In the quest for sustainable agriculture, biofertilizers have emerged as a game-changer. These natural fertilizers harness the power of microorganisms to enhance soil fertility and plant growth, offering an eco-friendly alternative to chemical fertilizers. When applied biofertilizers to seeds, plant surfaces, or soil, colonize the rhizosphere or the interior of the plant and promote growth by increasing the supply or availability of primary nutrients to the host plant.

Greenhouses are structures designed primarily for cultivating plants that require specific environmental conditions to thrive. They are typically made of transparent materials like glass or plastic to allow sunlight to penetrate and heat the interior. The transparent walls and roof help trap heat inside, creating a warmer climate than the external environment, which is crucial for growing plants that might not cultivate in the local climate. Greenhouses represent an innovative and important method for cultivating crops within an enclosed structure that regulates environmental factors such as temperature, humidity, light exposure, and ventilation. This method has gained great importance in

Agricultural Practices in the Organic Trial Using Bio NovaPlus and Bio NovaQ Products

The impact of using biofertilizers (Bio Nova Plus and Bio Nova Q) on bean yields. A real-life success story in Berket El Sabaa, Menoufia Governorate, where yields reached 65 kg per qerat without any chemical fertilizers. Under the supervision of the Royal Green Biotech scientific team.

Egyptian clover (Trifolium alexandrinum L.), also known as berseem, represents one of the most important forage crops in Egypt and several temperate and subtropical regions. As a winter annual leguminous crop, it provides essential fresh fodder, silage, and hay for livestock while simultaneously enhancing soil fertility through biological nitrogen fixation. However, the productivity and quality of Egyptian clover face a significant threat from dodder (Cuscuta planiflora), a parasitic weed that can cause yield losses of up to 80%. This parasitic plant lacks photosynthetic capability and depends entirely on its host for survival, extracting nutrients and water through

Balance is essential to maintain and regulate our planet. Unfortunately, anthropogenic activities have disturbed this balance. Each activity humans perform have an impact on our planet, such as building, eating, heating, travelling, transportation, electricity, etc. From this perspective, our everyday activities should be evaluated and considered, in order to minimize our actions’ negative consequences. However, how can you measure or calculate the harmful effect of your activities? A simple, but effective, solution is the carbon footprint, but what does it mean and how does it work?