Bacteria, Journal Year: 2024, Volume and Issue: 3(4), P. 271 - 286
Published: Sept. 25, 2024
The need for sustainable farming practices has brought attention to biofertilizers improve soil quality and boost crop yield while minimizing environmental impacts. This study explores the potential integration of within push–pull cropping systems, an agroecological approach that utilizes companion repel attract pests. review focuses on how could optimize plant–microbe interactions, promoting nutrient uptake, pest control, health. Key biofertilizers, including nitrogen-fixing, phosphate-solubilizing, potassium-solubilizing bacteria, availability, which leads higher yields resilience. They also enhance water retention drought tolerance, are crucial under changing climate conditions. Biofertilizers support beneficial microbial communities, reducing reliance synthetic fertilizers pesticides fostering disease suppression stress tolerance in crops. Their effectiveness can be significantly increased when integrated with technology (PPT). However, challenges remain, such as inconsistent biofertilizer performance complexity interactions. Overcoming these necessitates a multidisciplinary refining production application techniques. emphasizes investigate biofertilizer-mediated plant–microbiome dynamics further unlock their full potential. It concludes future research should focus synergies between systems food security sustainability. work advances our understanding optimizing practices, particularly PPT framework.
Language: Английский