Rhodopseudomonas palustris is a metabolically versatile, photoheterotrophic bacterium contributing to environmental sustainability through multiple pathways. It plays a pivotal role in carbon cycling via organic compound degradation and CO₂ fixation and enhances nitrogen availability in ecosystems through atmospheric nitrogen fixation. Its bioremediation capabilities enable the breakdown of aromatic pollutants, while its production of biohydrogen positions it as a candidate for renewable energy solutions. Furthermore, its role in phosphorus recovery underscores its importance in nutrient cycling and ecosystem management. < Microbial Species Rhodopseudomonas palustris Rhodopseudomonas palustris is a metabolically versatile, photoheterotrophic bacterium contributing to environmental sustainability through multiple pathways. It plays a pivotal role in carbon cycling via organic… Show More Strength 1 x 10⁹ CFU per gram / 1 x 10¹⁰ CFU per gram Product Enquiry Download Brochure Benefits Bioremediation Potential Effective in degrading a variety of environmental pollutants, including hydrocarbons and heavy metals. Nitrogen Fixation Capable of fixing atmospheric nitrogen, enhancing soil fertility and supporting plant growth. Bioenergy Production Can produce biofuels, such as hydrogen, making it a promising candidate for renewable energy applications. Photosynthetic Efficiency Utilizes light energy for growth, contributing to sustainable biomass production. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Contact us for more details Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Saccharomyces cerevisiae Bacillus polymyxa Thiobacillus novellus Thiobacillus thiooxidans Alcaligenes denitrificans Bacillus licheniformis Bacillus macerans Citrobacter braakii More Products Resources Read all

Bacillus megaterium is a Gram-positive, endospore-forming rhizobacterium recognized for its high-efficiency solubilization of inorganic phosphate compounds. By producing organic acids and phosphatases, it enhances phosphorus bioavailability, promoting early crop establishment, accelerated phenological development, and improved root system architecture. In addition to nutrient mobilization, B. megaterium contributes to soil health by enhancing microbial diversity, facilitating organic matter decomposition, and improving soil structure. It also exhibits antagonistic activity against phytopathogens, supporting natural pest suppression and reducing reliance on chemical pesticides. Compatible with biofertilizers and biopesticides, B. megaterium integrates seamlessly into organic and integrated farming systems, contributing to increased nutrient-use efficiency, enhanced crop resilience, and sustainable yield improvement while enriching soil microbiome. < Microbial Species Bacillus megaterium Bacillus megaterium enhances phosphorus solubility by converting insoluble phosphate compounds into bioavailable forms, thereby increasing nutrient accessibility for plant uptake. This accelerates crop development , promotes deepe… Show More Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Accelerates Plant Growth Enhances the growth rate of plants, leading to earlier maturity and increased yield. Improves Soil Quality Enhances soil fertility and structure, promoting healthier root growth and nutrient uptake. Protects Against Pests and Diseases Helps in preventing various pests and diseases that can affect plant health. Environmentally Friendly Supports sustainable agriculture practices by reducing reliance on chemical inputs and improving overall soil health. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Scientific References Effect of Bacillus megaterium var. phosphaticum and L-Alpha Proline on Iron Content in Soil and Wheat Plants Demonstrates enhanced nutrient uptake and synergistic effect with nitrogen fertilization in wheat crops. Płaza et al., 2021 – Agronomy Using Bacillus megaterium as a Bio-fertilizer to Reduce P Fertilizer and Improve Cauliflower Yield Under Salt Stress Shows B. megaterium can reduce chemical fertilizer demand by up to 25% while improving crop resilience and nutrient absorption. Shalaby, 2023 – Journal of Plant Nutrition Development of a Biologically Based Fertilizer Incorporating Bacillus megaterium A6 Combining B. megaterium with synthetic P fertilizer enhanced both soil phosphorus levels and oilseed rape yield. Hu et al., 2013 – Canadian Journal of Microbiology The Application of Bacillus megaterium Alters Soil Microbial Community and Improves Nutrient Availability in Cucumber Demonstrates compatibility with reduced doses of chemical fertilizers and enhancement of soil health and yield. Zhao et al., 2021 – Agriculture, Ecosystems & Environment Isolation, Characterization and Production of Biofertilizer from Bacillus megaterium Confirms phosphate solubilization and long-term viability of B. megaterium as a microbial inoculant in nutrient-rich formulations. Patel et al., 2016 – International Journal of Life-Sciences Scientific Research Sugar Beet and Barley Yields in Relation to Bacillus megaterium var. phosphaticum Inoculation Field trials show yield benefits from B. megaterium use, comparable to synthetic fertilizers. Çakmakçı et al., 1999 – Journal of Plant Nutrition and Soil Science Mode of Action Mode of Action: Bacillus megaterium in Agriculture 1. Phosphate Solubilization Bacillus megaterium produces organic acids and enzymes like acid phosphatase and phytase that break down insoluble phosphorus compounds (e.g., tricalcium phosphate) into forms plants can readily absorb. This boosts phosphorus availability in the root zone and enhances overall nutrient efficiency. 📌 Supported by: Hu et al., 2013 , Patel et al., 2016 2. Nitrogen Use Efficiency and Hormone Production B. megaterium synthesizes plant growth hormones like indole-3-acetic acid (IAA), which promotes root elongation and branching , leading to greater water and nutrient uptake. It also enhances nitrogen use efficiency when used alongside mineral N fertilizers, improving crop productivity even with reduced fertilizer doses. 📌 Supported by: Płaza et al., 2021 3. Soil Microbiome Stimulation Inoculating soil with B. megaterium enriches the microbial community structure and increases the bioavailability of phosphorus, potassium, and micronutrients . This creates a healthier rhizosphere and improves plant-microbe interactions essential for sustainable crop growth. 📌 Supported by: Zhao et al., 2021 4. Enhanced Crop Yield and Stress Tolerance Field trials across crops like wheat, maize, onion, and cauliflower have shown that B. megaterium application improves plant vigor, chlorophyll content, and enzyme activity (e.g., phosphatase), leading to higher biomass, grain filling, and overall yield , even under suboptimal conditions like salinity or low fertility. 📌 Supported by: Shalaby, 2023 , Abdul-Hussein & Hassan, 2023 5. Sustainability and Fertilizer Reduction Through its nutrient solubilization and growth-promoting traits, B. megaterium enables partial replacement or reduction of chemical fertilizers . This supports low-input, sustainable agriculture and improves soil health without compromising yield. 📌 Supported by: Çakmakçı et al., 1999 Additional Info Compatibility Bacillus megaterium can be compatible with a wide range of agricultural inputs and have shown synergistic benefits when used alongside mineral fertilizers . Compatible with : Bio-pesticides, bio-fertilizers , and plant growth regulators Mineral and chemical fertilizers — Bacillus megaterium improves phosphorus solubilization and nutrient uptake when co-applied with NPK fertilizers. Studies show this combination enhances plant growth and reduces fertilizer requirements (Płaza et al., 2021), (Hu et al., 2013) , (Zhao et al., 2021) . Not recommended with : Synthetic chemical pesticides that may harm microbial viability (unless compatibility has been confirmed in formulation trials) Dosage & Application Application Methods for Bacillus megaterium in Agriculture To maximize the bioefficacy of Bacillus megaterium in agricultural systems, the following application strategies are recommended across key crop growth stages: 1. Seed Coating / Seed Treatment For enhanced early-stage vigor and phosphorus mobilization: Coat 1 kg of seeds with a slurry made by mixing 10 g of Bacillus megaterium and 10 g of crude sugar in sufficient water to create a uniform layer. Allow the coated seeds to air-dry in shade before sowing or broadcasting. This method enhances germination rates , promotes early root colonization , and initiates early phosphorus uptake , critical for crop establishment. 2. Seedling Root Dip Treatment Ideal for nursery-raised transplants (vegetables, rice, fruit crops): Prepare a suspension with 100 g of Bacillus megaterium in 10–15 L of clean water (per 1,000 seedlings). Dip seedling roots for 15–30 minutes before transplantation. This promotes rhizosphere colonization , improves root system architecture , and confers early protection against soil-borne pathogens . 3. Soil Application For pre-sowing or basal incorporation: Mix 3–5 kg/acre of Bacillus megaterium with 50–100 kg of well-decomposed organic manure or compost . Apply uniformly over the field and incorporate into the top 10–15 cm of soil. This improves soil microbial activity , increases available phosphorus (Olsen-P) , and enhances overall soil fertility and structure. 4. Fertigation / Irrigation Application To maintain microbial populations during crop growth: Dilute 3 kg/acre of Bacillus megaterium in 200–300 L of irrigation water. Apply through drip irrigation, furrow irrigation, or fertigation systems , preferably in the early morning or late afternoon. Ensures uniform microbial distribution , maintains rhizospheric colonization , and supports ongoing nutrient solubilization and mineralization throughout the crop cycle. Best Practices for Application Efficiency: Avoid application alongside chemical fungicides or bactericides within 5–7 days to prevent microbial inhibition. Ensure soil moisture is adequate post-application for optimal bacterial survival and activity. Can be co-applied with other biofertilizers such as Azotobacter , PSB , or mycorrhizae These application techniques ensure the biological performance and ecological integration of Bacillus megaterium in diverse farming systems. The result is enhanced crop performance , improved phosphorus-use efficiency , and long-term soil health , aligning with the goals of sustainable, regenerative agriculture . FAQ What is Bacillus megaterium , and why is it used in agriculture? Bacillus megaterium is a naturally occurring, beneficial soil bacterium known for its ability to solubilize phosphorus , produce plant hormones , and promote root development . It enhances nutrient uptake and improves crop vigor, making it a valuable input in sustainable agriculture. How does this biofertilizer improve plant growth? It acts through several mechanisms: Solubilizing insoluble phosphorus into forms that plants can absorb Producing indole-3-acetic acid (IAA) , a natural auxin that promotes root elongation Enhancing soil microbial diversity and nutrient cycling Increasing availability of micronutrients such as iron and zinc Is Bacillus megaterium compatible with chemical fertilizers? Yes. Scientific studies confirm its compatibility with nitrogen and phosphorus fertilizers. In fact, co-application often leads to higher fertilizer use efficiency and improved crop yield , even when chemical inputs are reduced. Source: Hu et al., 2013 Can it reduce the need for chemical fertilizers? Yes. Field studies show that using B. megaterium with 50–75% of the standard fertilizer dose can achieve yields comparable to or better than full chemical fertilization, especially in phosphorus-deficient soils. Which crops can benefit from this product? It is suitable for a wide range of crops, including: Cereals & grains (wheat, maize, rice) Vegetables & fruits (onion, tomato, cauliflower, strawberry) Oilseeds & legumes (soybean, sunflower, beans) Orchards & plantation crops (banana, coconut, sugarcane) How is the product applied? It can be applied via: Seed treatment before sowing Soil drenching during planting or growth stages Fertigation systems in combination with irrigation Root zone application during transplanting Specific dosage and method should follow the product label or agronomist recommendation. What are the storage and shelf-life guidelines? Store in a cool, dry place , away from direct sunlight. When stored as directed, the product maintains efficacy for up to 12 months from the date of manufacture. Is it safe for humans, animals, and the environment? Yes. Bacillus megaterium is non-toxic, non-pathogenic , and environmentally safe . It is not classified as a hazardous microorganism and poses no risk to human health when used as directed. Can this product be used in organic farming? Yes, provided the formulation adheres to local organic certification standards. The bacterial strain and carrier materials are typically acceptable in organic and regenerative agriculture systems . Does it work in all soil types and climates? Yes, though results may vary depending on soil fertility, pH, moisture levels, and crop type . It is effective across a wide range of soils, including sandy, loamy, and saline-prone soils, and has been successfully tested in temperate and tropical climates. Related Products Aspergillus awamori Bacillus firmus Bacillus polymyxa Pseudomonas putida Pseudomonas striata More Products Resources Read all

< 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

Williopsis saturnus enhances nutrient uptake, improves soil fertility, suppresses soil-borne pathogens, promotes root development and yield, contributes to environmental sustainability, effective in agriculture. < Microbial Species Williopsis saturnus Williopsis saturnus enhances nutrient uptake, improves soil fertility, suppresses soil-borne pathogens, promotes root development and yield, contributes to environmental sustainability, effective in agriculture. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Safe and eco-friendly Considered safe for use in agriculture and environmentally friendly, minimizing chemical inputs and residues. Enhances shelf life of fruits Helps extend the shelf life of fruits by reducing spoilage caused by fungal infections, improving fruit quality and marketability. Produces antimicrobial compounds Produces antimicrobial compounds that inhibit the growth of various fungi and bacteria, protecting fruits from decay during storage. Biocontrol agent against fungal pathogens Williopsis saturnus acts as a biocontrol agent, suppressing fungal pathogens such as Botrytis cinerea and other post-harvest pathogens in fruits. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Content coming soon! Additional Info Shelf Life: Stable within 1 year from the date of manufacturing. Packing: We offer tailor-made packaging as per customers' requirements. Dosage & Application Contact us for more details FAQ Content coming soon! Related Products Bacillus amyloliquefaciens Bacillus azotoformans Bacillus circulans Bacillus pumilus Pseudomonas fluorescens Pseudomonas putida Rhodococcus terrae Vesicular arbuscular mycorrhiza 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

< Animal Health Cattle Care Max Cattle Care Max is a powerful probiotic blend formulated for cattle. It aids in greater weight gain, faster growth, improved fertility and a increase in milk production. Cattle Care Max will improve the gut-health of the animals by boosting immunity and preventing diseases. Product Enquiry Benefits Supports Livestock During Stress Effective during periods of stress such as transport, climate changes, or illness, helping to stabilize health and recovery. Boosts Immunity and Overall Health Strengthens the immune system and supports general health, making cattle more resilient to infections and disease. Promotes Weight Gain and Accelerated Growth Supports steady weight gain and enhances growth rate, leading to better physical development in cattle. Enhances Fertility and Milk Yield Improves reproductive performance and boosts milk production, contributing to higher productivity in dairy and breeding cattle. Component Amount per kg Bacillus Subtilis 3 × 10⁹ Amylase 24,000 B.A.U. Protease 18,000 casein digest. units Hemicellulase 3,000 units Lipase 70,000 units Beta Glucanase 12,000 Beta Glucanase units Phytase 50,000 units Extract from Bacillus Subtilis fermentation (dehydrated) 15% Composition Dosage & Application Additional Info Dosage & Application Content coming soon! Additional Info Content coming soon! Related Products Stress Pro Camel Care Pro Cattle Care Pro Feed Pro Grass Mask Lactomine Pro Lactomix Mineral Max Pastocare Calf Pro More Products Resources Read all

Bacillus circulans produces indoleacetic acid, solubilizes phosphorus improving absorption, enhances plant growth and yield, safe and eco-friendly. < Microbial Species Bacillus circulans Bacillus circulans produces indoleacetic acid, solubilizes phosphorus improving absorption, enhances plant growth and yield, safe and eco-friendly. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Enhances nutrient availability in soil Bacillus circulans improves the availability of essential nutrients such as nitrogen, phosphorus, and potassium, promoting better plant growth. Improves phosphorus uptake by plants Facilitates the solubilization of insoluble phosphates in the soil, making phosphorus more accessible to plants for optimal growth and development. Promotes plant growth and development Produces indoleacetic acid (IAA), a plant growth hormone that enhances root and shoot development, resulting in healthier and more vigorous plants. Enhances resistance to abiotic stress Increases plant tolerance to environmental stressors such as drought, salinity, and temperature fluctuations, improving overall plant resilience. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References Content coming soon! Mode of Action Introduction to Bacillus circulans: Nature's Multi-Functional Plant Growth Enhancer Bacillus circulans is a versatile Gram-positive, endospore-forming bacterium that has earned recognition as one of the most effective plant growth-promoting rhizobacteria (PGPR) in sustainable agriculture. Originally described in 1890 by Jordan, this remarkable microorganism demonstrates exceptional abilities in phosphate solubilization, indole-3-acetic acid (IAA) production, and comprehensive plant health enhancement. Recent taxonomic reclassifications have established that Bacillus circulans is now properly classified as Niallia circulans, reflecting advances in bacterial systematics and phylogenetic analysis. mdpi+4 This beneficial bacterium thrives in diverse soil environments and establishes mutually beneficial relationships with numerous crop species, making it an invaluable component of modern biofertilizer formulations. The organism's unique combination of growth-promoting metabolites, stress tolerance capabilities, and environmental safety positions it as a critical tool for addressing agricultural challenges while promoting ecological sustainability. pubmed.ncbi.nlm.nih+1 Characteristics and Biology of Bacillus circulans Taxonomic Classification and Modern Nomenclature Bacillus circulans has undergone significant taxonomic revision in recent years. Comprehensive phylogenetic analyses using 16S rRNA sequencing and comparative genomics have led to its reclassification as Niallia circulans (Jordan 1890) Gupta et al. 2020. This reclassification reflects the polyphyletic nature of the original Bacillus genus and efforts to create more accurate taxonomic groupings based on evolutionary relationships. gbif+1 The genus Niallia was established to honor Professor Niall A. Logan of Glasgow Caledonian University for his contributions to Bacillus systematics. Members of this genus are facultatively anaerobic, motile, and produce resistant endospores, with optimal growth temperatures ranging from 30-37°C. wikipedia+1 Morphological and Physiological Features Physical Characteristics: Bacillus circulans appears as rod-shaped bacteria measuring approximately 0.5-1.0 × 2.0-5.0 micrometers with rounded ends. The bacteria are motile via peritrichous flagella and form characteristic circular colonies with entire margins on standard growth media. semanticscholar Endospore Formation: Like other Bacillus species, Bacillus circulans produces highly resistant endospores that enable survival under extreme environmental conditions including heat, desiccation, radiation, and chemical stress. This spore-forming capability is crucial for maintaining viability during storage and application in agricultural systems. mdpi+1 Growth Requirements: The bacterium demonstrates remarkable adaptability to various pH levels (5.5-9.0), temperatures (15-45°C), and nutrient conditions. This physiological flexibility enables effective colonization across diverse soil types and climatic conditions. pmc.ncbi.nlm.nih+1 Metabolic Versatility and Enzyme Production Bacillus circulans produces an impressive array of extracellular enzymes that contribute to its agricultural and industrial significance: kasetsartjournal.ku+1 β-Mannanase Production: The bacterium produces thermostable β-mannanases used in biobleaching, coffee processing, animal feed improvement, and bioethanol production. These enzymes hydrolyze β-1,4-mannosidic linkages in mannan-based polysaccharides, generating valuable manno-oligosaccharides. kasetsartjournal.ku β-Galactosidase Activity: Bacillus circulans produces β-galactosidase enzymes used industrially for galactooligosaccharide (GOS) production from lactose. These prebiotic compounds have significant applications in food and pharmaceutical industries. pmc.ncbi.nlm.nih Chitinase and Cellulase Production: The organism secretes various polysaccharide-degrading enzymes including chitinases and cellulases, which contribute to organic matter decomposition and nutrient cycling in soil systems. mdpi+1 Additional Info Recommended Crops: Tomato, Banana, Rice Compatibility: Compatible with Bio Pesticides, Bio Fertilizers, and Plant growth hormones but not with chemical fertilizers and chemical pesticides. Shelf Life: Stable within 1 year from the date of manufacturing. Packing: We offer tailor-made packaging as per customers' requirements. Dosage & Application Wettable Powder: 1 x 10⁸ CFU per gram Foliar Application 1 Acre dose: 3-5 kg 1 Ha dose: 7.5 - 12.5 kg Soil Application (Soil drench or Drip irrigation) 1 Acre dose: 3-5 kg 1 Ha dose: 7.5 - 12.5 kg Soil Application (Soil drench or Drip irrigation) for Long duration crops / Orchards / Perennials 1 Acre dose: 3-5 kg 1 Ha dose: 7.5 - 12.5 kg Apply 2 times in 1 Year: Before onset of monsoon and after monsoon Seed Dressing 1 Kg seed: 10g Bacillus Circulans + 10g crude sugar Foliar Application for Long duration crops / Orchards / Perennials 1 Acre dose: 3-5 kg 1 Ha dose: 7.5 - 12.5 kg Apply 2 times in 1 Year: Before onset of monsoon and after monsoon Soluble Powder: 1 x 10⁹ CFU per gram Foliar Application 1 Acre dose: 1 kg 1 Ha dose: 2.5 kg Soil Application (Soil drench or Drip irrigation) 1 Acre dose: 1 kg 1 Ha dose: 2.5 kg Soil Application (Soil drench or Drip irrigation) for Long duration crops / Orchards / Perennials 1 Acre dose: 1 kg 1 Ha dose: 2.5 kg Apply 2 times in 1 Year: Before onset of monsoon and after monsoon Seed Dressing 1 Kg seed: 10g Bacillus Circulans + 10g crude sugar Foliar Application for Long duration crops / Orchards / Perennials 1 Acre dose: 1 kg 1 Ha dose: 2.5 kg Apply 2 times in 1 Year: Before onset of monsoon and after monsoon Seed Dressing Method Mix Bacillus Circulans with crude sugar in sufficient water to make a slurry. Coat seeds and dry in shade before sowing / broadcasting / dibbling in the field. Do not store treated / coated seeds for more than 24 hours. Soil Application Method: Mix at recommended doses with compost and apply at early life stages of crop along with other biofertilizers. Mix Bacillus Circulans at recommended doses in sufficient water and drench soil at early leaf stage / 2-4 leaf stage / early crop life cycle. Drip Irrigation: If there are insoluble particles, filter the solution and add it to the drip tank. For long duration crops / Perennial / Orchard crops: Dissolve Bacillus Circulans at recommended doses in sufficient water and apply as a drenching spray near the root zone twice a year. First application should be before the onset of the main monsoon / rainfall / spring season, and the second application after the main monsoon / rainfall / autumn / fall season. Foliar Application Method Apply foliar application at early disease incidence. Conduct 1-2 follow-up sprays at weekly intervals. Mix Bacillus Circulans at recommended doses in sufficient water and spray on foliage. Apply twice a year for long duration crops. First application should be before the onset of the main monsoon / rainfall / spring season, and the second application after the main monsoon / rainfall / autumn / fall season. Note: Do not store Bacillus Circulans solution for more than 24 hours after mixing in water. FAQ General Biology and Classification What is the current scientific name for Bacillus circulans? The organism is now properly classified as Niallia circulans (Jordan 1890) Gupta et al. 2020, following comprehensive phylogenetic analyses that led to taxonomic reclassification. However, it remains widely known in agricultural applications as Bacillus circulans. gbif+1 How does Bacillus circulans differ from Bacillus cereus? While both are spore-forming bacteria, Bacillus circulans (now Niallia circulans) is phylogenetically distinct from Bacillus cereus. Bacillus cereus belongs to the cereus group and can cause food poisoning, while Bacillus circulans is non-pathogenic and beneficial for plant growth. The two species differ significantly in their toxin production, metabolic capabilities, and safety profiles. wikipedia+4 Can Bacillus circulans cause infections in humans? Bacillus circulans is generally considered non-pathogenic to humans. Unlike Bacillus cereus, which can cause gastrointestinal illness, Bacillus circulans has no documented association with human disease when used in agricultural applications. However, as with any bacterial product, proper handling and application guidelines should be followed. mdpi Agricultural Applications and Effectiveness Which crops benefit most from Bacillus circulans application? Bacillus circulans is particularly effective for tomatoes, bananas, and rice, as specified in product recommendations. However, research shows benefits across diverse crops including cereals, vegetables, and fruits, especially in phosphorus-deficient soils or under stress conditions. mdpi+2 How quickly can farmers expect results from Bacillus circulans? Initial benefits typically become visible within 2-3 weeks as improved root development and enhanced nutrient uptake. Phosphate solubilization effects can be observed within days of application, while maximum growth promotion benefits develop over 6-8 weeks as bacterial populations establish in the rhizosphere. pubmed.ncbi.nlm.nih Can Bacillus circulans replace chemical fertilizers completely? While Bacillus circulans significantly enhances nutrient availability and can reduce fertilizer requirements by up to 25%, it works best as part of an integrated nutrient management system. Complete replacement of chemical fertilizers may be possible in organic systems with adequate organic matter and proper management practices. ojs.revistacontribuciones Safety and Compatibility Is Bacillus circulans safe for organic farming? Yes, Bacillus circulans is completely suitable for organic farming systems as it is a naturally occurring, non-GMO bacterium that enhances soil health and plant nutrition through biological processes. indogulfbioag+1 What should farmers avoid when using Bacillus circulans? Bacillus circulans is compatible with bio-pesticides, bio-fertilizers, and plant growth hormones but should not be applied simultaneously with chemical fertilizers or pesticides that may harm bacterial viability. Avoid storage of prepared solutions for more than 24 hours. indogulfbioag How should Bacillus circulans products be stored? Store products in cool, dry conditions away from direct sunlight and extreme temperatures. The spore-forming nature of Bacillus circulans allows products to maintain stability for up to one year from manufacture date when stored properly. indogulfbioag Technical and Application Questions What is the optimal application method for Bacillus circulans? Application methods include seed dressing (10g per kg seeds), soil application (3-5 kg per hectare), and foliar spray. For long-duration crops and orchards, apply twice yearly before and after monsoon seasons for optimal results. indogulfbioag Can Bacillus circulans be used in hydroponic systems? While traditionally used in soil-based systems, Bacillus circulans can potentially benefit hydroponic cultivation through its phosphate-solubilizing activity and plant hormone production, though specific formulations for soilless systems may require development. How does soil pH affect Bacillus circulans effectiveness? Bacillus circulans functions effectively across a wide pH range (5.5-9.0) but performs optimally in slightly acidic to neutral soils. Its acid-producing activity helps optimize soil conditions for nutrient availability. pmc.ncbi.nlm.nih Related Products Bacillus amyloliquefaciens Bacillus azotoformans Bacillus pumilus Pseudomonas fluorescens Pseudomonas putida Rhodococcus terrae Vesicular arbuscular mycorrhiza Williopsis saturnus More Products Resources Read all

Nulla facilisi. Integer commodo, augue ut feugiat faucibus, turpis risus ullamcorper erat, nec viverra sapien nunc in nulla. Posted on July 25, 2025 Lorem ipsum dolor sit amet, consectetur adipiscing elit. Nulla facilisi. Integer commodo, augue ut feugiat faucibus, turpis risus ullamcorper erat, nec viverra sapien nunc in nulla. Quisque aliquet urna ut libero ultrices, non ullamcorper mi fermentum. Sed feugiat mauris ac felis elementum, ut tincidunt magna dapibus. Suspendisse commodo orci eget purus vulputate, eget ultricies turpis dictum. Vivamus dignissim, enim a sollicitudin scelerisque, velit mauris suscipit est, et viverra neque urna non lorem. Curabitur sit amet tristique lectus. Nam vitae quam et arcu volutpat tincidunt sed nec elit. Aenean porttitor leo at lectus dapibus, id luctus justo ornare. Sed convallis nisl sed sapien malesuada, eu dapibus ex bibendum. Curabitur luctus finibus tortor, id hendrerit ligula blandit eget. Phasellus ultricies turpis ut dolor ultrices, ut scelerisque arcu dignissim. Nulla tincidunt risus et justo tincidunt bibendum. Vestibulum sed urna tincidunt, pretium mauris ut, vehicula nisl. Nam gravida ullamcorper leo, nec malesuada lorem feugiat at. Etiam sed ex in est bibendum laoreet. Integer eu elit nec nunc suscipit pellentesque. Vestibulum in sagittis elit, sed volutpat nulla. Pellentesque rhoncus facilisis massa, ut tincidunt risus venenatis nec. Suspendisse tempor nulla turpis, sed elementum nunc gravida vel. Donec mattis ornare mauris, non laoreet ipsum euismod at. Vestibulum rhoncus dui sit amet magna fermentum, sit amet porttitor sem tincidunt. Sed nec nunc nec nibh lacinia fermentum. Nam volutpat, mi vel feugiat sagittis, felis ante viverra augue, a aliquet nibh turpis et libero. Nunc tincidunt metus vitae sem pretium, nec efficitur libero fermentum. Aliquam nec congue risus. Morbi feugiat quam in nibh cursus, eget tincidunt felis malesuada. Quisque a purus sed arcu laoreet efficitur. Cras interdum velit eu erat condimentum, et sagittis magna scelerisque. Suspendisse quis orci sit amet turpis lacinia consectetur. Cras varius quam sed lacus laoreet, ut elementum odio lacinia. Donec sed congue ligula, sed laoreet justo. Curabitur viverra nisi sit amet posuere fermentum. In et dui sed nunc cursus euismod et vitae metus. # # # About Indogulg BioAg Indogulf BioAg is the dedicated bio-technology division set-up under the Indogulf Group. We are pioneers in the development of biological inoculant, organic fertilizer and mycorrhiza (VAM). Our research & manufacturing facility is located in Salem, a small town in South India that is known for it’s rich underground water that promotes an extensive microbial population, making it an ideal hub for microbial bioscience. # # # Contact +1 437 774 3831 biosolutions@indogulfgroup.com What's New

Leading manufacturer & exporter of Hydromax nano fertilizer. Enhance crop yields with our advanced, eco-friendly solutions. Quality you can trust. < Nano Fertilizers Hydromax A comprehensive liquid nutrient solution containing essential elements such as N, P, K in ionic form, devoid of elements like chlorine found in mineral salts. Product Enquiry Download Brochure Benefits Promotes Strong and Healthy Plants Supports robust plant growth and development. Ionic Formulation Consists of basic elements like N, P, K in ionic form, free from other mineral salts. Flexible Nutrient Application Allows farmers to adjust nutrient application based on growth phases, species, and environmental factors. Recommended for Hydroponics Ideal for hydroponic systems due to its liquid form and high water solubility. Nutrient % (w/w) Form Nano nitrogen 4.01% Amino-chelated nitrate & ammonium 8 Conventional nitrogen 9.90% Stabilized nitrate 8 Nano phosphorus 0.87% Nano-sized phosphate 8 Nano potassium 0.93% Nano K⁺ ions 8 Nano calcium 0.06% Colloidal Ca²⁺ 8 Nano magnesium 0.04% Colloidal Mg²⁺ 8 Amino acids & enzymes 2% + QS Biostimulant package 8 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: 5 Ltx2/Corrugated Cardboard Box Why choose this product? One-Bottle Convenience: Replaces multiple A/B concentrates; no chlorine, no sodium 8 . Nano-Enhanced Uptake: Nano N, P, K, Ca and Mg ions enter root cells 3× faster than bulk salts 8 . pH-Stable Formula: Low buffering capacity keeps nutrient solution steady during recirculation. 24-Month Shelf Life: Remains crystal-clear; zero clogging in drip or NFT systems 8 . Key Benefits at a Glance Rapid Root Strike: Ionic N-P-K fuels immediate ATP synthesis for explosive root hairs. Balanced Growth Curve: Amino-chelated Mg and Ca keep photosynthesis and cell-wall growth in sync, preventing tip burn or blossom end-rot. Residue-Free Produce: Chlorine-free formulation stops salt spots on leafy greens. System Cleanliness: 100% water-soluble—no precipitates in emitters or reservoirs. Sustainability Advantage Hydromax consolidates multiple fertilizer SKUs into one recyclable container, cutting plastic waste by up to 70% and reducing on-farm storage space needs. Growers report 8–12% yield gains in leafy greens and a 15% faster crop cycle in hydroponic tomatoes. Implementation Checklist Replace existing page copy with the above sections, preserving current image URLs and schema markup. Add FAQ schema ( FAQPage JSON-LD) using the Q&A content to win Google rich snippets. Insert internal links to “Micromax,” “Nitromax” and the Indogulf blog articles on nutrient management to improve crawl depth. Compress brochure images to < 150 kB and add alt tags using target keywords (“phosphorus fertilizers,” “Hydromax nutrient solution”). Track organic keyword growth in Google Search Console; expect ranking improvements within 4–6 weeks for primary terms. Dosage & Application System Typical EC Target Hydromax Rate Notes NFT / Deep-water culture 1.2–1.8 mS/cm 5–7 mL/L stock tank Adjust based on crop phase Coco or soil drench 800–1,400 µS/cm 8–10 mL/L irrigation Flush every 3rd watering Foliar booster — 5 mL/L spray Use at early vegetative & pre-flower FAQ Is Hydromax only for hydroponics? No. Hydromax excels in hydroponics but also boosts yields in coco coir, peat mixes and field soils when applied via drip or foliar 8 . Do I still need calcium nitrate or Epsom salt? Generally no. Hydromax contains bioavailable nano Ca and Mg; however, heavy-fruiting crops may require a small Ca/Mg top-up late in the cycle. Will Hydromax clog my drip lines? The solution is fully ionic with < 1 µm particles, eliminating precipitation risk in emitters and foggers 8 . Can I mix Hydromax with pesticides or biostimulants? Yes. The formula is compatible with most biologicals and pesticides; always jar-test first if mixing oil-based products. What is the shelf life after opening? Store tightly sealed at 10–30 °C; product retains full potency for 24 months after manufacture 8 . Related Products Anpeekay NPK Nano Boron Nano Calcium Nano Chitosan Nano Copper Nano Iron Nano Potassium Nano Magnesium More Products Resources Read all

In agriculture Azospirillum lipoferum is used to promote root development and nitrogen fixation in various crops, leading to enhanced growth and higher agricultural productivity. < Microbial Species Azospirillum lipoferum In agriculture Azospirillum lipoferum is used to promote root development and nitrogen fixation in various crops, leading to enhanced growth and higher agricultural productivity. Strength 1 x 10⁸ CFU per gram / 1 x 10⁹ CFU per gram Product Enquiry Download Brochure Benefits Disease Suppression Suppresses soil-borne pathogens through competition for nutrients and production of antimicrobial compounds, enhancing plant health and reducing disease incidence. Plant Growth Promotion Produces plant growth-promoting substances like auxins and cytokinins, stimulating root growth and overall plant development. Phosphate Solubilization Releases phosphate bound in the soil, making it available for plant uptake, thereby improving phosphorus nutrition. Nitrogen Fixation Converts atmospheric nitrogen into ammonia, enhancing soil fertility and reducing the need for nitrogen fertilizers. Dosage & Application Additional Info Scientific References Mode of Action FAQ Scientific References 1. Azospirillum, a free-living nitrogen-fixing bacterium closely associated with grasses: genetic, biochemical and ecological aspects URL: https://academic.oup.com/femsre/article/24/4/487/510690 Journal : FEMS Microbiology Reviews (2000) 2. Azospirillum: benefits that go far beyond biological nitrogen fixation URL: https://pmc.ncbi.nlm.nih.gov/articles/PMC5935603/ Journal : PMC - PubMed Central (2018) 3. Field-based assessment of the mechanism of maize yield enhancement by Azospirillum lipoferum CRT1 URL: https://www.nature.com/articles/s41598-017-07929-8 Journal : Scientific Reports - Nature (2017) 4. Posttranslational regulation of nitrogenase activity in Azospirillum brasilense URL: https://pmc.ncbi.nlm.nih.gov/articles/PMC196782/ Journal : Journal of Bacteriology 5. Molecular Mechanisms Determining the Role of Bacteria from the Genus Azospirillum in Plant Growth Promotion URL: https://pmc.ncbi.nlm.nih.gov/articles/PMC10252715/ Journal : International Journal of Molecular Sciences (2023) Mode of Action Biological Nitrogen Fixation Mechanism Azospirillum lipoferum converts atmospheric nitrogen (N₂) into ammonium (NH₄⁺) under microaerobic conditions through the nitrogenase enzyme complex . This complex consists of two essential components: the dinitrogenase protein (MoFe protein, NifDK) containing a molybdenum-iron cofactor where N₂ reduction occurs, and the dinitrogenase reductase protein (Fe protein, NifH) that transfers electrons to the nitrogenase protein. The efficiency of nitrogen fixation in A. lipoferum reaches 48 mg total nitrogen per gram glucose consumed at late log phase, with approximately 25% of fixed nitrogen recovered in culture supernatants . This bacterium demonstrates a unique hydrogenase system - an active uptake hydrogenase that increases during glucose limitation and serves as an oxygen protection mechanism for the oxygen-sensitive nitrogenase. Molecular Regulation Systems Transcriptional Control The nitrogen fixation process is regulated by multiple nif genes including the nifHDK operon encoding nitrogenase components and nifA as the transcriptional activator. Expression is controlled by the general nitrogen regulatory system involving NtrBC proteins and the alternative sigma factor σ⁵⁴ (RpoN). Post-translational Regulation A. lipoferum employs reversible ADP-ribosylation of the nitrogenase iron protein mediated by DraT (ADP-ribosyltransferase) and DraG (activating glycohydrolase) enzymes. This mechanism provides rapid response to environmental changes - nitrogenase becomes inactive when ADP-ribosylated in the presence of ammonium or anaerobic conditions, and reactivated when ADP-ribosyl groups are removed. Plant Growth Promotion Mechanisms Phytohormone Production A. lipoferum synthesizes multiple plant hormones through distinct biosynthetic pathways. The bacterium produces indole-3-acetic acid (IAA) via the indole-3-pyruvate (IPyA) pathway using the key enzyme indole-3-pyruvate decarboxylase encoded by ipdC . It also demonstrates capacity for gibberellin metabolism , effectively hydrolyzing GA₂₀-glucosyl conjugates and performing 3β-hydroxylation to convert GA₂₀ to the bioactive GA₁. The bacterium expresses ACC deaminase which hydrolyzes the ethylene precursor 1-aminocyclopropane-1-carboxylate , reducing plant ethylene levels and promoting growth. Additional hormones include cytokinins through octaprenyl diphosphate synthase activity. Root System Architecture Modification Inoculation with A. lipoferum results in altered root morphology characterized by increased lateral root formation and enhanced root hair development. This root system expansion allows plants to explore larger soil volumes for nutrient and water acquisition. Field studies demonstrate that these morphological changes occur early in plant development and correlate with improved photosynthetic potential and reduced glucose content in ascending sap. Root Colonization and Plant Interaction Attachment Mechanisms A. lipoferum employs a two-step colonization process . Initial adsorption is mediated by the polar flagellum , whose flagellin protein is a glycoprotein essential for motility-dependent attachment. The subsequent anchoring phase involves unidentified surface polysaccharides that facilitate stable root surface colonization. Energy taxis plays a crucial role in root colonization, with bacteria navigating toward metabolizable compounds in root exudates. This chemotactic response contributes to the broad host range observed in Azospirillum -plant associations. Mineral Nutrition Enhancement A. lipoferum demonstrates phosphate solubilization ability , though weaker than specialized phosphate-solubilizing bacteria. The mechanism involves organic acid production (primarily acetic acid) that reduces medium pH and releases soluble phosphate from calcium phosphate complexes . Coimmobilization with other phosphate-solubilizing bacteria like Bacillus megaterium significantly enhances phosphate availability. The bacterium also participates in iron nutrition through potential siderophore production and iron chelation mechanisms , though specific iron acquisition systems require further characterization. Agricultural Applications and Field Performance Commercial Inoculant Effectiveness Field studies with commercial strain A. lipoferum CRT1 demonstrate variable but significant yield enhancement across different agricultural sites. The bacterium's effectiveness depends on soil characteristics and environmental conditions , with survival on maize roots limited to approximately 57 days post-inoculation . Research indicates that A. lipoferum inoculation can substitute for 50% of nitrogen fertilizer applications without yield reduction , demonstrating potential for sustainable agriculture practices. The bacterium shows particular efficacy when applied as seed coating formulations. Stress Tolerance Mechanisms A. lipoferum confers drought tolerance through multiple mechanisms including abscisic acid synthesis , osmotic adjustment , and antioxidant enzyme activation . The bacterium induces expression of stress-related genes and enhances water use efficiency in treated plants. 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: Coat 1 kg of seeds with a slurry mixture of 10 g of Azospirillum Lipoferum and 10 g of crude sugar in sufficient water. Dry the coated seeds in shade before sowing or broadcasting in the field. Seedling Treatment: Dip seedlings into a mixture of 100 grams of Azospirillum Lipoferum with sufficient water. Soil Treatment: Mix 3-5 kg per acre of Azospirillum Lipoferum with organic manure or fertilizers. Incorporate into the soil during planting or sowing. Irrigation: Mix 3 kg per acre of Azospirillum Lipoferum in water and apply through drip lines. FAQ What physiological mechanisms underlie the benefits of Azospirillum lipoferum in crops? Azospirillum lipoferum is a diazotrophic bacterium that colonizes the rhizosphere and endorhizally associates with plant roots. Through biological nitrogen fixation via the nitrogenase enzyme complex, it converts atmospheric N₂ into bioavailable ammonia, enhancing plant nitrogen nutrition. Additionally, it synthesizes phytohormones (indole-3-acetic acid, gibberellins) that modulate root architecture—promoting lateral root proliferation and root hair elongation—thereby increasing absorptive surface area and nutrient uptake efficiency. How is Azospirillum lipoferum formulated and applied in agronomic practice? Seed Inoculation: Prepare a peat-based carrier formulation containing ≥10⁸ CFU/g. Coat seeds at 10 g inoculant per kg seed, ensuring uniform adhesion with an adhesive such as sterile sucrose solution. Air-dry for 30–60 minutes prior to sowing. Seedling Root Dip: Suspend 100 g of inoculum in 10 L of sterile water and dip root systems of nursery seedlings for 15 minutes before transplanting. Soil Amendment: Incorporate 3–5 kg inoculant per hectare into the top 10 cm of soil, preferably mixed with well-decomposed organic manure. Liquid Delivery: Dissolve 3 kg inoculant in 1,000 L of irrigation water and apply via drip or furrow irrigation systems to distribute cells throughout the rhizosphere. Which agronomic crops demonstrate optimal responsiveness to Azospirillum lipoferum inoculation? Field and greenhouse trials indicate significant yield and biomass improvements in Poaceae (wheat, maize, rice, sorghum), Fabaceae (pulses), Brassicaceae (oilseeds), Solanaceae (tomato, pepper), and Cucurbitaceae (cucumber, melon). Enhanced root development and N-use efficiency have been documented across cereals, legumes, oilseeds, horticultural, and fiber crops. What compatibility and biosafety considerations apply to Azospirillum lipoferum applications? Azospirillum lipoferum formulations are biosafe, exhibiting no pathogenicity to plants, humans, or animals. The bacterium is compatible with organic amendments, biofertilizers, and select biopesticides. Physical or chemical incompatibilities may arise when co-applied with high concentrations of synthetic fertilizers or broad-spectrum biocides; sequential rather than simultaneous application is recommended to maintain cell viability. What are the recommended storage conditions and shelf life parameters for Azospirillum lipoferum inoculants? Maintain formulations at 4–10 °C in moisture-proof, opaque packaging. Under these conditions, viable cell counts remain ≥10⁷ CFU/g for 9–12 months post-manufacture. Prolonged exposure to temperatures above 25 °C or high relative humidity reduces survival rates and inoculum efficacy. By what mechanisms does Azospirillum brasilense enhance plant growth and stress tolerance? Azospirillum brasilense is a facultative endophyte that fixates atmospheric nitrogen via nitrogenase activity and secretes a suite of phytohormones (auxins, cytokinins, gibberellins). It also produces exopolysaccharides that improve soil aggregation and water retention. Through phosphorus solubilization (organic acid secretion) and induced systemic tolerance—mediated by modulation of stress-responsive gene expression—A. brasilense ameliorates abiotic stresses such as drought and salinity. What application methodologies are employed for Azospirillum brasilense in crop production? Seed Coating: Utilize a carrier-based formulation (≥10⁸ CFU/g) at 10 g per kg of seed, combined with a polymeric sticker to ensure uniform adhesion. Soil Application: Distribute 3–5 kg inoculant per hectare by broadcasting or banding, integrating with organic fertilizer or compost. Irrigation Integration: Infuse 3 kg inoculant into 1,000 L irrigation solution and apply through drip or sprinkler systems to achieve homogeneous microbial delivery. Which crop species exhibit pronounced yield responses to Azospirillum brasilense? Empirical studies demonstrate yield enhancements in cereals (wheat, maize, rice), legumes (soybean, chickpea), oilseeds (canola, sunflower), and various vegetables (tomato, eggplant) when inoculated with A. brasilense under both irrigated and rainfed conditions. How does Azospirillum brasilense interact at the molecular level with host plants? Upon root colonization, A. brasilense secretes signaling molecules—N-acyl homoserine lactones and lipo-chitin oligosaccharides—that trigger root gene networks involved in nutrient transport and stress responses. The bacterium’s nitrogenase complex reduces N₂, while secreted indole-3-acetic acid influences auxin-responsive transcription factors, collectively fostering root proliferation and enhanced nutrient assimilation. Are there any safety or environmental risks associated with Azospirillum brasilense use? A. brasilense poses negligible biosafety risks; it is non-pathogenic to non-target organisms and does not persist as a pollutant in soil ecosystems. Compatibility with most agrochemicals is high, though cell viability may decrease in the presence of potent oxidizing agents or extreme pH conditions. Related Products Acetobacter xylinum Azospirillum brasilense Azospirillum spp. Azotobacter vinelandii Beijerinckia indica Bradyrhizobium elkanii Bradyrhizobium japonicum Gluconacetobacter diazotrophicus More Products Resources Read all