Bacillus pumilus

Next-Generation Microbial Inoculant for Soil Health and Crop Resilience

Bacillus pumilus is a high-performance biofertilizer and plant growth-promoting rhizobacterium (PGPR) used to improve nutrient cycling, boost plant growth, and enhance soil health. It solubilizes phosphorus, supports nitrogen availability, and stimulates beneficial microbial activity in the rhizosphere.

This versatile soil inoculant promotes faster crop residue decomposition, strengthens root systems, and improves crop yield potential. It also enhances plant tolerance to salinity, drought, and heavy metals—making it an ideal input for sustainable and organic farming systems.

Key Benefits:

Solubilizes phosphate for improved nutrient uptake
Boosts nitrogen cycling and fertilizer efficiency
Activates natural defenses
Stimulates root and shoot growth
Improves tolerance to drought, salinity, and heavy metals

Buy Now / Request Sample

As a biostimulant and natural biofertilizer, B. pumilus solubilizes phosphorus, facilitates nitrogen conversion, accelerates organic matter decomposition, and enhances soil structure, providing a more productive growing environment. Beyond improving soil health, the soil probiotic actively supports plant vigor and stress tolerance. It aids crops in adapting to environmental challenges such as salinity, drought, and heavy metal stress, while also reinforcing their natural defense mechanisms against external threats.

Unlocking Phosphorus for Better Nutrient Absorption

As a phosphate-solubilizing bacterium, Bacillus pumilus converts insoluble phosphates into plant-available nutrients, improving early root growth and reducing dependence on synthetic phosphate fertilizers.

Solubilizes rock phosphate and calcium phosphate in the soil
Improves early root growth, flowering, and fruiting
Minimizes phosphorus runoff and fertilizer waste

Optimizing Nitrogen Efficiency and Soil Fertility

This nitrogen-fixing soil probiotic plays a key role in nitrogen cycling by converting organic nitrogen into forms plants can use. Its action supports soil health and reduces fertilizer losses.

Increases nitrate availability for crop uptake
Reduces nitrogen leaching and improves efficiency

Strengthening Natural Plant Defense Responses

This agricultural microbe enhances natural immunity by triggering defense signaling pathways. Colonized plants show stronger resistance to pathogens and improved growth under stress.

Induces jasmonic acid and salicylic acid defense pathways
Enhances biomass accumulation and yield even under stress

Boosting Plant Growth with Phytohormones

Bacillus pumilus is a plant growth-promoting rhizobacteria (PGPR) that produces plant growth hormones that accelerate development and boost yields. These natural bioactive compounds replace the need for synthetic stimulants.

Produces IAA, gibberellins, and cytokinins for root and shoot growth
Accelerates seed germination and early-stage establishment
Increases plant biomass and overall productivity

Adaptability to Harsh Growing Conditions

Widely used in organic farming, this beneficial soil bacterium enhances crop resilience under environmental stress—especially in saline, drought-prone, or contaminated soils.

Improves salt tolerance via osmotic balance and enzyme activity
Enhances drought resistance through deeper root growth
Reduces cadmium and heavy metal uptake in polluted soils

Improving Soil Structure and Organic Matter Breakdown

This soil probiotic improves soil texture and rapidly decomposes organic material. These effects support better root access, nutrient cycling, and long-term fertility.

Enhances soil porosity, aeration, and water movement
Breaks down crop residues to release plant-available nutrients

Natural Enzyme and Organic Acid Production

Bacillus pumilus secretes enzymes and organic acids that unlock bound minerals and micronutrients—improving overall rhizosphere function.

Produces acids like citric and gluconic to solubilize minerals
Releases enzymes that enhance nutrient cycling and root uptake

Eco-Friendly Solution for Sustainable Farming

This biofertilizer aligns with regenerative agriculture and organic soil inoculant practices by improving nutrient cycling and reducing chemical input dependence.

Enhances nitrogen and phosphorus bioavailability
Supports soil aggregation via exopolysaccharide production

Biofertilizer Summary‍

Key Benefit

Description

Phosphate Solubilization

Unlocks bound phosphorus in soil, enhancing root growth and boosting yields.

Nitrogen Cycling & Soil Fertility

Facilitates nitrogen conversion, improving soil fertility and reducing fertilizer runoff.

Microbial Support for Soil & Plant Resilience

Supports a balanced microbiome and root colonization, enhancing plant adaptability.

Supports Natural Plant Defense Responses

Strengthens natural defense pathways, improving plant resilience to environmental stressors.

Plant Growth Promotion via Phytohormones

Produces IAA, gibberellins, and cytokinins to stimulate root elongation and biomass growth.

Salt Tolerance

Regulates osmotic balance and enhances stress adaptation in saline soils.

Drought Resilience

Promotes deeper root growth and water-use efficiency under limited moisture conditions.

Heavy Metal Detoxification

Reduces uptake of cadmium and other heavy metals, helping remediate contaminated soils.

Improved Soil Structure & Residue Decomposition

Enhances soil aggregation and organic matter breakdown for better aeration and water retention.

Enhanced Micronutrient Availability

Increases the bioavailability of essential micronutrients needed for optimal plant metabolism.

Organic Acid & Enzyme Production

Secretes bioactive compounds that mobilize nutrients and improve soil nutrient cycling.

Eco-Friendly & Sustainable Farming Solution

Supports organic and regenerative farming by reducing reliance on synthetic inputs.

Why Choose Our Bacillus pumilus?

High-Potency Formulation – Engineered for maximum microbial activity and viability.
Multi-Functional Applications – Serves as a biofertilizer, soil enhancer, and plant growth promoter.
Sustainability-Focused – Supports organic farming and regenerative soil health strategies.
Proven Results – Backed by field trials and research, demonstrating improved crop yields, stronger plants, and healthier soils.

Applied Biotech Industries leverages advanced fermentation technology to produce high-strength Bacillus pumilus powder in bulk. Our cultivation process ensures maximum viability and effectiveness for agricultural applications. Whether this microbial inoculant is used alone or in a consortium of microbes in organic farming, soil restoration, or high-yield production systems, this versatile Plant growth-promoting rhizobacteria (PGPR) offers a natural way to improve productivity and crop quality while reducing reliance on synthetic inputs.

‍

Concentration (CFU/g):

500 billion (5.0 × 10¹¹ CFU/g) dry powder
Custom concentrations available upon request

Particle Size (Mesh):

Passes through 100 mesh sieve

Packaging Options:

22 lb (10 kg) pails
44 lb (20 kg) pails
340 lb (155 kg) drums
Smaller custom packaging available on request

Shelf-life:

1.5 years at room temperature
2+ years if refrigerated

Storage Recommendations:

Store in a cool, dry location away from direct sunlight.
Keep container tightly sealed after each use.

‍

Soil Drench (Root Zone Application)

Dosage:

25-50 g per acre (60–120 g per hectare)

Frequency:

Apply at least twice: once during the seedling phase and again during the growth phase.
May be reapplied every 15–30 days based on plant health and soil conditions.

Application Method:

Dissolve Bacillus pumilus in irrigation water (enough to allow for root zone penetration).
Use an agitation tank or manually stir to prevent settling.
Apply near the root zone using drip irrigation or sprayers.

‍

Seed Treatment

Dosage:

1–2 g per kg of seed (500 billion – 1 trillion CFU/kg seed)
Mix with water or an adhesive solution

Frequency:

Apply once before sowing for early colonization.

Application Method:

Mix Bacillus pumilus powder with water or an adhesive binder.
Coat seeds evenly before drying.
Allow treated seeds to dry in the shade before planting.

‍

In-furrow

Dosage:

12.5–25 g per acre (30-60 g per hectare)

When tank mixing with fertilizer, add Bacillus mucilaginosus after the fertilizer is fully diluted in water. Do not tank mix with herbicides, fungicides, bactericides, or pesticides.

For best results, mix or shake Bacillus mucilaginosus in a small volume of water to pre-mix, then add to the tank to help ensure even dispersion. Maintain agitation throughout the application to prevent settling.

‍

Foliar Spray

Dosage:

50–150 g per acre (125–375 g per hectare)
Mix 0.5–1.5 g per liter of water
Apply 50–150 liters per acre (125–375 liters per hectare)

Frequency:

Apply every 15–30 days, starting from early plant growth.

Application Method:

Dissolve Bacillus pumilus in water and stir well.
Use an agitation tank to prevent settling.
Apply evenly over plant foliage using a sprayer or misting system.
Preferably apply in early morning or late afternoon.

‍

Q: What is Bacillus pumilus and how does it benefit crops?

A: Bacillus pumilus is a high-performance biofertilizer and plant growth-promoting rhizobacterium (PGPR) that enhances soil fertility, improves plant resilience, and optimizes nutrient uptake. This microbial inoculant solubilizes phosphorus, supports nitrogen cycling, and strengthens soil microbiome health, helping farmers achieve higher yields with reduced reliance on synthetic fertilizers.

Applied Biotech Industries manufactures and supplies Bacillus pumilus in bulk, ensuring high microbial viability and consistency in every batch.

Q: Where can I buy Bacillus pumilus in bulk?

A: Bacillus pumilus is manufactured and supplied in bulk by Applied Biotech Industries. We produce this high-potency agricultural inoculant at our state-of-the-art fermentation facility in Wisconsin, USA. Our bulk packaging options include:

22lb (10kg)
44lb (20kg) pails
340lb (155kg) drums

We supply wholesale quantities for large-scale farms and agricultural operations, distributors, and fertilizer manufacturers.

Q: Does Applied Biotech Industries manufacture Bacillus pumilus?

A: Yes, Applied Biotech Industries is a leading manufacturer of Bacillus pumilus. We use advanced fermentation technology to produce high-quality, high-viability microbial biofertilizers. Unlike many resellers, we control the entire production process, ensuring purity, potency, and reliability for agricultural use.

Q: In what form is Bacillus pumilus available, and how is it used?

A: Bacillus pumilus is produced and supplied by Applied Biotech Industries as a highly concentrated, dry powder formulation with 500 billion CFU per gram, ensuring maximum microbial viability and shelf stability.

While we manufacture and supply this strain as a powder, many of our clients incorporate it into their own liquid formulations for use in fertigation systems, foliar sprays, and microbial soil amendments. This flexibility allows custom blending into biofertilizer, biostimulant, and soil health products to meet specific agricultural needs.

Q: Is Bacillus pumilus a GMO?

A: No, this beneficial soil bacteria is a naturally occurring and non-GMO. Our company cultivates this strain without genetic modification and maintains strict quality control to ensure natural, sustainable microbial solutions for agriculture.

Q: Can Bacillus pumilus be used in organic farming?

A: Yes, it is a soil probiotic and organic-compatible agricultural microbe that naturally enhances soil fertility, nutrient availability, and plant resilience. Many organic growers use our Bacillus pumilus supply to improve crop health without synthetic inputs. Check with your organic certification body to confirm compliance.

Q: How does Bacillus pumilus improve soil fertility?

A: Bacillus pumilus enhances soil health and fertility through:

Phosphate solubilization – Converts bound phosphorus into plant-available forms.
Nitrogen cycling – Enhances nitrogen availability, reducing fertilizer loss.
Soil microbiome support – Promotes beneficial microbial diversity.
Root development – Stimulates root elongation and nutrient uptake.
Soil structure improvement – Increases aeration, water retention, and organic matter breakdown.

Applied Biotech Industries manufactures Bacillus pumilus for medium and large-scale agricultural applications, helping farmers and soil amendment companies improve nutrient efficiency and crop productivity.

Q: Can Bacillus pumilus be mixed and applied with fertilizers?

A: Yes, however when tank mixing with fertilizer, add Bacillus pumilus after the fertilizer is fully diluted in water. Do not tank mix with herbicides, fungicides, bactericides, or pesticides.

Q: Can Bacillus pumilus be mixed and applied with pesticides?

A: No. Avoid mixing with pesticides, bactericides and fungicides during application, as these can impact microbial viability.

Q: What crops benefit the most from Bacillus pumilus?

A: Our Bacillus pumilus inoculant is widely used in:

Row crops (corn, wheat, rice, barley) – Increases nutrient efficiency & root strength.
Fruits & vegetables (tomatoes, peppers, citrus) – Enhances growth & stress resistance.
Legumes & oilseeds (soybeans, peanuts, sunflower) – Optimizes nitrogen fixation.
Leafy greens (lettuce, spinach, kale) – Improves micronutrient absorption.
Specialty crops (tobacco, coffee, cocoa) – Supports root development & soil health.

Q: How is Bacillus pumilus applied?

A: Bacillus pumilus can be applied using various agricultural methods, including:

Seed Treatment – Improves germination and seedling vigor.
Soil Drench – Enhances soil microbiome and root nutrient uptake.
Foliar Spray – Increases stress tolerance and plant resilience.
Drip Irrigation – Delivers microbes directly to the root zone.
Compost & Organic Matter Enrichment – Boosts decomposition and soil structure.

We provide bulk supply options for agricultural businesses, distributors, and fertilizer manufacturers looking to incorporate Bacillus pumilus into commercial farming programs.

Q: Is Bacillus pumilus safe for the environment?

A: Yes. Bacillus pumilus is a sustainable, eco-friendly biofertilizer that improves soil fertility without harming the environment. It helps reduce chemical fertilizer dependency, restore soil microbial balance, and support long-term agricultural sustainability.

Q: Does Applied Biotech Industries offer bulk ordering for Bacillus pumilus?

A: Yes! We manufacture and supply Bacillus pumilus in bulk for commercial use. We offer:

Direct bulk supply to medium and large-scale farms, agricultural companies and distributors
Large-volume packaging options (10kg, 20kg, 155kg)
Consistent high-quality fermentation for superior viability
Technical support for integration into soil health programs

‍

Safety Data Sheet (SDS)

Scientific Research on Bacillus pumilus

1. Potential of Bacillus pumilus to Directly Promote Plant Growth
🔗 Read the study

Key Findings:

Bacillus pumilus produces phytohormones such as gibberellins, which enhance plant growth.
The bacterium positively affects plant biometric traits and substance content, including amino acids and proteins.

2. Biocontrol of Fungal Phytopathogens by Bacillus pumilus
🔗 Read the study

Key Findings:

Bacillus pumilus exhibits antagonistic activity against various fungal pathogens, including Fusarium oxysporum and Sclerotinia sclerotiorum.
The bacterium produces antimicrobial compounds and hydrolytic enzymes that inhibit pathogen growth.

3. Bacillus pumilus Increases Boron Uptake and Inhibits Rapeseed Root Growth
🔗 Read the study

Key Findings:

Bacillus pumilus enhances boron accumulation in plants by increasing transpiration-driven water flow.
Elevated boron levels can lead to toxicity, resulting in inhibited root growth in rapeseed.

4. Role of Biofilm Formation by Bacillus pumilus HR10 in Biocontrol
🔗 Read the study

Key Findings:

Bacillus pumilus HR10 produces stable biofilms, contributing to its biocontrol efficacy.
Biofilm formation enhances the bacterium's ability to colonize plant roots and suppress pathogens.

5. Biosurfactant Production by Endophytic Bacillus pumilus 2A
🔗 Read the study

Key Findings:

Bacillus pumilus 2A produces biosurfactants with potential applications in agriculture.
These biosurfactants can enhance soil health and promote plant growth.

6. Characterization of Bacillus pumilus Strains with Targeted Gene Deletions
🔗 Read the study

Key Findings:

Bacillus pumilus strains produce antimicrobial peptides that inhibit plant pathogens.
Genetic modifications can enhance the bacterium's biocontrol properties.

7. Biocontrol Mechanisms of Bacillus: Improving the Efficiency of Green Agriculture
🔗 Read the study

Key Findings:

Bacillus species, including Bacillus pumilus, are effective against a broad range of plant pathogens.
They act as plant growth promoters and systemic resistance inducers.

8. Bacillus pumilus as a Plant Growth-Promoting Rhizobacterium
🔗 Read the study

Key Findings:

Bacillus pumilus enhances plant growth through nitrogen fixation, phosphate solubilization, and phytohormone production.

9. Bacillus pumilus in Biofertilizer Applications
🔗 Read the study

Key Findings:

As a biofertilizer, Bacillus pumilus promotes nutrient uptake and improves soil health.

10. Bacillus pumilus as a Biocontrol Agent
🔗 Read the study

Key Findings:

Bacillus pumilus produces antimicrobial substances that inhibit a broad spectrum of microorganisms, including plant pathogens.

11. Biocontrol of Fungal Phytopathogens by Bacillus pumilus
🔗 Read the study

Key Findings:

Bacillus pumilus exhibits antagonistic activity against several fungal pathogens, including Fusarium solani, Fusarium oxysporum, Sclerotinia sclerotiorum, and Rhizoctonia solani.
The bacterium produces lipopeptides and hydrolytic enzymes, such as chitinases, which contribute to its biocontrol efficacy.

12. Application of Bacillus pumilus Isolates for Management of Black Root Rot in Strawberry Plants
🔗 Read the study

Key Findings:

Soil treatments with Bacillus pumilus isolates effectively reduced the incidence of black root rot disease in strawberry plants caused by pathogens like Rhizoctonia solani and Pythium species.
Bacillus pumilus applications improved plant vigor and reduced pathogen colonization in treated soil.

Bacillus pumilus