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. < Microbial Species 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… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Stimulates plant growth in dry soil conditions Enhances root development and improves water & nutrient uptake, particularly beneficial in arid regions. Promotes cell division and growth of host plants Influences cytokinin production and supports overall plant growth, resulting in stronger, healthier plants. Regulates host plant defense system against pests and diseases Enhances the plant's natural defense responses, reducing reliance on chemical pesticides. Accelerates fruit ripening by enhancing Abscisic Acid levels Stimulates the production of Abscisic Acid (ABA) in fruits, leading to faster and more uniform ripening. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Tsouko, E., et al. (2015). Bacterial Cellulose Production from Industrial Waste and By-product Streams. Int. J. Mol. Sci. , 16, 14832-14849. Qureshi, O., et al. (2013). Effect of Phytohormones on Gluconacetobacter xylinus Growth and Cellulose Production. Acetic Acid Bacteria , 2(s1), e7. Li, Z., et al. (2015). Production of Nano Bacterial Cellulose from Industrial Wastewater Using Acetobacter xylinum . Carbohydrate Polymers , 120, 115-119. Çakar, F., et al. (2014). Improvement in Production of Bacterial Cellulose Using Semi-Continuous Process in Molasses Medium . Carbohydrate Polymers , 106, 7-13. Mode of Action Acetobacter xylinum secretes extracellular cellulose nanofibers in the rhizosphere, forming a protective hydrogel matrix that: Enhances soil porosity and aeration Improves moisture retention by up to 40% Facilitates nutrient diffusion to roots 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 Method Rate Instructions Seed Coating 10 mL per kg of seed Mix gently, air-dry before sowing Root Dip 50 mL per 10 L water Dip seedlings 15 minutes prior to transplant Soil Amendment 2 L/ha diluted in 100 L water Apply at planting and mid-season FAQ What plants need Acetobacter xylinum ? Highly effective for solanaceous crops, cereals, vegetables, and ornamentals. Can you use too much A. xylinum ? Over-application incurs no phytotoxicity but offers no additional benefit; follow recommended rates. What improvements does cellulose hydrogel provide? Enhanced moisture buffering, root protection, and sustained nutrient availability, leading to uniform germination and stronger establishment. Related Products Azospirillum brasilense Azospirillum lipoferum Azospirillum spp. Azotobacter vinelandii Beijerinckia indica Bradyrhizobium elkanii Bradyrhizobium japonicum Gluconacetobacter diazotrophicus More Products Resources Read all

Larvicare by Indogulf Bioag supports plant protection with microbial-based crop care for healthier plants and cleaner field management. Contact today. < Plant Protect Larvicare Activates plant defense pathways against biotic stress, protecting biomolecules and cellular structures from various stressors. Product Enquiry Download Brochure Benefits Safe for Beneficial Organisms Harmless to beneficial organisms and humans, ensuring ecosystem safety. Interferes with Neurotransmitters Disrupts the neurotransmitters of target pests, leading to their elimination. Reduces Resistance Lowers the chances of pests developing resistance over time. Triple Action Combines contact, antifeedant, and neurotoxicity actions for effective pest control. Composition Amount Vitamin - A 2% Polysorbate 3% Vegetable Oil 95% Composition Dosage & Application Key Benefits FAQ Additional Info Additional Info Caused by Lepidopteran pests Thus, helps crops to achieve optimum productivity. Vitamin A is an antioxidant and takes part in physiological processes related to the growth, photoprotection, blooming, longevity, and senescence of plants. Vitamin A triggers root development and the protein that binds it. 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: 500 ml / 1 litre bottle FAQ Content coming soon! Key Benefits Content coming soon! Dosage & Application Dosage: Use 250-300 ml/acre; apply as foliar application at vegetative and flowering stage. Add to mixing tank with half of the amount of water you wish to apply. Allow the solution to completely mix then add the remaining water to the tank. Recommended dosage is for guideline purpose only. More effective application rates may exist depending on specific circumstances. Related Products Trichoderma viride Beauveria bassiana Bloom Up Flyban Insecta Repel Mealycare Metarhzium Anisopliae Mitimax More Products Resources Read all

Pseudomonas striata improves soil health, enhances root systems, increases plant drought tolerance, optimizes soil nutrition for sustained crop productivity. Compatible with bio-pesticides and bio-fertilizers. < Microbial Species Pseudomonas striata Pseudomonas striata improves soil health, enhances root systems, increases plant drought tolerance, optimizes soil nutrition for sustained crop productivity. Compatible with bio-pesticides and bio-fertilizers. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Improves Soil and Plant Health Enhances both soil fertility and plant vigor, leading to healthier crops. Enhances Root System Promotes the development of robust root systems, improving nutrient and water uptake. Increases Plant Tolerance to Stress Boosts plant resilience to environmental stresses like drought and disease. Promotes Sustainable Agriculture Supports sustainable farming practices by reducing the need for chemical inputs and enhancing soil biodiversity. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References 1. Phosphorus Solubilization & Soil Fertility Enhancement P. striata solubilizes phosphate by producing organic acids like tartaric and gluconic acid, and also produces extracellular phytase and indole-3-acetic acid (IAA), enhancing phosphorus availability and plant growth in pearl millet. Gaind, 2013 – Journal of Crop Improvement Application of P. striata with rock phosphate significantly increased phosphorus uptake and yield in soybean, suggesting cost-effective alternatives to chemical fertilizers. Dubey, 1996 – Journal of the Indian Society of Soil Science 2. Plant Growth Promotion Inoculation with P. striata enhances root and shoot biomass, nutrient uptake, and productivity in crops like sorghum and mungbean, especially in phosphorus-deficient soils. Saxena & Mohan, 2010 – Field trial study Combined inoculation with Piriformospora indica and P. striata showed synergistic effects on chickpea biomass, though phosphorus uptake remained unaffected. Meena et al., 2010 – Biology and Fertility of Soils 3. Biocontrol & Nematode Suppression Culture filtrates of P. striata reduced egg hatch of the root-knot nematode Meloidogyne javanica by up to 95%, suggesting strong nematicidal potential. Ansari et al., 2002 – Laboratory study P. striata also suppressed nematode infections in mungbean and improved nodulation and nutrient uptake in synergy with Bradyrhizobium . Khan et al., 2016 – Biological Control 4. Enzymatic Activity & Biochemical Potential P. striata produces amino acid racemases and amidases capable of breaking down compounds like acetanilide into aniline and acetic acid, indicating use in biodegradation. Hsiung et al., 1975 – Biochemical and Biophysical Research Communications Enzyme studies revealed broad-substrate amino acid racemase activity, with potential in biochemical conversions. Roise et al., 1984 – Biochemistry 5. Environmental Monitoring & Biosensing P. striata was used in developing zinc-selective membrane biosensors due to its cell membrane sensitivity to metal ions. Datta et al., 2009 – Indian Journal of Science and Technology Would you like a formatted reference list (APA/MLA) or a summary version of these resources for web use? Mode of Action Phosphate Solubilization P. striata secretes organic acids like tartaric, gluconic, citric, and malic acids that chelate calcium and release bound phosphorus from insoluble forms (like tricalcium and rock phosphate), making it available for plant uptake. It also produces extracellular phytase, which helps mineralize organic phosphate (Gaind, 2013) . 2. Plant Growth Promotion The bacterium produces indole-3-acetic acid (IAA), a phytohormone that promotes root elongation and plant biomass. Its growth-promoting effect has been observed in crops like soybean, pearl millet, chickpea, and mungbean (Dubey, 1996) , (Meena et al., 2010) .] 3. Biocontrol of Soil Pathogens P. striata produces metabolites that suppress root-knot nematodes ( Meloidogyne spp. ), significantly reducing egg hatching and juvenile survival. This makes it a potential eco-friendly nematicide (Ansari et al., 2002) , (Khan et al., 2016) . 4. Enzyme Production and Biodegradation The bacterium synthesizes enzymes such as: Aryl amidases , which hydrolyze compounds like acetanilide into aniline and acetic acid, useful in organic pollutant degradation (Hsiung et al., 1975) . Amino acid racemases , which catalyze D/L amino acid interconversion, showing promise in biochemical applications (Roise et al., 1984) . 5. Rhizosphere Colonization P. striata establishes well in the rhizosphere, maintaining populations throughout plant growth stages even under varying fertilizer levels, ensuring sustained benefits to plants (Rajkumar et al., 2008) . 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 Pseudomonas striata and 10 g of crude sugar in sufficient water. The coated seeds will then be dried in shade and sow or broadcast in the field. Seedling Treatment : Dip the seedlings into the mixture of 100 grams of Pseudomonas striata and sufficient amount of water. Soil Treatment : Mix 3-5 kg per acre of Pseudomonas striata with organic manure/organic fertilizers. Incorporate the mixture and spread into the field at the time of planting/sowing. Irrigation : Mix 3 kg per acre of Pseudomonas striata in a sufficient amount of water and run into the drip lines. FAQ What is Pseudomonas striata? Pseudomonas striata is a soil bacterium known for its ability to solubilize phosphate and promote plant growth. It is commonly used as a biofertilizer and biocontrol agent in sustainable agriculture. How does P. striata make phosphorus more available to plants? It releases organic acids such as tartaric, gluconic, and citric acids that break down insoluble phosphate compounds in the soil, converting them into forms plants can absorb (Gaind, 2013) . Does P. striata improve plant growth? Yes. It produces the plant hormone indole-3-acetic acid (IAA), enhances nutrient uptake, and increases root and shoot biomass in crops like soybean, pearl millet, and mungbean (Dubey, 1996) , (Khan et al., 2016) . Can it control plant pests or diseases? Yes. P. striata culture filtrates can suppress nematodes like Meloidogyne javanica, reducing egg hatch by up to 95%, making it a promising biocontrol agent (Ansari et al., 2002) . Is P. striata safe and environmentally friendly? Yes. It is naturally occurring in soils and supports eco-friendly farming by reducing reliance on chemical fertilizers and pesticides. Does P. striata have industrial applications? It produces enzymes like amidases and amino acid racemases that can degrade organic pollutants and may be useful in biodegradation and biochemical processing (Hsiung et al., 1975) . Related Products Aspergillus awamori Bacillus firmus Bacillus megaterium Bacillus polymyxa Pseudomonas putida More Products Resources Read all

Streptococcus salivarius promotes oral health, inhibits harmful bacteria, and supports a healthy mouth microbiome, contributing to fresh breath. < Microbial Species Streptococcus salivarius Streptococcus salivarius promotes oral health, inhibits harmful bacteria, and supports a healthy mouth microbiome, contributing to fresh breath. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Halitosis Reduction This strain may help reduce bad breath by inhibiting the growth of odor-causing bacteria in the mouth. Immune System Enhancement It boosts immune function by stimulating the production of antibodies and enhancing the body’s defenses against oral infections. Digestive Health Improvement It supports digestive health by promoting a balanced gut microbiota and alleviating gastrointestinal discomfort. Oral Health Support This probiotic helps maintain a healthy oral microbiota, reducing the risk of cavities and gum disease for improved dental hygiene. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Key Features All microbial strains are characterized using 16S rDNA. All products are non-GMO. No animal-derived materials are used. The typical shelf life is 2 years. All strains are screened in-house using high-throughput screening methods. We can customize manufacturing based on the required strength and dosage. High-resilience strains Stable under a wide pH range Stable under a broad temperature range Stable in the presence of bile salts and acids Do not show antibiotic resistance Packaging Material The product is packaged in a multi-layer, ultra-high barrier foil that is heat-sealed and placed inside a cardboard shipper or plastic drum. Shipping Shipping is available worldwide. Probiotic packages are typically transported in insulated Styrofoam shippers with dry ice to avoid exposure to extreme high temperatures during transit. Support Documentation Certificate of Analysis (COA) Specifications Material Safety Data Sheets (MSDS) Stability studies (18 months) Certifications ISO 9001 ISO 22000 HACCP Halal and Kosher Certification (for Lactobacillus strains) FSSAI Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Bifidobacterium animalis Bifidobacterium bifidum Bifidobacterium breve Bifidobacterium infantis Bifidobacterium longum Clostridium butyricum Lactobacillus acidophilus Lactobacillus bulgaricus More Products Resources Read all

Acidithiobacillus thiooxidans is a potent sulfur-oxidizing bacterium that enhances soil sulfur availability, drives bioleaching of metals, and contributes to wastewater and sludge treatment, supporting sustainable agriculture and bioremediation. < Microbial Species Thiobacillus thiooxidans Acidithiobacillus thiooxidans is a potent sulfur-oxidizing bacterium that enhances soil sulfur availability, drives bioleaching of metals, and contributes to wastewater and sludge treatment, supporting sustainable… Show More Strength 1 x 10⁹ CFU per gram / 1 x 10¹⁰ CFU per gram Product Enquiry Download Brochure Benefits Sulfur Solubilization for Nutrient Access: Effectively solubilizes sulfur compounds in soil, enhancing sulfur availability for crops and improving their growth potential. Improved Soil Fertility: Contributes to soil fertility by promoting the cycling of nutrients, leading to healthier crops and increased agricultural productivity. Support for Sustainable Agriculture: Encourages sustainable farming practices by reducing the need for chemical fertilizers and promoting natural soil enrichment through microbial action. Bioremediation of Polluted Sites: Plays a key role in bioremediation by degrading toxic substances in contaminated soils, thus aiding environmental restoration efforts. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Co-application with polysulfide pellets improved soil sulfate by 28% over controls. link.springer Phosphate rock solubilization protocol yielded 45 mg P/L after recovery phase. link.springer Chromium bioleaching from tannery sludge achieved 97.1% removal with co-culture of A. thiooxidans and A. ferrooxidans. linkinghub.elsevier Genomic analysis reveals multiple HDR-like and Sox operons enabling robust sulfur metabolism under extreme conditions. pmc.ncbi.nlm.nih Mode of Action Acidithiobacillus thiooxidans employs a multi-enzyme network to oxidize reduced inorganic sulfur compounds (RISCs) into sulfate: Elemental Sulfur Oxidation: Sulfur dioxygenase (SDO) and sulfur oxygenase reductase (SOR) convert S⁰ to sulfite and thiosulfate. Thiosulfate Pathways: Sox system oxidizes thiosulfate directly to sulfate. Thiosulfate: quinone oxidoreductase (TQO) generates tetrathionate, subsequently hydrolyzed by tetrathionate hydrolase (TetH). pmc.ncbi.nlm.nih Sulfide Oxidation: Sulfide:quinone oxidoreductase (SQR) catalyzes sulfide to elemental sulfur or polysulfide, feeding into other oxidation routes. Sulfite to Sulfate: Periplasmic sulfite oxidase (SOX) finalizes the conversion to sulfate, releasing protons that acidify the environment and mobilize metals. 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 Seedling Treatment : Prepare a mixture of 100 grams Thiobacillus Thiooxidans in sufficient water. Dip the roots of the seedlings into the mixture for 30 minutes before planting. Soil Treatment : Mix 3-5 kg per acre of Thiobacillus Thiooxidans with organic manure/organic fertilizers. Irrigation : Mix 3 kg per acre of Thiobacillus Thiooxidans in a sufficient amount of water and run into the drip lines. FAQ What is Thiobacillus thiooxidans used for? It oxidizes elemental sulfur into plant-available sulfate, serves in biofertilizers for S-deficient soils, and drives bioleaching of metals from ores and wastes. link .springer+1 Where is Acidithiobacillus ferrooxidans found? A. ferrooxidans thrives in acid mine drainage, sulfide-rich soils, and industrial effluents, often co-existing with A. thiooxidans in biomining environments. linkinghub.elsevier What does Thiobacillus ferrooxidans do? It oxidizes Fe²⁺ to Fe³⁺ via rusticyanin and cytochromes, acidifies its environment, and solubilizes iron and other metals for agricultural and industrial applications. universalmicrobes Is Thiobacillus ferrooxidans harmful or beneficial? Beneficial for bioleaching and soil micronutrient mobilization, but its acid production can accelerate concrete corrosion and acidify effluents if unmanaged. e3s-conferences How does Thiobacillus thiooxidans help in bioleaching? By producing sulfuric acid through sulfur oxidation, it lowers pH, solubilizes metal sulfides, and enhances metal recovery from ores and industrial wastes. linkinghub.elsevier Can Thiobacillus species improve soil fertility? Yes—by oxidizing sulfur compounds to sulfate, they sustain plant sulfur nutrition, stimulate microbial diversity, and improve soil structure and nutrient cycling. link .springer Are Thiobacillus bacteria used in wastewater treatment? They are employed for desulfurization and heavy metal removal in tannery, municipal, and industrial wastewaters via sulfur oxidation and acidification processes. hindawi+1 Related Products Saccharomyces cerevisiae Bacillus polymyxa Acidithiobacillus novellus Thiobacillus novellus Alcaligenes denitrificans Bacillus licheniformis Bacillus macerans Citrobacter braakii More Products Resources Read all

Indogulf BioAg is a Manufacturer & Global Exporter of Nematicides, Serratia Marcescens, Pochonia Chlamydosporia, verticillum & other Bacterias. Contact us @ +1 437 774 3831 < Microbial Species Bionematicides Bionematicides are innovative biological agents designed to control plant-parasitic nematodes (PPNs) in agricultural soils. These products work by targeting nematodes ( i.e root knot nematodes) directly or improving the resilience of crops against nematode attacks. By protecting plant roots, bionematicides help enhance crop health, boost yields, and promote sustainable farming practices. Unlike traditional chemical nematicides, bionematicides are derived from naturally occurring microorganisms—such as nematophagous fungi and beneficial bacteria—or bioactive compounds from plants and microbes. These agents offer an eco-friendly, residue-free alternative, making them a vital part of modern integrated pest management (IPM) systems. Product Enquiry What Why How FAQ What it is Bionematicides are advanced biological agents designed to control plant-parasitic nematodes, protecting crops and improving yields. Made from proprietary strains of fungi and bacteria, these eco-friendly solutions reduce chemical dependency, promote soil health, and provide sustainable, long-term pest management through mechanisms like parasitism, predation, and induced plant resistance. Perfect for integrated pest management systems, they ensure effective and environmentally safe nematode control. Why is it important 1. Environmental Safety Non-toxic to humans, animals, and non-target organisms, including beneficial soil microbes, insects, and earthworms. Biodegradable, leaving no harmful residues in the environment. Supports eco-conscious farming practices by reducing chemical inputs and their associated risks. 2. Soil Health Promotion Enhances soil biodiversity by fostering the growth of beneficial microorganisms. Restores soil structure and promotes nutrient cycling, reversing the damage caused by chemical nematicides. Strengthens the rhizosphere, enabling plants to thrive in nematode-prone soils. 3. Resistance Management Deploys multiple biological modes of action, such as parasitism, predation, and enzymatic activity, reducing the likelihood of nematode resistance. Adaptive solutions ensure sustained efficacy even under changing environmental conditions. 4. Cost-Effective and Sustainable Reduces reliance on expensive synthetic nematicides by offering a long-lasting and scalable solution. Aligns with consumer demand for chemical-free, organic produce while maintaining farm profitability. How it works Bionematicides target nematodes through diverse biological mechanisms that disrupt their life cycle and protect plant roots: 1. Predation Mechanism : Predatory fungi and nematophagous bacteria actively hunt and consume nematodes, reducing their populations in the soil. Example : Paecilomyces lilacinus traps nematode eggs and juveniles, digesting their contents to halt infestations. 2. Parasitism Mechanism : Certain fungi and bacteria attach to nematodes or penetrate their bodies, releasing enzymes and toxins that suppress development or reproduction. Example : Pochonia chlamydosporia colonizes nematode eggs, degrading their protective layers to prevent hatching. 3. Antagonism Mechanism : Beneficial microbes compete with nematodes for resources or release nematicidal compounds that inhibit nematode growth and reproduction. Example : Serratia marcescens produces protease enzymes that disrupt nematode cuticles and lifecycle stages. 4. Induced Plant Resistance Mechanism : Bionematicides stimulate systemic resistance in plants, activating natural defense pathways to withstand nematode infections. Example : Bacillus thuringiensis primes plants for stronger immune responses while producing Cry proteins that target nematodes directly. FAQ Content coming soon! Bionematicides Our Products Explore our range of premium Bionematicides tailored to meet your agricultural needs, offering natural and sustainable solutions for nematode control in your crops. Paecilomyces lilacinus Paecilomyces Lilacinus is a versatile biological agent employed as both a nematicide and seed treatment. It effectively targets and controls parasitic nematodes in agriculture. View Species Pochonia chlamydosporia Pochonia Chlamydosporia is a beneficial fungus effective against parasitic nematodes. It colonizes nematode eggs, preventing their development, offering sustainable pest control solutions. View Species Serratia marcescens Serratia marcescens is a highly adaptable Gram-negative bacterium renowned for its diverse metabolic capabilities and significant applications across environmental sustainability, agriculture, and biotechnology. This remarkable microorganism is characterized by its ability to produce prodigiosin, a vibrant red pigment, and its effectiveness in promoting plant health and bioremediating various pollutants. View Species Verticillium chlamydosporium Verticillium Chlamydosporium: Biological nematicide with enzyme action, sustainable pest management without environmental residue. View Species Resources Read all

Nano Anpeekay Fertilizers Recommended for Corn, Soybean, Fruits, Vegetables, Rice, Sugar cane, Wheat, Cotton, Tobacco, and any other crops Nano Anpeekay Fertilizers Nano Anpeekay Fertilizer is a customized liquid nutrient premix containing colloidal particulates of phosphorus, colloidal particulates of potassium, embedded in a colloidal amino acid matrix; along with, protease, phytase, and phosphatase enzymes for use in Agricultural fertilization programs and animal feed supplementation. This blend has been delicately handled to ensure the full benefit of a boost to the metabolism of high-performance ruminants, poultry, fish, prawn, agricultural crops in a safe naturally occurring manner. Benefits Improve plant health Increases the level of energy, water and nutrient holding capacity Improves plants resistance against pest and diseases It works well in alkaline and neural soils Supplemental for missing nutrients of the plants Water soluble and bioavailability Composition/Technical Specifications How it Works Nano Anpeekay Fertilizers are totally bioavailable and enter into the plant system as a bio encapsulated molecule in whole and results in no antagonisms. Natural Ionised Phosphorus and Ionised Potassium and Colloidal Protein successfully combined with a biopolymer. The biopolymer employed by us is based on three natural organic polymers which exist in all living animals. This product is totally bio assimilable as a whole without breaking up and will also improve the performance of the microflora that may be present in the soil, plant, or GI tract of animals. 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 fertilisers and chemical pesticides. Shelf Life & Packaging Shelf life : Best before 24 months, Stored in room temperature. Packaging : 25 Liters For more useful fertilzers visit Nano fertilizers Downloads Product Information Click here for Product Enquiry

Leading manufacturer & exporter of Rice Protect Kit for Root-Knot Nematodes. Enhance rice crop health with our effective, eco-friendly solution. < Crop Kits Insect Pest Management | Root Knot Nematodes Root knot nematodes infest rice roots, causing the formation of galls that impede nutrient and water uptake. This results in stunted plant growth, yellowing of leaves, and reduced yield. Implementing soil management practices and resistant varieties are critical for managing root knot nematode infestations and maintaining crop health. Product Enquiry Download Brochure Management Biological Control FAQ Additional Info FAQ What is the most effective root-knot nematode treatment for protecting crops from soil damage? The most effective treatment for root-knot nematodes usually involves integrated pest management (IPM) strategies. These include crop rotation with non-host crops, soil solarization, use of resistant crop varieties, biological control agents, and organic soil amendments such as compost or neem cake. Biological nematicides containing beneficial fungi and bacteria can also suppress nematode populations while improving soil health. What are the key root-knot nematode characteristics that help identify their presence in the field? Root-knot nematodes are microscopic parasitic worms that attack plant roots. The most noticeable characteristic is the formation of galls or knot-like swellings on plant roots . Other signs of infestation include: Stunted plant growth Yellowing leaves Wilting even when soil moisture is adequate Reduced crop yield Uneven plant growth in fields Farmers often confirm nematode presence by examining plant roots for these distinctive galls. How do you get rid of root-knot nematodes without harming beneficial soil microbes? To control root-knot nematodes without harming beneficial soil organisms, farmers can use organic and biological methods , such as: Applying beneficial microorganisms like Trichoderma , Paecilomyces lilacinus , or Pochonia chlamydosporia Adding organic matter such as compost or vermicompost Using neem-based products like neem cake or neem oil Practicing crop rotation with non-host crops Growing cover crops that suppress nematodes These practices help maintain soil biodiversity while controlling nematode populations. What do root-knot nematodes do to plant roots and overall crop yield? Root-knot nematodes infect plant roots and stimulate the formation of root galls . These galls disrupt the plant's ability to absorb water and nutrients from the soil. As a result: Root systems become weak and inefficient Plants show nutrient deficiency symptoms Growth becomes stunted Crop yields decline significantly Severe infestations can cause substantial economic losses in vegetable, fruit, and field crops. Can root-knot nematodes infect humans or are they limited to plants only? Root-knot nematodes are plant-parasitic organisms and do not infect humans or animals. They live in soil and feed exclusively on plant roots. While they can cause serious damage to crops, they are not harmful to human health . What pesticide kills root-knot nematodes effectively in agricultural soil? Several nematicides are used to control root-knot nematodes in agriculture. These include both chemical and biological products. Examples include: Chemical nematicides containing fluensulfone or oxamyl Biological nematicides containing beneficial fungi or bacteria Neem-based nematicides derived from neem seed extracts Biological and organic options are increasingly preferred because they reduce environmental impact and preserve soil health. How to treat root-knot nematodes during early crop growth stages? Early control is essential to prevent nematode damage. Farmers can manage nematodes during early crop growth by: Applying biological nematicides during planting Using neem cake or organic soil amendments Treating seeds or seedlings with beneficial microbes Practicing soil solarization before planting Monitoring fields regularly for early symptoms Early intervention helps reduce nematode populations before they spread. How to control root-knot nematodes organically in sustainable farming systems? Organic control methods focus on improving soil health and encouraging natural enemies of nematodes. Common organic strategies include: Crop rotation with resistant or non-host crops Growing marigold or mustard as biofumigant crops Applying compost, green manure, or vermicompost Using neem-based products such as neem cake Introducing beneficial fungi and bacteria These approaches reduce nematode populations while maintaining ecological balance in sustainable farming systems. Management Use resistant varieties. Provide staking for perching birds. Treat seeds/seedlings to reduce field infestations. Place straw on bunds and in fields at several locations to collect/destroy hiding caterpillars. Check the nursery regularly; clip off affected leaves if infestation is noticed. Biological Control Our ALLPROTEC 0.03% at 150–300 g, along with our B. subtilis at 400–600 g and Pseudomonas fluorescens at 300–500 g per acre, diluted in 200 L of water using a high-volume power sprayer. Additional Info Shelf Life & Packaging: Storage: Store in a cool, dry place at room temperature Shelf Life: 24 months from the date of manufacture at room temperature Packaging: 1 kg Disease Management Bacterial Blight Blast Brown Spot Sheath Blight Udbatta Disease Insect Pest Management Army Worms Case Worm Gundhi Bug Leaf Folders Plant Hopper Rice Hispa Root Knot Nematodes Stem Borers Resources Read all

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

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