Neem Extracts are extracts from the collected leaves and seeds of an evergreen tree Azadirachta indica. Manufacturer & Exporter in USA.. For more info visit our website! < Microbial Species Antifeedant Antifeedants are natural or synthetic substances that deter pests from feeding on plants by making the plants unpalatable or toxic to them, thus effectively protecting crops from damage. Product Enquiry What Why How FAQ What it is Antifeedants are natural or synthetic compounds that deter feeding behavior in herbivorous insects, pests, or animals. These compounds act as feeding inhibitors by altering the taste, smell, or texture of plants or food sources, thereby discouraging pests from consuming them. Antifeedants offer a non-toxic and environmentally friendly approach to pest management, reducing the need for chemical pesticides and promoting sustainable agricultural practices. Why is it important Reduced Crop Damage : Anti-feedants deter pests from feeding on crops, reducing damage caused by herbivorous insects and minimizing yield losses. Environmentally Safe : Anti-feedants are typically non-toxic to humans, beneficial insects, and non-target organisms, making them suitable for use in integrated pest management (IPM) programs. Resistance Management : Anti-feedants employ multiple modes of action against pests, reducing the likelihood of resistance development and offering a sustainable long-term solution for pest control. How it works Antifeedants control pests through various mechanisms: Chemical Deterrents : Some antifeedants contain bitter-tasting compounds, toxic substances, or repellent chemicals that deter pests from feeding on treated plants. Phytochemicals : Plants produce secondary metabolites such as alkaloids, terpenoids, or phenolics that act as natural antifeedants, protecting them from herbivory. Mechanical Barriers : Antifeedants can create physical barriers or modify plant surfaces to make them unpalatable or difficult for pests to feed on. Behavioral Disruption : Antifeedants can disrupt feeding behavior or feeding patterns in pests, preventing them from locating or recognizing suitable food sources. Integrated Pest Management Strategies Antifeedants are often integrated into holistic pest management strategies, which may include cultural practices such as crop rotation, intercropping, and sanitation, as well as biological control methods such as the release of natural enemies or the use of pheromones. This integrated approach maximizes the efficacy of antifeedants while minimizing environmental risks and promoting sustainable pest management practices. FAQ Content coming soon! Antifeedant Our Products Explore our range of premium Antifeedant products tailored to meet your agricultural needs, deterring pests and minimizing crop damage by reducing feeding activity. Neem Extracts from Azadirachta Indica Tree Neem extracts from Azadirachta indica contain Azadirachtin, toxic to pests, acting as antifeedant, repellent, and sterilizer. Organic gardeners use it for pest control. View Species 1 1 ... 1 ... 1 Resources Read all

Discover Humistar soil conditioner from Indogulf BioAg. Enhance soil health with our 100% organic, eco-friendly formula. Trusted globally for quality and results. < Soil Conditioners Humistar Derived from lignite as the potassium salt of humic acid, it enhances soil structure and nutrient retention, supporting improved plant growth and yield. Product Enquiry Download Brochure Benefits Increases Nutrient Absorption Improves nutrient absorption by plants, ensuring efficient uptake of essential minerals for healthier growth and improved yield. Improves Soil Structure Enhances soil structure and aggregate stability, promoting better water retention and root development. Stimulates Beneficial Microbial Activity Stimulates beneficial microbial activity in the soil, enhancing nutrient cycling and promoting overall soil health. Enhances Crop Resilience Improves crop resilience against drought, cold, and diseases, helping plants withstand adverse environmental conditions. Composition Dosage & Application Additional Info Dosage & Application Biostimulant production: Seaweed Fertilizer Granules contain growth-promoting biostimulants like auxins, cytokinins, gibberellins, betaines, biologically activated nutrients, and hydrolyzed protein complexes. These components aid in plant cell division, promoting plant growth and tillering Additional Info 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 Related Products Aminos Fulvic Acid Seaweed More Products Resources Read all

Leading Manufacturer & Exporter of Rice Hispa Protection Kit, providing effective solutions to safeguard rice crops from Hispa damage. Quality you can trust. < Crop Kits Insect Pest Management | Rice Hispa Rice Hispa beetles feed on rice leaves, creating characteristic white streaks due to their feeding activity. Severe infestations can lead to extensive leaf damage, reducing photosynthetic efficiency and impacting plant growth and yield. Effective insect pest management strategies are necessary to control Rice Hispa populations and mitigate crop damage. Product Enquiry Download Brochure Management Biological Control Additional Info Management Check up at the nursery stage. Clip affected leaves to prevent carryover of grub populations. Remove weeds from nearby fields, which serve as alternate hosts for the pest. Biological Control Our RICEPROTEC 0.03% 300 ppm at 2 L per acre by diluting in 200 L of water using a high-volume power sprayer. Chemical Control Dip the seedlings in Chlorpyriphos (0.02%) for 30 minutes before transplanting. Apply Carbofuran 3G @ 20-25 kg per hectare at 20 to 40 days after transplanting. If pests appear, spray the crop with the same chemicals as per the spray schedule under stem borers. Additional Info 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 litre bottle Disease Management Bacterial Blight Blast Brown Spot Sheath Blight Udbatta Disease Insect Pest Management Army Worms Case Worm Gundhi Bug Leaf Folders Plant Hopper Rice Hispa Root Knot Nematodes Stem Borers Resources Read all

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. < Microbial Species Gluconacetobacter diazotrophicus Gluconacetobacter diazotrophicus is a plant-beneficial bacterium widely utilized in agriculture, particularly in association with sugarcane and other crops. It promotes plant growth and productivity by… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Stress Tolerance Gluconacetobacter diazotrophicus synthesizes stress-protective compounds like osmoprotectants and antioxidants, helping plants tolerate various stresses like drought and salinity. Enhanced Plant Growth It promotes plant growth through the production of plant growth-promoting substances such as auxins and gibberellins, stimulating root and shoot development. Nitrogen Fixation Gluconacetobacter diazotrophicus fixes atmospheric nitrogen into ammonia, providing a direct nitrogen source to the host plant, which enhances plant growth and reduces fertilizer dependency. Biofertilizer It serves as a biofertilizer, enhancing soil fertility and nutrient availability by solubilizing phosphates and other minerals, improving overall soil health. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Gluconacetobacter diazotrophicus has been extensively studied with over 200 research publications demonstrating its nitrogen fixation capabilities, plant growth promotion effects, and successful application in various crops including sugarcane, rice, tomato, and maize. frontiersin+2 "Gluconacetobacter diazotrophicus: A Model for Plant Growth Promotion" URL: https://pubmed.ncbi.nlm.nih.gov/10066818/ "Biological nitrogen fixation in sugarcane by Gluconacetobacter diazotrophicus" URL: https://www.sciencedirect.com/science/article/pii/S0925521409002299 "Genomic insights into nitrogen fixation and plant association of Gluconacetobacter diazotrophicus PA1 5" URL: https://www.frontiersin.org/articles/10.3389/fmicb.2014.00093/full "The Methylotrophic, Nitrogen-Fixing Bacterium Gluconacetobacter diazotrophicus Interacts with the Endophytic Environment of Sugarcane" URL: https://journals.asm.org/doi/10.1128/aem.63.11.4661-4667.1997 "Plant Growth Promotion and Biocontrol Activity of Gluconacetobacter diazotrophicus Isolated from Sugarcane" URL: https://www.scielo.br/j/bjm/a/ZjvjFSHRz6YcFtzQ9CvFhmG/?lang=en Mode of Action Biological Nitrogen Fixation : Utilizes the nitrogenase enzyme complex (NifDK) to convert atmospheric nitrogen into ammonia under microaerobic conditions, with protective mechanisms including CowN protein that prevents carbon monoxide inhibition and upregulated antioxidant pathways to control reactive oxygen species. faseb.onlinelibrary.wiley+4 Plant Growth Promotion : Produces indole-3-acetic acid (IAA) through the indole pyruvate pathway, synthesizes gibberellins A1 and A3, and solubilizes insoluble phosphates through gluconic acid production via pyrroloquinoline quinone-linked glucose dehydrogenase activity. academicjournals+4 Endophytic Colonization : Establishes in plant apoplastic spaces through root emergence sites, root hairs, and root tips without forming nodules, allowing direct nutrient transfer to host plants while activating plant defense mechanisms against pathogens. ( pmc.ncbi.nlm.nih+2 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 Treatment: Prepare a mixture of 2.5 kg of Gluconacetobacter Diazotrophicus with 200 liters of water and soak seeds for 30 minutes before planting. Do not store treated seeds for more than an hour. Soil Treatment: Mix 3-5 kg per acre of Gluconacetobacter Diazotrophicus with organic manure or fertilizers. Incorporate into the soil during planting or sowing. Irrigation: Mix 3 kg per acre of Gluconacetobacter Diazotrophicus in water and apply through drip lines. FAQ What is the use of Gluconacetobacter diazotrophicus? Primary uses include biological nitrogen fixation (reducing fertilizer dependency by up to 50%), plant growth promotion through hormone production, phosphate solubilization, and enhancing plant stress tolerance under drought and nutrient-limited conditions. ( pubmed.ncbi.nlm.nih+2 ) What are the benefits of Gluconacetobacter diazotrophicus? Key benefits include increased plant biomass (up to 92% dry weight increase), enhanced root and shoot development, improved nitrogen uptake efficiency, phosphate availability enhancement, production of growth-promoting hormones (auxins, gibberellins), and activation of plant defense responses against pathogens. ( journalijpss+3 ) Why is Gluconacetobacter diazotrophicus preferred for inoculating sugarcane? Originally discovered in Brazilian sugarcane, it naturally colonizes sugarcane tissues as an endophyte, demonstrates high compatibility with sugarcane physiology, can provide up to 80% of plant nitrogen requirements through biological fixation, and has proven effectiveness in increasing sugarcane yield and reducing fertilizer costs in field trials. ( link .springer+3 ) Related Products Acetobacter xylinum Azospirillum brasilense Azospirillum lipoferum Azospirillum spp. Azotobacter vinelandii Beijerinckia indica Bradyrhizobium elkanii Bradyrhizobium japonicum More Products Resources Read all

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 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 Related Products Ampelomyces quisqualis Bacillus subtilis Bacillus tequilensis Chaetomium cupreum Fusarium proliferatum Lactobacillus plantarum Pediococcus pentosaceus Pseudomonas spp. More Products Resources Read all

Bacillus Mycoides is a soil inoculant capable of solubilizing silica in the soil, making it available for plant utilization. By utilizing silica, it protects the plant against pathogens and environmental stressors. < Microbial Species Bacillus mycoides Bacillus Mycoides is a soil inoculant capable of solubilizing silica in the soil, making it available for plant utilization. By utilizing silica, it protects the… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Pathogen Protection By utilizing an efficient amount of silica, Bacillus Mycoides helps fortify plant defenses against pathogens. Stress Resistance Bacillus Mycoides aids plants in coping with various environmental stressors, enhancing plant resilience to drought conditions. Improved Plant Recovery When plants are under stress, Bacillus Mycoides promotes faster recovery and growth, ensuring quicker recuperation from adverse conditions. Enhanced Soil Silica Utilization Bacillus Mycoides effectively solubilizes silica content in the soil, making it readily available for plant uptake. 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 Dressing 1kg Wettable Powder: 10g Bacillus Mycoides + 10g crude sugar Soluble Powder: 1g Bacillus Mycoides + 10g crude sugar Seed Dressing Method Mix Bacillus Mycoides 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 Mycoides solution for more than 24 hours after mixing it in water. FAQ Content coming soon! Related Products Bacillus spp. More Products Resources Read all

Probiotics are live microorganisms, primarily bacteria and yeast, that confer health benefits when consumed in adequate amounts. They are found in various foods and supplements and are known for their positive effects on the gut microbiome. < Microbial Species Probiotics We provide diverse bacterial and yeast probiotic strains sourced from natural habitats. Available in individual forms or ready-to-fill blends, our probiotics range from 5 billion to 200 billion CFU/g, supporting gut health for humans and animals. Product Enquiry What Why How FAQ What it is Probiotics are live microorganisms, primarily beneficial bacteria and yeast, that provide health benefits when consumed in adequate amounts. They are often referred to as "good" or "friendly" bacteria due to their role in maintaining a balanced gut microbiome. Probiotics can be found in a variety of foods, such as yogurt, kefir, sauerkraut, and kimchi, as well as in dietary supplements. These microorganisms work by colonizing the intestines, competing with harmful bacteria, and producing substances that inhibit the growth of pathogens. There are many different strains of probiotics, each with unique properties and benefits. Common strains include Lactobacillus and Bifidobacterium , which are known for their effectiveness in promoting digestive health and enhancing immune function. Why is it important Gut Health : Probiotics help maintain a balanced gut microbiome, which is crucial for proper digestion and nutrient absorption. Immune Support : They enhance immune function by promoting the growth of beneficial gut bacteria and inhibiting harmful pathogens. Animal Health : In animals, probiotics improve digestion, enhance nutrient absorption, and can reduce the incidence of gastrointestinal disorders. Mental Well-being : Emerging research suggests a connection between gut health and mental health, indicating probiotics may help alleviate symptoms of anxiety and depression. How it works Colonization : Probiotics adhere to the intestinal lining, where they multiply and establish a healthy microbial environment. Competition : By occupying space and resources, probiotics compete with harmful bacteria, reducing their ability to thrive and cause disease. Metabolite Production : Probiotics produce beneficial compounds, such as short-chain fatty acids (SCFAs), which nourish gut cells and promote a healthy gut barrier. Immune Modulation : Probiotics stimulate the production of immune cells and antibodies, enhancing the body's defense mechanisms against infections. FAQ Content coming soon! Probiotics Our Products Explore our premium Probiotics designed to enhance gut health and immunity for both humans and animals, promoting overall well-being and vitality through effective microbial balance. Bifidobacterium animalis Bifidobacterium animalis supports gut health, aids digestion, and boosts immunity, promoting a balanced intestinal flora for optimal digestive wellness. View Species Bifidobacterium bifidum Bifidobacterium bifidum supports digestive health and helps maintain a balanced gut microbiota for optimal digestion and nutrient absorption. View Species Bifidobacterium breve Bifidobacterium breve aids in digestion, enhances immune function, and promotes gut health in infants and children, ensuring healthy growth and development. View Species Bifidobacterium infantis Bifidobacterium infantis plays a vital role in digestion and helps establish a healthy gut environment, especially in infants during early development. View Species Bifidobacterium longum Bifidobacterium longum supports gut health, aids digestion, and helps reduce inflammation in the intestines, contributing to overall wellness. View Species Clostridium butyricum Clostridium butyricum produces butyrate, which nourishes colon cells, enhances gut barrier function, and supports overall gut health and metabolism. View Species Lactobacillus acidophilus Lactobacillus acidophilus helps digest lactose, improves gut health, and boosts the immune system, supporting overall digestive wellness. View Species Lactobacillus bulgaricus Lactobacillus bulgaricus aids in lactose digestion, promotes gut health, and is commonly used in yogurt production for probiotic benefits. View Species Lactobacillus casei Lactobacillus casei supports digestive health, enhances immune function, and helps balance gut flora, contributing to a healthy digestive tract. View Species Lactobacillus fermentum Lactobacillus fermentum aids in digestion, supports immune health, and has antioxidant properties that benefit gut health and overall well-being. View Species Lactobacillus gasseri Lactobacillus gasseri promotes gut health, supports weight management, and aids in digestion, helping maintain a healthy weight for optimal overall wellness. View Species Lactobacillus helveticus Lactobacillus helveticus helps improve digestion, boosts immune health, and may reduce anxiety and stress through its calming effects. View Species Lactobacillus johnsonii Lactobacillus johnsonii enhances gut health, supports immune function, and helps maintain a balanced intestinal microbiota for optimal health. View Species Lactobacillus lactis Lactobacillus lactis promotes gut health, aids in digestion, and enhances immune responses, supporting overall gastrointestinal health. View Species Lactobacillus paracasei Lactobacillus paracasei supports immune function, aids digestion, and helps maintain a balanced gut microbiome for improved gut health. View Species Lactobacillus reuteri Lactobacillus reuteri promotes digestive health, supports immune function, and may reduce colic in infants, improving overall comfort. View Species Lactobacillus rhamnosus Lactobacillus rhamnosus supports gut health, enhances immune function, and helps prevent gastrointestinal infections for better digestive health. View Species Lactococcus lactis Lactococcus lactis aids in dairy fermentation, supports gut health, and enhances immune responses, contributing to a balanced gut flora. View Species 1 2 1 ... 1 2 ... 2 Resources Read all

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. < Microbial Species Azotobacter vinelandii An important bacterium in agriculture for its role in the nitrogen cycle, Azotobacter vinelandii helps in enriching soil nitrogen content, which is vital for the… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Biocontrol Activity It exhibits biocontrol activity against various plant pathogens, thereby reducing disease incidence and promoting healthier plant growth. Production of Growth-Promoting Substances It produces growth-promoting substances such as vitamins, auxins, and gibberellins, which stimulate plant growth and development. Nitrogen Fixation Azotobacter vinelandii converts atmospheric nitrogen into ammonia, which is readily available for plant uptake, thereby enhancing plant growth and reducing the need for nitrogen fertilizers. Phosphate Solubilization Azotobacter vinelandii solubilizes insoluble phosphates in the soil, making phosphorus more accessible to plants, thereby improving their nutrient uptake and growth. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Azotobacter vinelandii strains demonstrate high nitrogenase activity, promoting growth in rice through enhanced nitrogen availability and phytohormone production (Christiana et al., 2023). Field applications of A. vinelandii significantly increased rice yield and promoted root development due to IAA and GA₃ production (Sahoo et al., 2013). Transgenic A. vinelandii expressing glucose dehydrogenase showed improved mineral phosphate solubilization and sorghum seedling growth (Sashidhar & Podile, 2009). Native A. vinelandii strains exhibited strong phosphate solubilization under varying environmental conditions, making them ideal for biofertilizer formulations (Nosrati et al., 2014) . A. vinelandii improves drought tolerance in rice by boosting root system development, antioxidant activity, and photosynthetic capacity under stress (Pradhan et al., 2018) . Isolates were found tolerant to high salinity, temperature extremes, and pH variations, supporting their application in diverse agro-ecological zones (Chennappa et al., 2016) . A. vinelandii and related species produce antifungal metabolites, siderophores, and hydrogen cyanide that inhibit pathogens like Fusarium and Alternaria (Gurikar et al., 2016) . Mode of Action 1. Biological Nitrogen Fixation (BNF): A. vinelandii harbors three types of nitrogenases (molybdenum-, vanadium-, and iron-only dependent), allowing it to fix atmospheric nitrogen under varying environmental conditions. It converts inert atmospheric nitrogen (N₂) into ammonium (NH₄⁺), a plant-available form, thus supplementing soil nitrogen levels. 2. Phosphate Solubilization: Releases organic acids (e.g., gluconic, citric acids) which chelate bound phosphates, converting them into soluble forms that are easily absorbed by plant roots. This enhances phosphorus availability, a key limiting nutrient in many soils. 3. Phytohormone Production: Synthesizes plant growth-promoting substances such as: Auxins: Stimulate lateral root development. Gibberellins: Promote shoot elongation and seed germination. Cytokinins: Encourage cell division and leaf expansion. 4. Biocontrol Properties: Produces siderophores that chelate iron, limiting its availability to pathogenic microbes, and secretes antifungal compounds that inhibit common soil-borne pathogens such as Fusarium oxysporum and Sclerotium rolfsii . 5. Stress Tolerance Mechanism: Enhances plant resilience to abiotic stresses through: Increased antioxidant enzyme activity (e.g., SOD, CAT, POD). Exopolysaccharide (EPS) production for moisture retention and root protection. Improvement in photosynthetic efficiency and nutrient uptake under drought and heavy metal stress. Additional Info Storage Conditions: Store in a cool (5–25°C), dry place away from direct sunlight. Do not freeze. Keep container tightly sealed after use. Shelf Life: When stored under recommended conditions, the product remains viable for up to 12 months. Soil pH Compatibility: Functions best in neutral to slightly alkaline soils (pH 6.8–8.0). In acidic soils, pre-application of lime or incorporation of organic matter may improve efficacy. Crop Compatibility: Suitable for a broad spectrum of crops including cereals, legumes, vegetables, oilseeds, and plantation crops. Input Integration: Compatible with organic fertilizers, bio-composts, and other microbial inoculants. Avoid co-application with chemical pesticides unless verified safe. Dosage & Application Seed Coating/Seed Treatment: Coat 1 kg of seeds with a slurry mixture of 10 g of Azotobacter Vinelandii 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 Azotobacter Vinelandii with sufficient water. Soil Treatment: Mix 3-5 kg per acre of Azotobacter Vinelandii with organic manure or fertilizers. Incorporate into the soil during planting or sowing. Irrigation: Mix 3 kg per acre of Azotobacter Vinelandii in water and apply through drip lines. FAQ Can Azotobacter vinelandii completely replace chemical nitrogen fertilizers? While it significantly reduces nitrogen fertilizer requirements, best results are obtained when integrated with reduced or organic nitrogen sources as part of an integrated nutrient management (INM) strategy. In which types of soil does it perform best? It is most effective in well-drained, neutral to slightly alkaline soils. In acidic or saline soils, performance may improve with amendments such as lime, gypsum, or organic matter. Can it protect against plant diseases? Yes. A. vinelandii suppresses soil-borne pathogens through the production of siderophores, hydrogen cyanide, and antifungal compounds, providing a natural disease defense mechanism. How does it help crops during drought conditions? By enhancing root growth and activating antioxidant defense pathways, it increases water-use efficiency and protects plant cells from oxidative damage, improving overall drought tolerance. What is the recommended timing and frequency of application? Initial application should coincide with sowing or transplanting. For high-value or long-duration crops, repeat applications via drip or foliar spray may be carried out every 30–45 days to maintain microbial populations. Is it safe for the environment and human health? Yes. A. vinelandii is a naturally occurring, non-pathogenic bacterium that poses no known risk to humans, animals, or the environment. It aligns with global principles of organic and regenerative agriculture. Related Products Acetobacter xylinum Azospirillum brasilense Azospirillum lipoferum Azospirillum spp. Beijerinckia indica Bradyrhizobium elkanii Bradyrhizobium japonicum Gluconacetobacter diazotrophicus More Products Resources Read all

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< Crop Kits Gundhi Bug Gundhi bugs suck plant sap, causing yellowing and stunted growth. Effective management is crucial to prevent significant yield loss. Product Enquiry Download Brochure Benefits Composition Dosage & Application Additional Info Dosage & Application Additional Info Related Products Aminomax SP Annomax BioProtek Biocupe Neem Plus Seed Protek Silicomax Dates Pro More Products Resources Read all