< 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

Work with us > Job Opportunities Co-op Student Biotechnology Lab Assistant Location: Stiller Centre, London, Ontario Work Hours: 3-6 months at 8-10 hours per week Compensation: $10-12/hr About the Role Indogulf BioAg is a growing agri-biotech company specializing in sustainable fertilizer solutions. The Co-op Student will contribute to hands-on lab and controlled-environment studies that support product development and validation. What You’ll Do 1. Microbiology & QC Support Prepare microbiology media for plates, broths, flasks, and fermentation studies. Assist with routine microbial culture maintenance and inoculations. Support QC testing, basic assays, and sample processing. Maintain accurate lab records, logs, and data sheets. Assist with drafting short reports, summaries, and data documentation. 2. Controlled Environment Crop Performance Trials (In Vitro) Assist in running controlled-environment crop performance trials using Indogulf microbial products. Support in vitro growth experiments designed to generate quantitative crop performance data. Monitor daily plant growth, environmental conditions, and performance indicators. Collect, organize, and analyze trial data, ensuring accuracy and repeatability. Maintain grow tent systems and ensure compliance with in vitro trial protocols. Support experimental work across major Canadian crops, including Soybean, Corn, Wheat, Canola, Row Crops, and Greenhouse Crops. 3. General Duties Follow all lab safety protocols and SOPs. Maintain a clean and organized work area. Support ad hoc research, QC, and operational tasks as assigned. Participate in team meetings and contribute to trial planning discussions. What You’ll Bring Studied in Biotechnology, Biology, Microbiology, Biochemistry, Environmental Science, or a related program. Experience in microbial culture techniques, aseptic handling, or basic molecular biology. Familiarity with analytical lab equipment (HPLC, spectrophotometry, pipetting, etc.) is an asset, not mandatory. Detail-oriented with strong documentation and data-entry skills. Good communication skills and willingness to learn. Ability to work onsite at our lab at Western University campus (London, ON). Learning Outcomes The co-op student will gain experience in: Real-world microbiology workflows Lab QC processes and documentation Trial management and applied plant research Experimental data collection and analysis Working in a regulated laboratory setting Supervision The student will be supervised by Prasanjeet Roy, CEO of Indogulf BioAg. Fill this form to complete your application. Job position* Select job position (required) Applicant Name* Preferred nickname Email* Phone* City* Linkedin profile Message Resume* Attach resume I agree to be contacted by IndoGulf BioAg regarding this inquiry. * Add me to your mailing list for updates and opportunities. Next Back to Home

Aspergillus niger is a beneficial filamentous fungus widely used in agriculture for its ability to produce enzymes that enhance composting and improve soil fertility. Known for breaking down organic matter through enzymes - cellulases, amylases, and pectinases, Asp. niger accelerates the decomposition of agricultural waste into nutrient-rich compost. This compost acts as a natural fertilizer, enriching the soil with essential nutrients, improving its structure, and promoting water retention. Additionally, Asp. niger contributes to bioremediation by degrading harmful chemicals and pollutants, making it an eco-friendly solution for sustainable waste management. As a fungal activator, it plays a crucial role in integrated pest management by indirectly suppressing soil-borne pathogens and pests, fostering healthier and more resilient crops. < Microbial Species Aspergillus niger Aspergillus niger is a beneficial filamentous fungus widely used in agriculture for its ability to produce enzymes that enhance composting and improve soil fertility. Known… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Suppresses pathogens This fungus can inhibit the growth of harmful pathogens in compost, contributing to safer and healthier composting practices. Enhances soil fertility The activities of Aspergillus niger contribute to nutrient release and soil structure improvement, enhancing fertility over time. Accelerates composting process Aspergillus niger produces enzymes that break down organic matter more efficiently, speeding up the composting process. Reduces composting odor By breaking down organic material effectively, Aspergillus niger helps reduce unpleasant odors associated with composting. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Padmavathi, T. (2015). Optimization of phosphate solubilization by Aspergillus niger using Plackett-Burman and response surface methodology. Chilean Journal of Agricultural Research , 75(3), 310-316. scielo Asadi, M., et al. (2019). Improving municipal solid waste compost process by cycle time reduction through Aspergillus niger IBRC-M 30095 inoculation. Environmental Science and Pollution Research , 26(8), 7414-7424. pmc.ncbi.nlm.nih Yang, M., et al. (2022). Aspergillus niger as a biological input for improving vegetable crop productivity and soil health. Scientific Reports , 12, 4756. pmc.ncbi.nlm.nih Zhang, L., et al. (2023). Combination of Aspergillus niger MJ1 with nitrogen-fixing bacteria improved crop quality and soil properties in barrier soil. Frontiers in Microbiology , 14, 1064358. frontiersin Kumar, S., et al. (2021). Profiling multi-enzyme activities of Aspergillus niger strains growing on different carbon sources for biotechnological applications. Microbial Cell Factories , 20, 234. pmc.ncbi.nlm.nih Rodríguez, H., et al. (2024). Phosphate-solubilizing microorganisms stimulate physiological responses with straw compost assistance. Agronomy , 14(5), 1008. mdpi Chen, W., et al. (2022). Metabolomic profiling and bio-efficacy of Aspergillus niger against soil-borne plant pathogens. Frontiers in Microbiology , 14, 1142144. frontiersin Ahmed, A., et al. (2021). Bioremediation of synthetic and industrial effluents by Aspergillus niger isolated from contaminated soil. Water Research , 185, 116248. pmc.ncbi.nlm.nih Mode of Action Phosphate Solubilization Mechanism Aspergillus niger employs multiple biochemical pathways to mobilize insoluble phosphorus compounds. The fungus produces various organic acids including citric acid (up to 150 g/L), gluconic acid, and oxalic acid that effectively lower soil pH and chelate phosphorus-binding cations. The acidification process dissolves tricalcium phosphate, aluminum phosphate, and iron phosphate, converting them into readily available forms for plant uptake. pjoes+3 Enzymatic Decomposition of Organic Matter The fungus secretes a comprehensive enzyme complex including cellulases (up to 10.50 U/mL), amylases (4.47 U/mL), pectinases, and xylanases that systematically break down lignocellulosic materials. These enzymes operate synergistically to depolymerize complex carbohydrates, proteins, and lignin compounds, accelerating the transformation of crop residues and organic waste into nutrient-rich humus. sciencedirect+3 Biofilm Formation and Soil Colonization Aspergillus niger forms extensive hyphal networks and biofilms that enhance soil structure and water-holding capacity. The fungal mycelia create micro-aggregates that improve soil porosity, aeration, and root penetration while establishing beneficial associations with plant root systems. pmc.ncbi.nlm.nih+3 Heavy Metal Immobilization and Detoxification The fungus produces specialized metabolites and organic acids that bind heavy metals through chelation and precipitation mechanisms. This process effectively removes toxic metals from soil solution while preventing their uptake by plants, contributing to soil remediation and environmental safety. communities.springernature+3 Antimicrobial Compound Production Aspergillus niger synthesizes various bioactive compounds including antibiotics, antifungals, and growth inhibitors that suppress soil-borne pathogens. The competitive exclusion and direct antagonism reduce disease pressure while promoting beneficial microbial communities in the rhizosphere. pmc.ncbi.nlm.nih+2 Plant Growth Hormone Regulation The fungus influences plant endogenous hormone levels, particularly auxins and cytokinins, promoting root development and enhancing nutrient uptake efficiency. This hormonal modulation results in improved plant vigor, stress tolerance, and overall productivity. 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 that may inhibit fungal activity. Shelf Life: Stable within 1 year from the date of manufacturing when stored under proper conditions. Packing: We offer tailor-made packaging as per customers' requirements including bulk packaging, small sachets, and customized formulations. pH Tolerance: Effective across a wide pH range from acidic (3.5) to alkaline (9.0) conditions, making it suitable for diverse soil types. Temperature Range: Optimal activity between 25-35°C with survival capability from 15-53°C. Application Rate: 2-5 kg per hectare depending on soil conditions and crop requirements. Certification: GRAS (Generally Recognized as Safe) status by FDA for agricultural applications. Dosage & Application Seed Coating/Seed Treatment: Mix 10-15 grams of Aspergillus niger with sufficient water to create a slurry. Coat 1 kg of seeds with this mixture, dry in shade for 2-4 hours, and sow or broadcast in the field. This provides early protection and growth stimulation. Seedling Treatment: Prepare a solution of 100 grams of Aspergillus niger in sufficient water. Dip seedling roots into the solution for 30 minutes before transplanting to establish beneficial fungal colonization. Soil Treatment: Mix 2.5-5 kg per hectare of Aspergillus niger with organic manure or compost. Incorporate the mixture into soil during land preparation or at the time of planting to enhance soil fertility and structure. Composting Application: Add 1-2 kg of Aspergillus niger per ton of organic waste at the beginning of composting process. Mix thoroughly to accelerate decomposition and improve compost quality within 18-25 days. Irrigation/Fertigation: Dissolve 2.5-5 kg per hectare of Aspergillus niger in irrigation water and apply through drip irrigation or soil drenching to establish rhizosphere colonization. Foliar Application: Mix 50 grams per 100 liters of water and spray during early morning or evening hours for enhanced plant protection and growth promotion. This comprehensive content provides all the missing information for the Aspergillus niger page, covering its multifunctional benefits in agriculture, detailed FAQ responses, scientific backing, mode of action mechanisms, and practical application guidelines. The content emphasizes the fungus's role in sustainable agriculture, soil health improvement, and eco-friendly farming practices while providing practical guidance for farmers and agricultural professionals. FAQ What is the primary function of Aspergillus niger in agriculture? Aspergillus niger functions as a powerful phosphate-solubilizing fungus that converts insoluble phosphorus compounds into plant-available forms while producing enzymes that accelerate organic matter decomposition and improve soil fertility. Get full information about primary function of Aspergillus niger in agriculture . How does Aspergillus niger improve composting efficiency? The fungus produces cellulases, pectinases, and xylanases that break down lignocellulosic materials rapidly, reducing composting time to 18 days while creating nutrient-rich, stable compost with improved agronomic value. Know more in details how does Aspergillus niger improve composting efficiency . Is Aspergillus niger safe for agricultural use? A: Yes, Aspergillus niger is classified as Generally Recognized as Safe (GRAS) by the FDA and is completely natural and non-toxic to plants, humans, and beneficial soil organisms. It is widely used in organic farming practices. Get full information about how Aspergillus niger safe for agricultural use . Can Aspergillus niger help with heavy metal contamination? Yes, the fungus effectively removes heavy metals from contaminated soils through organic acid production and chelation mechanisms, making it valuable for bioremediation applications. What crops benefit most from Aspergillus niger application? All major crop categories benefit, including vegetables, fruits, cereals, and legumes. Research shows particularly significant improvements in cucumber, lettuce, and other vegetable crops with enhanced yield and quality parameters. Check here what crops benefit most from Aspergillus niger application in details. How long does Aspergillus niger remain active in soil? The fungus establishes persistent populations in soil and remains active for several months, providing continuous benefits through phosphate solubilization, enzyme production, and organic matter decomposition. Get full information about how long does Aspergillus niger remain active in soil . Can Aspergillus niger be combined with other biofertilizers? Yes, it works synergistically with other beneficial microorganisms including nitrogen-fixing bacteria and mycorrhizal fungi to create comprehensive soil health management systems. What are the storage requirements for Aspergillus niger products? Store in a cool, dry place below 25°C away from direct sunlight to preserve spore viability and enzymatic activity. Follow product-specific instructions for optimal results. Related Products Aspergillus oryzae Cellulomonas carate Cellulomonas gelida Cellulomonas uda More Products Resources Read all

< Animal Health Equalga EQUALGA works naturally to support gut and hindgut health, and improves immune defenses against all digestive upsets including gastric ulcers. EQUALGA contains scientifically chosen, all natural components. Product Enquiry Benefits Supports Healthy Weight and Bone Strength Helps maintain proper body condition and supports bone health for improved mobility and strength. Enhances Coat Quality and Appearance Assists in improving the hair coat, contributing to a healthy, glossy appearance. Improves Behavior and Overall Performance Promotes balanced temperament and better performance through improved physical well-being. Boosts Appetite and Prevents Gut Disorders Stimulates appetite and helps prevent gastrointestinal issues, including gastric ulcers. Component Activated Carbon Bifidobacterium bifidum Calcium Carbonate Extract of Glycyrrhiza spp. FOS L. tryptophan Lactobacillus rhamnosus Nano Flaxseed Oil Oatmeal PEG Saccharomyces boulardii Sodium bicarbonate Spray dried Carrot Powder Trigonella foenum-graecum Pulvis Yucca Extract Zinc Sulphate Composition Dosage & Application Additional Info Dosage & Application Content coming soon! Additional Info Content coming soon! Related Products Eqsolbi Bio Stallion More Products Resources Read all

Leading manufacturer and exporter of AG Protect, offering advanced environmental solutions for sustainable agriculture and crop protection. < Environmental Solutions Ag Protect A blend of essential oils, herbal extracts, surfactants, organic acids, and colloidal silver to control flies, neutralize odors, eliminate pathogens, and improve blood as a fertilizer. Product Enquiry Download Brochure Benefits Enhanced Fertilizer Quality Enhances blood's nutrient content and soil-enriching properties as a fertilizer. Insect Control Controls flies and maggots that accumulate in slaughter blood, reducing contamination risks. Odor Neutralization Neutralizes unpleasant odors emitted by blood, improving workplace conditions. Pathogen Elimination Eliminates pathogenic organisms present in slaughter blood, ensuring product safety. Composition Dosage & Application Additional Info FAQ Composition Components Essential oils such as: Anise Oil, Cedar Oil, Chrysanthemum Oil, Citronella Oil, Clove Oil, Emulsifiers, Eucalyptus Oil, Garlic Oil, Jojoba Oil, Lavender Oil, Orange Oil, Peppermint Oil, Rape Seed Oil, Thymol Oil and Tulsi Oil Chelating Agents Herbal Extracts such as Yucca Surfactants Organic Acids Colloidal Silver Dosage & Application Treatment Process: Blood Collection: Blood is collected in a hygienic manner from the slaughterhouse. Application of Ag Protect: Ag Protect is applied at 1000 ppm @ 10 ml/kg of blood before boiling to control flies, neutralize odors, and eliminate pathogens. Nano Chitosan Addition: After boiling and cooling, 1 liter of Nano Chitosan is added per metric ton (MT) of blood to enhance antimicrobial properties and improve fertilizer quality. Oxymax Application: Post-boiling and cooling, 250 g of Oxymax is added per MT of blood to stimulate aerobic microbial activity, reduce pathogens, and stabilize nutrients. Microbial Blend Addition: After a week, Microbial Blend ( Blood Pro ), containing 3 billion CFU/g in dextrose, is added at 2 kg per ton of blood. It enhances decomposition, improves biological oxygen demand, and transforms blood into a high-quality fertilizer. Additional Info How Our Treatment Works Fly and Maggot Control: Ag Protect and Oxymax effectively eliminate flies and maggots that accumulate in slaughter blood. Odor Neutralization: Ag Protect neutralizes unpleasant odors emitted by the blood. Pathogen Elimination: Ag Protect , Nano Chitosan , and the Microbial Blend work together to eliminate pathogenic organisms present in slaughter blood. Biological Oxygen Demand Improvement: The Microbial Blend enhances biological oxygen demand during the decomposition process, optimizing organic matter breakdown. Fertilizer Enhancement: Overall, our treatment decomposes blood efficiently, improving its properties as a valuable fertilizer for agricultural use. FAQ Content coming soon! Related Products Microbial Blend (Blood Pro) Nano Chitosan Oxymax More Products Resources Read all

Nitrosomonas europaea is a chemolithoautotrophic bacterium that plays a vital role in the nitrogen cycle by oxidizing ammonia (NH₃) into nitrite (NO₂⁻), a key step in nitrification. This process is essential for converting ammonia into forms that plants can utilize, supporting soil fertility and agricultural productivity. In wastewater treatment, N. europaea is integral to removing ammonia, preventing toxic buildup, and ensuring efficient nitrogen removal. Its adaptability to diverse environments, including soils, freshwater, and wastewater systems, makes it a valuable organism for sustainable nitrogen management and environmental remediation. Its role in mitigating ammonia pollution also supports ecosystem health and biodiversity. < Microbial Species Nitrosomonas europaea Nitrosomonas europaea is a chemolithoautotrophic bacterium that plays a vital role in the nitrogen cycle by oxidizing ammonia (NH₃) into nitrite (NO₂⁻), a key step… Show More Strength 1 x 10⁹ CFU per gram / 1 x 10¹⁰ CFU per gram Product Enquiry Download Brochure Benefits Ecosystem Health Maintenance Helps regulate nitrogen levels in ecosystems, supporting ecological balance and biodiversity. Soil Fertility Enhancement Contributes to soil nutrient availability, promoting healthy plant growth. Ammonia Oxidation Efficiently converts ammonia into nitrites, a crucial step in the nitrogen cycle. Wastewater Treatment Plays a significant role in 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

Bacillus tequilensis is a Gram-positive, endospore-forming bacterium with significant roles in agriculture and biotechnology. It enhances plant growth via phytohormone synthesis, nutrient solubilization, and antimicrobial activity against pathogens. Additionally, it contributes to bioremediation by degrading organic pollutants and produces industrially relevant enzymes. Its resilience to environmental stress underscores its potential for applications in sustainable agriculture, bioprocessing, and environmental remediation. < Microbial Species Bacillus tequilensis Bacillus tequilensis is a Gram-positive, endospore-forming bacterium with significant roles in agriculture and biotechnology. It enhances plant growth via phytohormone synthesis, nutrient solubilization, and antimicrobial… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Soil Health Improvement Improves soil health by promoting organic matter decomposition and nutrient cycling, contributing to sustainable agriculture practices. Biocontrol Agent Bacillus tequilensis acts as a biocontrol agent, suppressing plant pathogens through the production of antimicrobial compounds. Stress Tolerance Helps plants withstand various environmental stresses, including drought and salinity, by inducing stress tolerance mechanisms. Plant Growth Promotion Enhances plant growth by producing growth-promoting substances such as phytohormones and siderophores, facilitating nutrient uptake. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Title: The Genus Bacillus: Applications and Biotechnological Potential https://www.intechopen.com/chapters/76175 Relevance: Provides a broad overview of the biotechnological potential of various Bacillus species, including their roles in plant growth promotion, biocontrol, and bioremediation. Offers context for the broader impact of Bacillus in sustainable agriculture and environmental management. Title: Bacillus tequilensis as a broad-spectrum antifungal agent against phytopathogenic fungi https://pubmed.ncbi.nlm.nih.gov/32358811/ Relevance: This study details the antifungal properties of Bacillus tequilensis, showcasing the effectiveness of this bacterial strain in combating various plant pathogens. This provides a scientific basis for incorporating it into biocontrol products. Title: Draft Genome Sequence of Bacillus tequilensis Strain ZSB20, an Endophytic Diazotroph with Antimicrobial Activity, Isolated from Grape Roots https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5664934 Relevance: Provides genomic evidence for the diazotrophic (nitrogen-fixing) and antimicrobial capabilities of Bacillus tequilensis, validating its role as a beneficial endophyte for promoting plant health. Title: Plant Growth Promoting Potential of Bacillus tequilensis and Bacillus amyloliquefaciens Isolated from Saline Soil https://www.researchgate.net/publication/344037808_Plant_Growth_Promoting_Potential_of_Bacillus_tequilensis_and_Bacillus_amyloliquefaciens_Isolated_from_Saline_Soil Relevance: It shows the isolation of B. tequilensis from saline soil and its ability to promote plant growth under salt stress conditions, this study supports its use in salinity management and improving crop yields in salt-affected areas. Title: Characterization of the Biosurfactant Produced by Bacillus tequilensis and Its Application in Enhanced Oil Recovery. https://www.proquest.com/openview/4f200c3b1fdc247c90d566d7d4a03f7c/1?pq-origsite=gscholar&cbl=18750&diss=y Relevance: This article characterizes the biosurfactant produced by B. tequilensis and explores its application in enhanced oil recovery. It offers insight into the surface-active properties of B. tequilensis, such as reducing surface and interfacial tension. Mode of Action Bacillus tequilensis exhibits a variety of modes of action, primarily centered around antimicrobial activity and the induction of plant resistance . Here's a breakdown of the key mechanisms: 1. Production of Antimicrobial Substances: B. tequilensis can produce various secondary metabolites with antimicrobial properties. These can include: Lipopeptides and biosurfactants: These compounds can disrupt the cell membranes of pathogenic fungi and bacteria, leading to leakage of cellular contents and cell death. Examples include iturins and fengycins. Bacteriocins: These are proteinaceous toxins produced by bacteria to inhibit the growth of similar or closely related bacterial strains. Volatile Organic Compounds (VOCs): Certain VOCs produced by B. tequilensis have demonstrated antifungal activity by inhibiting spore formation and germination and altering the cell morphology of pathogens. Enzymes: Production of lytic enzymes like chitinase, protease, and cellulase can degrade the cell walls of fungal pathogens. Other Antibiotic Compounds: Novel antibiotic agents like pyrrolo[1,2-a]pyrazine-1,4-dione,hexahydro, have been isolated from B. tequilensis with activity against multi-drug resistant bacteria. 2. Induction of Plant Resistance (Induced Systemic Resistance - ISR): B. tequilensis can trigger defense mechanisms in plants, making them more resistant to pathogen attacks. This can involve: Activation of the phenylpropanoid pathway: This pathway leads to the synthesis of various defense-related compounds like lignin and phenolic compounds, which strengthen plant cell walls and have antimicrobial properties. Enhancement of defense-related enzyme activities: B. tequilensis can induce the activity of enzymes such as phenylalanine ammonia-lyase (PAL), cinnamate 4-hydroxylase (C4H), 4-coumarate CoA ligase (4CL), polyphenol oxidase (PPO), superoxide dismutase (SOD), catalase (CAT), and peroxidase (POD). These enzymes play crucial roles in plant defense responses. Stimulation of plant growth and development: Some strains of B. tequilensis can produce indole-3-acetic acid (IAA), a plant hormone that promotes root growth and overall plant vigor, indirectly contributing to disease resistance. 3. Competition: B. tequilensis can compete with pathogenic microorganisms for essential nutrients and space in the plant rhizosphere or on plant surfaces, limiting pathogen colonization and growth. 4. Biofilm Formation: The ability of Bacillus species to form biofilms on plant roots can create a protective barrier against pathogen invasion and further infection. Additional Info Target pests: Fusarium wilt of tomato, leaf-spot disease of banana plants Recommended Crops: Tomato, banana, rice. 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 The water-soluble powder formulation of Bacillus tequilensis is engineered for ease of use and maximum efficacy across a wide range of environmental and agricultural applications. Leveraging its robust biosurfactant production, cellulolytic activity, and broad-spectrum biocontrol potential, B. tequilensis is an ideal choice for bioremediation, pest control, organic matter recycling, and sustainable crop management. General Guidelines Preparation: Dissolve the required quantity of B. tequilensis powder in clean, non-chlorinated water. Avoid chlorinated water, as it may reduce bacterial viability and activity. Use a container or tank with adequate mixing to ensure complete dissolution. Activation Time: Allow the solution to rest for 15–30 minutes after mixing. This activates the microbial population and optimizes performance upon application. Application Timing:Apply early in the morning or late in the afternoon to minimize exposure to high temperatures and UV radiation, both of which can diminish bacterial efficacy. Dosage Recommendations 1. Bioremediation of Soil and Water Target: Hydrocarbons, heavy metals, and organic pollutants. Dosage: Dissolve 1–2 kg of powder in 200–400 liters of water per hectare for soil application. For water bodies, use 5–10 g per cubic meter of contaminated water. Application: Spray uniformly over contaminated soil or introduce directly into the polluted water body. B. tequilensis produces biosurfactants that enhance the breakdown and bioavailability of hydrocarbons and other pollutants . Frequency: Reapply every 3–4 weeks until remediation targets are met. 2. Pest and Disease Biocontrol in Agriculture Target: Soil-borne pathogens, fungal diseases, and certain pests. Dosage: Dissolve 500 g of powder in 100 liters of water per hectare. Application: Foliar Spray: Apply evenly over plant foliage to suppress fungal and bacterial pathogens. Soil Drench: Apply directly to the root zone to control soil-borne diseases and enhance root health. Frequency: Reapply every 2–3 weeks or as needed based on disease pressure. B. tequilensis is effective against a broad spectrum of plant pathogens, including Magnaporthe oryzae , Phytophthora nicotianae , Verticillium dahliae , and othes. 3. Nutrient Cycling and Organic Matter Decomposition Target: Soil enrichment, compost acceleration, and nutrient recycling. Dosage: Dissolve 1 kg of powder in 200 liters of water per hectare. Application: Apply as a soil drench or through fertigation systems. B. tequilensis exhibits strong cellulolytic activity, accelerating the breakdown of plant residues and improving soil fertility Frequency: Apply at the start of the growing season and repeat every 4–6 weeks for sustained soil health benefits. 4. Hydrocarbon and Industrial Waste Biodegradation Target: Hydrocarbons and organic waste in soil or industrial effluents. Dosage: Dissolve 1–2 kg of powder in 200–400 liters of water per hectare. Application: Spray over contaminated sites or introduce into waste streams. The biosurfactant-producing capacity of B. tequilensis enhances the emulsification and breakdown of recalcitrant pollutants. Frequency: Reapply every 4 weeks until remediation is complete. 5. Abiotic Stress Alleviation in Crops Target: Salinity and drought stress in sensitive crops. Dosage: 500 g–1 kg per hectare, dissolved in adequate water. Application: Soil drench or seed treatment. B. tequilensis has demonstrated efficacy in improving crop growth, nutrient uptake, and physiological resilience under saline and drought conditions, notably in rice and other cereals . Frequency: Apply at planting and repeat at key crop stages. Best Practices & Additional Notes For maximum biocontrol efficacy , consider integrating B. tequilensis with compatible carriers (e.g., biochar) or in consortia with other Bacillus species to enhance disease suppression and soil health 10 . Thermal and pH Stability: B. tequilensis metabolites remain active under a range of temperatures and acidic conditions, making it suitable for diverse environments. Environmental Safety: B. tequilensis is non-toxic to plants, animals, and humans when used as directed, supporting sustainable and eco-friendly management practices. Summary: Bacillus tequilensis is a versatile, science-backed microbial solution for bioremediation, crop protection, soil fertility, and stress mitigation. Its robust biosurfactant and enzyme production, broad-spectrum pathogen suppression, and adaptability to challenging environments make it a valuable tool for modern agriculture and environmental management. For technical support or custom application protocols, please contact us . FAQ What is Bacillus tequilensis ? Bacillus tequilensis is a species of bacteria belonging to the genus Bacillus . It's known for its diverse metabolic capabilities and its potential applications in various fields, particularly in agriculture as a biocontrol agent. What are the main modes of action of Bacillus tequilensis ? The primary modes of action include: Production of Antimicrobial Substances: Synthesizing compounds like lipopeptides, bacteriocins, volatile organic compounds (VOCs), and lytic enzymes that directly inhibit or kill pathogens. Induction of Plant Resistance (ISR): Triggering the plant's own defense mechanisms to become more resistant to diseases. Competition: Outcompeting pathogenic microorganisms for nutrients and space. Biofilm Formation: Creating a protective barrier on plant roots against pathogen invasion. How does Bacillus tequilensis produce antimicrobial substances? B. tequilensis can produce a range of compounds, including: Lipopeptides and biosurfactants: Disrupting pathogen cell membranes. Bacteriocins: Inhibiting the growth of other bacteria. Volatile Organic Compounds (VOCs): Exhibiting antifungal activity. Lytic Enzymes (e.g., chitinase, protease): Degrading pathogen cell walls. * Other Antibiotics: Novel compounds with antimicrobial properties. How does Bacillus tequilensis induce plant resistance? It triggers the plant's defense system through mechanisms such as: Activation of the phenylpropanoid pathway: Leading to the production of defense-related compounds. Enhancement of defense-related enzyme activities: Boosting enzymes involved in plant immunity. * Stimulation of plant growth and development: Indirectly contributing to resistance through improved plant health. Can Bacillus tequilensis help plants grow? Yes, some strains can produce indole-3-acetic acid (IAA), a plant hormone that promotes root growth and overall plant vigor. This can indirectly enhance the plant's ability to withstand stress, including pathogen attacks. What makes Bacillus tequilensis a good candidate for biocontrol? Its multiple modes of action, including direct antimicrobial activity and the ability to induce plant resistance, make it effective against a range of plant pathogens. Additionally, Bacillus species are generally known for their ability to colonize the rhizosphere and their relative safety. Is Bacillus tequilensis safe for the environment? When used as a biocontrol agent, Bacillus tequilensis is generally considered environmentally friendly as it offers a more sustainable alternative to synthetic pesticides. However, specific formulations and application methods should always be evaluated for their environmental impact. Where can Bacillus tequilensis be found? Bacillus species are widely distributed in nature and can be found in soil, water, and associated with plants. Bacillus tequilensis was initially isolated from a tequila fermentation process, hence its name. Are there different strains of Bacillus tequilensis with varying modes of action? Yes, different strains within the Bacillus tequilensis species can exhibit variations in their metabolic capabilities and the specific antimicrobial compounds they produce, as well as their effectiveness in inducing plant resistance. How is Bacillus tequilensis applied in agriculture? It can be applied through various methods, including seed treatments, soil drenching, and foliar sprays, depending on the target pathogen and the crop. Related Products Ampelomyces quisqualis Bacillus subtilis Chaetomium cupreum Fusarium proliferatum Lactobacillus plantarum Pediococcus pentosaceus Pseudomonas spp. Trichoderma harzianum More Products Resources Read all

Rhizobium leguminosarum is a species of nitrogen-fixing bacteria that forms symbiotic relationships with leguminous plants, particularly peas, beans, and clover. These bacteria colonize the plant's root system and create nodules, where they convert atmospheric nitrogen (N₂) into ammonia (NH₃) through the enzyme nitrogenase. This process provides the plant with essential nitrogen, facilitating its growth while simultaneously improving soil fertility. Rhizobium leguminosarum plays a key role in sustainable agriculture by reducing the need for synthetic nitrogen fertilizers and enhancing crop yields naturally. < Microbial Species Rhizobium leguminosarum Rhizobium leguminosarum is a species of nitrogen-fixing bacteria that forms symbiotic relationships with leguminous plants, particularly peas, beans, and clover. These bacteria colonize the plant's… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Phosphorus Solubilization Rhizobium leguminosarum increases phosphorus availability by converting insoluble phosphates intoc plant accessible forms. This enhances nutrient absorption , promotes vigorous plant growth , and elevates crop productivity . Stress Tolerance Rhizobium leguminosarum strengthens plant resilience against various abiotic stresses including drought, salinity, and nutrient scarcity, thereby enhancing crop performance under challenging environmental conditions. Enhanced Symbiosis Rhizobium leguminosarum establishes efficient symbiotic associations with diverse leguminous plants, significantly improving nitrogen fixation , stimulating robust root development , and maximizing overall crop yields . Disease Resistance By enhancing the health and microbial balance of the rhizosphere , Rhizobium leguminosarum actively contributes to disease suppression . It aids plants in resisting soil-borne pathogens , significantly reducing the prevalence of plant diseases . Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Signaling in the Rhizobium-legume symbiosis Oldroyd, G. E., Murray, J. D., Poole, P. S., & Downie, J. A. (2011). Annual Review of Genetics , 45, 119-144. Link to Article Rhizobium–legume symbiosis and nitrogen fixation under severe conditions and in an arid climate Zahran, H. H. (1999). Microbiology and Molecular Biology Reviews , 63(4), 968-989. Link to Article Leghemoglobin and the oxygen diffusion barrier in root nodules Appleby, C. A. (1984). Annual Review of Plant Physiology , 35(1), 443-478. Link to Article Nitrogenase structure and function Hoffman, B. M., Lukoyanov, D., Yang, Z. Y., Dean, D. R., & Seefeldt, L. C. (2014). Chemical Reviews , 114(8), 4041-4062. Link to Article Reactive oxygen species in legume root nodules Puppo, A., Groten, K., Bastian, F., Carzaniga, R., Soussi, M., Lucas, M. M., & Harrison, J. (2005). Plant Physiology , 137(4), 1202-1209. Link to Article Mode of Action Mode of Action: Rhizobium leguminosarum Rhizobium leguminosarum employs a sophisticated mechanism of action to establish symbiotic relationships with leguminous plants, significantly contributing to plant growth and soil fertility. The process begins with the exchange of chemical signals between the plant roots and the bacteria. Flavonoids secreted by legume roots attract Rhizobium bacteria, which in response, produce Nod factors (lipochitooligosaccharides) crucial for initiating symbiosis. Upon recognition of Nod factors, root hairs begin to curl, forming structures that encapsulate the bacteria. These bacteria penetrate the root hair and multiply, triggering the formation of infection threads through which Rhizobium migrates towards the root cortex. Concurrently, cortical cells undergo rapid division, resulting in the formation of specialized structures called nodules. Schematic representation of establishment of legume-rhizobia symbiosis and biological nitrogen-fixation process in nodules Within these nodules, Rhizobium differentiates into a specialized form known as bacteroids. These bacteroids utilize the enzyme nitrogenase to catalyze the conversion of inert atmospheric nitrogen (N₂) into ammonia (NH₃), a form of nitrogen readily assimilated by the plant. This nitrogen fixation is energy-intensive, requiring significant ATP and electrons derived from plant photosynthesis. The enzyme nitrogenase is highly sensitive to oxygen; hence, the nodule environment is adapted to maintain low oxygen concentrations through the plant-derived protein leghemoglobin, facilitating optimal nitrogenase function. Additionally, Rhizobium leguminosarum is equipped with protective antioxidant systems such as glutathione peroxidase (Gpx), which mitigates oxidative stress by neutralizing reactive oxygen species (ROS) generated during high metabolic activity within nodules. This antioxidant activity is essential for efficient nodulation and nitrogen fixation, as oxidative stress can significantly impair bacterial survival and nodule functionality. Thus, Rhizobium leguminosarum’s mode of action encompasses chemical signaling, physical interaction with the host plant, differentiation into nitrogen-fixing bacteroids, maintenance of an oxygen-regulated microenvironment, and robust antioxidant protection. Collectively, these mechanisms underscore the bacterium’s critical role in sustainable agriculture through improved crop nutrition and soil health. Additional Info Recommended Crops: Cereals, Millets, Pulses, Oilseeds, Fibre Crops, Sugar Crops, Forage Crops, Plantation crops, Vegetables, Fruits, Spices, Flowers, Medicinal crops, Aromatic Crops, Orchards, and Ornamentals. Compatibility: Compatible with Bio Pesticides, Bio Fertilizers, and Plant growth hormones but not with chemical fertilizers and chemical pesticides. Shelf Life: Stable within 1 year from the date of manufacturing. Packing: We offer tailor-made packaging as per customers' requirements. Dosage & Application Seed Coating/Seed Treatment: 1 kg of seeds will be coated with a slurry mixture of 10 g of Rhizobium Leguminosarum and 10 g of crude sugar in sufficient water. The coated seeds will then be dried in shade and sown or broadcast in the field. Seedling Treatment: Dip the seedlings into the mixture of 100 grams Rhizobium Leguminosarum and a sufficient amount of water. Soil Treatment: Mix 3-5 kg per acre of Rhizobium Leguminosarum with organic manure/organic fertilizers. Incorporate the mixture and spread it into the field at the time of planting/sowing. Irrigation: Mix 3 kg per acre of Rhizobium Leguminosarum in a sufficient amount of water and run it into the drip lines. FAQ What is Rhizobium leguminosarum? Rhizobium leguminosarum is a species of nitrogen-fixing bacteria that forms symbiotic relationships with leguminous plants, such as peas, beans, lentils, and clover. It colonizes plant root nodules, converting atmospheric nitrogen into ammonia, which is readily usable by plants. How does Rhizobium leguminosarum benefit plant growth? Rhizobium leguminosarum significantly enhances plant growth by: Providing nitrogen directly to plants, reducing the need for chemical fertilizers. Increasing overall plant biomass and yield, especially in nitrogen-deficient soils. Producing growth-promoting substances like indole acetic acid (IAA), which further stimulate root development and enhance nutrient uptake. What role does Rhizobium leguminosarum play in soil health? Rhizobium leguminosarum contributes to soil health by: Improving soil fertility through the natural fixation of nitrogen. Enhancing soil structure by increasing root biomass and soil organic matter content. Supporting the activity of beneficial soil microorganisms, thereby promoting a healthy soil ecosystem. Read here for Rhizobium Species: Role in Plant Nutrition, Crop Quality, Soil biology and Climate Change Mitigation Potential. What ecological values does Rhizobium leguminosarum offer? Ecological benefits include: Reducing reliance on synthetic fertilizers, thus lowering agricultural chemical runoff and groundwater contamination. Promoting biodiversity by fostering sustainable agricultural practices. Contributing to carbon sequestration by increasing soil organic matter. Can Rhizobium leguminosarum protect plants against diseases or stress conditions? Yes, Rhizobium leguminosarum: Enhances plant resilience to abiotic stresses such as drought and salinity by improving root architecture and nutrient uptake. Indirectly contributes to plant disease resistance by improving plant vigor and stimulating defense mechanisms against pathogens. How can Rhizobium leguminosarum be effectively utilized in agriculture? Effective utilization strategies include: Seed inoculation with commercial Rhizobium leguminosarum formulations prior to planting legumes. Integrating crop rotation practices that include leguminous plants to maintain soil nitrogen levels naturally. Combining Rhizobium inoculation with other plant-growth-promoting microbes for synergistic effects. Related Products Acetobacter xylinum Azospirillum brasilense Azospirillum lipoferum Azospirillum spp. Azotobacter vinelandii Beijerinckia indica Bradyrhizobium elkanii Bradyrhizobium japonicum More Products Resources Read all