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Farming is
unpredictable.
Arginex
is not.

Arginex is Arevo’s patented crop nutrition technology. Combining fertilizer ingredients
and amino acids, it activates roots, strengthens crops, and supports more sustainable harvests.

What is Arginex

Technology built on
precision not chance.

Arginex is a high-purity, single-compound formula combining arginine with phosphorus to deliver stable, slow nutrient release around the seed or root zone.

The Arginex
advantage.

More crop per unit of nitrogen

Healthier soils and microbial life

Lasting impact with less leaching

Why Arginex
stands apart.

Mineral nitrogen is cheap to make and costly to use. Compost is kind to soil but hard to predict. Arginex is the only one that’s both – precise like a mineral, alive to the soil like an organic.

Featureinorganic:
MINERAL NITROGEN
Complex organic:
compost & manure-based fertilizer
Arginex:
L-arginine based nutrition
Precise, predictable performanceYesVariableYes
Well-defined compositionYesVariableYes
Fast, reliable plant uptakeYesVariableYes
Low environmental impactNot providedYesYes
Stimulates root growthNot providedYesYes
Supports beneficial soil microbesNot providedYesYes
Low energy cost to the plantNot providedVariableYes
Brings carbon, not just nitrogenNot providedVariableYes
Stays in the root zone, resists leachingNot providedYesYes
Gentle on rootsNot providedYesYes
Releases on the plant’s scheduleNot providedVariableYes
Doubles as stored nitrogenNot providedVariableYes
Feature
Precise, predictable performance
inorganic:MINERAL NITROGEN
Yes
Complex organic:compost & manure-based fertilizer
Variable
Arginex:
L-arginine based nutrition
Yes
Well-defined composition
inorganic:MINERAL NITROGEN
Yes
Complex organic:compost & manure-based fertilizer
Variable
Arginex:
L-arginine based nutrition
Yes
Fast, reliable plant uptake
inorganic:MINERAL NITROGEN
Yes
Complex organic:compost & manure-based fertilizer
Variable
Arginex:
L-arginine based nutrition
Yes
Low environmental impact
inorganic:MINERAL NITROGEN
Not provided
Complex organic:compost & manure-based fertilizer
Yes
Arginex:
L-arginine based nutrition
Yes
Stimulates root growth
inorganic:MINERAL NITROGEN
Not provided
Complex organic:compost & manure-based fertilizer
Yes
Arginex:
L-arginine based nutrition
Yes
Supports beneficial soil microbes
inorganic:MINERAL NITROGEN
Not provided
Complex organic:compost & manure-based fertilizer
Yes
Arginex:
L-arginine based nutrition
Yes
Low energy cost to the plant
inorganic:MINERAL NITROGEN
Not provided
Complex organic:compost & manure-based fertilizer
Variable
Arginex:
L-arginine based nutrition
Yes
Brings carbon, not just nitrogen
inorganic:MINERAL NITROGEN
Not provided
Complex organic:compost & manure-based fertilizer
Variable
Arginex:
L-arginine based nutrition
Yes
Stays in the root zone, resists leaching
inorganic:MINERAL NITROGEN
Not provided
Complex organic:compost & manure-based fertilizer
Yes
Arginex:
L-arginine based nutrition
Yes
Gentle on roots
inorganic:MINERAL NITROGEN
Not provided
Complex organic:compost & manure-based fertilizer
Yes
Arginex:
L-arginine based nutrition
Yes
Releases on the plant's schedule
inorganic:MINERAL NITROGEN
Not provided
Complex organic:compost & manure-based fertilizer
Variable
Arginex:
L-arginine based nutrition
Yes
Doubles as stored nitrogen
inorganic:MINERAL NITROGEN
Not provided
Complex organic:compost & manure-based fertilizer
Variable
Arginex:
L-arginine based nutrition
Yes

FAQs

Questions?
Answered.

What is arginine?

  • Arginine is an amino acid – one of the building blocks of proteins.
  • It is the most nitrogen-rich amino acid in nature (four nitrogen atoms per molecule).
  • In plants, arginine is used as a storage and transport form of nitrogen, and as a direct nitrogen source when present in soils.

Why does arginine have these effects?

(Evolutionary perspective – the selective value of the arginine response)

  • Efficient nitrogen storage and transport: Plants evolved to use arginine as a storage compound to buffer against seasonal fluctuations in nutrient supply and as a transport compound to efficiently transport nitrogen within the plant.
  • Nutrient alignment with soil reality: Boreal and forest soils are dominated by organic nitrogen, including amino acids. Plants that can use arginine directly are better adapted to these conditions.
  • Microbial partnerships: Arginine supports beneficial fungi and bacteria, improving access to water and nutrients.
  • Stress resilience: Plants that can utilize arginine as a long-term nitrogen store are more resilient in nutrient-poor ecosystems.
  • Root growth stimulation: Arginine is largely immobile in soils and hence plants that grow more roots and more root hairs, increasing the root surface area for nutrient and water uptake prevail.

Selective value: Plants that can use arginine efficiently gain a survival advantage in nutrient-limited environments.

How does arginine give these effects?

(Mechanisms)

  • Direct uptake: Roots absorb intact arginine via amino acid transporters, amino acid permeases (AAP´s; in particular AAP5).
  • Soil retention: Unlike nitrate, arginine binds to soil particles, preventing leaching and keeping nitrogen in soil.
  • Microbial attraction: Arginine draws in and nourishes mycorrhizal fungi and symbiotic bacteria such as Rhizobium, strengthening symbiotic nitrogen supply.
  • Nutrient complexation: In formulations such as arginine-phosphate and arginine–iron–hexametaphosphate, arginine forms a slow-release nutrient matrix, synchronizing supply with uptake.

Why arginine persists in soil as a long-term nitrogen source

  • Positive charge: Arginine is cationic at normal soil pH, so it sticks to negatively charged soil particles. It’s strong binding – adsorption to peat and organic matter reduces mobility compared to nitrate.
  • Low diffusion: Arginine moves slowly in soils, staying where applied rather than washing away.
  • Accumulation and slow release: Bound arginine can be dissolved over time, releasing nitrogen gradually.

Result: Arginine acts as a stable, rechargeable nitrogen battery in soils.

Why do plants prefer arginine over ammonium or nitrate?

  • Energy cost of uptake: Nitrate (NO₃⁻) must first be reduced to nitrite (NO₂⁻) and then to ammonium (NH₄⁺) before assimilation. These reduction steps consume large amounts of energy (in the form of NADH and ATP).
  • Ammonium toxicity: While ammonium can be taken up directly, high levels are toxic to roots and disrupt pH balance.
  • Arginine advantage: Arginine provides ready-made reduced nitrogen in an organic form, bypassing the costly nitrate reduction steps and avoiding ammonium toxicity.
  • Carbon bonus: Unlike nitrate or ammonium, arginine also supplies carbon skeletons, improving energy efficiency of assimilation.

In biological terms, arginine is a low-cost, high-value nitrogen source that saves plants metabolic energy and supports growth more efficiently than nitrate or ammonium.

How is arginine better than ammonium or nitrate?

  • Compared to ammonium: Arginine is more stable, less prone to volatilization, and safer for roots. It also doubles as a nitrogen storage form, unlike ammonium.
  • Compared to nitrate: Arginine avoids costly reduction steps and leaching losses. It remains bound in soils, reducing nitrogen runoff and increasing long-term nitrogen availability.
  • Overall advantage: Arginine combines stability, energy efficiency, and plant preference, making it superior to both ammonia and nitrate for sustainable plant nutrition.

How is an amino acid-based biostimulant different from an arginine–phosphate biostimulant (Arginex)?

  • Amino acid biostimulants: Most commercial amino acid biostimulants provide a variable blend of amino acids, including arginine, that can stimulate growth but are often released quickly and complex mixtures contain both beneficial amino acids and amino acids that have negative effects on plant growth.
  • Arginine–phosphate (Arginex): Single-compound formula combining arginine with phosphate (and in some formulations, iron), forming a high purity, stable complex that provides controlled, long-lasting release of nutrients around the seed or in the root zone.
  • Key difference: Arginine phosphate is a stable formulation, well-defined single-compound formula with constituents that only have positive effects on plants, while complex mixtures contain compounds with both negative and positive effects.Because it’s a well-defined formula, we can ensure the same outcome is produced in every batch even in large scale production.

Why is arginine from bacterial fermentation (Arginex) different from protein hydrolysates?

  • Protein hydrolysates: Most amino acid biostimulants are produced by breaking down animal by-products. This process yields a mixture of amino acids and peptides, often inconsistent in purity and composition.
  • Bacterial fermentation (used in Arginex): Uses microbes fed to produce pure arginine. This method ensures:
    • High purity and consistency.
    • Minimal risk of contaminants (heavy metals, pathogens).
    • Controlled and scalable production.
  • Key difference: Hydrolysates are complex, variable mixtures, while fermentation delivers targeted, pure arginine optimized for plant nutrition.

How is arginine as a compound different from arginine phosphate?

  • Arginine (free form): A single amino acid, highly nitrogen-rich, taken up directly by plants and microbes. It is mobile in living tissues but binds to soil particles.
  • Arginine phosphate (complex form): A chemical complex of arginine with phosphate. This pairing creates a slow-release nutrient matrix, keeping both nitrogen and phosphorus available over longer periods.
  • Implication: Arginine provides the nitrogen, while arginine phosphate delivers balanced, multi-nutrient support with improved stability.

Ingredient partnerships

Your product,
powered by Arginex.

Integrate Arginex into your formulation to boost performance without disrupting your range.

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