Rhizophagus intraradices (previously Glomus intraradices) is an arbuscular mycorrhizal fungus used in agriculture, that improves root structure enhances plant nutrient uptake, especially phosphorus, improving plant growth, stress resilience, and soil health in sustainable agriculture. < Microbial Species Rhizophagus Intraradices Rhizophagus intraradices (previously Glomus intraradices) is an arbuscular mycorrhizal fungus used in agriculture, that improves root structure enhances plant nutrient uptake, especially phosphorus, improving plant… Show More Strength 245 Active Spores per gram Product Enquiry Download Brochure Benefits Improved Soil Health Hyphal networks bind soil particles, promoting soil structure, aeration, and moisture retention, creating healthier, more resilient environments for plant roots. Reduced Fertilizer Dependence Improved nutrient efficiency allows plants to thrive with less fertilizer, supporting sustainable farming practices and decreasing potential soil and water pollution. Increased Drought Resistance Extending root surface area boosts water absorption, helping plants endure drought conditions, enhancing resilience, and reducing water stress. Enhanced Nutrient Uptake Improves nutrient access, especially phosphorus, by forming hyphal networks that extend beyond plant roots, increasing nutrient availability and uptake. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Improves growth and phosphorus uptake in contaminated soil Inoculation with R. intraradices significantly enhanced soybean growth, phosphorus uptake, and grain yield even in heavy metal-contaminated soils ( Adeyemi et al., 2021 ). Broad agricultural benefits and soil health contributions A comprehensive review highlighted the species' roles in nutrient cycling, improved water retention, glomalin production, and overall support for sustainable agriculture ( Onyeaka et al., 2024 ). Enhanced nutrient uptake and microbial community structure Field experiments with maize showed that R. intraradices increased phosphorus and nitrogen uptake, biomass, and improved soil microbial biomass when combined with earthworms ( Li et al., 2013 ). Remediation and soil improvement in polluted environments Combining R. intraradices with Solanum nigrum improved cadmium retention in roots, boosted soil enzyme activity, and enhanced microbial diversity under heavy metal stress ( Wang et al., 2025 ). Improved drought tolerance and antioxidant activity Inoculated finger millet seedlings showed improved phosphorus uptake, chlorophyll content, and stress tolerance indicators such as higher antioxidant levels and reduced oxidative damage (Tyagi et al., 2021) . Mode of Action 1. Host Recognition and Root Colonization Rhizophagus intraradices , a species of arbuscular mycorrhizal fungus (AMF) in the phylum Glomeromycota , initiates symbiosis through a sophisticated chemical signaling exchange with host plants. Root exudates, particularly strigolactones , trigger spore germination and hyphal branching. In response, R. intraradices produces Myc-LCOs (Mycorrhizal lipochitooligosaccharides) , which activate host plant receptors and initiate symbiotic signaling pathways via the common symbiosis signaling pathway (CSSP) . Once recognition is achieved, the fungus penetrates the root epidermis and cortex via appressoria , establishing intraradical colonization . Within cortical cells, it forms arbuscules , finely branched hyphal structures that serve as the interface for bi-directional nutrient exchange. In some host species, vesicles are also formed, acting as lipid-rich storage and reproductive structures. Source : Kumar, Sanjeev. (2018). In vitro cultivation of AMF using Root Organ Culture: factory of biofertilizers and secondary metabolites production. 2. Nutrient Foraging and Transfer The most direct agronomic benefit of R. intraradices lies in its capacity to enhance nutrient acquisition: The fungus develops an extensive extraradical hyphal network that significantly increases the absorptive surface area of the root system, accessing nutrients beyond the rhizosphere depletion zone . Key nutrients mobilized include phosphorus (Pi) , zinc (Zn) , copper (Cu) , and other micronutrients, often bound in forms that are otherwise unavailable to plants. High-affinity phosphate transporters (e.g., GintPT ) in fungal hyphae facilitate Pi uptake, which is then translocated via the fungal cytoskeleton to the arbuscules. Inside the arbuscule interface, nutrient exchange occurs via a periarbuscular membrane , where plant Pi and metal transporters (e.g., PT4 ) retrieve the nutrients. In return, the plant supplies the fungus with photosynthetically derived carbon , mainly in the form of hexoses , transported through plant sugar transporters , supporting fungal metabolism and reproduction. Khan, Yaseen, Sulaiman Shah, and Tian Hui. 2022. " The Roles of Arbuscular Mycorrhizal Fungi in Influencing Plant Nutrients, Photosynthesis, and Metabolites of Cereal Crops—A Review" Agronomy 12, no. 9: 2191. 3. Abiotic Stress Alleviation R. intraradices significantly modulates plant physiological responses under abiotic stress conditions: Enhances water acquisition through extended hyphal reach and improved root hydraulic conductivity. Increases osmoprotectant synthesis , including proline , glycine betaine , and soluble sugars , aiding in osmotic adjustment under drought and salinity stress. Activates antioxidant enzyme systems , including superoxide dismutase (SOD) , catalase (CAT) , and ascorbate peroxidase (APX) , reducing oxidative damage from ROS generated during stress. Influences the synthesis and signaling of phytohormones such as abscisic acid (ABA) , jasmonic acid (JA) , salicylic acid (SA) , and auxins , which regulate stress adaptation, stomatal closure, and root architecture. 4. Soil Aggregation and Health The extraradical hyphae of R. intraradices play a critical role in soil structure and fertility : Secrete glomalin-related soil proteins (GRSPs) that stabilize soil aggregates by binding mineral particles and organic matter. Improve soil porosity , water infiltration , and bulk density , contributing to enhanced root penetration and aeration. Support carbon sequestration by promoting stable soil organic carbon pools. Increase microbial biomass and enzymatic activity, such as phosphatases , ureases , and dehydrogenases , which further enhance nutrient cycling and microbial community function. 5. Biotic Stress Resistance and Pathogen Suppression R. intraradices contributes to plant immunity and disease resistance through several pathways: Competes with soil pathogens for space and resources in the rhizosphere and root cortex. Activates induced systemic resistance (ISR) via jasmonate and ethylene signaling pathways, enhancing the plant’s defense readiness. Alters rhizosphere microbiome composition , often increasing populations of beneficial microorganisms (e.g., Pseudomonas , Trichoderma ) that further antagonize pathogens. Reduces the translocation of heavy metals and xenobiotics to aerial parts, providing a protective buffer in contaminated soils. 6. Ecological and Agronomic Integration In sustainable agriculture, R. intraradices is increasingly applied as a bioinoculant , either alone or in combination with other beneficial microbes. Its efficacy depends on: Soil conditions (pH, organic matter, nutrient availability) Host plant genotype and mycorrhizal compatibility Co-inoculation strategies (e.g., with nitrogen-fixing bacteria like Azospirillum brasilense ) Reduction in synthetic fertilizer inputs, which can suppress AMF colonization when in excess Additional Info Product Specifications Strength: customisable Formulation: customisable Purity: High-quality inoculum with verified spore viability Storage and Handling Store in a cool, dry place away from direct sunlight and extreme temperatures. Optimal storage temperature is 4-25°C (39-77°F). Keep container tightly sealed when not in use. Shelf life is 12 months when stored properly. Avoid exposure to fungicides or excessive heat which may reduce spore viability. Best Practices Apply to moist soil for optimal spore germination Ensure direct contact between inoculant and plant roots Avoid over-fertilization, especially with phosphorus, which can suppress mycorrhizal colonization Combine with organic matter amendments to enhance fungal establishment Use within the same growing season after opening for maximum effectiveness Environmental Conditions R. intraradices thrives in well-aerated, slightly acidic to neutral soils (pH 5.5-7.0). The fungus is naturally adapted to diverse soil types and climatic conditions, making it suitable for global agricultural applications. Performance is optimized in soils with moderate organic matter content and adequate moisture. Safety Non-toxic and safe for humans, animals, and the environment. Certified for use in organic agriculture by various international certification bodies. Contains only naturally occurring beneficial fungi with no genetically modified organisms. Dosage & Application Application Rates for Different Agricultural Systems For Field Crops (Hectare-based application): Standard field application: 60 g per hectare High-intensity farming: Up to 100 g per hectare for optimal colonization Maize and cereal crops: 60–100 g/ha mixed with seed or applied at sowing Legume crops (soybean, chickpea, lentil): 60 g/ha, compatible with rhizobial inoculants Horticultural crops (vegetables, fruits): 30–50 g per hectare For Specialized Applications: Hydroponic systems: 1 g per plant or 580 propagules per liter applied via subirrigation Greenhouse nurseries and potting: 3 g per square meter of growing area Tissue culture and micropropagated plants: 0.5–1.0 g per seedling during hardening stage Cuttings and propagation material: 0.5 g per cutting at rooting medium Turf and ornamental applications: 50–100 g per 1000 m² Optimal Spore Density and Colonization Rates Research indicates that optimal inoculation requires a minimum threshold for effective colonization: Minimum effective spore density: 2–3 spores per seed or seedling for adequate colonization establishment Optimal spore density: 5–6 spores per seed results in superior root colonization rates (75–84%) and maximal plant vigor Application strength: The product contains 245 active spores per gram, ensuring consistent and reliable inoculum quality Colonization timeline: Initial root colonization typically occurs within 2–4 weeks; visible plant benefits manifest within 6–8 weeks; maximum benefits develop throughout the entire growing season Application Methods and Techniques Seed Treatment (Most Common) Mix R. intraradices inoculum with seeds immediately before sowing at a ratio of 60 g per hectare. Ensure uniform distribution for consistent field colonization. In-Furrow Application Apply 60 g per hectare directly into the planting furrow at sowing depth (5–8 cm). This method ensures close proximity of spores to germinating roots. Root Dip Method (Nurseries and Transplants) Suspend seedling roots in a slurry containing 3 g per square meter of growing area for 2–5 minutes before transplanting. This high-contact method accelerates colonization establishment. Subirrigation and Hydroponic Systems Dilute liquid inoculum (580 propagules/liter) in irrigation water and apply weekly through drip or subirrigation systems. Filter product to prevent emitter clogging. Soil Incorporation Mix inoculum into soil at 60 g per hectare 1–2 weeks before planting for field crops, allowing time for spore positioning. Foliar and Root Zone Drenching Apply via soil drenching at transplanting stage (10 mL per plant) for containerized crops and horticultural applications. Critical Application Considerations Phosphorus Management High soil phosphorus levels (>50 ppm) suppress AMF colonization and reduce symbiotic effectiveness. When using R. intraradices, reduce phosphorus fertilizer applications and rely on the fungus to mobilize existing soil phosphorus reserves. Combination treatments of R. intraradices + 50% recommended phosphorus consistently outperform full-dose phosphorus alone. Fungicide and Chemical Interactions Avoid fungicide applications for at least 2–4 weeks post-inoculation to prevent suppression of colonization. Systemic fungicides are particularly damaging to AMF establishment. Coordinate all pesticide applications with agronomist recommendations considering AMF symbiosis. Soil Preparation and Timing Inoculate into well-prepared, slightly acidic to neutral soils (pH 6.0–7.5). Avoid waterlogged conditions immediately post-inoculation. Ideal soil moisture should be 60–70% of field capacity. Compatibility with Other Microorganisms R. intraradices generally works synergistically with beneficial bacteria (Bacillus spp., Azospirillum spp.) and other AMF species. Co-inoculation often produces superior results to single-organism application. Storage and Handling Store product in cool, dry conditions (4–15°C) in sealed containers away from light. Do not expose to temperatures above 25°C or to direct sunlight. Use within 12–24 months of manufacture for optimal viability; maintain storage conditions to preserve spore viability and germination potential. FAQ What is the new name for Glomus intraradices? The fungus formerly known as Glomus intraradices has been officially reclassified as Rhizophagus intraradices based on comprehensive molecular phylogenetic analysis. This taxonomic change, implemented following the 2010 reclassification by Schüßler and Walker, reflects advances in DNA sequencing technology and ribosomal RNA gene analysis that revealed the original genus assignment was incorrect. The genus Rhizophagus is more accurately aligned with the evolutionary lineage and morphological characteristics of this species. The reclassification was formally anchored through the International Culture Collection of Vesicular Arbuscular Mycorrhizal Fungi (INVAM) culture FL208, which represents the type strain and nomenclatural authority for the species. Important Note: It is critical to distinguish between two distinct species within the Rhizophagus genus: Rhizophagus intraradices (formerly Glomus intraradices, strain FL208 and related isolates) Rhizophagus irregularis (formerly known as Glomus irregulare and historically confused with R. intraradices, particularly the DAOM197198 reference strain) While historically conflated, phylogenetic and molecular analyses now clearly demonstrate these are separate species with different colonization characteristics and agricultural performance profiles. What is the use of Glomus intraradices (Rhizophagus intraradices)? R. intraradices serves as a plant growth-promoting arbuscular mycorrhizal fungus with diverse agricultural, horticultural, and environmental applications: Sustainable intensification of cereal crops (maize, wheat, rice, sorghum) with reduced fertilizer dependency Improved legume performance (soybean, chickpea, lentil) complementing nitrogen-fixing rhizobia Enhanced tuber and root crop yields (potato, cassava, carrots) with superior nutrient uptake and stress tolerance Horticultural Applications Nursery production of high-quality transplants with accelerated growth and disease resistance Fruit crop establishment (citrus, mango, avocado, berry crops) with improved root development Ornamental plant production with superior vigor and stress resilience Vegetable production (tomato, pepper, cucumber) supporting both conventional and organic systems Environmental Remediation Phytoremediation of heavy metal-contaminated soils through enhanced metal uptake capacity and soil enzyme activity Restoration of degraded mining sites and contaminated agricultural lands Coal mining site revegetation and ecosystem recovery Support for pioneer plant species establishment in marginal and disturbed environments Sustainable Agriculture Intensification Reduction of synthetic fertilizer inputs by 25–50% while maintaining or improving yields Support for organic farming systems seeking certified biological inputs Climate-smart agriculture through enhanced carbon sequestration and drought resilience Integrated pest management via natural disease suppression mechanisms Specialized Applications Micropropagated plant hardening and acclimatization protocols Hydroponic and soilless cultivation systems for high-value crops Biofortification programs improving micronutrient density in staple food crops Effects of Rhizophagus intraradices on Crops Research has documented comprehensive beneficial effects across diverse crop species: Nutrient Uptake and Growth Promotion Phosphorus uptake: 50–130% increase in plant-available phosphorus, enabling 25–50% reduction in phosphate fertilizer Nitrogen acquisition: Enhanced nitrogen uptake through both direct root absorption and fungal-mediated pathways Micronutrient availability: Improved zinc, copper, iron, and manganese bioavailability particularly important in calcareous and alkaline soils Biomass accumulation: Increased shoot and root dry matter by 15–40% depending on soil fertility and environmental conditions Root System Development Enhanced lateral root initiation and root hair density Increased root diameter and improved soil penetration capability Expanded root surface area (up to 100-fold expansion through hyphal networks) Modified root architecture supporting improved nutrient and water acquisition Yield and Productivity Grain yield: 10–35% yield increases in cereals (maize, wheat, rice) particularly under limiting nutrient or water availability Legume productivity: 20–30% increases in soybean, chickpea yields with complementary rhizobial inoculation Tuber production: 14.5% yield increases in cassava in phosphorus-deficient soils Horticultural crops: 25–35% increases in fruit number and mass in pepper, tomato, strawberry Stress Tolerance Enhancement Drought resilience: Maintained photosynthetic efficiency and leaf water potential under moderate to severe drought; 20–25% greater biomass than non-inoculated plants under water stress Salt tolerance: Enhanced ion selectivity and osmolyte accumulation mitigating salinity stress effects Heavy metal mitigation: Enhanced phytoextraction and phytostabilization of cadmium, lead, and arsenic; reduced toxic ion accumulation in shoots Cold and temperature stress: Improved cellular cryoprotectant accumulation and membrane integrity maintenance Disease and Pest Suppression Root-knot nematode biocontrol: Reduced Meloidogyne graminicola populations and symptoms in rice through enhanced plant defense activation Soil-borne pathogen suppression: Reduced incidence of Fusarium, Rhizoctonia, and other fungal root pathogens through competitive exclusion and defense enhancement Pest susceptibility reduction: Western corn rootworm larvae show reduced fitness on R. intraradices-colonized maize, facilitating biological pest control Soil Quality and Long-term Sustainability Soil aggregation: Enhanced water-stable aggregate formation improving soil structure and workability Organic matter stabilization: Glomalin accumulation supports 10–20-year soil organic matter persistence Microbial community enhancement: Increased beneficial soil microbial diversity and activity Carbon sequestration: Contribution to global carbon cycle with approximately 13 Gt CO₂e annually sequestered Crop-Specific Effects Rice: 35–50% increase in grain yield with improved phosphorus and nitrogen uptake; enhanced disease resistance to bacterial leaf blight (Xanthomonas oryzae pv. oryzae) Maize: 20–35% yield increase with enhanced water use efficiency; reduced Western corn rootworm damage through modified rhizosphere chemistry Soybean: 15–30% yield improvement with complementary rhizobial associations; enhanced phosphorus uptake in continuous cropping systems Wheat: Significant phosphorus uptake enhancement and improved grain quality parameters Citrus/Lemon: Enhanced lateral root formation and phosphate transporter gene expression; improved water uptake capacity Tomato: 25–35% increase in fruit yield and quality; improved water stress tolerance during critical fruit development stages Saffron: 25% increase in total chlorophyll content; enhanced daughter corm production and stigma development Finger Millet: 29% increase in phosphorus and chlorophyll under drought stress; 7% growth improvement under severe water limitation Related Products Glomus mosseae Serendipita indica More Products Resources Read all

Enhance your cannabis plant crop yield with BloomX from Indogulf BioAg. Our premium crop kit ensures robust plant growth and vibrant blooms. Ideal for all growers. < Crop Kits BloomX A specialized bloom booster fertilizer for the flowering stage, designed to solubilize phosphorus and micronutrients in the soil for optimal plant uptake. Product Enquiry Download Brochure Induces Greater Budding Promotes greater production of bud sites, enhancing flower formation and overall yield during the flowering stage. Bloom X acts as a specialized bloom enhancer, optimizing plant development for increased productivity. Enhances Flower Quality Improves the quality of flowers by enhancing essential oil production, aroma, and potency. Bloom X supports the development of dense, resinous buds, enhancing the overall market value and consumer appeal. Boosts Plant Health Supports overall plant health by providing essential nutrients and promoting robust growth. Bloom X helps plants resist stressors and diseases during the flowering phase, ensuring vigorous and healthy growth. Maximises Yield Increases P uptake during the flowering stage to maximize fruiting and yield. Bloom X ensures optimal phosphorus and micronutrient availability in the soil, enhancing plant growth and yield potential. It's an ideal fertilizer for marijuana cultivation. Benefits BloomX is a unique blend of beneficial microbial strains that enhance nutrient availability acting as cannabis fertilizer and soil health: Phosphorus-Solubilizing Bacteria (1 x 10⁹ CFU/g) : Paracoccus denitrificans Thiobacillus denitrificans Plant Growth-Promoting Bacilli (1 x 10⁶ CFU/g) : Bacillus megaterium Bacillus mucilaginosus Bacillus mycoides Bacillus licheniformis Bacillus pumilus These microbes work synergistically to enhance phosphorus solubilization, improve micronutrient availability, and support robust plant growth during the flowering stage. Composition Dosage & Application Additional Info Dosage & Application To use BloomX effectively as a cannabis fertilizer, dissolve 3g (approximately 1/2 teaspoon) of the product in 1 liter of water, ensuring it mixes thoroughly for even distribution. Apply the prepared solution directly to the planting soil around the base of cannabis plants every two weeks during the flowering stage. This consistent application schedule ensures that cannabis plants absorb the essential nutrients and phosphorus-solubilizing microbes over time, enhancing root health, bud formation, and overall yield. BloomX’s advanced formula is specifically designed to meet the high nutrient demands of cannabis during flowering, promoting dense, resinous buds with superior aroma and potency. BloomX is specifically designed to work synergistically with RootX and BoostX, creating an optimized nutrient regimen for cannabis cultivation. RootX supports root development and nutrient uptake, while BoostX accelerates vegetative growth, preparing plants for a high-performance flowering phase. Together, these products provide a complete solution, ensuring dense, resinous buds with superior aroma, potency, and yield. For best results, integrate BloomX with RootX and BoostX in your cultivation schedule. Always follow storage and handling guidelines to maintain product effectiveness. Additional Info Aftercare Instructions BloomX, RootX, and BoostX are fully compatible with all natural fertilizers, pesticides, and fungicides, ensuring seamless integration into your cultivation routine. After opening, store these products in a cool, dry place to maintain their potency and effectiveness. Keep them out of reach of children and pets to ensure safety. Avoid inhaling or ingesting these products, and always handle them with care. Proper storage and handling will help you achieve the best results from BloomX, RootX, and BoostX while promoting safe and sustainable use. Related Products Aminomax SP Annomax BioProtek Biocupe Neem Plus Seed Protek Silicomax Dates Pro More Products Resources Read all

< Animal Health Calf Pro A combination of natural ingredients that supports a healthy gut for better Product Enquiry Benefits Stimulates Immunity and Reduces Antibiotic Dependency Enhances the immune system naturally, reducing the need for antibiotics and supporting overall calf health. Supplies Essential Nutrients for Growth Provides a beneficial mix of macro and micronutrients that support development, digestion, and overall performance enhancement. Supports Healthy Gut Microflora Helps maintain a balanced microbial environment in the gut while eliminating harmful pathogenic bacteria. Controls Diarrhea and Enhances Intestinal Function Aids in managing digestive disturbances and promotes improved intestinal activity for better nutrient absorption. Component Amount per kg Bioactive Chromium 65 mg Calcium 240 g Phosphorus 120 g Magnesium 2.11 g Zinc 2.13 g Copper 312 mg Cobalt 45 mg Iron 1000 mg Iodine 160 mg DL-Methionine 2.00 g L-Lysine 4.00 g Protein Hydrolysate 4.00 g Composition Dosage & Application Additional Info Dosage & Application Content coming soon! Additional Info Content coming soon! Related Products Stress Pro Camel Care Pro Cattle Care Max Cattle Care Pro Feed Pro Grass Mask Lactomine Pro Lactomix Mineral Max Pastocare More Products Resources Read all

Nitrobacter winogradskyi is a chemolithoautotrophic bacterium central to the nitrogen cycle, converting nitrite (NO₂⁻) into nitrate (NO₃⁻). This transformation is critical for soil fertility, as nitrate is a primary nutrient for plant growth. Its activity supports sustainable agriculture by enhancing nitrogen availability in the soil. In environmental management, N. winogradskyi is essential in wastewater treatment processes, where it prevents toxic nitrite accumulation, ensuring efficient nitrogen removal. Its adaptability to various ecosystems, including soils and aquatic environments, underscores its role in maintaining ecological balance and promoting sustainable nitrogen management. This bacterium is also widely used in bioaugmentation and bioreactor systems to optimize nitrification. < Microbial Species Nitrobacter winogradski Nitrobacter winogradskyi is a chemolithoautotrophic bacterium central to the nitrogen cycle, converting nitrite (NO₂⁻) into nitrate (NO₃⁻). This transformation is critical for soil fertility, as… Show More Strength 1 x 10⁹ CFU per gram / 1 x 10¹⁰ CFU per gram Product Enquiry Download Brochure Benefits Soil Fertility Enhancement Contributes to the nutrient availability in soil, supporting agricultural productivity. Nitrogen Cycle Participation Plays a key role in the nitrogen cycle, helping to regulate nitrogen levels in ecosystems. Nitrate Production Converts nitrites into nitrates, vital for plant growth and soil fertility. Wastewater Treatment Efficiency Improves the biological treatment of wastewater by facilitating nitrogen removal processes. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Contact us for more details Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Saccharomyces cerevisiae Bacillus polymyxa Thiobacillus novellus Thiobacillus thiooxidans Alcaligenes denitrificans Bacillus licheniformis Bacillus macerans Citrobacter braakii More Products Resources Read all

Bifidobacterium breve aids in digestion, enhances immune function, and promotes gut health in infants and children, ensuring healthy growth and development. < Microbial Species Bifidobacterium breve Bifidobacterium breve aids in digestion, enhances immune function, and promotes gut health in infants and children, ensuring healthy growth and development. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Anti-Inflammatory Effects It helps reduce inflammation in the gut, contributing to overall gut health and potentially alleviating symptoms of inflammatory bowel conditions. Weight Management Support It may aid in weight management by influencing fat metabolism and reducing fat accumulation in the body. Immune System Boost This strain enhances immune function by stimulating the production of immune cells and improving the body’s defense against infections. Digestive Health Enhancement This probiotic improves digestive health by supporting a balanced gut microbiota and alleviating symptoms of constipation and diarrhea. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Key Features All microbial strains are characterized using 16S rDNA. All products are non-GMO. No animal-derived materials are used. The typical shelf life is 2 years. All strains are screened in-house using high-throughput screening methods. We can customize manufacturing based on the required strength and dosage. High-resilience strains Stable under a wide pH range Stable under a broad temperature range Stable in the presence of bile salts and acids Do not show antibiotic resistance Packaging Material The product is packaged in a multi-layer, ultra-high barrier foil that is heat-sealed and placed inside a cardboard shipper or plastic drum. Shipping Shipping is available worldwide. Probiotic packages are typically transported in insulated Styrofoam shippers with dry ice to avoid exposure to extreme high temperatures during transit. Support Documentation Certificate of Analysis (COA) Specifications Material Safety Data Sheets (MSDS) Stability studies (18 months) Certifications ISO 9001 ISO 22000 HACCP Halal and Kosher Certification (for Lactobacillus strains) FSSAI Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Bifidobacterium animalis Bifidobacterium bifidum Bifidobacterium infantis Bifidobacterium longum Clostridium butyricum Lactobacillus acidophilus Lactobacillus bulgaricus Lactobacillus casei More Products Resources Read all

Bifidobacterium infantis plays a vital role in digestion and helps establish a healthy gut environment, especially in infants during early development. < Microbial Species Bifidobacterium infantis Bifidobacterium infantis plays a vital role in digestion and helps establish a healthy gut environment, especially in infants during early development. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Immune System Support It enhances immune function in infants by stimulating the production of immune cells and helping to fight infections. Reduction of Colic Symptoms This strain may help alleviate colic symptoms in infants by improving gut health and reducing discomfort. Support for Lactose Digestion It aids in lactose digestion, making it beneficial for infants who may experience lactose intolerance or discomfort from dairy. Infant Gut Health This probiotic is essential for establishing a healthy gut microbiota in infants, promoting digestion and nutrient absorption. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Key Features All microbial strains are characterized using 16S rDNA. All products are non-GMO. No animal-derived materials are used. The typical shelf life is 2 years. All strains are screened in-house using high-throughput screening methods. We can customize manufacturing based on the required strength and dosage. High-resilience strains Stable under a wide pH range Stable under a broad temperature range Stable in the presence of bile salts and acids Do not show antibiotic resistance Packaging Material The product is packaged in a multi-layer, ultra-high barrier foil that is heat-sealed and placed inside a cardboard shipper or plastic drum. Shipping Shipping is available worldwide. Probiotic packages are typically transported in insulated Styrofoam shippers with dry ice to avoid exposure to extreme high temperatures during transit. Support Documentation Certificate of Analysis (COA) Specifications Material Safety Data Sheets (MSDS) Stability studies (18 months) Certifications ISO 9001 ISO 22000 HACCP Halal and Kosher Certification (for Lactobacillus strains) FSSAI Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Bifidobacterium animalis Bifidobacterium bifidum Bifidobacterium breve Bifidobacterium longum Clostridium butyricum Lactobacillus acidophilus Lactobacillus bulgaricus Lactobacillus casei More Products Resources Read all

Bacillus pumilus produces antibiotics against pathogens, enhances nutrient uptake and drought tolerance, effective biocontrol agent, environmentally safe. < Microbial Species Bacillus pumilus Bacillus pumilus produces antibiotics against pathogens, enhances nutrient uptake and drought tolerance, effective biocontrol agent, environmentally safe. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Improves soil nutrient cycling Facilitates the breakdown of organic matter and enhances nutrient availability in the soil, promoting better nutrient uptake by plants. Produces antimicrobial compounds Bacillus pumilus synthesizes and secretes antimicrobial compounds that inhibit the growth of various plant pathogens, thereby protecting plants from diseases. Controls fungal pathogens Effectively manages fungal diseases in plants, reducing fungal infection rates and improving overall plant health. Enhances plant tolerance to environmental stresses Boosts plants' ability to withstand adverse environmental conditions such as drought, heat, and salinity. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Shelf Life: Stable within 1 year from the date of manufacturing. Packing: We offer tailor-made packaging as per customers' requirements. Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Bacillus amyloliquefaciens Bacillus azotoformans Bacillus circulans Pseudomonas fluorescens Pseudomonas putida Rhodococcus terrae Vesicular arbuscular mycorrhiza Williopsis saturnus More Products Resources Read all

< 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 Content coming soon! Key Benefits Content coming soon! 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

Composting Solutions is a consortium of live aerobic microorganisms specially developed for composting or degrading organic wastes like sugar factory press mud etc. < Environmental Solutions Composting Solutions Composting solutions involve the aerobic decomposition of organic waste materials to produce humus-rich compost. This process enhances soil fertility by returning nutrients to the soil and improving its structure and water retention capacity. Product Enquiry What Why How What it is Composting solutions refer to various methods, products, and technologies designed to facilitate the decomposition of organic waste into nutrient-rich compost. These solutions include compost bins, tumblers, microbial inoculants, and techniques such as aerobic and anaerobic composting. Composting solutions aim to convert organic waste into a valuable soil amendment, promoting recycling and sustainability. Why is it important Waste Reduction: Composting significantly reduces the volume of organic waste sent to landfills, mitigating methane emissions and lowering waste management costs. Soil Enrichment: Compost improves soil structure, fertility, and moisture retention. It provides essential nutrients and enhances the biological activity of soil, supporting healthy plant growth. Environmental Benefits: By recycling organic waste, composting reduces the need for chemical fertilizers, decreases greenhouse gas emissions, and supports sustainable agricultural practices. How it works Composting involves the biological decomposition of organic materials by microorganisms, under controlled conditions. The process can be broken down into several stages: Collection and Preparation: Organic waste, such as kitchen scraps, garden clippings, and agricultural residues, are collected and prepared by shredding or chopping into smaller pieces. Composting Process:Aerobic Composting: Involves the decomposition of organic matter in the presence of oxygen. Compost bins or piles are turned regularly to maintain aeration and ensure even decomposition. Anaerobic Composting: Occurs in the absence of oxygen, typically in sealed containers or anaerobic digesters. This process produces biogas and compost. Microbial Activity: Microorganisms, including bacteria, fungi, and actinomycetes, break down organic matter into simpler compounds, generating heat and carbon dioxide. Maturation: The compost undergoes curing, where the temperature stabilizes, and the material becomes more uniform and humus-rich. Management of Composting Solutions Material Balance: Maintaining the right balance of carbon-rich (browns) and nitrogen-rich (greens) materials ensures efficient composting. A typical ratio is 3:1 (carbon to nitrogen). Moisture Control: Adequate moisture levels are essential for microbial activity. The compost should be kept moist but not waterlogged. Aeration: Regular turning of compost piles or use of aeration tools in bins helps maintain oxygen levels, promoting aerobic decomposition and preventing odor issues. Composting solutions provide a practical and eco-friendly way to recycle organic waste, enriching soil and supporting sustainable environmental practices. Subcategory Our Products Explore our range of premium Composting Solutions tailored to meet your agricultural needs, optimizing the decomposition process for nutrient-rich compost. Cellulomax Targets cellulose-rich biomass (e.g., cow dung), enhancing soil organic matter and nutrient availability. Converts hard-to-decompose materials into beneficial organic matter. View Product Compost Pro Consortium of aerobic microorganisms for fast composting (28-35 days), promoting enzymatic processes and odorless decomposition of organic wastes. Safe and biodegradable. View Product Enriched Earth Microbial consortium for rapid organic waste decomposition, producing nutrient-rich humus, eliminating pathogens, and certified organic. Environmentally safe. View Product Enzymax Enzyme-based agent for decomposing tough biomass (crop residues, fruit waste), effective at low temperatures, safe for beneficial organisms, approved for organic agriculture. View Product 1 1 ... 1 ... 1 Resources Read all

Explore Mykrobak Textile by Indogulf Bioag – high-quality, eco-friendly solutions for textile industry waste management. Manufacturer & exporter of innovative products. < Environmental Solutions Mykrobak Textile Mykrobak Textile uses bacteria and fungi to treat dye effluents in textile industries, breaking down compounds and reducing toxicity for effective wastewater treatment. Product Enquiry Download Brochure Benefits High COD & BOD Degradation Degrades high COD & BOD for effective wastewater treatment in textile industries. Bacterial Control Suppresses harmful bacterial growth, ensuring a healthier plant environment. Complex Compound Breakdown Breaks down complex solvents and other compounds into simpler forms. Rapid Increase in MLSS & MLVSS Rapidly increases mixed liquor suspended solids (MLSS) and volatile suspended solids (MLVSS). Composition Dosage & Application Additional Info FAQ Composition Performance properties PH 6.5 – 7.5 Temperature 5 to 55°C Reactivation Rate 99% After addition to water Concentration Highly Concentrated Shelf Life 2 years Physical properties Appearance Off White Colour Physical State Powdered Form Odour Odourless Moisture Content 6-7% Mesh Size 0.6 mm Packaging 1 kg Aluminum zip lock Dosage & Application Dosage Schedule Depend upon the organic load, contaminants and volume of waste water. Area of Application Membrane Bio reactor Activated sludge Process Sequencing batch reactor Moving bed bio reactor Extended Aeration system Application Matrix Mix Mykrobak 1 kg powder in 20 liter water (prefer normal temperature) Stir well and remain in bucket for 30 minutes (for bacteria activation) Directly Dose at inlet of tank Additional Info Bacterial consortium belongs to the following: Hydrocarbon-reducing bacteria Hydrolytic bacteria Hyperthermophilic and thermophilic bacteria Nitrifying and denitrifying bacteria Photosynthetic bacteria & fluorescent bacteria Fermentative bacteria Acetogenic bacteria Odour control bacteria Enzymes belong to the co-enzymes of the following groups: Oxidoreductases Transferases Lyases Advantages of Mykrobak products: Promote the formation of potential and sustainable biomass Reduce contaminants, toxicity, pollutants, and bad odors Initiate biodegradation quickly Effective in reducing COD/BOD in ETP/STP/WTP Help in the fastest commissioning of biological treatment processes in ETP/STP, etc. Boost MLSS production rapidly Reduce ammoniacal nitrogen Improve digester system recovery Increase the efficiency of biogas production Improve tertiary treatment Reduce large quantities of organic compounds Improve the aquatic environment Clarify ponds and lakes water Safe and natural Economically feasible FAQ Content coming soon! Related Products Mykrobak Aerobic Mykrobak Anaerobic Wastewater Treatment Mykrobak Biotoilet Mykrobak Composting Mykrobak Dairy Mykrobak Drop Mykrobak Fog Mykrobak N&P Booster More Products Resources Read all