• Home / Types of Biofertilizers: What They Are and Why They Matter
Types of Biofertilizers: What They Are and Why They Matter

The demand for Biofertilizers in the market has been growing fast, not just in volume but also in expectations. Along with this, everyone desires the Biologicals that can compete with synthetic inputs. And that’s where understanding the types of Biofertilizers becomes essential. If you’re planning to add Biologicals to your portfolio or looking to increase your existing range, this guide breaks down the major types of Biofertilizers and how they work. Now, before we go deeper, let’s first get something straight.

What are Biofertilizers?

They are just living organisms, mostly bacteria or fungi, that help plants grow better. They don’t really feed the plants directly, but they improve the soil and unlock nutrients that are already there. Furthermore, they make nutrients more available, improve root health and even help plants fight stress.

This blog is all about exploring different types of Biofertilizers, especially the ones that actually work in the field. Because let’s be honest, the term “biofertilizer” gets thrown around a lot. But not everything sold in the name of it actually delivers. Here we break down the real categories, their mode of action, and where they fit in modern agriculture.

Why this matters for Agri-brands

You’re not just picking a product. You’re picking something that your customers (distributors, agronomists, retailers) will need to explain further to growers. So clarity, consistency, and proven efficacy matter. The Biofertilizers you choose should:

  • Fit the agronomic logic of the core crops grown in that region
  • Offer real microbial activity, not just CFU claims
  • Be stable and compatible with other formulations

Let’s unpack the different types of Biofertilizers we offer and how they can fit in your commercial plans.

Major Biofertilizer Categories

TypeMode of ActionSuitable CropsApplication Format
Nitrogen Fixing BacteriaFix atmospheric nitrogen into plant-usable formCereals, legumes, vegetablesLiquid, Powder
Phosphorus Solubilizing Bacteria (PSB)Convert bound phosphorus into available phosphateAll cropsLiquid, Powder
Potassium Solubilizing Bacteria (KSB)Release potassium from soil mineralsSugarcane, banana, maize, fruitsLiquid
Zinc Solubilizing BacteriaImprove zinc bioavailability by solubilizing insoluble formsPulses, oilseeds, vegetablesLiquid
Microbial NPK ConsortiumCombine N-fixers, PSB, KSB in one productField crops, horticultureLiquid
MycorrhizaExtend root system, improve water and P uptakePerennial crops, fruit orchards, high-value cropsGranules, Wettable powder

U

1. Nitrogen Fixing Bacteria

These are some of the oldest known types of Biofertilizers. Nitrogen is essential for plant growth, but plants cannot use the nitrogen gas present in air. These bacteria fix atmospheric nitrogen and turn it into ammonia, which plant roots can absorb.

There are two types:

  • Symbiotic: Like Rhizobium in pulses, which form nodules in roots.
  • Free-living: Like Azotobacter and Azospirillum, which work in cereals and vegetables.

These work great in crops like wheat, paddy, maize, moong, and groundnut.

2. Phosphorus Solubilizing Bacteria (PSB)

This is an important Biofertilizer to be included in the portfolio. It is commonly used in many regions because most soils are deficient in plant-available phosphorus. Phosphorus is already present in soils, but mostly it stays locked in forms that plants can’t absorb. PSB releases organic acids that dissolve these phosphate bonds and make them usable for the plant. It can be applied as a seed treatment or soil application. It works across all crop types.

3. Potassium Solubilizing Bacteria (KSB)

This one is often ignored, but it is highly effective in potassium-demanding crops. KSB breaks down potassium-containing minerals in the soil, especially in sugarcane, banana, and other fruit crops where potassium is critical for yield and quality.

KSB also supports drought tolerance in plants, which makes it a great choice in areas facing irregular rainfall.

4. Zinc Solubilizing Bacteria

Micronutrient solubilizers like this one are gaining traction. Zinc is a micronutrient, needed in small quantities but still very important. Its deficiency is common in many soils but often goes unnoticed. The deficiency can reduce crop yield and quality. Zinc solubilizers release enzymes and acids that turn insoluble zinc into available forms. Including Zinc-solubilizing formulations in the biological offerings adds value and opens cross-selling opportunities with the micronutrient line.

ZSB are increasingly used in oilseeds, maize and vegetables. Not many people know, but zinc is one of the fastest-depleting nutrients in Indian soil.

5. Microbial NPK Consortium

Think of this as an all-in-one solution. This Microbial NPK Consortium blend combines nitrogen fixers, PSB, and KSB in one formulation. This simplifies the application for the end user and gives you a product that supports balanced growth for plants. This category is rising fast because many growers want to simplify input applications.

6. Mycorrhiza (Vesicular-arbuscular Mycorrhiza: VAM)

One of the most strategic products in any biological portfolio. Mycorrhiza are fungi that form partnerships with plant roots. They extend their hyphae into the soil and pull nutrients and water that roots can’t reach, especially phosphorus. Mycorrhiza enhances root surface area, also helps reduce transplant shock, supports better flowering and increases resistance to drought.

Among all types of Biofertilizers, Mycorrhiza is unique because it builds a true symbiotic relationship with the plant.

What to look for when sourcing Biofertilizers

When comparing manufacturers for these types of Biofertilizers, here’s what truly matters:

  • CFU stability and viability: It’s not just about what’s claimed at manufacturing. Shelf life and survivability matter.
  • Crop and region targeting: The type of Biofertilizer needed for the crops differs with the regions. Your supplier must understand this need, and then only the perfect help can be provided to you.
  • Custom packaging: Whether you need bulk packs for blending or small packs for branding, your manufacturer should offer flexibility.

Why Agri-brands Partners with Peptech Biosciences for Biofertilizers

We stay behind the scenes – you take the credit. That’s the model.

Our role is to help you launch reliable, high-performing Biofertilizers under your own brand name. We manufacture. We test. We pack. You focus on sales, positioning, and trust-building in your market.

All our Biofertilizer formulations are:

  • Manufactured in ISO-approved facilities
  • Available in export-grade and domestic-ready variants
  • Backed by agronomy support and microbial test reports
  • Customizable in bulk and branded formats

Final Word

If you’re building a portfolio or expanding into Biologicals, knowing your types of Biofertilizers is not just about technical knowledge; it’s commercial logic. Every product should serve a crop need, a market need, or a value-add opportunity. We’re here to make sure the backend never becomes your bottleneck.

Let us know what your market needs. We’ll get it ready – quietly, reliably, and in your brand’s name.

Frequently Asked Questions (FAQs)

There are several types. The main ones include: Nitrogen Fixing Bacteria Phosphorus Solubilizing Bacteria Potassium Solubilizing Bacteria Zinc Solubilizing Bacteria Microbial NPK (a mix of all three nutrients) Mycorrhiza (a type of fungus that helps roots)
In which crops can these Biofertilizers be applied?
Yes, they are completely natural, biodegradable, and safe for soil, plants, and groundwater. They even improve soil structure and life over time.
They can be applied to the soil, mixed with compost, used as seed treatments, or even added through drip irrigation, depending on the type and crop.
They work best in soils that are not too dry or too acidic. For best results, the soil should have some organic matter and moisture.
Yes, a mix of nitrogen fixers, PSB, and KSB (Microbial NPK) is often used to support full nutrient availability.
Tags