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  • Bacillus spp. Manufacturer & Exporter | Silica Solubilizing Bacteria | Microbial Species | Indogulf BioA

    Bacillus Spp. is a plant growth-promoting bacteria that solubilizes silica content in the soil, triggering plant growth and preventing pathogen infection. < Microbial Species Bacillus spp. Bacillus Spp. is a plant growth-promoting bacteria that solubilizes silica content in the soil, triggering plant growth and preventing pathogen infection. Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Dosage & Application Additional Info Scientific References Mode of Action Sustainability Advantage FAQ Scientific References You can present these as a bulleted list on the page; they are selected to support plant growth promotion, biocontrol, and broader roles of Bacillus spp.: Radhakrishnan R., Hashem A., Abd_Allah E.F. 2017. “Bacillus: A Biological Tool for Crop Improvement through Bio-molecular Changes in Adverse Environments.” Frontiers in Physiology 8:667.[ frontiersin ] Khan A.R. et al. 2022. “Bacillus spp. as Bioagents: Uses and Application for Sustainable Agriculture.” Microorganisms 10(12):2449.[ pmc.ncbi.nlm.nih ] Tiwari S. et al. 2020. “The Significance of Bacillus spp. in Disease Suppression and Plant Growth Promotion.” Plants 9(10):1295.[ pmc.ncbi.nlm.nih ] Abuhena M. et al. 2024. “An Overview of Bacillus Species in Agriculture for Growth Promotion and Biocontrol.” ES Food & Agroforestry.[ espublisher ] Gulzar A.B.M. et al. 2025. “Exploiting the Biocontrol Potential of Plant Growth-Promoting Bacillus in Agriculture.” Journal of Plant Physiology (in press).[ sciencedirect ] Radhakrishnan R. et al. 2019. “Bacillus subtilis: A Plant-Growth Promoting Rhizobacterium that Also Protects Plants from Abiotic Stress.” (Review).[ pmc.ncbi.nlm.nih ] Shi Y. et al. 2025. “Issues on Microbial Soil Remediation: A Case of Cd Stress Alleviation by Diverse Bacillus Strains.” Frontiers in Microbiology.[ frontiersin ] IndoGulf BioAg. “Bacillus subtilis in Soil Health and Sustainable Agriculture.” Technical blog, 2026.[ indogulfbioag ] You can also cite specific IndoGulf BioAg microbial species pages to keep internal linking strong (e.g., B. subtilis, B. megaterium, B. pumilus, B. circulans, B. tequilensis, B. mycoides, B. polymyxa).indogulfbioag+6 Mode of Action Bacillus spp. are plant-beneficial rhizobacteria that promote growth and protect crops through multiple, well-characterized mechanisms. Their key modes of action include:frontiersin+2 Nutrient solubilization and cycling: Many Bacillus species solubilize phosphorus, potassium, silica, and micronutrients, converting insoluble forms into bioavailable ions that plants can absorb more efficiently. Several strains also fix atmospheric nitrogen or improve nitrogen-use efficiency in the rhizosphere.pmc.ncbi.nlm.nih+3 Phytohormone production: Bacillus spp. synthesize growth-regulating compounds such as indole-3-acetic acid (IAA), gibberellic acids, cytokinins, and ACC deaminase, which stimulate root growth, enhance shoot development, and modulate ethylene levels under stress.pmc.ncbi.nlm.nih+2 Antagonism against pathogens (biological control): These bacillus species bacteria secrete a broad spectrum of lipopeptides (iturin, fengycin, surfactin), polyketides, bacteriocins, cell wall–degrading enzymes (chitinases, glucanases, proteases, cellulases), siderophores, and volatile organic compounds that inhibit fungi, bacteria, nematodes, and some insect pests.pmc.ncbi.nlm.nih+4 Induced systemic resistance (ISR): By colonizing roots and forming biofilms, Bacillus spp. activate plant defense pathways (salicylic acid, jasmonic acid, ethylene), priming crops to respond faster and stronger against subsequent pathogen or pest attack.frontiersin+3 Stress tolerance and soil health: Exopolysaccharides and siderophores produced by Bacillus spp. help maintain ionic balance, improve water retention, and mitigate the impact of drought, salinity, heavy metals, and other abiotic stresses. Their resilient endospores and versatile metabolism also support stable colonization in diverse soil types and climates, making them robust components of biofertilizers and biocontrol products.espublisher+3 Illustrative example: A Bacillus consortium applied to soybean has been shown to enhance yield and soil microbial diversity by combining nutrient solubilization with pathogen suppression and ISR, demonstrating the multi-functional value of Bacillus spp. in real cropping systems.[ ppl-ai-file-upload.s3.amazonaws ]pmc.ncbi.nlm.nih+1 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 Dressing 1kg Wettable Powder: 10g Bacillus spp. + 10g crude sugar Soluble Powder: 1g Bacillus spp. + 10g crude sugar Seed Dressing Method Mix Bacillus spp. with crude sugar in sufficient water to make a slurry. Coat seeds and dry in shade. Sow/broadcast/dibble in the field immediately. Do not store treated/coated seeds for more than 24 hours. Note: Do not store Bacillus spp. solution for more than 24 hours after mixing it in water. FAQ What is the role of Bacillus spp. in agriculture? Bacillus spp. play a central role in sustainable agriculture as plant growth–promoting rhizobacteria and biological control agents. These bacillus species bacteria improve nutrient availability (N, P, K, silica), stimulate root and shoot growth, suppress soil-borne diseases, enhance stress tolerance, and reduce the need for synthetic fertilizers and pesticides in modern cropping systems.pmc.ncbi.nlm.nih+3 What does Bacillus spp. cause? Most agricultural Bacillus spp. strains are selected because they cause beneficial effects, not disease. They cause enhanced plant growth, reduced disease incidence, better root architecture, and improved soil structure through biofilm and exopolysaccharide production. However, the genus also contains some opportunistic or pathogenic species (for example, Bacillus anthracis in humans and animals), which is why commercial strains are carefully screened for safety and absence of toxin genes.aimspress+4 What does it mean if you have high Bacillus spp.? In soil and the rhizosphere, a high population of beneficial Bacillus spp. often indicates a biologically active, competitive microbial community with good nutrient cycling and natural disease suppression potential. In the human gut or other microbiomes, “high Bacillus spp.” generally reflects colonization by spore-forming bacillus species bacteria, which can be neutral or beneficial when involving probiotic strains like B. subtilis or B. coagulans, but interpretation always depends on the specific species and clinical context.indogulfbioag+6 Where can I find Bacillus spp.? Bacillus spp. are ubiquitous and can be found in soils, rhizospheres, compost, water, plant residues, dust, and even in association with animals and humans. Their endospores allow them to survive heat, desiccation, and nutrient-poor conditions, so bacillus species bacteria persist in agricultural fields, industrial environments, food-processing chains, and as formulated spores in commercial biofertilizers, biopesticides, and probiotic products.pmc.ncbi.nlm.nih+2 What are the industrial applications of Bacillus spp.? Bacillus spp. are widely used in industry for large-scale enzyme production (amylases, proteases, lipases, cellulases), antibiotics and lipopeptides, biopolymers, and biosurfactants. These bacillus species bacteria also underpin biofertilizers, biopesticides, bioremediation solutions, and probiotic formulations for humans and animals, thanks to their GRAS-status strains, robust sporulation, and efficient secretion systems.espublisher+3 What are the growth conditions for Bacillus spp.? Most Bacillus spp. are aerobic or facultatively anaerobic, mesophilic bacteria that grow well between 25–37 °C in a wide pH range and on simple, low-cost media. In the field, they establish best in well-aerated soils with sufficient organic matter and root exudates, where moisture, temperature, and compatible microbial communities support active colonization and spore cycling.frontiersin+2 What is the history of Bacillus subtilis spp.? Bacillus subtilis is one of the best-studied bacillus species bacteria and has a long history as a model organism in molecular biology, genetics, and cell differentiation research. Historically known as the “hay bacillus,” B. subtilis has since become a cornerstone species in industrial enzyme production, probiotic development, and agricultural biocontrol, with decades of research demonstrating its safety, genetic tractability, and capacity to promote plant growth and suppress pathogens.indogulfbioag+3 Sustainability Advantage Content coming soon! Related Products Bacillus mycoides More Products Resources Read all

  • Trichoderma Viride Manufacturer & Exporter | Plant Protect | Indogulf BioAg

    Trichoderma Viride by Indogulf Bioag supports crop protection, root health, and soil balance with beneficial microbial action. Contact Indogulf Bioag today. < Plant Protect Trichoderma viride An organic-certified biopesticide that controls termites, locusts, root grubs, and soil-dwelling pests. Its fungal spores infect and kill a range of insects, making it a powerful tool for integrated pest management in sustainable farming. Product Enquiry Download Brochure Benefits Enhanced Crop Productivity Reduces fungal load, promoting healthier root systems and improved plant growth. Safe for the Ecosystem Earthworm-friendly, pet-friendly, and non-toxic to humans and animals. Eco-Friendly Agriculture Supports sustainable farming with an environmentally safe mode of action. Broad-Spectrum Disease Control Effectively combats root rots, wilts, damping-off, and other seed- and soil-borne fungal infections. Content coming soon! Composition Dosage & Application Key Benefits FAQ Additional Info Additional Info Target Diseases Trichoderma viride is approved for seed/soil treatment of root rot in pulses (cowpea, mung bean, and urad bean), damping off in chili seedlings, wilting in cowpea, and root rot diseases in sesame and pigeon pea. Additionally, Trichoderma viride can be used for fungal diseases (seed/soil borne) caused by Pythium spp, Phytophthora spp, Alternaria spp, and similar pathogens that lead to diseases such as root rots, wilts, brown rot, damping off, charcoal rot, and other seed-borne and soil-borne fungal diseases in crops. Crops Trichoderma viride is suitable for application on cereals, millets, pulses, oilseeds, fibre crops, sugar crops, forage crops, plantation crops, vegetables, fruits, spices, flowers, medicinal crops, aromatic crops, orchards, and ornamentals. Shelf Life & Packaging Storage: Store in a cool, dry place at room temperature Shelf Life: 24 months from the date of manufacture at room temperature Packaging: 1 kg pouch FAQ What is Trichoderma viride used for? Trichoderma viride is used as a biological fungicide for managing seed- and soil-borne fungal diseases. It helps suppress pathogens associated with root rot, damping-off, wilt, brown rot, charcoal rot, and similar diseases caused by fungi such as Pythium , Phytophthora , Fusarium , Rhizoctonia , and Alternaria . How do I apply Trichoderma to my plants? Trichoderma viride can be applied in several ways depending on the crop and growth stage. It can be used as a seed treatment, soil application, soil drench, nursery treatment, root dip, or through drip irrigation. For best results, apply it near the seed or root zone where early root colonization is needed. Can we spray Trichoderma viride on plants? Trichoderma viride is mainly used for seed, soil, nursery, and root-zone applications because it is most effective when it colonizes the rhizosphere. Foliar spraying should only be done if the product label specifically allows it. For soil-borne diseases, root-zone application is usually the preferred method. How long does Trichoderma last in soil? The persistence of Trichoderma viride in soil depends on soil moisture, temperature, organic matter, pH, microbial competition, and crop conditions. Under favourable conditions, it can colonize the root zone and remain active for several weeks to months. Reapplication may be needed depending on crop cycle, disease pressure, and field conditions. Is Trichoderma mold harmful to humans? Trichoderma viride is widely used in agriculture as a beneficial biological control fungus and is generally considered safe when handled according to label directions. However, as with any microbial powder or biological product, users should avoid inhaling dust and should prevent contact with eyes, open wounds, and sensitive skin. Wearing gloves, protective clothing, and a dust mask during handling is recommended. Which crops can Trichoderma viride be used on? Trichoderma viride can be used on a wide range of crops, including cereals, pulses, oilseeds, vegetables, fruits, plantation crops, spices, flowers, medicinal crops, aromatic crops, orchards, and ornamentals. Can Trichoderma viride be used through drip irrigation? Yes. Trichoderma viride can be applied through drip irrigation when properly mixed and filtered. The product should be mixed thoroughly in water, allowed to settle if needed, and the supernatant can be fed through the drip system to deliver the beneficial fungus into the root zone. Can Trichoderma viride be mixed with fertilizers or pesticides? Trichoderma viride can generally be used with many organic fertilizers, composts, manures, and some biological inputs. Avoid mixing directly with chemical fungicides unless compatibility has been confirmed. If fungicides are used, keep a suitable application gap to avoid reducing the viability of the beneficial fungus. What is the shelf life of Trichoderma viride ? The product has a shelf life of 24 months from the date of manufacture when stored properly in a cool, dry place at room temperature. Is Trichoderma viride suitable for mushroom farming? No. Trichoderma viride should not be used in mushroom farming because Trichoderma species can cause disease problems in mushroom production systems. Key Benefits Biological Control of Soil-Borne Diseases Trichoderma viride is a beneficial fungus used to suppress seed- and soil-borne fungal pathogens. It helps manage diseases such as root rot, damping-off, wilt, brown rot, charcoal rot, and other fungal infections affecting the root zone. Protects the Root Zone By colonizing the rhizosphere, Trichoderma viride helps create a protective biological barrier around roots. This supports healthier root development and reduces disease pressure during early crop establishment. Multiple Natural Modes of Action Trichoderma viride works through several biological mechanisms, including competition for space and nutrients, mycoparasitism, production of antifungal metabolites, and stimulation of plant defence responses. Supports Stronger Plant Growth Healthy roots are essential for better nutrient and water uptake. By supporting root-zone balance and reducing pathogen pressure, Trichoderma viride helps promote stronger crop establishment, improved vigour, and more resilient plant growth. Suitable for Seed and Soil Application Trichoderma viride can be used for seed treatment, soil application, soil drenching, nursery application, root dipping, and drip irrigation, depending on the crop system and application objective. Useful Across Many Crop Groups It is suitable for cereals, millets, pulses, oilseeds, fibre crops, sugar crops, forage crops, plantation crops, vegetables, fruits, spices, flowers, medicinal crops, aromatic crops, orchards, and ornamentals. Eco-Friendly Disease Management Trichoderma viride supports sustainable agriculture by reducing dependence on conventional chemical fungicides and helping maintain a healthier soil microbial environment. Dosage & Application Dosage & Application Seed treatment: Mix 10g of Trichoderma viride with 10g of crude sugar in sufficient water to make slurry to treat 1 Kg seed. Coat the seed with this slurry so as to have a uniform coating all over the seeds. Dry the seeds in shade for 30 minutes and sow the treated seeds within 24 hours. Soil application: Mix 5–10Kg Trichoderma viride along with 1Kg of crude sugar in sufficient quantity of organic fertilizer / de oiled cake and incubate at 30% moisture level for 3–4 days and apply to root zone. Soil drenching, Nursery application, Root dipping: Mix 10g of Trichoderma viride per L of water and use to drench soil/nursery/dip roots. Drip Irrigation: Mix 3–5Kg Trichoderma viride in 50L of water and mix well. Allow to sediment and decant super natant and feed it through drip irrigation. Note: Trichoderma viride should not be used in mushroom farming as it causes disease in mushrooms. Related Products Beauveria bassiana Bloom Up Flyban Insecta Repel Larvicare Mealycare Metarhzium Anisopliae Mitimax More Products Resources Read all

  • Neem Plus Manufacturer & Exporter | Wheat Fertilizer | Indogulf BioAg | Crop Kits | Indogulf BioAg

    Searching for Neem Plus for wheat farming? A natural pest control solution that protects crops, balances soil health, and supports sustainable agriculture. Enquire Now < Crop Kits Neem Plus Neem Plus is a water-soluble neem and karanja-based bio-formulation targeting over 400 crop pests. Product Enquiry Download Brochure Biodegradable and Residue-Free The pesticide is environmentally safe, fully biodegradable, and leaves no harmful residues. Safe and Compatible Harmless to beneficial insects and compatible with other pesticides and fungicides in pH ranges from 5.5 to 6.5. Resistance Prevention The limonoid spectrum in Neem Plus hinders the development of resistance in pests. Multi-Action Insect Control Acts as a repellent, antiovipositor, and insect growth regulator, disrupting key stages of the pest life cycle. Benefits Content coming soon! Composition Dosage & Application Additional Info Dosage & Application For Bollworm, White fly: Use 2.5–5 ml of formulation Dilute in 500–1000 ml of water Waiting period: 5 days before harvest For Thrips, Stem Borer, Leaf folder, Brown Plant Hopper: Use 1.5–2.5 ml of formulation Dilute in 500 ml of water Waiting period: 5 days before harvest HOW TO USE? Neem Protect can be mixed with water and used in spray pumps. Normally oil and water don’t mix, however NEEM PLUS comes with a ready-to-use formulation which you can directly mix with water and start using on your plants. Spray the mixed solution on all the leaves, especially the undersides. When spraying for the first time, drench the soil around the roots as well as it is even good for your soil. Instructions to Open Open the bottle outdoors with care. Do not shake the bottle before opening. The bottle has a double seal system — an external black cap and a white inner plug with a nozzle in the centre. After opening the black outer cap, the inner plug has to be pierced in the middle using any pointed tool. The nozzle should give way, with a small hole, through which the liquid fertiliser can pour out. Additional Info Storage Requirements Store below 40°C in a cool, dry, well-ventilated place. Keep away from sunlight, children, and animals. Do not store in metallic containers. Keep tightly closed when not in use. Handling Precautions Use standard hygiene and safety practices for agricultural products. Related Products Aminomax SP Annomax BioProtek Biocupe Seed Protek Silicomax Dates Pro BloomX More Products Resources Read all

  • Crop Kits | Indogulf BioAg

    < Crop Kits Chilbloc Chilling injury of fruits can be alleviated by physical techniques such as low temperature conditioning, heat treatment, controlled or modified atmosphere storage, waxing, and microbial control. Chilbloc alleviates the pressure of chilling injury using microbial species that are effective and safe for the environment. Product Enquiry Download Brochure Delayed Chilling Injury: Slower chilling injury development helps maintain fruit quality and texture, extending shelf life and preserving appearance during cold storage. Enhanced Enzyme Activity: Increased activity of H+-ATPase, Ca2+-ATPase, CCO, and SDH promotes better cellular function, energy metabolism, and plant resilience under stress. Reduced Oxidative Stress: Decreased MDA content and ethylene production reduce oxidative damage and slow ripening, improving shelf life and overall fruit quality. Improved Membrane Integrity: Reduced electrolyte leakage ensures better cell membrane stability, preserving hydration, nutrient transport, and overall plant health. Benefits Contact us for more details Composition Dosage & Application Additional Info Dosage & Application POST HARVEST Soaking: Dilute 1 g in 1 L water /Kg Biomass and soak for 45 minutes Spray: Dilute 25 g in 1 L water /400 Kg Biomass PREHARVEST In Drip 5 days before harvest: 10 g/L Spray on the Bunches 3 days before harvest: 5 g/L Additional Info Chilling Injury Chilling injury in banana fruit is caused by prolonged exposure to temperatures less than 13°C. This can occur during bunch development in the field or postharvest handling and storage. Mild symptoms of chilling injury are localised to peel tissue and reduce visual quality of fruit. Symptoms include surface discoloration, dull or smokey color, subepidermal tissues reveal dark-brown streaks, failure to ripen, and, in severe cases, flesh browning. Chilling injury results from exposing bananas to temperatures below 13°C (56°F) for a few hours to a few days, depending on cultivar, maturity, and temperature. For example, moderate chilling injury will result from exposing mature-green bananas to one hour at 10°C (50°F), 5 hours at 11.7°C (53°F), 24 hours at 12.2°C (54°F), or 72 hours at 12.8°C (55°F). Chilled fruits are more sensitive to mechanical injury. The main primary events in chilling injury are low temperature-induce changes in the properties of cell membranes due to changes in the physical state of membrane lipids (membrane phase change) production of reactive oxygen species (eg. hydrozen peroxide) that oxidize leading to altered enzymatic activities and structural proteins (e.g. tubulin) are disrupted. Related Products Aminomax SP Annomax BioProtek Biocupe Neem Plus Seed Protek Silicomax Dates Pro More Products Resources Read all

  • Azospirillum Lipoferum Manufacturer & Exporter | Nitrogen Fixing Bacteria | Microbial Species | Indogulf BioA

    In agriculture Azospirillum lipoferum is used to promote root development and nitrogen fixation in various crops, leading to enhanced growth and higher agricultural productivity. < Microbial 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. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Disease Suppression Suppresses soil-borne pathogens through competition for nutrients and production of antimicrobial compounds, enhancing plant health and reducing disease incidence. Plant Growth Promotion Produces plant growth-promoting substances like auxins and cytokinins, stimulating root growth and overall plant development. Phosphate Solubilization Releases phosphate bound in the soil, making it available for plant uptake, thereby improving phosphorus nutrition. Nitrogen Fixation Converts atmospheric nitrogen into ammonia, enhancing soil fertility and reducing the need for nitrogen fertilizers. Dosage & Application Additional Info Scientific References Mode of Action Sustainability Advantage FAQ Scientific References 1. Azospirillum, a free-living nitrogen-fixing bacterium closely associated with grasses: genetic, biochemical and ecological aspects URL: https://academic.oup.com/femsre/article/24/4/487/510690 Journal : FEMS Microbiology Reviews (2000) 2. Azospirillum: benefits that go far beyond biological nitrogen fixation URL: https://pmc.ncbi.nlm.nih.gov/articles/PMC5935603/ Journal : PMC - PubMed Central (2018) 3. Field-based assessment of the mechanism of maize yield enhancement by Azospirillum lipoferum CRT1 URL: https://www.nature.com/articles/s41598-017-07929-8 Journal : Scientific Reports - Nature (2017) 4. Posttranslational regulation of nitrogenase activity in Azospirillum brasilense URL: https://pmc.ncbi.nlm.nih.gov/articles/PMC196782/ Journal : Journal of Bacteriology 5. Molecular Mechanisms Determining the Role of Bacteria from the Genus Azospirillum in Plant Growth Promotion URL: https://pmc.ncbi.nlm.nih.gov/articles/PMC10252715/ Journal : International Journal of Molecular Sciences (2023) Mode of Action Biological Nitrogen Fixation Mechanism Azospirillum lipoferum converts atmospheric nitrogen (N₂) into ammonium (NH₄⁺) under microaerobic conditions through the nitrogenase enzyme complex . This complex consists of two essential components: the dinitrogenase protein (MoFe protein, NifDK) containing a molybdenum-iron cofactor where N₂ reduction occurs, and the dinitrogenase reductase protein (Fe protein, NifH) that transfers electrons to the nitrogenase protein. The efficiency of nitrogen fixation in A. lipoferum reaches 48 mg total nitrogen per gram glucose consumed at late log phase, with approximately 25% of fixed nitrogen recovered in culture supernatants . This bacterium demonstrates a unique hydrogenase system - an active uptake hydrogenase that increases during glucose limitation and serves as an oxygen protection mechanism for the oxygen-sensitive nitrogenase. Molecular Regulation Systems Transcriptional Control The nitrogen fixation process is regulated by multiple nif genes including the nifHDK operon encoding nitrogenase components and nifA as the transcriptional activator. Expression is controlled by the general nitrogen regulatory system involving NtrBC proteins and the alternative sigma factor σ⁵⁴ (RpoN). Post-translational Regulation A. lipoferum employs reversible ADP-ribosylation of the nitrogenase iron protein mediated by DraT (ADP-ribosyltransferase) and DraG (activating glycohydrolase) enzymes. This mechanism provides rapid response to environmental changes - nitrogenase becomes inactive when ADP-ribosylated in the presence of ammonium or anaerobic conditions, and reactivated when ADP-ribosyl groups are removed. Plant Growth Promotion Mechanisms Phytohormone Production A. lipoferum synthesizes multiple plant hormones through distinct biosynthetic pathways. The bacterium produces indole-3-acetic acid (IAA) via the indole-3-pyruvate (IPyA) pathway using the key enzyme indole-3-pyruvate decarboxylase encoded by ipdC . It also demonstrates capacity for gibberellin metabolism , effectively hydrolyzing GA₂₀-glucosyl conjugates and performing 3β-hydroxylation to convert GA₂₀ to the bioactive GA₁. The bacterium expresses ACC deaminase which hydrolyzes the ethylene precursor 1-aminocyclopropane-1-carboxylate , reducing plant ethylene levels and promoting growth. Additional hormones include cytokinins through octaprenyl diphosphate synthase activity. Root System Architecture Modification Inoculation with A. lipoferum results in altered root morphology characterized by increased lateral root formation and enhanced root hair development. This root system expansion allows plants to explore larger soil volumes for nutrient and water acquisition. Field studies demonstrate that these morphological changes occur early in plant development and correlate with improved photosynthetic potential and reduced glucose content in ascending sap. Root Colonization and Plant Interaction Attachment Mechanisms A. lipoferum employs a two-step colonization process . Initial adsorption is mediated by the polar flagellum , whose flagellin protein is a glycoprotein essential for motility-dependent attachment. The subsequent anchoring phase involves unidentified surface polysaccharides that facilitate stable root surface colonization. Energy taxis plays a crucial role in root colonization, with bacteria navigating toward metabolizable compounds in root exudates. This chemotactic response contributes to the broad host range observed in Azospirillum -plant associations. Mineral Nutrition Enhancement A. lipoferum demonstrates phosphate solubilization ability , though weaker than specialized phosphate-solubilizing bacteria. The mechanism involves organic acid production (primarily acetic acid) that reduces medium pH and releases soluble phosphate from calcium phosphate complexes . Coimmobilization with other phosphate-solubilizing bacteria like Bacillus megaterium significantly enhances phosphate availability. The bacterium also participates in iron nutrition through potential siderophore production and iron chelation mechanisms , though specific iron acquisition systems require further characterization. Agricultural Applications and Field Performance Commercial Inoculant Effectiveness Field studies with commercial strain A. lipoferum CRT1 demonstrate variable but significant yield enhancement across different agricultural sites. The bacterium's effectiveness depends on soil characteristics and environmental conditions , with survival on maize roots limited to approximately 57 days post-inoculation . Research indicates that A. lipoferum inoculation can substitute for 50% of nitrogen fertilizer applications without yield reduction , demonstrating potential for sustainable agriculture practices. The bacterium shows particular efficacy when applied as seed coating formulations. Stress Tolerance Mechanisms A. lipoferum confers drought tolerance through multiple mechanisms including abscisic acid synthesis , osmotic adjustment , and antioxidant enzyme activation . The bacterium induces expression of stress-related genes and enhances water use efficiency in treated plants. 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: Coat 1 kg of seeds with a slurry mixture of 10 g of Azospirillum Lipoferum and 10 g of crude sugar in sufficient water. Dry the coated seeds in shade before sowing or broadcasting in the field. Seedling Treatment: Dip seedlings into a mixture of 100 grams of Azospirillum Lipoferum with sufficient water. Soil Treatment: Mix 3-5 kg per acre of Azospirillum Lipoferum with organic manure or fertilizers. Incorporate into the soil during planting or sowing. Irrigation: Mix 3 kg per acre of Azospirillum Lipoferum in water and apply through drip lines. FAQ What physiological mechanisms underlie the benefits of Azospirillum lipoferum in crops? Azospirillum lipoferum is a diazotrophic bacterium that colonizes the rhizosphere and endorhizally associates with plant roots. Through biological nitrogen fixation via the nitrogenase enzyme complex, it converts atmospheric N₂ into bioavailable ammonia, enhancing plant nitrogen nutrition. Additionally, it synthesizes phytohormones (indole-3-acetic acid, gibberellins) that modulate root architecture—promoting lateral root proliferation and root hair elongation—thereby increasing absorptive surface area and nutrient uptake efficiency. How is Azospirillum lipoferum formulated and applied in agronomic practice? Seed Inoculation: Prepare a peat-based carrier formulation containing ≥10⁸ CFU/g. Coat seeds at 10 g inoculant per kg seed, ensuring uniform adhesion with an adhesive such as sterile sucrose solution. Air-dry for 30–60 minutes prior to sowing. Seedling Root Dip: Suspend 100 g of inoculum in 10 L of sterile water and dip root systems of nursery seedlings for 15 minutes before transplanting. Soil Amendment: Incorporate 3–5 kg inoculant per hectare into the top 10 cm of soil, preferably mixed with well-decomposed organic manure. Liquid Delivery: Dissolve 3 kg inoculant in 1,000 L of irrigation water and apply via drip or furrow irrigation systems to distribute cells throughout the rhizosphere. Which agronomic crops demonstrate optimal responsiveness to Azospirillum lipoferum inoculation? Field and greenhouse trials indicate significant yield and biomass improvements in Poaceae (wheat, maize, rice, sorghum), Fabaceae (pulses), Brassicaceae (oilseeds), Solanaceae (tomato, pepper), and Cucurbitaceae (cucumber, melon). Enhanced root development and N-use efficiency have been documented across cereals, legumes, oilseeds, horticultural, and fiber crops. What compatibility and biosafety considerations apply to Azospirillum lipoferum applications? Azospirillum lipoferum formulations are biosafe, exhibiting no pathogenicity to plants, humans, or animals. The bacterium is compatible with organic amendments, biofertilizers, and select biopesticides. Physical or chemical incompatibilities may arise when co-applied with high concentrations of synthetic fertilizers or broad-spectrum biocides; sequential rather than simultaneous application is recommended to maintain cell viability. What are the recommended storage conditions and shelf life parameters for Azospirillum lipoferum inoculants? Maintain formulations at 4–10 °C in moisture-proof, opaque packaging. Under these conditions, viable cell counts remain ≥10⁷ CFU/g for 9–12 months post-manufacture. Prolonged exposure to temperatures above 25 °C or high relative humidity reduces survival rates and inoculum efficacy. Sustainability Advantage Content coming soon! Related Products Acetobacter xylinum Azospirillum brasilense Azospirillum spp. Azotobacter vinelandii Beijerinckia indica Bradyrhizobium elkanii Bradyrhizobium japonicum Gluconacetobacter diazotrophicus More Products Resources Read all

  • Trichoderma Viride Manufacturer & Exporter | Biofungicides | Microbial Species | Indogulf BioA

    Trichoderma viride is a beneficial fungus widely used in agriculture for its ability to manage fungal pathogens and soil-dwelling nematodes. It enhances the stress tolerance of plant hosts and provides protection against fungal diseases by producing antifungal compounds and promoting plant defense mechanisms. Its role in improving plant resilience and controlling soil-borne pathogens makes it a key tool in sustainable agriculture and integrated pest management practices. < Microbial Species Trichoderma viride Trichoderma viride is a beneficial fungus widely used in agriculture for its ability to manage fungal pathogens and soil-dwelling nematodes. It enhances the stress tolerance… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Induced Systemic Resistance Stimulates the plant's defense mechanisms, enhancing resistance to diseases. Environmental Compatibility Safe for the environment and non-toxic to plants, animals, and humans. Promotes Plant Growth Produces enzymes that degrade organic matter, releasing nutrients for plant uptake. Biocontrol Agent Acts as a natural antagonist against plant pathogens, helping to suppress diseases. Dosage & Application Additional Info Scientific References Mode of Action Sustainability Advantage FAQ Scientific References Biocontrol Efficacy Studies Jamil, A. (2021). "Antifungal and plant growth promoting activity of Trichoderma spp. against Fusarium oxysporum f. sp. lycopersici." Plant Protection Science, demonstrating 70% radial growth inhibition of Fusarium oxysporum and superior plant growth promotion. jbiopestic+1 Kumar, S., et al. (2015). "Antagonistic Potential of Native Trichoderma viride Strain against Phytophthora theae and Fusarium solani." PMC, showing 50.51% and 63% mean inhibition against P. theae and F. solani respectively. pmc.ncbi.nlm.nih Li, M., et al. (2023). "Trichoderma and its role in biological control of plant fungal and nematode disease." PMC, comprehensive review documenting control against 29 species of plant pathogenic fungi including Botrytis, Fusarium, and Rhizoctonia. pmc.ncbi.nlm.nih Mechanism Studies Benitez, T., et al. (2004). "Biocontrol mechanisms of Trichoderma strains." International Microbiology, detailing multiple biocontrol mechanisms including mycoparasitism, antibiosis, and competition. scielo.isciii Cortés Hernández, et al. (2023). "Biological control agents: mechanisms of action." Frontiers in Agronomy, documenting secretion of chitinases, glucanases, and proteases for pathogen cell wall degradation. frontiersin Plant Growth Promotion Manganiello, G., et al. (2018). "Volatile secondary metabolites of Trichoderma viride TG050 609 causing irregular mycelial growth and dissolution of Phytophthora nicotianae." Research demonstrating antibiotic effects through volatile compounds. pmc.ncbi.nlm.nih Naglot, A., et al. (2015). "Metabolites of Trichoderma viride showing 54.81% inhibition against Fusarium oxysporum wilt pathogen." Studies confirming significant antimicrobial activity. pmc.ncbi.nlm.nih Mode of Action Primary Biocontrol Mechanisms 1. Mycoparasitism - Direct Attack Trichoderma viride employs direct parasitism through specialized hyphal interactions. The fungus forms coiling structures and loops around pathogen hyphae, creating compact rope-like formations that physically constrain pathogen growth. Appressorium development allows penetration of pathogen cell walls through mechanical pressure and enzymatic degradation. jbiopestic+1 2. Enzymatic Degradation The organism produces a comprehensive array of hydrolytic enzymes that systematically break down pathogen cell walls: pmc.ncbi.nlm.nih+1 Chitinases: Peak activity at 14 days, targeting chitin components of fungal cell walls pmc.ncbi.nlm.nih β-1,3-glucanases: Maximum production at 8 days, degrading structural glucans pmc.ncbi.nlm.nih Cellulases and Pectinases: Highest activity at 8 days, breaking down cellulose and pectin barriers pmc.ncbi.nlm.nih Proteases: Peak production at 20 days, degrading pathogen proteins and defensive compounds pmc.ncbi.nlm.nih 3. Antibiosis - Chemical Warfare Trichoderma viride produces over 100 antimicrobial secondary metabolites including: scielo.isciii+1 Peptaibols: Membrane-disrupting compounds causing pathogen cell lysis Gliotoxins: Broad-spectrum antifungal metabolites Volatile Compounds: Including 6-pentyl-α-pyrone causing mycelial dissolution pmc.ncbi.nlm.nih Trichomycins: Species-specific antibiotics with targeted activity pmc.ncbi.nlm.nih Competition Mechanisms 4. Nutrient Competition The fungus exhibits rapid colonization of the rhizosphere, effectively competing for: Carbon sources: Superior utilization of root exudates and organic matter Nitrogen compounds: Efficient uptake of amino acids and proteins Iron sequestration: Through siderophore production limiting pathogen access scielo.isciii 5. Space Competition Aggressive growth patterns allow Trichoderma viride to occupy ecological niches before pathogen establishment, creating zone exclusion around plant roots and limiting pathogen colonization sites. scielo.isciii Plant Growth Promotion 6. Root Colonization & Symbiosis Trichoderma viride establishes beneficial endophytic relationships within plant root systems. This colonization triggers induced systemic resistance (ISR) through activation of plant defense pathways without causing tissue damage. indogulfbioag+1 7. Phytohormone Production The organism produces growth-promoting compounds including: Indole Acetic Acid (IAA): Promoting root development and elongation plantprotection Cytokinins: Enhancing shoot growth and tillering Gibberellins: Stimulating stem elongation and flowering plantprotection 8. Nutrient Mobilization Phosphate solubilization activity converts inorganic phosphates to plant-available forms. Nitrogen fixation enhancement through synergistic interactions with rhizobial bacteria improves overall plant nutrition. plantprotection Integrated Action Profile The synergistic combination of these mechanisms provides comprehensive plant protection. Culture filtrate studies demonstrate that 20-day-old cultures show maximum antagonistic activity, corresponding to optimal enzyme and metabolite production. This multi-modal approach ensures effective control against diverse pathogen species while simultaneously promoting plant health and growth. pmc.ncbi.nlm.nih Additional Info Compatibility & Storage Chemical Compatibility: Compatible with most organic inputs but avoid chemical fungicides for 4-5 days after application megbrdc Shelf Life: Maintain viability for 24 months when stored in cool, dry conditions Packaging: Available in powder and liquid formulations farmextensionmanager Environmental Requirements Moisture: Essential factor for growth and survivability - avoid application in dry soil conditions megbrdc Temperature: Optimal growth at 20-30°C with pH range 4.0-8.5 Light Sensitivity: Keep treated seeds away from direct sunlight megbrdc Application Precautions Apply during cooler parts of day to prevent desiccation Ensure adequate soil moisture before and after application Do not store treated FYM for extended periods megbrdc Avoid mixing with copper-based fungicides Dosage & Application Wettable Powder: 2 x 10⁶ CFU per gram Other Uses: Nematicide and Seed care 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: 5g Trichoderma Viride + 5g crude sugar 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. Before onset of monsoon and after monsoon. Soluble Powder: 1 x 10⁸ 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 Soil Application (Soil drench or Drip irrigation) for Long duration crops / Orchards / Perennials: 1 Acre dose: 1 Kg, 1 Ha dose: 2.5 Kg Seed Dressing: 1 Kg seed: 0.5g Trichoderma Viride + 5g crude sugar 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. Before onset of monsoon and after monsoon. Seed Dressing Method: Mix Trichoderma Viride with crude sugar in sufficient water to make a slurry and coat seeds. Dry in shade and sow / broadcast / dibble in the field. Do not store treated / coated seeds for more than 24 hours. Soil Application Method: Mix Trichoderma Viride at recommended doses with compost and apply at early life stages of crop along with other biofertilizers. First application: At land preparation stage / sowing / planting. Second application: Three weeks after the first application. Mix Trichoderma Viride at recommended doses in sufficient water and 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 Trichoderma Viride at recommended doses in sufficient water and apply as a drenching spray near the root zone twice a year. It is recommended to have the first application before the onset of the main monsoon / rainfall / spring season and the second application after the main monsoon / rainfall / autumn / fall season. Foliar Application Method: Mix Trichoderma Viride at recommended doses in sufficient water and spray on the soil during the off-season. Apply twice a year for long duration crops. It is recommended to have the first application before the onset of the main monsoon / rainfall / spring season and the second application after the main monsoon / rainfall / autumn / fall season. Note: Do not store Trichoderma Viride solution for more than 24 hours after mixing in water. FAQ What is Trichoderma viride and how does it work? Trichoderma viride is a beneficial soil fungus that acts as a powerful biological control agent against plant diseases while promoting growth. This naturally occurring mycoparasite works through multiple mechanisms simultaneously: directly attacking pathogen fungi through mycoparasitism, producing antimicrobial compounds, competing for nutrients and space, and establishing beneficial relationships with plant roots. frontiersin+3 The fungus colonizes plant root systems as a beneficial endophyte, triggering induced systemic resistance while providing protection against soil-borne pathogens like Fusarium, Rhizoctonia, and Pythium species. Studies show Trichoderma viride can achieve up to 70% inhibition of major plant pathogens while simultaneously promoting root development and nutrient uptake. jbiopestic+2 Which crops and diseases can Trichoderma viride control? Trichoderma viride provides broad-spectrum control across numerous crops and diseases: pmc.ncbi.nlm.nih+1 Major Crops Protected Vegetables: Tomato (stem rot, damping off), cauliflower, eggplant, cucumber, peppers plantprotection+1 Field Crops: Rice (sheath blight), potato (black scurf), soybean, peas megbrdc Spice Crops: Turmeric and ginger (rhizome rot), black pepper megbrdc Fruits: Banana (wilt), strawberry (damping off) megbrdc Commercial Crops: Tea (collar rot), betel vine, onion megbrdc Diseases Controlled Soil-borne diseases: Root rot, collar rot, damping off, wilt diseases indogulfbioag+1 Fungal pathogens: Fusarium spp., Rhizoctonia solani, Pythium spp., Sclerotinia sclerotiorum plantprotection+1 Bacterial diseases: Some bacterial wilt and blight conditions megbrdc How long does Trichoderma viride remain active in soil? Trichoderma viride establishes long-term colonization in soil ecosystems, with activity lasting several months under favorable conditions. The fungus multiplies naturally in soil using organic matter as food source, with populations maintained through saprophytic growth between pathogen control activities. discuss.farmnest+1 Persistence Factors Moisture availability: Critical for sustained growth and activity megbrdc Organic matter: Higher organic content supports longer population maintenance discuss.farmnest Temperature: Optimal activity at 20-30°C extends survival duration pH conditions: Normal pH levels (6.0-8.0) support prolonged activity discuss.farmnest Reapplication Schedule: For sustained protection, apply 2-3 times annually at 3-4 month intervals, especially during active growing seasons. discuss.farmnest Can Trichoderma viride be combined with other inputs? Yes, Trichoderma viride shows excellent compatibility with various organic and biological inputs: indogulfbioag+1 Compatible Combinations Organic manures: Mix 1 kg Trichoderma with 10 kg farmyard manure for enhanced efficacy discuss.farmnest+1 Bacterial biocontrol agents: Compatible with Bacillus subtilis and Pseudomonas fluorescens indogulfbioag+1 Mycorrhizal fungi: Works synergistically with arbuscular mycorrhizae indogulfbioag Other Trichoderma species: Can be combined with T. harzianum for broader spectrum control indogulfbioag Avoid Mixing With Chemical fungicides: Maintain 4-5 day gap after Trichoderma application megbrdc Copper-based compounds: Can reduce fungal viability High-salt fertilizers: May inhibit spore germination What are the key benefits beyond disease control? Trichoderma viride provides multiple plant health benefits extending far beyond pathogen control: plantprotection+1 Plant Growth Enhancement Root system development: Enhanced root mass and branching patterns plantprotection Nutrient uptake: Improved phosphate solubilization and nitrogen availability plantprotection Stress tolerance: Increased resistance to drought, salinity, and temperature stress Yield improvement: Field studies show significant increases in crop productivity plantprotection Soil Health Benefits Microbial diversity: Promotes beneficial soil microbe populations mdpi Organic matter decomposition: Accelerates nutrient cycling processes Soil structure: Improves aggregation and water holding capacity pH buffering: Helps maintain optimal soil pH conditions Environmental Advantages Chemical reduction: Reduces dependency on synthetic fungicides indogulfbioag Residue-free: No harmful residues on crops or in soil indogulfbioag Sustainable: Supports long-term agricultural sustainability practices indogulfbioag What are optimal application conditions for maximum effectiveness? Environmental Conditions Soil moisture: Ensure adequate moisture before and after application - never apply to dry soil megbrdc Temperature: Apply during cooler periods (early morning/late evening) farmextensionmanager Season: Best results during active growing seasons with moderate temperatures Application Timing Preventive application: Most effective when applied before pathogen establishment farmextensionmanager Crop stage: Apply during transplanting, flowering, or early growth stages Disease pressure: Increase frequency during high disease pressure periods Success Factors Organic matter: Mix with compost or FYM to enhance establishment discuss.farmnest+1 pH management: Maintain soil pH between 6.0-8.0 for optimal activity discuss.farmnest Avoid stress: Don't expose treated materials to direct sunlight megbrdc Consistent moisture: Maintain soil moisture for sustained fungal activity megbrdc Sustainability Advantage Content coming soon! 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  • Mycorrhiza Powder Manufacturer & Exporter | Root Enhancers | Indogulf BioAg

    Boost root growth with our Mycorrhiza Powder. Top-quality, 100% organic, and certified. Ideal for vibrant plants. Trusted by thousands of satisfied customers. < Root Enhancers Mycorrhiza Powder Enhances root growth and nutrient absorption for healthier plants and improved soil structure. Ideal for mixing into soil or applying to roots and seeds. Product Enquiry Download Brochure Benefits Stress Resistance and Improved Crop Quality Mycorrhizae help plants overcome stress conditions like drought, diseases, and nutrient deficiencies, enhancing crop quality and yield. Improved Phosphate Uptake and Mobilization Mycorrhizae enhance the uptake and mobilization of phosphate across all crops, reducing the need for phosphorus fertilization. Enhanced Root Growth and Development Mycorrhizae improve plant root growth and development by forming symbiotic relationships with roots, increasing surface area for better water and nutrient absorption. Enhanced Nutrient Absorption and Translocation Mycorrhizae facilitate the absorption and translocation of essential nutrients such as nitrogen, potassium, iron, and others, improving plant nutrient utilization efficiency. Benefits Dosage & Application How it works FAQ Additional Info Dosage & Application For best results, mix 5–10 g of Mycorrhizae Fertilizer into the planting hole or root zone at transplanting. For seed treatment, coat seeds with 2 g per kilogram before sowing. Reapply Mycorrhiza Powder every 8–12 weeks during active growth. Additional Info Ideal for a Wide Range of Crops Mycorrhiza Powder is beneficial for a diverse array of plant life, including: Cereals, Millets, Pulses, Oilseeds, Fibre Crops, Sugar Crops, Forage Crops, Plantation crops, Vegetables, Fruits, Spices, Flowers, Medicinal crops, Aromatic Crops, Orchards, and Ornamentals. Compatibility Our Mycorrhizae Fertilizer is compatible with organic and conventional farming systems. It contains multiple strains of endomycorrhizal fungi proven to thrive in diverse soil types. Safe for all plant species, from vegetables and ornamentals to trees and turf. Shelf Life Stable within 1 year from the date of manufacturing when stored in a cool, dry place away from direct sunlight. Packing We offer tailor-made packaging solutions to meet the specific requirements of our customers, ensuring the product reaches you in optimal condition. Benefits Using our Mycorrhiza Powder as a Mycorrhizae Fertilizer delivers multiple advantages: Accelerated root development for faster establishment. Improved nutrient uptake, especially phosphorus and micronutrients. Enhanced drought tolerance and disease resistance. Better soil structure through increased aggregation and aeration. How it works What Is Mycorrhizae Fertilizer and How Does It Work? Mycorrhizae Fertilizer is a symbiotic blend of beneficial fungi that colonize plant roots to improve water and nutrient absorption. When you apply our Mycorrhiza Powder, these fungi form an extensive hyphal network, effectively expanding the root system’s reach. As a natural Mycorrhizae Fertilizer, it enhances phosphorus uptake, stimulates root branching, and helps plants resist environmental stresses. FAQ What plants need mycorrhizal fungi? Most vegetable, fruit, and ornamental species benefit, especially legumes, cereals, and woody ornamentals. Mycorrhizae form symbioses with over 80% of terrestrial plants. Can you use too much mycorrhizal? Excessive mycorrhizal inoculant rarely harms plants, but ideal rates ensure cost-effective colonization. Over-application may be wasteful without added benefit. What are the benefits of mycorrhizal fungi? They improve nutrient and water uptake, enhance disease resistance, reduce transplant shock, and foster long-term soil health by creating a living rhizosphere. Related Products Mycorrhiza Liquid More Products Resources Read all

  • Bradyrhizobium Japonicum Manufacturer & Exporter | Nitrogen Fixing Bacteria | Microbial Species | Indogulf BioA

    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. < Microbial 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… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Nitrogen Fixation Rhizobium japonicum forms a symbiotic relationship with leguminous plants, particularly soybeans, to fix atmospheric nitrogen into ammonium (NH₄⁺). This process significantly enhances soil fertility and supports plant growth by providing a sustainable source of nitrogen, crucial for protein synthesis and overall plant health Soil Improvement In addition to nitrogen fixation, R. japonicum improves soil structure and fertility over time by enriching it with bioavailable nitrogen and organic compounds. These contributions, facilitated by root exudates and nodulation, enhance nutrient cycling within the rhizosphere Nodulation This bacterium induces the formation of nodules on the roots of leguminous plants. Within these nodules, nitrogenase enzymes convert atmospheric nitrogen into usable forms, ensuring an optimal environment for nitrogen fixation Increased Crop Yield By supplying fixed nitrogen directly to the host plant, R. japonicum enhances crop yields, especially in nitrogen-depleted soils. The symbiotic relationship helps crops thrive in nutrient-poor environments, significantly reducing the need for synthetic fertilizers Dosage & Application Additional Info Scientific References Mode of Action Sustainability Advantage FAQ Scientific References Comprehensive genome analysis of Bradyrhizobium japonicum reveals key nif gene clusters enabling efficient nitrogen fixation in soybean nodules (J. Bacteriol., 2019). Field trials demonstrate inoculation with B. japonicum increases soybean yield by up to 25% and reduces synthetic N fertilizer requirements by 50% (Agron. J., 2021). Meta-analysis of legume–rhizobia symbioses confirms B. japonicum strains deliver superior nodulation, nitrogenase activity, and soil health improvements compared to fast-growing rhizobia (Soil Biol. Biochem., 2022). Mode of Action Bradyrhizobium japonicum infects soybean root hairs and induces cortical cell division, forming specialized root nodules where the nitrogenase enzyme complex converts atmospheric N₂ into NH₄⁺. The bacterium’s symbiotic genes (nodABC) synthesize lipochitooligosaccharide signals (Nod factors) that establish host specificity and trigger nodule organogenesis. Within nodules, B. japonicum regulates oxygen concentration via leghemoglobin to protect nitrogenase from inhibition while supplying fixed nitrogen to the plant in exchange for carbon substrates. 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: Coat 1 kg of seeds with a slurry mixture of 10 g of Bradyrhizobium Japonicum and 10 g of crude sugar in sufficient water. Dry the coated seeds in shade before sowing or broadcasting in the field. Seedling Treatment: Dip seedlings into a mixture of 100 grams of Bradyrhizobium Japonicum with sufficient water. Soil Treatment: Mix 3-5 kg per acre of Bradyrhizobium Japonicum with organic manure or fertilizers. Incorporate into the soil during planting or sowing. Irrigation: Mix 3 kg per acre of Bradyrhizobium Japonicum in water and apply through drip lines. FAQ What is the difference between Bradyrhizobium and Rhizobium? Bradyrhizobia are slow-growing, thermotolerant bacteria forming indeterminate nodules on soybean and other legumes, while fast-growing Rhizobium species form determinate nodules on beans and peas. What are the benefits of Bradyrhizobium japonicum? Enhances soybean nitrogen uptake, increases biomass and yield, reduces chemical fertilizer use, improves soil structure, and promotes beneficial microbial diversity in the rhizosphere. What is the use of Bradyrhizobium japonicum? Applied as a seed inoculant or soil amendment to establish effective symbiosis in soybean crops for biological nitrogen fixation and sustainable yield improvement. Sustainability Advantage Content coming soon! 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  • Biofertilizers - Manufacturer & Exporter | Indogulf BioAg

    Beneficial bacteria and fungi promote plant growth through multiple, well-documented physiological and biochemical mechanisms. These microorganisms interact with plant roots and the surrounding rhizosphere to enhance nutrient acquisition, stimulate growth, and improve resilience against stress and disease. Biofertilizers Optimized Microbial Power for Sustainable Crop Nutrition Beneficial bacteria and fungi promote plant growth through multiple, well-documented physiological and biochemical mechanisms. These microorganisms interact with plant roots and the surrounding rhizosphere to enhance nutrient acquisition, stimulate growth, and improve resilience against stress and disease. Contact us Microbial Mechanisms That Power Plant Growth Phosphate Solubilization & Mineralization Process: Microbes solubilize inorganic phosphate (e.g. tricalcium phosphate) via secretion of low molecular weight organic acids (citric, gluconic) and enzymatic hydrolysis of organic P compounds. Bacteria: Bacillus megaterium , Pseudomonas putida Fungi: Penicillium bilaii , Aspergillus niger Benefit: Increases phosphorus bioavailability, particularly in high pH or phosphorus-fixing soils. All Arbuscular Mycorrhizal Fungi (AMF) Symbiosis Biocontrol & Induced Systemic Resistance (ISR) Biological Nitrogen Fixation Phosphate Solubilization & Mineralization Phytohormone Biosynthesis Siderophore Production for Iron Mobilization Soil Structure & Rhizosphere Engineering Stress Alleviation via ACC Deaminase Combined Effects Together, these microbial functions enhance: Nutrient use efficiency (NUE) Crop yield and quality Abiotic stress resilience Biotic stress suppression Soil health and regeneration Interested in a functional blend tailored to your crops and soils? Contact us for a field-proven microbial formulation aligned with your agronomic objectives. IndoGulf BioAg’s biofertilizer range includes nitrogen-fixing bacteria, phosphate-solubilizing microbes, potassium-mobilizing strains, plant growth-promoting rhizobacteria (PGPR), as well as symbiotic mycorrhizal fungi. All products are backed by scientific research and field trials, ensuring consistent performance across diverse soils and climates. Farmers can apply our biofertilizers via seed coating, soil drench, or fertigation, seamlessly integrating into existing cultivation practices for improved fertility and reduced chemical input. Improved Soil Fertility Replenishes soil with natural nutrients and organic matter, enhancing long-term soil health and structure. Higher Yields Increases crop productivity by boosting nutrient uptake and stimulating stronger root and shoot development. Reduced Chemical Dependence Lowers the need for synthetic fertilizers and pesticides, cutting input costs and minimizing environmental runoff. Resilience & Growth Promotion Microbial partners produce vitamins and phytohormones (like auxins and gibberellins) that improve plant vigor and tolerance to stress (drought, pests). Eco-Friendly Farming 100% natural and safe for crops, soil, and beneficial insects – supporting sustainable and organic farming certifications. Segments We Focus on Natural, microbe-based solutions that boost nutrient availability, improve soil health, and support sustainable plant growth—without the need for synthetic inputs. Root Enhancers Strengthen your plants from the ground up with our root enhancers, promoting deep, resilient root systems for healthier growth and improved nutrient uptake. View Collection Soil Enhancers Our Soil Fertilizers are designed to replenish essential nutrients and enhance soil fertility, providing plants with the nourishment they need for vigorous growth and abundant yields. Formulated with premium-quality ingredients, including organic matter and micronutrients, our fertilizers promote soil health, improve soil structure, and support sustainable agriculture practices. View Collection Microbial Blends Restore soil vitality and promote plant resilience with our microbial blends, harnessing the power of diverse microorganisms to improve soil structure, nutrient availability, and disease suppression. View Collection Plant Protect Safeguard your crops naturally with our Plant Protection solutions, offering effective pest and disease management while minimizing environmental impact and preserving beneficial ecosystem balance. View Collection Crop Kits Simplify your farming experience with our comprehensive crop kits, including DATES PRO for organic growth elixirs, Insecta Repel for biological pest control, Rice Protect Kit for integrated pest and disease management, and BudMax Kit for optimized cannabis cultivation. Each kit is curated with everything you need for successful cultivation, empowering growers of all levels to achieve bountiful harvests with ease. View Collection Soil Conditioners Simplify your farming experience with our comprehensive crop kits. Each kit is curated with everything you need for successful cultivation, empowering growers of all levels to achieve bountiful harvests with ease. View Collection Contact us today to learn which microbial solution is best suited for your soil and crop needs. Contact us

  • About Indogulf BioAg | Biosolutions for Agriculture

    Agricultural Probiotics, Natural lawn fertilizers, Biological Inoculants, Mycorrhiza, biofertilizer, bio-fertilizer, nitrogen suppliers and manufacturers in USA & Canada. Harnessing Nature's Power for the Future IndoGulf BioAg is a biotechnology company specializing in microbial and nano-based solutions for agriculture, environmental remediation, nutraceuticals, and more. With over 100 proprietary and public domain strains, cutting-edge R&D, and global regulatory expertise, we develop and manufacture products that are effective, eco-friendly, and scientifically validated. Vision At Indogulf BioAg, we harness the power of the tiniest living creatures on our planet — microbes — to transform agriculture, restore soil vitality, and secure the future of global food production. We envision a future where biological innovations help us grow clean, nutritious food while preserving the integrity of our environment. Contact us Mission IndoGulf BioAg develops sustainable agricultural solutions by unlocking the power of microbial and enzymatic technologies. Through rigorous research and field-tested products, we: Enhance crop productivity and soil fertility without depleting natural resources. Build clean food production systems—from fermentation processes to on-farm waste valorization—that minimize chemical inputs and eliminate environmental pollutants. Partner with farmers, food processors, and research institutions to co-create scalable, cost-effective bio-based solutions. Champion circularity by converting agricultural and food-industry by-products into high-value biofertilizers and biostimulants, closing nutrient loops and reducing greenhouse gas emissions. Foster continuous innovation and knowledge transfer to accelerate the global transition toward regenerative, biology-driven agriculture. By applying the tiniest organisms to address soil degradation, water scarcity, and food safety, IndoGulf BioAg paves the way for a healthier, more equitable food system—one microbe at a time. What's New Our Sustainability Commitment At IndoGulf BioAg, sustainability is woven into everything we do. We are committed to: Eco-Friendly Innovation Developing microbial and nano-based technologies that reduce chemical inputs, lower greenhouse gas emissions, and protect biodiversity. Soil and Water Stewardship Enhancing soil fertility and microbial health while supporting cleaner water systems through bio-based solutions. Circular Solutions Utilizing waste-to-value approaches that repurpose organic waste streams into high-value bio-products. Climate Resilience Helping farmers adapt to climate challenges by promoting regenerative practices and resilient crop systems. Global Responsibility Ensuring our operations, partnerships, and supply chains align with sustainable development goals (SDGs) and support long-term environmental and social well-being. Ensuring Quality, and Global Compliance At IndoGulf BioAg, our commitment to quality, safety, and sustainability is reflected in the certifications we hold across our operations and products. These globally recognized standards validate our manufacturing excellence, environmental responsibility, and regulatory compliance. A globally recognized food safety standard that ensures our manufacturing processes meet the highest levels of control, hygiene, and risk management across the entire production chain. Confirms that our facilities operate under strict global standards for cleanliness, documentation, process control, and product safety. Demonstrates our commitment to reliable processes, continuous improvement, and consistent product quality aligned with international best practices. A preventive system that identifies and controls potential hazards in production, ensuring safe, consistent, and compliant products at every critical step. An internationally recognized certification confirming that our products adhere to ecological, organic, and environmentally responsible standards. Indicates that our products are compliant for use in certified organic farming under USDA NOP regulations. A preventive system that identifies and controls potential hazards in production, ensuring safe, consistent, and compliant products at every critical step. 82% An internationally recognized certification confirming that our products adhere to ecological, organic, and environmentally responsible standards. Indicates that our products are compliant for use in certified organic farming under USDA NOP regulations. Transforming agricultural landscapes with microbial technology. Our Brands

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