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

Bioremediation is the process of using living organisms, primarily microbes, to degrade, detoxify, or remove pollutants from the environment, such as soil, water, or air. Microorganisms like bacteria, fungi, and even plants are utilized to break down harmful substances into less toxic or non-toxic compounds. < Microbial Species Bioremediation Bioremediation is an eco-friendly process that uses microorganisms to break down or neutralise pollutants in soil, water, and air. By harnessing the natural metabolic processes of bacteria, fungi, and other microbes, bioremediation helps clean up contaminants such as oil spills, heavy metals, and industrial waste, making it an effective solution for environmental restoration. Product Enquiry What Why How FAQ What it is Bioremediation is the process of using living organisms, primarily microbes, to degrade, detoxify, or remove pollutants from the environment, such as soil, water, or air. Microorganisms like bacteria, fungi, and even plants are utilized to break down harmful substances into less toxic or non-toxic compounds. Why is it important Bioremediation is vital because it offers an eco-friendly and cost-effective solution to pollution problems. Unlike chemical methods, it reduces the use of harmful substances, helping restore contaminated ecosystems and protect human health. Its importance is amplified in treating oil spills, heavy metal contamination, and industrial waste. How it works Microorganisms metabolize pollutants as part of their natural processes. They can either convert harmful chemicals into less toxic ones or completely degrade them. Depending on the contaminant and environment, the bioremediation process may involve stimulating natural microbial activity (biostimulation) or introducing specific microbes (bioaugmentation) that are more effective at breaking down certain pollutants. FAQ Content coming soon! Bioremediation Our Products Explore our premium Bioremediation solutions designed to degrade pollutants, restore environmental balance, and improve soil and water quality through the power of specialized microbial species. Saccharomyces cerevisiae Saccharomyces cerevisiae is widely used in bioremediation for its ability to degrade pollutants and in probiotic applications to support gut health and enhance fermentation processes. View Species Bacillus polymyxa Bacillus polymyxa improves phosphorus availability by solubilizing phosphate, promotes plant growth through nitrogen fixation and hormone production, and aids bioremediation by breaking down organic pollutants—enhancing soil health for sustainable agriculture. View Species Thiobacillus novellus Thiobacillus novellus, an effective inoculant that oxidizes sulfur, enhancing nutrient availability for plants while supporting bioremediation in contaminated soils. View 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 agriculture and bioremediation. View 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 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. View Species Bacillus licheniformis Bacillus licheniformis is a robust, spore-forming bacterium widely recognized for its diverse applications in agriculture, bioremediation, and industrial processes. It enhances soil fertility by solubilizing phosphorus, fixing nitrogen, and producing plant growth-promoting substances like phytohormones. This bacterium also produces enzymes such as proteases, amylases, and cellulases, which contribute to the decomposition of organic matter and nutrient cycling. In bioremediation, B. licheniformis degrades pollutants, including hydrocarbons, and tolerates extreme environmental conditions. Additionally, its ability to produce antimicrobial compounds helps suppress plant pathogens, making it a valuable tool for sustainable agriculture and environmental management. View Species Bacillus macerans Bacillus macerans is a facultative anaerobic bacterium known for its ability to degrade complex carbohydrates such as cellulose, hemicellulose, and starch. This activity makes it highly effective in organic decomposition processes, such as composting and agricultural residue management, contributing to improved soil health and nutrient cycling. In industrial applications, B. macerans produces valuable enzymes like cellulases and amylases, which are used in biofuel production, paper processing, and textile industries. Its role in breaking down organic polymers also supports bioremediation efforts, helping manage agricultural and industrial waste sustainably.. View Species Citrobacter braakii Citrobacter braakii is a facultative anaerobic bacterium known for its metabolic versatility and potential in environmental and industrial applications. It is effective in bioremediation processes, particularly in removing heavy metals like chromium and cadmium through biosorption and bioaccumulation. This bacterium also contributes to nutrient cycling in soils by breaking down organic matter and releasing bioavailable forms of nutrients. Its ability to tolerate diverse environmental conditions makes it a candidate for wastewater treatment and soil remediation, supporting sustainable environmental management practices. View Species Citrobacter freundii Citrobacter freundii is a facultative anaerobic bacterium with significant roles in bioremediation, agriculture, and wastewater treatment. Known for its ability to reduce nitrates and detoxify heavy metals such as cadmium, lead, and chromium, it is widely used in mitigating environmental pollution. In agriculture, C. freundii contributes to nutrient cycling by breaking down organic matter, enhancing soil fertility. It also aids in wastewater treatment by degrading complex organic compounds, reducing chemical oxygen demand (COD), and improving water quality. With its metabolic flexibility and environmental resilience, C. freundii is a valuable tool in sustainable environmental management and industrial processes.. View Species Comamonas testosteroni Comamonas testosteroni is a versatile, aerobic, gram-negative bacterium renowned for its ability to degrade a wide range of organic pollutants, including aromatic hydrocarbons, phenols, and pesticides. This metabolic diversity makes it a critical agent in bioremediation projects aimed at detoxifying contaminated soils and water bodies. In wastewater treatment, C. testosteroni enhances the breakdown of complex organic compounds, reducing chemical oxygen demand (COD) and improving water quality. Its role in degrading xenobiotics and persistent organic pollutants highlights its significance in environmental sustainability and industrial waste management. The bacterium's resilience in diverse conditions further underscores its utility in eco-friendly applications. View Species Flavobacter aquatile Flavobacterium aquatile is an aquatic bacterium known for its role in nutrient cycling and organic matter decomposition in freshwater environments. It contributes to maintaining water quality by breaking down organic materials, such as carbohydrates and proteins, into bioavailable nutrients that support aquatic ecosystems. This bacterium also plays a role in wastewater treatment, aiding in the degradation of organic pollutants and reducing nutrient loads. Its ecological importance lies in its ability to enhance microbial diversity and stability in water systems, making it a valuable component in sustainable water management practices. View Species Flavobacter oceanosedimentum Flavobacterium oceanosedimentum is a marine bacterium commonly found in ocean sediments, where it plays a critical role in nutrient cycling and organic matter decomposition. This bacterium degrades complex organic materials, contributing to the recycling of nutrients essential for marine ecosystem health. Additionally, F. oceanosedimentum demonstrates potential in bioremediation, particularly in degrading hydrocarbons and other pollutants in marine environments. Its metabolic adaptability and ability to thrive in challenging sediment conditions make it a valuable organism for maintaining ecological balance and supporting sustainable marine resource management. View Species Nitrobacter alcalicus Nitrobacter alkalicus is a chemolithoautotrophic bacterium specializing in the oxidation of nitrite (NO₂⁻) to nitrate (NO₃⁻), a key step in the nitrogen cycle. This species is particularly adapted to thrive in alkaline environments, such as high-pH soils and wastewater systems, where it contributes to nitrogen transformation and nutrient availability for plants. Its activity supports soil fertility by enhancing nitrate levels, which are readily absorbed by crops. Additionally, N. alkalicus plays a significant role in wastewater treatment processes, helping to manage nitrogen levels and prevent harmful nitrite accumulation. Its resilience in high-pH conditions makes it essential for sustainable agricultural practices and environmental management. View Species Nitrobacter sp. Nitrobacter sp. are chemolithoautotrophic bacteria that play a critical role in the nitrogen cycle by oxidizing nitrite (NO₂⁻) into nitrate (NO₃⁻), a form readily available to plants as a nutrient. This process is vital for maintaining soil fertility and supporting agricultural productivity. In wastewater treatment, Nitrobacter species are integral to nitrification processes, preventing the accumulation of toxic nitrite and reducing nitrogen pollution. Their adaptability to diverse environmental conditions, including soil, freshwater, and wastewater systems, makes them indispensable in sustainable nitrogen management and ecological balance. These bacteria are widely utilized in bioreactors and bioaugmentation efforts for efficient nitrogen cycling. View Species Nitrobacter winogradski Nitrobacter winogradskyi is a chemolithoautotrophic bacterium central to the nitrogen cycle, converting nitrite (NO₂⁻) into nitrate (NO₃⁻). This transformation is critical for soil fertility, as nitrate is a primary nutrient for plant growth. Its activity supports sustainable agriculture by enhancing nitrogen availability in the soil. In environmental management, N. winogradskyi is essential in wastewater treatment processes, where it prevents toxic nitrite accumulation, ensuring efficient nitrogen removal. Its adaptability to various ecosystems, including soils and aquatic environments, underscores its role in maintaining ecological balance and promoting sustainable nitrogen management. This bacterium is also widely used in bioaugmentation and bioreactor systems to optimize nitrification. View Species Nitrococcus mobilis Nitrococcus mobilis is a chemolithoautotrophic bacterium primarily found in marine environments, where it plays a crucial role in the nitrogen cycle. This organism oxidizes nitrite (NO₂⁻) into nitrate (NO₃⁻), facilitating nitrogen transformation in oceanic ecosystems and supporting the productivity of aquatic life. Its role in maintaining nitrogen balance makes N. mobilis a key player in nutrient cycling, particularly in coastal and deep-sea environments. Additionally, its metabolic versatility and ability to thrive in saline conditions highlight its importance in sustaining marine ecosystems and contributing to global nitrogen dynamics. View 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 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. View Species Pseudomonas citronellolis 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 1 2 1 ... 1 2 ... 2 Resources Read all

GrowX crop kits by Indogulf BioAg offer complete solutions for healthy plant growth. 100% organic, certified, and ideal for maximizing yields. Order now! < Crop Kits GrowX Derived from the fermentation of sugarcane molasses and organic matter, containing naturally derived nutrients and a consortium of beneficial bacteria. Product Enquiry Download Brochure Increases Stress Relief Enhances plant resilience against stress factors like extreme temperatures and disease, promoting stronger growth. Larger Yield Promotes increased production of flowers, fruits, or vegetables for greater harvest quantities. Maximizes Bud Formation Optimizes conditions for robust bud formation, enhancing overall plant vigor and yield. Improves Soil Quality Enriches soil with essential nutrients and organic matter, enhancing fertility and structure for healthier plants. Benefits Components The best organic cannabis nutrients know the perfect proportions for your growing success. GrowX is derived via fermentation of sugarcane molasses & organic plant matter. It contains naturally derived Nitrogen, Phosphorus, Potassium, Calcium, Magnesium, Sulphate, Iron, Manganese, Zinc, Copper, Silica, and a consortium of beneficial bacteria. Composition Dosage & Application Additional Info Dosage & Application Early Growth: Mix 5ml (1 tsp) of GROWX per 1L of water. Apply to the planting soil once every 2 weeks during the vegetative stage. Mature Growth: Mix 5ml (1 tsp) of GROWX per liter of water. Apply to the planting soil once every week during the vegetative stage. Additional Info Aftercare BudMax Kit compatible with all natural fertilizers, pesticides and fungicides. Once opened, store in a cool, dry place. Keep away from children and pets. Do not inhale or ingest. Related Products Aminomax SP Annomax BioProtek Biocupe Neem Plus Seed Protek Silicomax Dates Pro More Products Resources Read all

Agricultural Probiotics, Organic Fertilizers, Rice Protect Kit, Organic Fertilizers manufacturer Mumbai, rice bio-fertilizer. BACTERIAL BLIGHT Bacterial Blight Bacterial disease with typical symptoms of yellow to white lesions along the margins, which may ultimately enlarge to cover the entire leaf. The infection occurs mostly during transplanting through injury to the roots and leaves. The disease spreads fast under favourable environmental conditions like incessant rains, strong winds and warm temperature. Management Use resistant varieties. Avoid excessive use of Nitrogenous fertilisers as increase Nitrogen increased the incidence of the disease due to luxuriant vegetative growth. Soak the seed 8-10 hours before planting in a solution of 1gm Streptocycline together with 10 gms Thiram for every 10 Litres of water. Biological Control Use our Consortium of Bacillus amyloliquefaciens and B. subtilis and B. megaterium @ 1 Kg /Acre by diluting in 200 L Water using high volume power sprayer. Shelf Life & Packaging Shelf life : Best before 24 months, Stored in room temperature. Packaging : 1 Kg. each & above Click here for Product Enquiry INSECT PEST MANAGEMENT STEM BORERS ARMY WORMS RICE HISPA LEAF FOLDERS CASE WORM GUNDHI BUG PLANT HOPPER ROOT KNOT NEMATODES DISEASE MANAGEMENT BLAST BROWN SPOT BACTERIAL BLIGHT UTBATTA DISEASE SHEALTH BLIGHT

Nano Ferric Fertilizers are involved in the synthesis of chlorophyll, and it is essential for the maintenance of chloroplast structure and functions to move oxygen throughout the roots, leaves, and other parts of the plant, producing the green color that lets you know your plant is healthy. Nano Ferric Fertilizer Recommended to be used for Alfalfa, Barley, Peas, Potato, Corn, Oats and Wheat Nano ferric fertilizers are involved in the synthesis of chlorophyll, and it is essential for the maintenance of chloroplast structure and functions to move oxygen throughout the roots, leaves, and other parts of the plant, producing the green color that lets you know your plant is healthy. Benefits Increases yield and improved quality of the harvest Improved plant immune system status via regulation of oxidative metabolism Enhance photosynthetic activity Increase resistance to pest and diseases Improve nutrient absorption Nano Technology will help making Fe in small quantities to replace of bags of Fe Fertilizer Composition/Technical Specifications Dosage and method of Application Alfalfa : 2L/ha Barley : 3L/ha Peas : 7L/ha Potato : 9L/ha Corn : 2L/ha Oats : 10L/ha Wheat : 5L/ha Compatibility Compatible with chemical fertilisers and chemical pesticides. Shelf Life & Packaging Shelf life : Best before 24 months, Stored in room temperature. Packaging : 5 Ltx2/Corrugated Cardboard Box Symptoms of Iron Deficiency Interveinal chlorosis and development of a yellow leaf with a network of dark green veins Leaf turns yellow or white and the outer edges may scorch and turn brown as the plant cells die For more biofertilizers visit Nano fertilizers Downloads Product Information Click here for Product Enquiry

Buy effective Rice Protect Kit for stem borers from Indo Gulf BioAg. Manufacturer & Exporter of eco-friendly solutions for healthy rice crops worldwide. < Crop Kits Insect Pest Management | Stem Borers Stem borers are larvae that bore into rice stems, causing internal damage that weakens the plant's structural integrity. This can lead to lodging and whiteheads in mature plants, reducing grain yield and quality. Effective management strategies are essential to minimize stem borer damage and ensure robust rice crop development. Product Enquiry Download Brochure Management Biological Control Additional Info Management Plough and destroy the stubbles after harvest. Collect and destroy egg masses in nursery plants. Clip off the leaf tips and burn them to kill eggs or larvae, preventing them from spreading into the main field. Biological Control Use our product, STEMPROTEC at 200 ml 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 litre bottle 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

Protect your rice crops with our Leaf Folders Rice Protect Kit. Trusted manufacturer & exporter of eco-friendly crop protection solutions. < Crop Kits Insect Pest Management | Leaf Folders Leaf folders are moth larvae that fold and feed within rice leaves, affecting the plant's ability to capture sunlight for photosynthesis. Their feeding behavior leads to reduced leaf area and can weaken the plant over time, potentially impacting overall crop yield. Implementing monitoring and management practices is vital to mitigate leaf folder damage. Product Enquiry Download Brochure Management Biological Control Additional Info Management Remove grasses and weeds from nearby fields, which are alternate hosts of the pest. Biological Control Our ALLPROTEC 0.03% at 250–400g per acre by diluting 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

Fermogreen is an Biofertilizer produced through the natural way with plant nutrients extracted from plants itself, along with with soil bacteria. PRODUCT OVERVIEW Fermogreen is an Bio Fertilizer produced through the natural way with plant nutrients extracted from plants itself, along with with soil bacteria. It primarily enhances aeration in the rhyzosphere (root zone) and improves soil texture. An indigenous mix of essential plant nutrients extracted from plants itself, Fermogreen can improve the soil texture of the agrigated land by 3x. It enhances aeration of the soil so the roots are able to breathe, as a result build a healthier foundation for the plant to increase it’s uptake of nutrients from the soil. Contents 16 Micro and Macro essential nutrients fortified with Soil Bacteria – 3 x 109 CFU / ml Nitrosomonadales Rhizobiales Cantharellales Features & Benefits Improves aeration in the root zone. Improves soil structure and texture Prevents flowers and fruits dropping Improves Vegetative growth Improves the quality of flower, grains, fruits, vegetables, bulbs, green leaves and latex Increase the pest and disease resistance Mode of Action Fix nitrogen in the soil and the roots of crop and make it available to the plant. Solubilise the insoluble form of the phosphate like tricalcium, iron and aluminium phosphate into the available form. Produce hormones and anti metabolites which promote root growth. They also decompose the organic matter. When Fermogreen is applied to the seed and the soil they increase the availability of the nutrient to the plant Significantly increase the plant growth parameters viz., plant height, number of branches, number of roots, root length, shoot length, dry matter accumulation in plant organs etc. Dosage & Method of Application Dosage: Mix 5 ml of Fermogreen in 1 Liter of water. Drenching System : Mix the Fermogreen to the main source of water. Utilize 3 Liters of fertilized water volume per acre for irrigating the soil of the planting area. Application Frequency : Once in 30 days. 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 Litre / 20 Litre To know more about organic fertilizers visit soil fertilizers . Organic fertilizers , like farmogreen, work slowly and slowly release their nutrients through the microbial action of the myriad organisms that thrive in healthy soil. [Read more ] Downloads Product Information Label Information Click here for Product Enquiry Related Articles Four principles for organic agriculture (2/4): Ecology. Seen from the outside, agriculture may seem to be a magical process: things are planted in the soil, cared for during a season, and food... Organic fertilizers lend a hand in the fight against overfertilization Even though it sounds like everything but a problem for many farmers and gardeners who have to face the increasing nutrient depletion of a lot of the world’s soils, over-fertilization is a serious threat to sustainable agricultural practices and the environment everywhere. Not only by causing nutrient runoff into nearby rivers and lakes (with its well-known destabilizing and eventually deadly effects in the life of these ecosystems), but also by increasing the acidity of the Five Edible Cover Crops that Provide Food While Building the Soil The advantages of using cover crops to protect the soil and produce green manure are known to be many: nutrient scavenging in poor soils, soil protection from erosion, nitrogen fixation ( can’t get enough legumes in a garden, can’t you? ), generation of organic matter to incorporate it into the soil and weed control, among several others. But could these crops also be more like mainstream crops, a source of food? Theoretically, all cover crops should be cut down and used (ei

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

Saccharomyces boulardii is a probiotic yeast that helps maintain gut health and prevents antibiotic-associated diarrhea, promoting digestive balance. < Microbial Species Saccharomyces boulardii Saccharomyces boulardii is a probiotic yeast that helps maintain gut health and prevents antibiotic-associated diarrhea, promoting digestive balance. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Antimicrobial Properties It inhibits the growth of harmful bacteria and pathogens, contributing to a healthier gut environment and supporting gut health. Support During Antibiotic Use It helps prevent antibiotic-associated diarrhea, promoting gut health during and after antibiotic treatments for optimal recovery. Immune System Enhancement This strain boosts immune function by stimulating the production of antibodies and enhancing the body's defenses against various infections. Digestive Health Support This probiotic yeast helps maintain gut balance, alleviating symptoms of diarrhea and promoting overall digestive comfort and well-being. 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