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.

Agricultural productivity worldwide faces significant challenges due to potassium deficiency, despite soils containing substantial reserves of total potassium. Approximately 90-98% of soil potassium exists in insoluble forms that plants cannot directly absorb, creating a critical limitation in crop nutrition. Conventional agriculture depends heavily on synthetic potassium fertilizers to address this deficiency, but these fertilizers are expensive, environmentally problematic, and derived from finite potash reserves concentrated in only a few geographical regions. The excessive use of potassium fertilizers contributes to soil salinity, nutrient imbalances, and environ

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.

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

Livestock production faces increasing pressure to reduce its environmental footprint while maintaining productivity. Methane and ammonia emissions from animal agriculture contribute significantly to greenhouse gas production and environmental pollution. The livestock sector accounts for approximately 14.5% of global greenhouse gas emissions, with methane representing the largest component. Simultaneously, ammonia emissions from livestock operations contribute to air quality degradation and eutrophication of water bodies. Probiotics have emerged as a promising biotechnological solution that addresses these environmental concerns while improving animal perfor

A Success Story of Wheat Cultivation Produced without using pesticides at all – yields reached up to 50 ardab per feddan!! This successful trial was conducted under the scientific supervision of “Royal Green Biotech”.