Effluent range

Cobiotex technology for better valorization of livestock effluent

Can be used in organic farming (in accordance with current European regulations)

-20% release of ammonia
on average

  • Improve the fertilising value of slurry and manure by increasing the protein nitrogen content
  • Increase nitrogen restitution and improve crop efficiency

Goals

Cobiotex technology for the treatment of livestock effluent is based on a key principle: control effluent fermentation (slurry, manure, etc.) using a specific bacterial complex. Our multi-strains combination acts directly on the microbial populations present. It improves liquid and solid effluent management by positively orienting beneficial endogenous flora.

How does Cobiotex technology work?
Bacterial strains from Cobiotex technology colonize the environment and compete with endogenous flora, some of which are responsible for unpleasant odors and harmful gases such as ammonia (NH3) and hydrogen sulfide (H2S). Cobiotex strains will therefore limit the development of harmful flora. Thanks to their metabolism, Cobiotex bacteria fix and transform ammoniacal nitrogen into organic nitrogen, thus improving the transformation of organic matter.

-20% release of ammonia
on average

  • Improve the fertilising value of slurry and manure by increasing the protein nitrogen content
  • Increase nitrogen restitution and improve crop efficiency

Goals

Cobiotex technology for the treatment of livestock effluent is based on a key principle: control effluent fermentation (slurry, manure, etc.) using a specific bacterial complex. Our multi-strains combination acts directly on the microbial populations present. It improves liquid and solid effluent management by positively orienting beneficial endogenous flora.

How does Cobiotex technology work?
Bacterial strains from Cobiotex technology colonize the environment and compete with endogenous flora, some of which are responsible for unpleasant odors and harmful gases such as ammonia (NH3) and hydrogen sulfide (H2S). Cobiotex strains will therefore limit the development of harmful flora. Thanks to their metabolism, Cobiotex bacteria fix and transform ammoniacal nitrogen into organic nitrogen, thus improving the transformation of organic matter.

-20% release of ammonia
on average

  • Improve the fertilising value of slurry and manure by increasing the protein nitrogen content
  • Increase nitrogen restitution and improve crop efficiency

Goals

Cobiotex technology for the treatment of livestock effluent is based on a key principle: control effluent fermentation (slurry, manure, etc.) using a specific bacterial complex. Our multi-strains combination acts directly on the microbial populations present. It improves liquid and solid effluent management by positively orienting beneficial endogenous flora.

How does Cobiotex technology work?
Bacterial strains from Cobiotex technology colonize the environment and compete with endogenous flora, some of which are responsible for unpleasant odors and harmful gases such as ammonia (NH3) and hydrogen sulfide (H2S). Cobiotex strains will therefore limit the development of harmful flora. Thanks to their metabolism, Cobiotex bacteria fix and transform ammoniacal nitrogen into organic nitrogen, thus improving the transformation of organic matter.

-20% release of ammonia
on average

  • Improve the fertilising value of slurry and manure by increasing the protein nitrogen content
  • Increase nitrogen restitution and improve crop efficiency

Goals

Cobiotex technology for the treatment of livestock effluent is based on a key principle: control effluent fermentation (slurry, manure, etc.) using a specific bacterial complex. Our multi-strains combination acts directly on the microbial populations present. It improves liquid and solid effluent management by positively orienting beneficial endogenous flora.

How does Cobiotex technology work?
Bacterial strains from Cobiotex technology colonize the environment and compete with endogenous flora, some of which are responsible for unpleasant odors and harmful gases such as ammonia (NH3) and hydrogen sulfide (H2S). Cobiotex strains will therefore limit the development of harmful flora. Thanks to their metabolism, Cobiotex bacteria fix and transform ammoniacal nitrogen into organic nitrogen, thus improving the stabilization of organic matter.

-20% release of ammonia
on average

  • Improve the fertilising value of slurry and manure by increasing the protein nitrogen content
  • Increase nitrogen restitution and improve crop efficiency

Goals

Cobiotex technology for the treatment of livestock effluent is based on a key principle: control effluent fermentation (slurry, manure, etc.) using a specific bacterial complex. Our multi-strains combination acts directly on the microbial populations present. It improves liquid and solid effluent management by positively orienting beneficial endogenous flora.

How does Cobiotex technology work?
Bacterial strains from Cobiotex technology colonize the environment and compete with endogenous flora, some of which are responsible for unpleasant odors and harmful gases such as ammonia (NH3) and hydrogen sulfide (H2S). Cobiotex strains will therefore limit the development of harmful flora. Thanks to their metabolism, Cobiotex bacteria fix and transform ammoniacal nitrogen into organic nitrogen, thus improving the transformation of organic matter.

-20% release of ammonia
on average

  • Improve the fertilising value of slurry and manure by increasing the protein nitrogen content
  • Increase nitrogen restitution and improve crop efficiency

Goals

Cobiotex technology for the treatment of livestock effluent is based on a key principle: control effluent fermentation (slurry, manure, etc.) using a specific bacterial complex. Our multi-strains combination acts directly on the microbial populations present. It improves liquid and solid effluent management by positively orienting beneficial endogenous flora.

How does Cobiotex technology work?
Bacterial strains from Cobiotex technology colonize the environment and compete with endogenous flora, some of which are responsible for unpleasant odors and harmful gases such as ammonia (NH3) and hydrogen sulfide (H2S). Cobiotex strains will therefore limit the development of harmful flora. Thanks to their metabolism, Cobiotex bacteria fix and transform ammoniacal nitrogen into organic nitrogen, thus improving the transformation of organic matter.

Two application modes

To adapt to the specific needs of each farm

We recommend

Powder - bag of 25kg

Bacterial complex on calcium carbonate carrier: spread directly on manure and slurry

We recommend

Soluble powder - bucket of 2kg

Concentrated solution for dilution and spraying: bacterial complex on nutrient starter for optimal seeding

Answers to your questions

Can Cobiotex CPF and Cobiotex Take'N be used for all types of livestock effluent treatment (manure, slurry, etc.)?

Dietaxion's effluent range products are suitable for treating all types of livestock effluent with the precondition that the effluent does not contain antibacterial biocidal products (or only in low concentrations). The bacteria of Cobiotex technology, which are essential for optimum effluent stabilization, could be inhibited in their development and colonization, thereby compromising the effectiveness of the treatment process.

How do Cobiotex CPF and Cobiotex Take'N products reduce odors from livestock effluents?

Livestock effluents naturally produce odours associated with the presence of molecules such as ammonia, volatile fatty acids and sulphur compounds. These emissions can be a nuisance to farmers and their neighbours and have an impact on the environment.

Our products contain a specific multi-strain bacterial complex. The friendly bacteria compete for space and nutrients with the flora responsible for these gas emissions. They also metabolize and degrade part of the malodorous compounds during their life cycle, effectively reducing odor nuisance and contributing to a healthier farm environment.

Are the bacteria present in Cobiotex CPF and Cobiotex Take'N resistant to the extreme conditions (temperature, pH) of livestock effluents?

The Effluents range products have been specifically developed to optimize the treatment of livestock effluents, considering their specific physico-chemical characteristics. Cobiotex technology's bacteria can grow at a wide range of temperatures and pH levels, ensuring efficiency in various environments.

As living microorganisms, the bacteria of the complex adapt their metabolic activities to environmental conditions. In the event of extreme environmental stress, their metabolism gradually slows down, leading to a state of dormancy until more favorable conditions return.

To maintain the effectiveness of Cobiotex CPF and Cobiotex Take'N on livestock effluents, do the products need to be applied regularly?

Yes, regular use of Cobiotex CPF and Cobiotex Take'N products is essential to ensure their long-term effectiveness. Without regular application, the bacterial concentration of the Cobiotex Effluent technology could decrease with the flow of fresh effluents, reducing the effectiveness of the treatment. A stable level of active bacteria must therefore be maintained in the substrate. Regular application ensures a constant presence of beneficial micro-organisms, optimizing the transformation of malodorous compounds and the stabilization of effluents.

Are Cobiotex CPF and Cobiotex Take'N products compatible with livestock manure composting systems?

Yes, Cobiotex CPF and Cobiotex Take'N products are perfectly compatible with livestock effluent composting systems, thanks to their composition based on selected micro-organisms. During the composting process, the bacteria present throughout the cycle ensure an efficient degradation of the organic matter. The specific composting conditions (temperature, humidity, and organic substrates) are favorable to the development of the bacteria in the Cobiotex technology, allowing them to interact naturally with the decomposing biomass. In this way, they optimize the stabilization of livestock manure into a stable, valuable organic amendment.