacteria with carbon-based energy sources derived from photosynthesis. This mutualistic interaction is foundational in organic farming systems, significantly reducing the need for synthetic nitrogen fertilizers. Rhizobia: Soybean roots contain (a) nitrogen-fixing nodules. Cells within the nodules are infected with Bradyrhyzobium japonicum, a rhizobia or “root-loving” bacterium. The bacteria are encased in (b) vesicles inside the cell, as can be seen in this transmission electron micrograph. Rhizobia: Soybean roots contain (a) nitrogen-fixing nodules. Cells within the nodules are infected with Bradyrhyzobium japonicum , a rhizobia or “root-loving” bacterium. The bacteria are encased in (b) vesicles inside the cell, as can be seen in this transmission electron micrograph. ( source ) 2. Free-Living Nitrogen-Fixing Bacteria Free-living nitrogen fixers operate independently within the soil ecosystem, requiring no direct plant host to carry out nitrogen fixation. Azotobacter species : These aerobic bacteria are prevalent in nitrogen-rich, organic soils, actively enhancing nitrogen availability by converting atmospheric nitrogen into ammonia directly within the soil. Cyanobacteria (blue-green algae): Widely distributed in various environments, cyanobacteria contribute significantly to nitrogen fixation, especially in aquatic ecosystems and rice paddies. They also improve soil organic matter and fertility, supporting sustainable crop growth. Cyanobacteria under microscopic view (Elif Bayraktar/Shutterstock.com) Mechanism of Action Biological Nitrogen Fixation Free-living diazotrophs convert atmospheric N₂ into plant-available NH₄⁺ in the rhizosphere, reducing the need for up to 50% of conventional nitrogen applications. Root Colonization & Growth Promotion Produce indole-3-acetic acid (IAA) and siderophores to stimulate root proliferation and enhance micronutrient uptake. Agronomic Benefits Benefit Impact Enhanced Nitrogen Availability +20–30 kg N/ha fixed per season, improving yields Improved Root Development 15–25% increase in root biomass Stress Tolerance Greater resilience to drought and salinity stress Lower Input Costs Reduce synthetic N fertilizer use by up to 40% Application & Dosage Benefit Impact Enhanced Nitrogen Availability +20–30 kg N/ha fixed per season, improving yields Improved Root Development 15–25% increase in root biomass Stress Tolerance Greater resilience to drought and salinity stress Lower Input Costs Reduce synthetic N fertilizer use by up to 40% Nitrogen Fixing Bacteria Our Products Explore our proprietary nitrogen-fixing bacteria strains, tailored to enrich your soil, enhance nitrogen availability, and promote robust, healthy crop development Acetobacter xylinum Acetobacter xylinum is a beneficial bacterium known for producing bacterial cellulose, a biopolymer with valuable applications in agriculture. Its presence in soil enhances plant growth and resilience by improving soil structure, increasing moisture retention, and enhancing nutrient availability. These benefits are especially valuable in arid and challenging environments. View Species Azospirillum brasilense Azospirillum brasilense, a plant growth-promoting bacterium, significantly enhances root development and nutrient uptake in crops such as wheat, maize, and rice. This leads to improved plant growth, higher nutrient efficiency, and increased yields, making it a valuable tool for sustainable agriculture." Supporting References: Azospirillum has been shown to improve root development and nutrient uptake, enhancing crop yields under various conditions (Okon & Itzigsohn, 1995). Inoculation with Azospirillum brasilense increases mineral uptake and biomass in crops like maize and sorghum (Lin et al., 1983). Studies have documented up to 29% increased grain production when maize was inoculated with Azospirillum brasilense, particularly when combined with nutrient applications (Ferreira et al., 2013). Enhanced growth and nutrient efficiency in crops such as lettuce and maize have also been reported, supporting its role in sustainable agriculture (da Silva Oliveira et al., 2023) (Marques et al., 2020). View Species Azospirillum lipoferum In agriculture Azospirillum lipoferum is used to promote root development and nitrogen fixation in various crops, leading to enhanced growth and higher agricultural productivity. View Species Azospirillum spp. Azospirillum spp. a nitrogen fixing bacteria in agriculture to enhance plant growth and commonly applied to roots of cereals and grasses to improve yield. View Species Azotobacter vinelandii Azotobacter vinelandii is a free-living diazotroph of notable agronomic value, contributing to sustainable crop production by biologically fixing atmospheric nitrogen into plant-available forms. Its ability to enhance soil nitrogen content is particularly beneficial for non-leguminous cropping systems, reducing dependence on synthetic nitrogen inputs and improving long-term soil fertility. View Species Beijerinckia indica As a versatile free-living diazotroph, Beijerinckia indica can sustainably supplement up to 40% of nitrogen fertilizer requirements, improve soil health, and enhance crop resilience across diverse agroecosystems. View Species Bradyrhizobium elkanii Bradyrhizobium elkanii a bacterium that forms symbiotic relationships with legume roots, significantly improving nitrogen availability in the soil, which is essential for leguminous crop production. View Species Bradyrhizobium japonicum Badyrhizobium japonicum is a nitrogen-fixing bacterium that plays a crucial role in soybean cultivation. By forming symbiotic nodules on soybean roots, it converts atmospheric nitrogen (N₂) into ammonia (NH₃), a form that plants can readily use for growth. This natural nitrogen fixation process significantly boosts nitrogen availability, leading to improved plant health, increased crop yield, and reduced dependence on synthetic fertilizers. Rhizobium japonicum is vital for promoting sustainable agricultural practices while enhancing soil fertility in legume-based farming systems. View Species Gluconacetobacter diazotrophicus Gluconacetobacter diazotrophicus is a beneficial bacterium used in agriculture for its association with sugarcane and other crops, where it fixes nitrogen and enhances plant growth and productivity. View Species Herbaspirillum frisingense Herbaspirillum frisingense is used in agriculture to promote plant growth by fixing nitrogen and producing plant hormones, enhancing crop yields and soil health. View Species Paenibacillus azotofixans Paenibacillus azotofixans: Utilized in agricultural practices to promote plant growth by fixing atmospheric nitrogen, thus improving soil fertility, especially in various crop fields. View Species Rhizobium leguminosarum Rhizobium leguminosarum is a species of nitrogen-fixing bacteria that forms symbiotic relationships with leguminous plants, particularly peas, beans, and clover. These bacteria colonize the plant's root system and create nodules, where they convert atmospheric nitrogen (N₂) into ammonia (NH₃) through the enzyme nitrogenase. This process provides the plant with essential nitrogen, facilitating its growth while simultaneously improving soil fertility. Rhizobium leguminosarum plays a key role in sustainable agriculture by reducing the need for synthetic nitrogen fertilizers and enhancing crop yields naturally. View Species 1 1 ... 1 ... 1 Resources Read all