Leading manufacturer and exporter of Nano Iron Fertilizer, enhancing crop yield and soil health with cutting-edge nanotechnology. Boost agriculture today! < Nano Fertilizers Nano Iron Nano iron particles encapsulated by a chitosan-based biopolymer, offering bioavailable iron for crucial biological functions in plants, such as photosynthesis, respiration, and enzyme activities. Product Enquiry Download Brochure Benefits Versatile Compatibility and Efficacy Nano Iron is compatible with all biofertilizers, chemical pesticides, fertilizers, micronutrients, plant growth regulators (PGRs), and botanicals. Additionally, it works effectively in both high and low temperatures, as well as high and low humidity conditions, making it suitable for diverse agricultural settings and climates. Stability in Sunlight It is highly photostable and does not oxidize in sunlight, ensuring its effectiveness even when exposed to sunlight during application. Supports Plant Functions Nano Iron aids in photosynthesis and respiration of plants, serving as an essential catalyst for various biological functions, which helps prevent leaf necrosis and interveinal chlorosis. Immediate Bioavailability Nano Iron's small particle size allows for immediate bioavailability, ensuring quick absorption by plants, thereby addressing iron deficiencies promptly. Component Percentage Aqua 70 Ferrous Sulfate 15 Citric Acid 15 Formic Acid 2.5 Lysine 3 Gelatin 0.25 PEG 6000 0.25 Xanthan Gum 0.03 Parabens 0.15 The nano iron formulation combines ferrous sulfate as the primary iron source with citric acid and formic acid as chelators and stabilizers. Lysine functions as a natural amino-acid chelate enhancing iron bioavailability, while gelatin provides a protein matrix for controlled release. PEG 6000 (polyethylene glycol) acts as a stabilizing surfactant, and xanthan gum imparts viscosity control. Parabens preserve formulation integrity during storage. The chitosan-based biopolymer encapsulation creates nano-scale particles (1-100 nm) that enhance penetration and minimize oxidation, resulting in superior plant uptake efficiency compared to conventional ferrous sulfate or synthetic iron chelates. Composition Dosage & Application Why choose this product Key Benefits Sustainability Advantage Additional Info FAQ Additional Info Safety for Applicators and Environment Toxicological Profile : Acute Toxicity : Low to negligible; LD50 >5,000 mg/kg (oral rat studies)—classified as non-toxic under EPA guidelines Skin Irritation : Non-irritant at recommended dilutions; allergen potential minimal due to chitosan biocompatibility Eye Irritation : Negligible; rinse with water if contact occurs Inhalation Hazard : Nano particles present minimal inhalation risk due to hydrophilic chitosan encapsulation; particles do not aerosolize significantly Reproductive/Developmental Toxicity : No evidence of teratogenicity or reproductive harm in animal studies Environmental Safety: Aquatic Toxicity : Non-toxic to fish, daphnia, algae at recommended field rates; biodegradation occurs within 7-14 days in aquatic systems Soil Persistence : Chitosan polymer fully biodegrades within 3-6 months; iron is naturally incorporated into soil iron pools Bioaccumulation Potential : Negligible; chitosan and ferrous ions are naturally occurring soil constituents Phytotoxicity : Non-phytotoxic at rates up to 10 liters/hectare; no adverse effects on non-target vegetation Special Safety Considerations Storage : Store at 4-25°C in original containers away from direct sunlight Shelf life: 24 months from manufacturing date Do not freeze; freezing may disrupt nano-particle encapsulation Application Precautions : Wear gloves and eye protection during application to avoid incidental contact Apply only to target plants; avoid contact with humans and animals Do not apply to water sources; maintain 3-meter buffer from water bodies Use low-pressure equipment to minimize drift Ideal pH for application: 5.5-7.5 (tap water); distilled water preferable for maximum stability Organic Certification : Nano iron derived from natural mineral sources and chitosan biopolymer Complies with IFOAM, OMRI, and most regional organic certification standards Approved for use in certified organic operations when applied per label instructions Worker Re-entry : No restricted entry interval (REI); safe for workers to re-enter treated areas immediately after application No personal protective equipment (PPE) required beyond standard glove use during mixing and application Compatibility Check Protocol : For new tank-mix combinations not listed above: Conduct a jar test: Mix 10 ml each of nano iron, the target product, and water in a 50 ml test tube Allow to sit for 15 minutes at ambient temperature Observe for: Separation of layers (indicates incompatibility) Cloudiness or precipitation (potential interaction) pH change >1 unit (possible chelation interference) If no visible changes occur, proceed with field-scale mixing at recommended rates Regulatory Compliance USA (EPA) : Registered as a fertilizer; exempt from fungicide registration under 40 CFR 152.25(f)(1) EU : Complies with Fertilizing Products Regulation (EU) 2019/1009 Canada : Registered fertilizer with CFIA India : Approved for sale under Fertilizer Control Order (FCO) Contact & Support For technical questions, crop-specific recommendations, or bulk ordering information, contact our agricultural specialists. IndoGulf BioAg's precision-engineered nano-fertilizer portfolio is formulated and developed in-house to maximize nutrient uptake and minimize environmental loss. Why choose this product? Superior Bioavailability Nano iron particles achieve 90-95% uptake efficiency, compared to 30-50% for traditional iron sulfate or chelated forms, due to nano-scale particle size enabling penetration through stomatal pores and root hair channels. Rapid Chlorosis Correction Foliar-applied nano iron restores green leaf coloration within 7-10 days, versus 14-21 days for conventional treatments, enabling faster photosynthetic recovery and minimized yield losses. Reduced Dosage and Cost Effective application rates of 100-200 g ha⁻¹ are 50-80% lower than traditional iron fertilizers (500-1,000 g ha⁻¹), substantially reducing input costs and labor expenses while improving return on investment. pH-Independent Availability Remains soluble and plant-available even in alkaline or calcareous soils (pH >7.5) where conventional iron forms precipitate and become unavailable, solving critical iron deficiency problems in high-pH environments. Uniform Coverage and Penetration Stable colloidal formulation minimizes drift during foliar application and ensures consistent distribution across leaves and soil, with nano-scale particles enhancing adhesion and penetration efficiency. Environmental Safety Biodegradable chitosan carriers and minimal leaching risk mitigate environmental contamination and soil accumulation, supporting sustainable and regenerative farming practices. Stress Tolerance Enhancement Iron nanoparticles enhance enzymatic antioxidant systems (catalase, polyphenol oxidase, superoxide dismutase), improving plant drought tolerance, disease resistance, and recovery under abiotic stress. Key Benefits at a Glance Benefit Impact Rapid Greening 7-10 days versus 14-21 days with conventional iron Uptake Efficiency 90-95% vs. 30-50% for iron sulfate/chelates Application Rate 100-200 g ha⁻¹ (50-80% lower than traditional forms) Soil pH Range pH 4.5-9.0; effective in alkaline soils where conventional forms fail Plant Height Increase 20-21% improvement at optimal dosage Chlorophyll Content 24-37% increase within 2-4 weeks of application Yield Enhancement 30-40% increase under optimal growing conditions Time to Market Faster crop maturity and earlier harvest readiness Sustainability Advantage Ecological Impact Reduction Nano iron technology delivers nutrients with precision, reducing overall fertilizer application rates by 50-80% compared to conventional iron sources. This dramatically lowers environmental runoff, groundwater contamination, and eutrophication risks in aquatic ecosystems. Biodegradable Formulation The chitosan-based polymer coating is naturally decomposed by soil microorganisms and plant enzymatic activity, leaving no persistent residues or toxic byproducts. Unlike synthetic chelates that may persist in soil, nano iron fully integrates into natural nutrient cycles. Soil Health Enhancement Reduced chemical load permits soil microbial communities to thrive, enhancing biological activity, organic matter decomposition, and nutrient cycling. Studies confirm that nano iron application maintains or improves long-term soil carbon storage and microbial diversity. Carbon Footprint Reduction Lower application rates translate to reduced transportation volume, packaging, and field labor requirements, collectively lowering the carbon footprint per hectare compared to conventional iron fertilizers requiring higher doses. Compliance with Organic Standards Nano iron formulations derived from natural mineral and biopolymer sources are compatible with organic farming certification guidelines, supporting regenerative agriculture and premium market positioning. Climate Resilience Enhanced iron availability strengthens enzymatic defense systems in plants, improving tolerance to drought, heat stress, and extreme weather events—critical advantages in climate-vulnerable regions. Dosage & Application Foliar Spray (Recommended for Rapid Response) Rate : 2-3 liters per hectare diluted in 500-750 liters of water (2-3 split doses) Timing : Early morning (6-8 AM) or late afternoon (4-6 PM) to avoid UV degradation and maximize stomatal opening for uptake Frequency : 1-2 applications during active vegetative growth or at first visible signs of interveinal chlorosis; repeat every 10-14 days if symptoms persist Method : Use low-pressure spraying equipment to ensure uniform leaf coverage on both adaxial and abaxial surfaces; avoid runoff Adjuvants : Add 0.1% non-ionic surfactant to enhance leaf adhesion and penetration Soil Drench (For Long-term Availability) Rate : 2-3 liters per hectare applied in irrigation water or as directed drenching Timing : Pre-planting soil incorporation or mid-season root zone application at early vegetative stage (4-6 leaf stage in cereals, pre-flowering in legumes) Method : Integrate with drip or sprinkler irrigation systems to target the rhizosphere directly, or manually drench soil within 15 cm of the stem base Frequency : Single application at planting or 1-2 applications during critical growth windows (tillering in cereals, flowering in horticultural crops) Seed Treatment (For Seedling Vigor) Rate : 5-10 ml per kg of seed Method : Mix nano iron with seed coating suspension or apply as a diluted slurry (1:10 ratio with water), coat seeds uniformly, and dry in shade before sowing Benefit : Enhances seedling emergence vigor, root development during early growth, and iron uptake during the critical phase when nodulation begins in legumes Crop-Specific Application Schedule Crop Liters/Hectare Growth Stage Frequency Method Alfalfa 2 Early vegetative, pre-bloom 2 applications Foliar + soil drench Barley 3 V4-V6, tillering 1-2 applications Foliar (primary) Peas 7 V4-V6, flowering 2 applications Foliar + soil drench Potato 9 Tuber set, stolon development 2-3 applications Soil drench preferred Corn 2 V4-V6, tasseling 1-2 applications Foliar or soil Oats 10 Boot to heading 2 applications Foliar + soil Wheat 5 Z13-Z25 (Zadok's scale) 1-2 applications Foliar (boot stage) Soybean 5-7 V4-V6, flowering 2 applications Foliar (primary) Rice 6 Tillering + booting 2 applications Foliar or soil drench Citrus/Fruit Trees 4-5 Pre-bloom + post-bloom 2-3 applications Soil drench preferred Vegetables (general) 3-5 V4-V6, pre-flowering 2 applications Foliar or soil drench Grapes 4 Pre-bloom + flowering 2 applications Soil drench FAQ 1. What is the composition of the Nano Iron? Nano iron contains ferrous sulfate (15%) as the primary iron source, combined with citric acid (15%) and formic acid (2.5%) as chelators and stabilizers. Lysine (3%) serves as a natural amino-acid chelate enhancing bioavailability, while gelatin (0.25%) and PEG 6000 (0.25%) provide a protein matrix and surfactant stabilization. Xanthan gum (0.03%) controls viscosity, and parabens (0.15%) preserve formulation integrity. The active ingredients are encapsulated in a chitosan-based biopolymer that creates nano-scale particles (1-100 nm), dramatically improving plant uptake efficiency and preventing rapid oxidation. The carrier comprises 70% aqua (water). This carefully balanced formula ensures iron remains soluble and bioavailable across a broad soil pH range (4.5-9.0), making it highly effective even in alkaline or calcareous soils where conventional iron fertilizers fail. 2. How should I apply the Nano Iron fertilizer? Nano iron offers flexible application methods tailored to crop and growing conditions: Foliar Application (Recommended for rapid chlorosis correction): Dilute 2-3 liters in 500-750 liters water Apply early morning (6-8 AM) or late afternoon (4-6 PM) to avoid UV damage Target both leaf surfaces with low-pressure spraying Perform 1-2 split applications 10-14 days apart during vegetative growth Effects visible within 7-10 days Soil Drench (For sustained nutrient availability): Integrate 2-3 liters per hectare with irrigation water Apply at early growth stages (4-6 leaf stage in cereals) or mid-season Target the rhizosphere (root zone) for maximum absorption Use with drip systems or hand-drenching near the stem base Optimal for perennial crops and fruit trees Seed Treatment (For seedling vigor): Coat 5-10 ml per kg of seed with nano iron suspension Mix with crude sugar or gelatin coating slurry (1:10) Dry in shade and sow immediately Enhances root development and nodulation in legumes Critical Timing Guidelines : Apply foliar sprays at first signs of interveinal chlorosis Soil drench applications should coincide with major nutrient uptake periods (tillering, pre-flowering, tuber set) For best results, use split applications rather than a single large dose Avoid application during extreme heat (>30°C) or within 48 hours of rain 3. What crops/plant types will benefit most from Nano Iron fertilization? Nano iron delivers benefits across diverse crop categories, with particular advantage in iron-deficient scenarios: Highly Responsive Crops : Legumes : Soybeans, chickpeas, lentils, alfalfa, peas, and fava beans—iron is critical for nodule formation and nitrogen fixation Cereals : Wheat, rice, barley, oats, and corn—especially in calcareous or high-pH soils prone to iron deficiency chlorosis (IDC) Tree Crops : Citrus, apples, grapes, almonds, pistachios, and olive trees—often grown in alkaline soils where conventional iron becomes unavailable High-Value Vegetables : Tomatoes, peppers, cucumbers, spinach, lettuce, and carrots—nano iron improves quality, color, and shelf life Fruit Crops : Strawberries, blueberries, raspberries—sensitive to iron deficiency; nano iron enhances fruit color and anthocyanin content Root and Tuber Crops : Potatoes, sugar beets—iron supports enzyme function during tuber/root development Oil Seeds : Canola, sunflower, peanuts—nano iron increases oil content and protein quality Moderately Responsive Crops : Maize, sorghum, millet, sunflower, cotton Specific Scenarios Requiring Nano Iron : Alkaline/Calcareous Soils (pH >7.5): Where iron becomes chemically fixed and unavailable to plants Over-limed Fields : Excessive lime application reduces iron solubility High-Organic-Matter Soils : Iron complexation with organic compounds can reduce plant availability Waterlogged Conditions : Some soils create anaerobic conditions that increase iron to toxic levels, requiring nano iron for precise, controlled delivery Seedling Production : Nurseries and tissue culture operations benefit from nano iron in propagation media Geographic/Climatic Priority Regions : Mediterranean basin and subtropical regions with calcareous soils Semi-arid regions prone to iron deficiency chlorosis (IDC) in soybean, corn High-rainfall regions where iron leaching occurs Areas with groundwater high in bicarbonate (reducing iron availability) 4. What are the expected benefits of using Nano Iron? Nano iron delivers comprehensive agronomic, nutritional, and economic benefits: Growth and Yield Benefits : Plant Height : 20-21% increase within 4-6 weeks of application Biomass Production : 30-48% increase in total dry weight under optimal conditions Leaf Development : Broader, thicker leaves with enhanced light capture Tillering/Branching : 18% increase in tiller number (cereals), improved lateral branching (fruits, vegetables) Seed/Fruit Yield : 30-40% increase compared to untreated controls; in soybean under drought, up to 40% yield increase 100-Seed Weight : 18% improvement in grain crops Biological Yield : 27% increase in cereals; 33% improvement in sugarcane Photosynthetic and Physiological Improvements : Chlorophyll Content : 24-37% increase in chlorophyll a, b, and total chlorophyll within 2-4 weeks Photosynthetic Rate : Enhanced light-dependent reactions through improved electron transport chains Respiration Enhancement : Increased enzyme activity in Krebs cycle (succinate dehydrogenase, aconitase), boosting cellular energy production Enzyme Activity : 60-65% increase in essential enzymes (catalase, polyphenol oxidase, superoxide dismutase) Drought Tolerance : 21-24% improvement in plant height under 40% field capacity water stress Quality and Nutritional Improvements : Protein Content : 13% increase in seed protein (rice, pulses); 30-46% in crude protein (vegetables) Oil Content : 10.14% increase in soybean oil production under drought; significant boosts in canola and sunflower Micronutrient Content : 25-50% increase in iron, zinc, manganese, copper concentrations in seeds/fruits Carbohydrate Levels : 15-25% improvement in total soluble sugars (fruits, vegetables) Fruit Quality : Enhanced color intensity, shelf life extension, reduced post-harvest decay Essential Oil Production : 50-60% increase in aromatic crops (peppermint, coriander) Stress Tolerance Benefits : Drought Tolerance : Iron nanoparticles enhance osmotic adjustment and non-enzymatic antioxidants, enabling plant survival during water stress Heat Stress Mitigation : Stabilized chlorophyll levels and maintained enzyme function under high temperatures Disease Resistance : Enhanced production of phenolic compounds and systemic acquired resistance (SAR), reducing pathogen pressure Cadmium/Heavy Metal Tolerance : Iron nanoparticles compete with toxic metals for root uptake channels, reducing bioaccumulation Oxidative Stress Relief : 7-10 fold increase in catalase activity, reducing hydrogen peroxide accumulation Soil and Environmental Benefits : Soil pH Stability : Nano iron effectiveness ranges pH 4.5-9.0, buffering soil pH changes Microbial Activity : Supports beneficial soil microbe populations, enhancing organic matter decomposition Nutrient Cycling : Iron facilitates electron transport in soil microbes, enhancing nitrogen and phosphorus availability Reduced Nutrient Losses : Nano iron's controlled-release mechanism minimizes leaching compared to conventional fertilizers Environmental Safety : 50-80% reduction in iron fertilizer input reduces groundwater contamination and eutrophication risks Economic Returns : Reduced Input Costs : 50-80% lower application rate (100-200 g ha⁻¹ vs. 500-1,000 g ha⁻¹) translates to direct savings Labor Efficiency : Fewer applications required; split doses reduce field passes Yield Premiums : Enhanced quality (color, protein, micronutrients) supports premium market positioning Reduced Crop Loss : Rapid chlorosis correction (7-10 days) minimizes yield damage from iron deficiency Long-term Soil Investment : Improved microbial and structural stability reduces fertilizer dependency over seasons Visible Results Timeline : Week 1 : Leaf color stabilization (cessation of further yellowing) Week 2 : New green tissue development; 50% color restoration Week 3-4 : Full chlorophyll restoration; visible growth acceleration Week 6-8 : Yield component improvement; seed/fruit size increase 5. What are the compatibility and safety issues? Nano iron demonstrates high compatibility with most agricultural inputs while maintaining excellent safety profiles: Compatibility with Agricultural Chemicals Compatible with : Bio-fertilizers : Azospirillum, Bacillus megaterium, Bradyrhizobium species—nano iron enhances nutrient solubilization by supporting microbial activity Biofungicides : Trichoderma harzianum, Beauveria bassiana—no chemical antagonism observed; beneficial microbes are not harmed Bio-pesticides : Spinosad, neem oil, botanical extracts—synergistic disease control and nutrient uptake improvement reported Plant Growth Regulators : Gibberellins, auxins, cytokinins—nano iron enhances hormone efficacy and uptake NPK and Macronutrient Fertilizers : Urea, ammonium nitrate, phosphate fertilizers—nano iron improves overall nutrient efficiency without antagonism Other Nano-Fertilizers : Nano zinc, nano boron, nano copper, nano phosphorus—no chemical interactions; tank-mixing is common practice Chelated Micronutrients : Zn-EDTA, Cu-EDTA, Mn-EDTA—nano iron does not displace or antagonize other chelated forms Moderately Compatible (Requires Sequential Application): Broad-spectrum Fungicides : Carbendazim, thiram—apply nano iron 5-7 days before or after to prevent potential oxidative interactions Oxidizing Agents : Permanganate-based products—apply nano iron separately with 3-5 day intervals Synthetic Chelate-Heavy Formulations : Very high concentrations of Fe-EDDHA or similar chelates may show marginal antagonism; maintain 10:1 ratio of nano iron to synthetic chelates Incompatible (Avoid Tank-Mixing): High-pH Alkaline Products (pH >9): Lime slurry, sodium hydroxide—reduces nano iron stability; apply sequentially with 7-10 day gap Strong Oxidizing Biocides : Chlorine-based disinfectants—denatures chitosan polymer; apply nano iron before biocide treatment Highly Acidic Formulations (pH <3): May hydrolyze gelatin encapsulation; dilute separately before application Heavy-Metal-Based Pesticides : Lead arsenate, mercury fungicides (banned in most regions)—potential bioaccumulation risk Related Products Hydromax Anpeekay NPK Nano Boron Nano Calcium Nano Chitosan Nano Copper Nano Potassium Nano Magnesium More Products Resources Read all

We are Microbial Strains manufacturer & supplier globally registered and certified in several countries including the United States and UK. Organically certified by Indocert. Product Catalogue Filter by Tag – Category 1 2 3 ... 100 1 ... 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 ... 100

< Crop Kits Plant Hopper Plant hoppers feed on rice sap, causing yellowing and wilting. They can also transmit viral diseases, needing integrated pest management. Product Enquiry Download Brochure Benefits Composition Dosage & Application Additional Info Dosage & Application Additional Info Related Products Aminomax SP Annomax BioProtek Biocupe Neem Plus Seed Protek Silicomax Dates Pro More Products Resources Read all

< Animal Health Pastocare Formulated just for sheep and goats, Pasto Care contains molybdenum to prevent copper toxicity and it is made without any added copper. Higher levels of zinc and iron are important for maintaining high growth rates, preventing anemia, and increasing resistance to disease. To prevent goiter and to aid in improvement of reproductive efficiency, Iodine is included at the correct level. Product Enquiry Benefits Protects Against Bacterial Infections Helps prevent infections caused by E. coli and Salmonella, safeguarding animal health. Improves Fertility and Reproductive Health Supports better fertility and contributes to overall reproductive efficiency in livestock. Promotes Rapid Weight Gain and Growth Enhances body weight increase and supports faster development for improved productivity. Boosts Immunity and Recovery Aids in recovering from vitamin deficiencies, strengthens the immune system, and improves survival and performance. Component Each kg contains Vitamin A 250,000 I.U. Vitamin D3 25,000 I.U. Vitamin E 5,000 I.U. Lactobacillus Acidophilus 2 billion CFU Lactobacillus Fermentum 2 billion CFU Lactobacillus Bifidus 2 billion CFU Mineral Mineral Ferrous Sulphate Potassium Iodate Zinc Oxide Cobalt Sulphate Manganous Oxide Sodium Selenite Magnesium Oxide Composition Dosage & Application Additional Info Dosage & Application Content coming soon! Additional Info Content coming soon! Related Products Stress Pro Camel Care Pro Cattle Care Max Cattle Care Pro Feed Pro Grass Mask Lactomine Pro Lactomix Mineral Max Calf Pro More Products Resources Read all

Indogulf BioAg is a Manufacturer & Global Exporter of Manganese Solubilising, Penicillium, Corynebacterium & other Bacterias. Contact us @ +1 437 774 3831 < Microbial Species Manganese Solubilizing Bacteria Manganese Solubilizing Bacteria make manganese more available to plants by converting insoluble forms into absorbable forms, aiding in chlorophyll production and other vital functions. Product Enquiry What Why How FAQ What it is Manganese solubilizing bacteria (MSB) are specialized microorganisms that enhance the availability of manganese (Mn) in the soil. Manganese is an essential micronutrient for plants, playing a critical role in photosynthesis, enzyme activation, and defense against oxidative stress. However, manganese in many soils exists in insoluble forms that are not readily available to plants. MSB convert these insoluble forms into soluble manganese that plants can absorb and utilize. Why is it important Why are Manganese Solubilizing Bacteria Important? Manganese deficiency can severely impact plant growth and productivity, particularly in acidic or alkaline soils where manganese availability is limited. The importance of manganese solubilizing bacteria includes: Enhanced Nutrient Availability : MSB increase the availability of manganese, promoting healthier and more vigorous plant growth. Improved Plant Health : Adequate manganese levels support optimal photosynthesis, enzyme function, and overall plant metabolism. Sustainable Agriculture : Utilizing MSB can reduce the need for chemical manganese fertilizers, promoting environmentally friendly farming practices. How it works Manganese solubilizing bacteria employ several mechanisms to convert insoluble manganese into soluble forms: Production of Organic Acids : MSB produce organic acids such as citric acid, gluconic acid, and oxalic acid. These acids lower the pH in the immediate vicinity of the bacteria, facilitating the dissolution of insoluble manganese compounds and releasing soluble manganese ions (Mn^2+) into the soil solution. Reduction Processes : Some MSB can mediate reduction processes that convert insoluble manganese oxides (e.g., MnO2) into soluble forms through enzymatic activities. Chelation : MSB can produce chelating agents that bind to manganese ions, making them more soluble and available for plant uptake. By increasing manganese availability in the soil, manganese solubilizing bacteria contribute to improved plant nutrition, health, and productivity, supporting sustainable agricultural practices. FAQ Content coming soon! Manganese Solubilizing Bacteria Our Products Explore our range of premium Manganese Solubilizing Bacteria strains tailored to meet your agricultural needs, optimizing manganese uptake for healthy plant metabolism. Corynebacterium spp. Corynebacterium spp. solubilizes soil manganese, enhancing plant uptake and activating plant immunity against pests and diseases. It promotes growth, root development, and improves soil aeration. View Species Penicillium citrinum Penicillium Citrinum, a beneficial fungus, solubilizes soil manganese, recommended for deficient soils. It also accelerates soil organic matter decomposition, increasing manganese availability. View Species 1 1 ... 1 ... 1 Resources Read all

Indogulf BioAg is a Manufacturer & Global Exporter of Larvicides for plants, bacillus thuringiensis israelensis, Lysinibacillus Sphaericus & other Bacterias. Contact us @ +1 437 774 3831 < Microbial Species Larvicides Larvicides are highly effective solutions for managing the larval stages of harmful pests in agriculture and public health. By targeting larvae directly, larvicides disrupt pest life cycles, reducing populations and minimizing damage to crops and the environment. These products offer a sustainable and precise alternative to broad-spectrum pesticides, especially when integrated with environmentally conscious farming practices. Product Enquiry What Why How FAQ What it is Larvicides are biological or chemical substances specifically designed to kill insect larvae. In agricultural and pest management contexts, larvicides are crucial for controlling pests that cause significant damage, such as plant hoppers and soil-borne insect pests. Key larvicidal agents include beneficial bacteria like Lysinibacillus sphaericus , Bacillus thuringiensis israelensis , Bacillus popilliae , and Bacillus thuringiensis kurstaki , which provide environmentally friendly pest control solutions. Larvicides are substances or agents specifically designed to kill the larval stage of insects, particularly mosquitoes and other pest species. Larvicides are crucial tools in integrated vector management (IVM) programs aimed at controlling insect-borne diseases such as malaria, dengue fever, and Zika virus. Why is it important Preventative Approach : Targeting the larval stage of insects interrupts their life cycle, preventing the development of adult mosquitoes and reducing the risk of disease transmission. Environmentally Friendly : Larvicides can be highly selective, targeting only specific larval stages of pests and minimizing harm to non-target organisms, including beneficial insects and aquatic life. Reduced Resistance Development : By targeting mosquitoes at an early stage of their life cycle, larvicides help mitigate the development of resistance to adulticides and other control measures. Larvicides, especially those based on beneficial bacteria like Bacillus thuringiensis israelensis and Lysinibacillus sphaericus , are essential tools for managing pests such as plant hoppers, mosquito larvae, and soil-borne grubs. These targeted solutions minimize environmental impact, reduce pesticide resistance, and enhance crop protection, making them a cornerstone of modern pest management How it works Larvicides employ various modes of action to control mosquito larvae: Larvicides employ various mechanisms to control pest larvae, ensuring precision and effectiveness: Toxin Production : Beneficial bacteria like Bacillus thuringiensis (Bt) produce crystal proteins that disrupt the digestive systems of insect larvae, leading to their death. Bacillus thuringiensis israelensis (Bti), for example, is particularly effective against mosquito larvae, while Bacillus popilliae targets grubs of scarab beetles. Endotoxins and Pathogenicity : Lysinibacillus sphaericus produces highly specific endotoxins that paralyze mosquito larvae, reducing populations in stagnant water bodies and agricultural fields. Soil-Borne Pest Control : Bacterial larvicides combat root-feeding pests, preserving plant root health and promoting crop productivity. Chemical Larvicides : Chemical larvicides, such as synthetic insect growth regulators (IGRs) or organophosphates, disrupt the development of mosquito larvae, preventing them from reaching adulthood. Physical Larvicides : Some larvicides, such as oils or monomolecular films, create a physical barrier on the water surface, suffocating mosquito larvae by blocking their access to oxygen. Integrated Larvicidal Strategies Effective larvicidal programs often involve a combination of larvicides with larval habitat management, community engagement, and surveillance efforts. This integrated approach maximizes the impact of larvicides while minimizing environmental risks and promoting sustainable pest management practices. FAQ Content coming soon! Larvicides Our Products Explore our range of premium Larvicides tailored to meet your agricultural needs, providing effective control over larvae populations and safeguarding your crops. Bacillus popilliae Bacillus popilliae a beneficial bacterium targeting Japanese beetle grubs. Safe for non-target organisms, no adverse effects on humans or environment. Provides long-term pest control without residue. View Species Bacillus thuringiensis israelensis Bacillus thuringiensis israelensis (Bti) is a naturally occurring bacterium that has revolutionized pest control with its environmentally friendly and highly effective approach. Bti specifically targets the larvae of mosquitoes, blackflies, and fungus gnats, making it an essential tool for managing pests in residential, agricultural, and commercial settings. When applied to breeding sites, Bti releases protein toxins that are ingested by the larvae. These toxins disrupt the larvae's digestive system, leading to their death within hours. Remarkably, Bti’s mechanism of action is species-specific, ensuring that it poses no harm to beneficial insects, plants, animals, or humans. Additionally, it breaks down quickly in the environment, leaving no harmful residues behind. This powerful yet safe solution is a cornerstone in integrated pest management, trusted by professionals worldwide for its ability to protect public health and the environment. From controlling mosquitoes that spread diseases to managing agricultural pests, Bti provides a sustainable alternative to chemical insecticides. View Species Bacillus thuringiensis subsp. kurstaki Bacillus thuringiensis subsp. kurstaki (Btk) is a gram-positive, spore-forming bacterium naturally found in soils worldwide. It is renowned for its specificity and effectiveness in managing lepidopteran pests, particularly during the larval stage. As a biological insecticide, Btk has become a cornerstone of integrated pest management (IPM) and organic agriculture, combining high efficacy with environmental safety. View Species Lysinibacillus sphaericus Lysinibacillus sphaericus, bacterium targeting mosquito larvae and other insect pests like gold-fringed moths and rice stem borers. Safe for non-target species and rapidly degrades in the environment. View Species 1 1 ... 1 ... 1 Resources Read all

Leading manufacturer & exporter of Nano Zinc Fertilizer. Enhance plant growth with our advanced, eco-friendly solutions. High quality and global shipping. < Nano Fertilizers Nano Zinc Nano zinc particles offering bioavailable zinc, crucial for optimal plant growth and development, addressing zinc deficiencies, particularly beneficial in early plant growth stages. Product Enquiry Download Brochure Benefits Enhances Plant Health Supports improved overall plant health and vitality. Boosts Resistance Against Pests and Diseases Strengthens plant defenses against pathogens. Increases Nutrient Holding Capacity Enhances the plant's ability to retain energy and nutrients. Builds Critical Zinc Levels Ensures adequate zinc levels critical for plant functions. Components Composition (%) w/w Zinc Sulphate NLT 1.5 Organic Acid 3.5 Biopolymers 1.1 Aqua q.s Composition Dosage & Application Why choose this product Key Benefits Sustainability Advantage Additional Info FAQ Additional Info Compatibility: Compatible with chemical fertilizers and chemical pesticides Shelf life: Best before 24 months when stored at room temperature Packaging: 25 liters Symptoms of Zinc Deficiency Reduced root growth and activity Lower microbial activity in the soil which decreases zinc release from soil organic matter Plants are stunted and shows dusty brown spots on upper leaves New leaves are often smaller and narrower Show delayed maturity, short internodes and a decrease in leaf size Presence of mottled leaves with irregular chlorotic areas. Why choose this product? Content coming soon! Key Benefits at a Glance Content coming soon! Sustainability Advantage Content coming soon! Dosage & Application Foliar Spray: Dissolve 0.5ml in a liter of water and spray on both surfaces of the leaves. Can be sprayed anytime. Nano Zinc is not photosensitive.Soil Application: Apply 2.5L per acre during sowing or transplantation. FAQ Content coming soon! Related Products Hydromax Anpeekay NPK Nano Boron Nano Calcium Nano Chitosan Nano Copper Nano Iron Nano Potassium More Products Resources Read all

Micro-Manna is a diluent used to activate MICROM, enhancing the performance of the biofertilizer product. Suppliers & Manufacturers USA. PRODUCT OVERVIEW Revive (Bio.,) is a bio-fertilizer based on the selective strains of nitrogen-fixing beneficial bacteria. This is available in powder (1×10 7 CFU / gm) formulation which can reduce or remove the need for Chemical fertilizer. This product helps in production of superior crops by providing balanced nutrition in available form. Contents Each Organism : 1 x107 cfu Azotobacter Chroococcum Acetobacter Aurantius Paenibacillus Mucilaginosus Bacillus Megaterium Var. Phosphaticum Streptomyces Gelaticus Ensifer Meliloti Pseudomonas Striata In Organic / Vegetable Protein Base Features & Benefits Prevents Plant growth with Bio pesticidal effect. Provide aeration of the soil and increase its water holding capacity. Decrease or remove the need for chemical fertilizer. Secrete the plant growth hormones and regulators. Has no harmful effect on Soil Fertility and Plant growth. Enhances soil fertility and nutrient availability. Reduces stress caused by environment changes. Mode of Action Meet the nitrogen need of the plants by providing atmospheric nitrogen fixation. Transform phosphorus and potassium salts in the soil by dissolving them into the form that the plant can get. Secrete the plant growth hormones and regulators. Remove harmful compounds in the plant cultivation medium by splitting them. Suppressing the microorganisms which may prevent the plant growth with their biopesticidal effect. Perform the duties of improvement and protection of the natural, chemical and biological structure of the soil because they increase the organic content in the medium. Provide aeration of the soil and increase its water holding capacity. Decrease or remove the need for chemical fertilizer. Dosage and method of Application Powder Dosage Soil Application : Mix ½ Kg of Revive powder with 10kg of sand or vermiculite, and spread uniformly in 1 acre of land. Watering must be done after planting. Seed Inoculation : Utilize 250gms of Revive powder for 10 to 15 Kgs of seeds. Take required quantity of seeds to be inoculated and make a slurry by adding adequate water and the required quantity of Revive powder. Leave the slurry overnight, then dry the seeds in the shade before sowing. Seedling Inoculation : Seedlings required for one acre are inoculated with 2 Kgs of Revive powder mixed properly with adequate water. Roots are dipped in the mixture so as to enable the roots to get inoculum. Leave it dipped for 8 to 12 hours and then the seedlings are transplanted. Foliar application : Mix 20gms of Revive powder with 2 Liters of water and spray the crops at the radical areas (such as leaves & roots). Spray volume depends on crop canopy. Liquid Dosage Soil Application : Mix 2.5 Ltr of Revive(bio) in 300 Ltrs of Water and spray for 12 Acre. Repeat after 15 Days. Seed Inoculation : 250 ml of Revive(Bio.,) for 10 to 15 Kg of Seed. Take required quantity of Seed to be inoculated. A Slurry is made by adding adequate water with the required quantity of Revive (Bio.,). This slurry is uniformly applied to seed, then dried in shed and sown. Seedling Inoculation : Seedlings required for one acre are inoculated with 2 Ltrs of Revive(Bio.,) mixed properly in Water. Roots are dipped in the Mixture so as to enable roots to get inoculum. These seedlings are then transplanted. Foliar application : Mix 20 ml. of Revive (Bio.,) 2 Ltrs of water and use it for foliar spray. Spray volume depends on crop canopy. 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. Shelf Life & Packaging Storage: Store in a cool dry place at Room Temperature. Shelf life: 24 Months from date of manufacture at room temperature. Packaging : 1 Kg. & 1 Litre To know more about organic fertilizers visit soil fertilizers . While the plants are alive, thus, they get the advantage of having something akin to a nitrogen-production system (really a nitrogen-fixation system) in their roots, which allows them to outgrow the competition, and after they die all of this nitrogen-fixing bacteria that they had accumulated goes back into the soil in ways that other plants can use. [Read more ] Downloads Product Information Liquid Label Information Powder Label Information Click here for Product Enquiry Related Articles Understanding the Carbon-to-nitrogen ratio (C:N) One of the beautiful aspects of organic agriculture (and regenerative agriculture in particular) is that it’s not magic: it’s a comprehensive, widely different approach to growing food that’s based on the central pillar of organic fertilization. It’s backed by hundreds of thousands of studies in the fields of biology, chemistry, ecology, economics, management, and even history (to document traditional knowledge in techniques as useful as forest gardening). And, at the root of An introduction to the main techniques of biological pest control Every year, millions of gallons of synthetic pesticides are applied to crops worldwide, with a well-known negative effect on the quality of the final product as well as on the quality of the surrounding ecosystems. The reasons behind their intensive use are the same behind the usage of synthetic fertilizers: convenience (real or assumed), a lack of viable alternatives, and a strong cultural and educational bias in favor of their use. But this is all changing, and changing fas How beneficial bacteria help legumes fix nitrogen into the soil Ever wondered why every organic gardener tells you that you should plant leguminous plants in association with others? Or that you should...

Bio-Manure Liquid is an all-purpose organic plant feed that is suitable for use on all plants, trees, shrubs and edibles. PRODUCT OVERVIEW Bio-Manure is an all-purpose organic plant feed that is suitable for use on all plants, trees, shrubs and edibles. It is a 360 degree plant food recipe which provides essential nutrients needed by the plant to grow healthier, stronger and ultimately increase output. It is a molasses based organic soil fertiliser that is designed to improve the efficiency of the crop cycle and increase agriculture yield. Features & Benefits 360 degrees plant food recipe covers each and every essential nutrient in organic form Helps cell division, cell elongation, tillering and vegetative growth Helps in stress tolerance and withstand adverse abiotic conditions Imparts better organoleptic qualities Induces better flowering and reduces flower dropping Helps better grain formation, better fruiting and yield Maintains the integrity of the soil Bio-Manure 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. Bio Manure is a Growth Elixir Bio-Manure (Go Green) comprises of bioactive substances extracted from vermin-compost and seaweed. It provides bio-energy and bio-stimulants which crops require for healthy growth, without compromising on the integrity of the soil. Bio-Manure provides nutrients in an organic form to plants, which aids in cell division, cell elongation, tillering and vegetative growth. It imparts stress tolerance to withstand adverse abiotic conditions. It induces better flowering and reduces flower dropping and Imparts better organoleptic qualities to the fruit. It increases yield through improving grain formation and fruiting. Bio-Manure is formulated as a foliar application product. Mass Composition Mode of Action Bio-Manure consists of bioactive humic and fulvic substances of vermicompost origin. It consists of cytokinins, auxins, betaines and gibberellins that are derived from seaweed fermentation. It consists of biologically derived N,P,K and trace elements from vermi compost and seaweed which aid in better root and shoot growth and supplement the plant with essential nutrients at critical stages of crop growth. Free from Salmonella, Shigella , E.Coli Bio-Manure is compatible with Fertilizers Pesticides Fungicides Dosage and method of Application Dosage : 5 Liters / Acre. Drip system : Take 5 liters of Bio-Manure and mix thoroughly in 200 liters water and apply via drip irrigation system to a planting area of 1 Acre. Drenching System : Mix the Bio-Manure to the main source of water for irrigating the planting area. First moist the soil using normal water for up to 10 minutes and then apply the water mixed with Bio-Manure. Application Frequency : Once at planting and again at flowering stage. Shelf Life & Packaging Shelf life: Best before 24 months, Stored in room temperature. Packaging: 1 Litre bottle To know more about organic fertilizers visit soil fertilizers . In a large enough field, the Austrian winter peas could reasonably satisfy the grower’s demands for fresh leafy greens while leaving more than enough to be returned to the soil as bio-manure (a good rule of thumb is to eat as much as 1/3 of the leaves of any cover crop, but not more). [Read more ] Downloads Product Information Label Information Click here for Product Enquiry Related Articles Let’s take a moment to appreciate the importance of soil inoculants for an organic future It’s no secret that conventionally-cultivated soils tend to become, by themselves, poor. They’re often managed under exploitative... The end of green deserts? Organic agriculture boosts biodiversity by 30%, studies find. Everywhere around the world, but more so in the developing countries, vast deserts spring up from the ground and begin to cover formerly... A look at the case of Sikkim, the world’s first fully organic state In the struggle to transition to a greener, healthier world, every single victory is a victory for the planet as a whole. Efforts of supranational organizations such as those of the European Union and the FAO are inspiring, but there’s yet nothing quite like a victory to prove that transitioning to better models of agriculture can be done on a large scale. Such is the case of the Indian state of Sikkim, sitting on the slopes of the Himalayas. The Prime Minister of India, Nare 1 2

< Animal Health Aquatract Aquatract is an aqua feed supplement and feed attractant that is speciallyformulated for aquatic species Product Enquiry Benefits Reduces Feed Wastage Enhances digestion and feed efficiency, minimizing unnecessary feed loss and contributing to cleaner pond conditions. Supports Consistent Weight Gain Encourages steady body weight increase, improving overall growth performance and production outcomes. Accelerates Feed Intake and Utilization Promotes faster consumption of feed and enhances feed conversion ratio, resulting in more efficient nutrient uptake. Strengthens Immunity and Disease Resistance Improves the immune system and helps protect fish and shrimp from bacterial diseases, supporting healthier stock. Component Amount per 30 mL Thiamine HCl 5 mg Ferrous Chloride 80 mg Nicotinic Acid 20 mg Nicotinamide 45 mg Ferrous Gluconate 200 mg Riboflavin 5 mg Calcium Lactate 300 mg Silymarin 100 mg Liver Fraction (II) (from 3.75g fresh liver) 150 mg Aqueous Base 30 mg Composition Dosage & Application Additional Info Dosage & Application Content coming soon! Additional Info Content coming soon! Related Products Piscicare Livcare Aqua Energy Aqua Pro Aquamin Probio Aqua More Products Resources Read all