About Kyndra
Kyndra stands for holistic regeneration. At the heart of Kyndra is humic acid.
It is a naturally occurring molecule with multiple applications in agriculture, soil regeneration, gut health, and biochemistry.
The market for humic acid is vast, but it has been dominated by exploitative humic acid from fossil sources such as lignite until now.
Our humic acid is 100 % plant-based.
It is produced using renewable energy.
It is 97 % pure.
Humic Acid for the Soil
Up to 20% higher yields.
Farmers worldwide are struggling to maintain their topsoils. Many turn to composting to raise humic acid levels, but this takes time.
Our humic acid offers an accelerated and sustainable way to support that process. It’s not a fertiliser that forces growth, but a biostimulant that enhances natural soil functions.
Microbial Life Activation
Humic acid supports the development of a stable soil microbiome by anchoring microorganisms and preventing their leaching. It enhances microbial diversity, enzymatic activity, and nutrient cycling. In addition, its redox-active molecular structure facilitates electron flow within the soil, an essential prerequisite for microbial metabolism. Humic substances also improve the soil’s cation exchange capacity (CEC), increasing nutrient retention and biological activity.
Nutrient Retention & Availability
It binds key nutrients like nitrogen, phosphorus, and potassium, making them more bioavailable to plants' root systems and improving uptake efficiency.
Purification of Toxic Soils
Humic acid can bind and immobilise toxins, heavy metals, and pesticide residues—helping regenerate polluted soils.
Plant Resilience & Root Development
It boosts plant resilience in dry, saline, or otherwise stressful environments and stimulates root growth.
Humus Formation & Carbon Sequestration
Humic acid stabilises carbon in the soil, enhancing its role as a carbon sink and supporting the formation of long-term humus.
Humic Acid & Manure
Up to 50 % less fertiliser.
Applying fertiliser in combination with humic acid can reduce fertiliser use by up to 50%.
Humic acid attaches to nutrients like nitrogen and phosphorus, keeping them in place for plants to access and reducing run-off into ground or surface water.
Manure is commonly used as a fertiliser in farming. Humic acid can bind the nutrients in the manure, keeping them available to plants, and also reduce the odour by binding volatile ammonia emissions
A large portion of manure cannot be used as fertiliser due to overproduction and is treated as waste—despite containing valuable nutrients.
With humic acid, farmers can reduce odour and produce water-safe fertiliser themselves, and sell the surplus, benefiting from the product instead of creating waste.
Humic Acid for the Gut
Detox & Energy
Current research suggests that humic acid has a high potential to improve the gut environment.
It may detoxify the body by binding certain environmental toxins, heavy metals or other residues in the digestive tract.
It may create favourable conditions for beneficial gut bacteria, helping to maintain microbial balance.
It may contribute to the integrity of the gut lining, an essential factor in overall digestive wellbeing.
It may support anti-inflammatory responses.
It may have an inhibitory effect on certain viruses and bacteria.
While humic acid shows promise in supporting aspects of gut health, it is not intended to diagnose, treat, or cure any disease. Individual experiences may vary, and we always recommend consulting a qualified health professional when making decisions related to health or supplementation.
Humic Acid for Biochemistry
Electron Shuttle
Humic acid is stepping far beyond soil, finding its way into high-tech applications like energy storage.
What sets our humic acid apart is that it’s derived from pure, virgin plant material—not from brown coal or lignite, which have undergone thousands of years of carbonisation.
Thanks to its unique molecular structure, humic acid has electroactive properties that allow it to function as a natural electron shuttle. This makes it a promising material in the context of redox processes and bioelectrochemical systems.