Build Your Own Johnson-Su Bioreactor
Join us on October 19th for an exclusive opportunity to attend the NPARA Build Your Own Johnson-Su Bio-Reactor Workshop and Tour a commercial vermicompost operation.
During the morning session, you will learn about the revolutionary Johnson-Su Bioreactor and participate in building your own, with all necessary materials provided to you upon registration.
Afterwards, we will break for a delicious lunch, followed by a visit to a thriving vermicompost operation in the North Peace Region. Learn about the countless benefits of vermicomposting in agriculture and observe a commercial operation in action.
Don’t miss out on this unique chance to expand your knowledge in sustainable agriculture and network with like-minded individuals. Register by October 10th to secure a spot and ensure we have enough materials for you to build your Johnson-Su Bio-Reactor.
To register, simply fill out the form below or contact us at 780-836-0641 or
Read more here to learn about the benefits of the Johnson-Su reactor and materials needed to build one.
The Johnson-Su bioreactor is a composting system that is increasingly being used in agriculture due to its many benefits. Here are some of the benefits of the Johnson-Su bioreactor:
Improved soil health: Compost from the Johnson-Su bioreactor has been shown to significantly improve soil health by increasing soil organic matter, soil pH, and soil fertility. The compost also contains beneficial microorganisms that can help suppress plant diseases and improve plant growth.
Increased crop yields: The use of compost from the Johnson-Su bioreactor has also been shown to increase crop yields. In one study, tomato plants grown in soil amended with Johnson-Su bioreactor compost produced 30% more fruit than plants grown in unamended soil.
Reduced water use: The use of compost from the Johnson-Su bioreactor has been shown to reduce the amount of water needed. In cases for irrigation, the compost could potentially saving water resources by up to 40%.
Carbon sequestration: The Johnson-Su bioreactor compost has been shown to be an effective method for carbon sequestration. Biologically diverse, fungal-dominated compost produced by the Johnson-Su bioreactor can help sequester large amounts of carbon in the soil, which can help mitigate climate change.
Overall, the Johnson-Su bioreactor is a versatile composting system that offers many benefits for sustainable agriculture. Its ability to improve soil health, increase crop yields, reduce water use, and sequester carbon makes it a valuable tool for farmers looking to improve the health of their soils and crops.
Vermicompost has several benefits in agriculture. Here are some key benefits:
Improves soil fertility: Vermicompost acts as a biofertilizer and enhances soil fertility over the long term. It restores soil nutrients, stabilizes the soil structure, and increases soil organic matter.
Increases nutrient availability: Vermicompost has a higher nutrient content compared to other organic fertilizers. It contains essential nutrients such as nitrogen, phosphorus, potassium, and micronutrients required for optimum crop performance.
Enhances plant growth and yields: Using vermicompost in agriculture has been found to accelerate plant growth and increase crop yields. It creates a favorable environment for beneficial microorganisms, improves soil structure, and promotes plant secretion, resulting in better overall plant health and productivity.
Contributes to sustainable agriculture: Vermicomposting is a sustainable practice that helps recycle waste materials. It converts organic waste into valuable vermicompost, reducing the reliance on chemical fertilizers and minimizing environmental pollution.
Improves soil health: Vermicompost enhances soil biological properties by promoting the growth of beneficial soil microorganisms. It also improves soil structure, water-holding capacity, and nutrient retention, leading to healthier soils.
These benefits highlight the importance of vermicompost in agriculture for improving soil fertility, nutrient availability, plant growth, and overall sustainability.
