Indogulf BioAg is a leading and trusted organic agricultural fertilizer & nano tech based nutrients manufacturer and exporter in USA, Canada & Europe. Contact us @ +1 437 774 3831 NATURE IS THE BEST TECHNOLOGY Naturally derived nutrients that deliver a big harvest Our Products featured What We Offer Microbial Species Biofertilizers Environmental Solutions Nano Fertilizers CDMO Microbial Species Unlock the potential of your soil with our carefully selected microbial strains, engineered to enhance nutrient availability, promote plant growth, and suppress harmful pathogens, ensuring healthier crops and improved yields. Learn more Nano Fertilizers Experience the next generation of fertilization with our nano fertilizers, delivering nutrients at the molecular level for maximum efficiency and minimal environmental impact, resulting in enhanced fertility and optimized plant nutrition. Learn more Environmental Solutions Our comprehensive environmental solutions offer innovative approaches to sustainability, from waste management to renewable energy initiatives, helping businesses and communities reduce their ecological footprint and foster a greener future. Learn more Biofertilizers Supercharge your crops with our biofertilizers – powered by beneficial microbes that fix nitrogen, solubilize phosphorus, and boost root development for stronger, more resilient plants and sustainable productivity. Learn more CDMO Services Accelerate your product journey with our CDMO services – from microbial strain development to large-scale fermentation and formulation, we deliver custom, end-to-end solutions with precision, speed, and regulatory compliance. Learn more Balance Your Soil with Microbial Species More about Microbial Species Biofertilizers Root Enhancers View Collection Soil Enhancers View Collection Microbial Blends View Collection Plant Protect View Collection Crop Kits View Collection Soil Conditioners View Collection More about Biofertilizers Balance Your Ecosystem with Innovative Solutions More about Environmental Solutions Empowering farmers with innovative soil carbon solutions. About us Fertilize Your Soil for Bountiful Harvests More about Nano Fertilizers CDMO Services CRO Services Strain identification, screening, and performance validation through lab studies and field trials—built on rigorous scientific protocols. Learn More Contract Manufacturing Scalable production of microbial products, including fermentation, formulation, and packaging, with full quality control. Learn More Custom Formulation Development of crop- and region-specific microbial blends optimized for efficacy, compatibility, and stability. Learn More Private Label Launch-ready microbial products under your brand, with complete support from formulation to compliant packaging. Learn More Regulatory Support Expert preparation of regulatory dossiers and guidance for product registration in global markets. Learn More More about our CDMO Services Driving sustainable agriculture forward with our microbial innovation. Our Brands Industries We Serve Agriculture Sustainable crop production using biofertilizers and nano-fertilizers to increase yields, enrich soil fertility, and reduce chemical inputs. Learn More Animal Health Probiotic feed additives and waste treatment microbes that improve livestock growth, animal wellness, and farm hygiene in poultry, dairy, aquaculture, and more. Learn More Bioremediation Microbial consortia for environmental cleanup – breaking down oil spills, pesticide residues, and industrial pollutants to restore soil and water quality. Learn More Wastewater Treatment Bio-augmentation of treatment plants with specialized bacteria that accelerate organic waste degradation, reduce sludge, and remove nutrients from effluents. Learn More Mining Bio-mining and remediation solutions, including bacteria that extract metals from ores and microbes that mitigate acid mine drainage and detoxify mining waste. Learn More Nutraceuticals Production of probiotic strains and fermentation-derived nutrients (vitamins, enzymes) for dietary supplements and functional foods that promote human health. Learn More Cosmetics Fermented ingredients and probiotic extracts for skincare and personal care products, providing natural, effective alternatives to synthetic chemicals. Learn More z Our Certificates At IndoGulf BioAg, our commitment to quality, safety, and sustainability is reflected in the certifications we hold across our operations and products. These globally recognized standards validate our manufacturing excellence, environmental responsibility, and regulatory compliance. 82% Resources Read all

Used as seed inoculant, enhances germination and root development, improves water and nutrient transport, environmentally safe. < Microbial Species Bacillus azotoformans Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Fixes atmospheric nitrogen for plant use Bacillus azotoformans converts atmospheric nitrogen into forms that plants can use, thereby enhancing soil fertility and reducing the need for synthetic fertilizers. Improves plant immunity against diseases Enhances the plant's defense mechanisms, making it more resistant to various pathogens and reducing disease incidence. Increases crop yield and quality Promotes overall plant growth, which translates to higher yields and improved quality of harvested produce. Enhances root development and water uptake Stimulates root growth and improves water absorption capacity, leading to better plant health and resilience against drought stress. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Mode of Action Additional Info Dosage & Application FAQ Related Products Bacillus amyloliquefaciens Bacillus circulans Bacillus pumilus Pseudomonas fluorescens Pseudomonas putida Rhodococcus terrae Vesicular arbuscular mycorrhiza Williopsis saturnus More Products Resources Read all

Paracoccus Denitrificans is a beneficial bacteria that is known for its nitrate reducing properties by its ability of converting nitrate to nitrogen gas. < Microbial Species Denitrification Denitrification is a complex microbial process that plays a central role in the nitrogen cycle, facilitating the transformation of nitrates (NO₃⁻) and nitrites (NO₂⁻) into gaseous forms such as nitrogen gas (N₂), nitric oxide (NO), and nitrous oxide (N₂O). This reduction process is carried out predominantly by facultative anaerobic bacteria under oxygen-limited (anoxic) conditions. The pathway involves multiple enzymatic steps mediated by specialized enzymes, each catalyzing a specific reduction reaction: Nitrate reductase (Nar or Nap): Reduces nitrate (NO₃⁻) to nitrite (NO₂⁻). Nitrite reductase (Nir): Converts nitrite to nitric oxide (NO). Nitric oxide reductase (Nor): Reduces NO to nitrous oxide (N₂O). Nitrous oxide reductase (Nos): Converts N₂O to dinitrogen gas (N₂), completing the process. Product Enquiry What Why How Additional Info FAQ What it is Denitrification is a critical microbial process in the nitrogen cycle where nitrate (NO₃⁻) is reduced to nitrogen gas (N₂) or nitrous oxide (N₂O), returning nitrogen to the atmosphere. This transformation, primarily facilitated by specialized bacteria under low oxygen (anoxic) conditions, plays a pivotal role in mitigating nitrogen pollution, reducing nitrate leaching, and improving water quality. This process occurs naturally in saturated soils, wetlands, and waterlogged areas but has become essential in engineered systems like wastewater treatment plants to manage excess nitrogen from agricultural, industrial, and municipal effluents. Why is it important Environmental Benefits Prevents eutrophication caused by nitrogen-rich runoff, which depletes oxygen in aquatic ecosystems and triggers harmful algal blooms. Mitigates groundwater contamination by reducing nitrate levels, ensuring safe drinking water. Agricultural and Industrial Applications Helps maintain soil health by balancing nitrogen levels, ensuring sustained crop productivity. Reduces the environmental impact of nitrogen-rich effluents from industries like food processing, textiles, and pharmaceuticals. The Science Behind Denitrification Denitrification is a multi-step process where bacteria use nitrate as an electron acceptor in the absence of oxygen, reducing it sequentially through: Nitrate (NO₃⁻) → Nitrite (NO₂⁻) → Nitric Oxide (NO) → Nitrous Oxide (N₂O) → Nitrogen Gas (N₂) Key enzymes involved include: Nitrate Reductase (Nar): Converts nitrate to nitrite. Nitrite Reductase (Nir): Reduces nitrite to nitric oxide. Nitric Oxide Reductase (Nor): Converts nitric oxide to nitrous oxide. Nitrous Oxide Reductase (Nos): Final step to nitrogen gas. Factors Influencing Denitrification Oxygen Levels : Requires anoxic conditions but is sensitive to oxygen interference. Organic Carbon Availability : Serves as an energy source for bacteria. Organic amendments or endogenous carbon sources are crucial. Temperature : Optimal bacterial activity occurs between 20–30°C, but certain strains function in wider ranges. pH : Ideal range is 6.5–8.0; deviations reduce efficiency. Carbon-to-Nitrogen Ratio (C/N) : Higher ratios improve denitrification rates. How it works Denitrification is a multi-step microbial process where nitrates (NO₃⁻) are sequentially reduced to nitrogen gas (N₂) or nitrous oxide (N₂O), effectively removing nitrogen from soil or water systems. This process is carried out under anoxic (oxygen-limited) conditions and involves specialized bacteria that utilize nitrate as an alternative electron acceptor. Here is how the process works: Sequential Reduction Steps The denitrification process involves the stepwise reduction of nitrate: Nitrate (NO₃⁻) is reduced to Nitrite (NO₂⁻) by the enzyme Nitrate Reductase . Nitrite (NO₂⁻) is further reduced to Nitric Oxide (NO) by Nitrite Reductase . Nitric Oxide (NO) is converted to Nitrous Oxide (N₂O) by Nitric Oxide Reductase . Nitrous Oxide (N₂O) is finally reduced to Nitrogen Gas (N₂) by Nitrous Oxide Reductase , completing the process. Role of Denitrifying Bacteria Denitrification is facilitated by a diverse group of bacteria, including: Pseudomonas spp . , Paracoccus denitrificans , and Thiobacillus denitrificans : Facultative anaerobes that dominate under anoxic conditions. Bacillus spp . and other facultative anaerobes capable of switching between aerobic and anaerobic metabolism based on oxygen availability. These bacteria thrive in environments with limited oxygen, such as waterlogged soils, wetlands, and the anoxic zones of wastewater treatment systems. FAQ Content coming soon! Additional Info What bacteria are involved in denitrification? Denitrification is carried out by a diverse group of facultative anaerobic bacteria that can switch between using oxygen and nitrates for respiration. The most important denitrifying bacteria include: pmc.ncbi.nlm.nih+1 Pseudomonas species These are the dominant bacterial genus in most denitrifying systems. Key species include: frontiersin+1 Pseudomonas stutzeri - The most widely studied and distributed denitrifying bacterium pmc.ncbi.nlm.nih+1 Pseudomonas mendocina and Pseudomonas putid a - Common in both aquatic and soil environments nature Pseudomonas aeruginosa - Known for its high denitrification efficiency sciencedirect Other important denitrifying bacteria include: Paracoccus denitrificans - A model organism for denitrification research pmc.ncbi.nlm.nih Alcaligenes species - Marine and terrestrial denitrifiers patents.google Bacillus species - Soil-dwelling facultative anaerobes wikipedia Thiobacillus denitrificans - Specialized for sulfur-based denitrification Rheinheimera, Ochrobactrum, and Gemmobacter species - Found in aquatic systems nature These bacteria are found naturally in soils, sediments, groundwater, and wastewater treatment systems where they play crucial roles in nitrogen cycling. pmc.ncbi.nlm.nih+1 Pseudomonas denitrifying bacteria? Yes, Pseudomonas is one of the most important groups of denitrifying bacteria. Multiple Pseudomonas species are well-documented denitrifiers: pmc.ncbi.nlm.nih+1 Pseudomonas stutzeri is considered a model organism for denitrification studies and is widely distributed in environmental systems pmc.ncbi.nlm.nih Pseudomonas mendocina and Pseudomonas putida are dominant culturable aerobic denitrifiers in river systems nature Pseudomonas aeruginosa has been used to develop high-efficiency denitrifying consortia for wastewater treatment sciencedirect Pseudomonas bacteria contain all the necessary genes for complete denitrification, including napA (nitrate reductase), narG (nitrate reductase), nirS (nitrite reductase), norB (nitric oxide reductase), and nosZ (nitrous oxide reductase). They are particularly valuable because they can perform heterotrophic nitrification and aerobic denitrification, making them effective for nitrogen removal even in oxygen-present conditions. pmc.ncbi.nlm.nih Is Azotobacter a denitrifying bacterium? Azotobacter is primarily a nitrogen-fixing bacterium, not a denitrifying bacterium. However, research shows that some Azotobacter species have limited denitrification capabilities: frontiersin Azotobacter indicum and Azotobacter chroococcum can reduce nitrates to nitrites and nitric oxide under anaerobic conditions, but this is not their primary function pubmed.ncbi.nlm.nih This denitrification ability is unusual because Azotobacter species are obligate aerobes (require oxygen) and are primarily known for atmospheric nitrogen fixation pmc.ncbi.nlm.nih+1 The main role of Azotobacter remains converting atmospheric nitrogen (N₂) into ammonia for plant use, making them important biofertilizers rather than denitrifiers. Their limited denitrification capability appears to be a secondary metabolic pathway that operates under specific anaerobic conditions. pubmed.ncbi.nlm.nih+1 What is the role of denitrifying bacteria? Denitrifying bacteria serve several critical environmental and agricultural functions: xzbiosludge+1 Environmental Protection Prevent water pollution by removing excess nitrates from groundwater and surface water xzbiosludge Prevent eutrophication in aquatic systems by reducing nitrogen-rich runoff that causes harmful algal blooms xzbiosludge Reduce greenhouse gas emissions by converting nitrous oxide (N₂O) to harmless nitrogen gas (N₂) vedantu Nitrogen Cycle Completion Return nitrogen to the atmosphere by converting nitrates back to nitrogen gas, completing the natural nitrogen cycle xzbiosludge Balance soil nitrogen levels to maintain optimal conditions for plant growth xzbiosludge Remove excess nitrogen from agricultural and industrial waste streams xzbiosludge Wastewater Treatment Applications Biological nutrient removal in sewage treatment plants to meet discharge standards cordis.europa Industrial effluent treatment for food processing, pharmaceutical, and chemical industries Tertiary treatment to achieve ultra-low nitrogen levels in treated wastewater Agricultural Benefits Soil health maintenance by preventing nitrate accumulation that can harm beneficial soil microorganisms Sustainable farming support by managing nitrogen cycling in agricultural systems How to get denitrifying bacteria? Denitrifying bacteria can be obtained through several isolation and cultivation methods: core+1 Natural Sources Activated sludge from wastewater treatment plants - richest source of diverse denitrifiers pmc.ncbi.nlm.nih Soil samples from agricultural fields, wetlands, and waterlogged areas pmc.ncbi.nlm.nih Sediment samples from rivers, lakes, and marine environments nature Groundwater and contaminated subsurface environments pmc.ncbi.nlm.nih Laboratory Isolation Methods Enrichment Cultivation Use selective growth media containing nitrate as the sole electron acceptor under anaerobic conditions core+1 Optimal media composition includes tryptic soy broth with nitrate supplementation core Incubation conditions: 30°C under nitrogen atmosphere or in anaerobic chambers frontiersin+1 Isolation Procedure Initial enrichment in liquid medium for 7-10 days under anaerobic conditions pmc.ncbi.nlm.nih Serial transfers (3-4 transfers) to ensure denitrifier selection pmc.ncbi.nlm.nih Plating on solid medium to isolate individual colonies pmc.ncbi.nlm.nih Confirmation testing using nitrate/nitrite reduction assays nature+1 Commercial Sources Specialized bacterial culture collections that maintain denitrifying strains Environmental biotechnology companies that produce denitrifying bacterial inoculants Research institutions with established denitrifier collections Growth rate of denitrifying bacteria Denitrifying bacteria exhibit variable growth rates depending on species, substrate, and environmental conditions: frontiersin+1 Typical Generation Times Pseudomonas stutzeri Aerobic conditions: 2.8 hours generation time frontiersin Anaerobic conditions: 4-6 hours with acetate substrate pmc.ncbi.nlm.nih Paracoccus denitrificans With acetate: 4-6 hours doubling time pmc.ncbi.nlm.nih With formate: ~10 hours doubling time pmc.ncbi.nlm.nih With hydrogen: ~20 hours doubling time pmc.ncbi.nlm.nih Environmental Factors Affecting Growth Rate Temperature Optimal range: 30-37°C for most mesophilic denitrifiers patents.google +1 Marine species: Optimal at 35°C patents.google Cold-adapted species: Can grow at 4°C but with longer generation times frontiersin Substrate Type Organic carbon sources (acetate, lactate) support fastest growth pmc.ncbi.nlm.nih Simple carbon sources like acetate provide better growth rates than complex substrates Carbon-to-nitrogen ratio affects growth efficiency and rate pmc.ncbi.nlm.nih Oxygen Levels Aerobic growth generally faster than anaerobic denitrification frontiersin Microaerobic conditions often optimal for aerobic denitrifiers nature pH and Environmental Conditions Optimal pH: 6.5-8.0 for most denitrifiers patents.google Growth monitoring: Typically monitored by optical density changes over 24-48 hour periods pmc.ncbi.nlm.nih Batch culture conditions: Growth curves show exponential phase lasting 12-24 hours under optimal conditions The growth rates make denitrifying bacteria practical for both environmental applications and laboratory research, with most strains achieving significant biomass within 1-3 days under optimal conditions. patents.google +1 Denitrification Our Products Explore our range of premium Denitrification products tailored to meet your agricultural needs, optimizing nitrogen cycling and minimizing environmental impact. Paracoccus denitrificans Paracoccus denitrificans is a beneficial bacterium known for its nitrate-reducing properties, specifically its ability to convert nitrate to nitrogen gas. View Species 1 1 ... 1 ... 1 Resources Read all

Explore Mykrobak Drop by Indo Gulf BioAg - the eco-friendly solution for wastewater treatment. Trusted manufacturer & exporter of environmental solutions. < Environmental Solutions Mykrobak Drop Mykrobak Drop are self-dissolving packets with bacteria and enzymes for septic tanks. They break down fats, grease, oils, and chemicals, ensuring efficient waste decomposition and system upkeep. Product Enquiry Download Brochure Benefits Rapid Solid Breakdown Contains patented bacterial cultures for rapid breakdown of solids, reducing odor, scum, and fecal sludge. Prevent Clogs Helps prevent main line and leach line clogs, reducing the need for septic tank pumping. Easy Application Easy-to-use, concentrated bacteria in self-dissolving pouches for convenient use. Peak Performance Keeps your septic tank working at peak performance and restores natural bacteria balance. 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 Directions Place one block in each urinal space every 50cm in trough urinals Replace when the block has dissolved for maximum efficiency Area Of Application To use in public Urinals Suitable for all types of urinals including stainless steel, porcelain and ceramic 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 Fog Mykrobak N&P Booster Mykrobak Nutrients Remover More Products Resources Read all

Budmax - Grow king-sized buds using our specialized cannabis organic fertilizer. 3 stage nutrient kit – RootX, GrowX & BloomX. Grow resin heavy buds, with a 50% higher yield. < Crop Kits BudMax Kit BudMax Kit (now known as Super Microbes) provides a comprehensive solution with its 3-step process: ROOT X for root development during sowing or transplanting, GROW X for vigorous vegetative growth, and BLOOM X for flowering, ensuring robust, king-sized cannabis buds with unmatched quality, yield, potency, and consistency. Product Enquiry Super Microbes The Ultimate Guide to the Perfect Weed Fertilizer Kit for Thriving Cannabis Plants A comprehensive weed fertilizer kit tailored to your cannabis strain ensures balanced nutrition, healthier roots, bigger yields, and potent buds from seedling to harvest. Cannabis cultivation demands precise nutrients at every growth stage. A weed fertilizer kit simplifies feeding schedules by bundling pH-balanced macronutrients, micronutrients, and soil-friendly additives. Whether you’re growing in soil, coco, or hydroponics, the right kit eliminates guesswork and maximizes THC, CBD, and terpene production. Key Components of a Premium Kit Vegetative Nutrient High nitrogen (N) blend with added calcium and magnesium for strong stems and lush foliage Bloom Nutrient Elevated phosphorus (P) and potassium (K) levels to fuel bud formation and resin production Micronutrient Pack Iron, zinc, manganese, boron, and molybdenum prevent hidden deficiencies Beneficial Microbes & Enzymes Mycorrhizal fungi, Bacillus strains, and organic enzymes improve nutrient uptake and root health pH Stabilizer Keeps irrigation water between 5.8–6.3 to unlock nutrient availability Why Choose a Weed Fertilizer Kit? A complete kit offers All-in-one convenience Everything from N-P-K ratios to trace elements in one pack. Stage-specific formulas Separate veg and bloom nutrients optimize leaf and flower development. Consistent results Pre-measured doses reduce nutrient burn and deficiencies. pH buffering Built-in pH adjusters maintain root-zone stability. How to Use Your Weed Fertilizer Kit Benefits of Using a Complete Kit Tips for Best Results How to Use Your Weed Fertilizer Kit Seedling Stage (Weeks 1–2): – Use ¼ strength veg formula every other watering. – Monitor runoff pH; adjust to 6.0 if needed. Vegetative Stage (Weeks 3–6): – Increase to ½–¾ strength veg nutrient. – Add microbial inoculant once per week. Transition (Week 7): – Blend veg and bloom at 50/50 ratios to ease plants into flowering. Flowering Stage (Weeks 8+): – Switch to full-strength bloom formula. – Introduce PK booster in week 3 of bloom to enhance bud density. Flush (Last 1–2 weeks): – Use plain, pH-balanced water to rid buildup and improve smoke quality. Benefits of Using a Complete Kit Maximized Yields: Balanced nutrition promotes vigorous growth and heavy colas. Enhanced Potency: Proper P and K levels boost cannabinoid and terpene synthesis. Simplified Workflow: Reduced measurement errors save time and prevent stress. Root Health: Microbial additives strengthen roots and suppress pathogens. Tips for Best Results Always measure EC/ppm after mixing nutrients. Keep water temperature between 18–22 °C to maintain dissolved oxygen. Adjust feeding based on plant response—yellowing leaves in veg signal N deficiency; brown tips in bloom indicate K burn. Store your kit in a cool, dark place to preserve potency. BudMax Kit Our Products Explore our premium BudMax Kit, (now known as Super Microbes) a 3-step solution for robust cannabis buds: ROOT X for strong roots, GROW X for vigorous growth, and BLOOM X for high-quality, potent flowers. BloomX A specialized bloom booster fertilizer for the flowering stage, designed to solubilize phosphorus and micronutrients in the soil for optimal plant uptake. View Product BoostX Influences the microbial environment, promoting beneficial microorganisms that enhance plant growth, quality, and soil fertility through fermentation. View Product GrowX Derived from the fermentation of sugarcane molasses and organic matter, containing naturally derived nutrients and a consortium of beneficial bacteria. View Product RootX Extends the root system, expanding the rhizosphere to help plants draw in nutrients, minerals, and water more efficiently. View Product 1 1 ... 1 ... 1 Resources Read all

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

Recommended to be used for all crops. Nano Phosphorus Fertilizer is a customized liquid phosphorus nutrient premix containing particulates of ionized phosphorus embedded in a colloidal amino acid matrix Nano Phosphorus (P) Fertilizers Recommended to be used for all crops Nano Phosphorus fertilizer is a customized liquid phosphorus nutrient premix containing particulates of ionized phosphorus embedded in a colloidal amino acid matrix; along with phytase and phosphate enzymes for use in agricultural fertilization programs and animal feed supplementation. Benefits Increase water absorption and lipid solubility of the mineral nutrient Non-toxic to the plants Rebuilds tired nutrition through re-mineralization High solubility and bioavailability Improved plant health and increases the level of energy, water and nutrient holding capacity Nano Technology will help making P in small quantities to replace of bags of P Fertilize Responsible in capturing and converting the sun's energy into useful plant compounds Stimulates root development necessary for the plant to get nutrients from the soil Responsible for crop maturity at the right time. Plants that lack phosphorous take time to mature and when they do, the fruits or seeds they bear are few and poor in quality. Helps to prevent and to fix phosphorus deficiency in the cultivated crops Helps reduces the intensity of chlorosis, withering in patches, formation of abnormal leaves, increases crop tolerance to diseases and boost growth Composition/Technical Specifications Dosage and method of Application 8 – 16 ml per liter of water for spraying, sprinkler or drip, to be applied during before sowing when the crop is 1 – 2 weeks old one week before flowering 1 – 2 weeks before harvest Compatibility Compatible with chemical fertilizers and chemical pesticides except for Calcium Ammonium Nitrate Shelf Life & Packaging Shelf life : Best before 24 months, Stored in room temperature. Packaging : 5 Ltx2/Corrugated Cardboard Box Symptoms of Phosphorus Deficiency Stunted plants and yield affected Older leaves are affected first and may acquire a purplish discoloration leaf tips will brown and die appear weak and maturity is delayed development of chlorosis as well as necrotic patches on the leaf margin For more bio-fertilizers, visit Nano fertilizers Downloads Product Information Click here for Product Enquiry

Root Enhancers - Improve the root system of all crops using the power of Mycorrizal Fungi. Check out the benefits of Mycorrhizal Fungi to the crop and soil. Root Enhancers Boost Your Roots for Thriving Plants Strengthen your plants from the ground up with our root enhancers, promoting deep, resilient root systems for healthier growth and improved nutrient uptake. Contact us What Why How What it is Mycorrhizae are a type of beneficial fungi that form symbiotic relationships with the roots of plants. These fungi extend the root system by creating a network of fungal filaments, known as hyphae, which can absorb water and nutrients more efficiently than plant roots alone. This relationship significantly enhances the plant's ability to uptake nutrients like phosphorus, nitrogen, and essential minerals from the soil. Why is it important Enhanced Nutrient Uptake: Mycorrhizae increase the surface area for absorption, allowing plants to access nutrients that are otherwise unavailable or in low concentration in the soil. Improved Water Absorption: The extensive hyphal network helps plants absorb water more efficiently, aiding in drought resistance and overall hydration. Soil Health: Mycorrhizae improve soil structure by aggregating soil particles, which enhances aeration and drainage while reducing soil erosion. Plant Growth and Health: With better access to nutrients and water, plants grow more vigorously, show improved resistance to diseases, and produce higher yields. Sustainability: Using mycorrhizae can reduce the need for chemical fertilizers and pesticides, promoting more sustainable agricultural and gardening practices. How it works The Symbiotic Relationship Mycorrhizae are beneficial fungi that form a mutualistic relationship with plant roots. The plant provides the fungi with carbohydrates from photosynthesis, and in return, the fungi enhance the plant's access to water and nutrients. Formation of Mycorrhizal Networks Mycorrhizal spores germinate and grow hyphae that penetrate plant root cells and extend into the soil. This creates a network that increases the root surface area, allowing the plant to access more resources. Nutrient and Water Uptake Phosphorus Uptake: Mycorrhizal fungi excel at absorbing phosphorus, making it more available to the plant. Nitrogen and Minerals: They also help absorb nitrogen and other essential minerals like potassium and calcium. Water Absorption: The hyphal network aids in water absorption, improving the plant's drought resistance. Improved Soil Structure Soil Aggregation: Hyphae bind soil particles, enhancing soil aeration and drainage. Reduced Erosion: Stabilized soil reduces erosion, supporting a healthier root environment. Enhanced Plant Health and Growth Growth and Yield: Better nutrient and water access leads to faster growth and higher yields. Disease Resistance: Mycorrhizae help plants resist soil-borne diseases by outcompeting harmful pathogens. Sustainability and Environmental Impact Using mycorrhizae reduces the need for chemical fertilizers, supporting sustainable and organic farming practices by promoting healthier soils and plants. Root Enhancers Our Products Explore our range of premium Root Enhancers tailored to meet your agricultural needs, promoting vigorous root growth and providing disease protection for healthier, more resilient plants. Mycorrhiza Liquid Boosts plant growth and resilience with a convenient liquid formula that supports nutrient uptake and drought resistance. Easy to apply through watering or direct soil application. View Product Mycorrhiza Powder Enhances root growth and nutrient absorption for healthier plants and improved soil structure. Ideal for mixing into soil or applying to roots and seeds. View Product 1 1 ... 1 ... 1 Resources Read all

Alcaligenes denitrificans is a denitrifying bacterium that plays a crucial role in the nitrogen cycle. It reduces nitrates (NO₃⁻) to nitrogen gas (N₂) under anoxic conditions, effectively mitigating nitrate pollution in agricultural runoff and wastewater. This bacterium is also utilized in bioremediation projects to address nitrogen-related contamination, contributing to sustainable water management and soil health. Its activity helps balance nitrogen levels, reducing environmental impacts and supporting ecosystem stability. < Microbial Species Alcaligenes denitrificans Alcaligenes denitrificans is a denitrifying bacterium that plays a crucial role in the nitrogen cycle. It reduces nitrates (NO₃⁻) to nitrogen gas (N₂) under anoxic… Show More Strength 1 x 10⁹ CFU per gram / 1 x 10¹⁰ CFU per gram Product Enquiry Download Brochure Benefits Wastewater Treatment Enhances the denitrification process, contributing to effective wastewater management. Nitrate Removal Efficiently removes nitrates, helping reduce water pollution and improve water quality. Bioremediation Support Plays a key role in breaking down harmful nitrogen compounds, supporting broader bioremediation efforts. Ecosystem Restoration Aids in balancing nitrogen levels in contaminated soils and aquatic environments. 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 Bacillus licheniformis Bacillus macerans Citrobacter braakii Citrobacter freundii More Products Resources Read all

Leading manufacturer & exporter of Nano Chitosan. Enhance environmental solutions with our innovative, eco-friendly products. < Environmental Solutions Nano Chitosan A nanoscale chitosan formulation with natural polymers and polysaccharides for superior antimicrobial properties, structural support, and bioavailability, enhancing blood's fertilizer quality. Product Enquiry Download Brochure Benefits Improved Structural Integrity Reinforces the structural integrity of treated blood, facilitating handling and application. Enhanced Antimicrobial Properties Boosts antimicrobial efficacy, safeguarding against bacterial contamination. Increased Nutrient Absorption Enhances nutrient absorption efficiency, maximizing fertilizer effectiveness. Enhanced Soil Conditioning Improves soil conditioning properties, promoting healthier plant growth and yield. Composition Dosage & Application Additional Info FAQ Composition Components Natural polymers Polysaccharides 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 Ag Protect Microbial Blend (Blood Pro) Oxymax More Products Resources Read all