BIO2 - natural bio-mass + microbial bio-control agent solutions for replacement of input in organic farming

Projektleitung: Bettina Eichler-Löbermann

Förderung: EU

Kooperation:

Zeitraum:

Einordung:
Institut: Professur Pflanzenbau

Projektbeschreibung:
BIO2 aims to transform organic farming (OF) by replacing contentious inputs with sustainable alternatives through innovative R&D.
The main innovations are: (i) combining marine materials (fish discards and seaweed byproducts), microorganisms, and recycled
sewage nutrients to create fertilizers tailored for OF; (ii) encapsulating biocontrol agents (e.g., yeast and bacteria) in biogenic
materials to enhance their efficacy in protecting crops from diseases; (iii) developing processes for manufacturing microalgal-based
agricultural fungicides; and (iv) producing immunostimulants and bark extracts with antiparasitic properties.
To facilitate the integration of BIO2 solutions into OF and make them viable for farmers, we will scale up production processes and
provide sufficient materials for testing in agronomic and animal trials from the project's early stages. The efficacy of these products
will be studied and compared with contentious inputs, such as copper- and sulfur-based fungicides, mineral oils, manure from
conventional farming, and synthetic antibiotics.

BIO2 will prioritize sustainability assessments and actively engage stakeholders (industries, the OF sector, farmers transitioning to OF,
and consumers) to develop products that are both environmentally friendly and accepted by end users. Potential barriers, such as raw
material quality and availability, product costs, farmers’ acceptance, and regulatory challenges, will be addressed by diversifying
material sources and involving key actors. By leveraging advanced technologies and interdisciplinary collaboration, BIO2 will deliver
tangible outcomes, including the industrial production of at least 1 biocontrol agent, 2 fertilizers, and 1 antiparasitic treatment.
Through its comprehensive approach, BIO2 not only addresses current limitations in OF but also contributes to broader sustainability
goals by reducing environmental impacts and promoting a circular economy.

Bearbeiter: Jakob Tornier

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