MICROBIAL RESPONSES TO LOW-FREQUENCY ELECTROMAGNETIC ENVIRONMENTS: A DETAILED INVESTIGATION

Abstract

Modern agriculture faces a formidable challenge: the development of sustainable systems that can yield sufficient high-quality food and fiber while minimizing environmental impact. The conventional approach to agriculture, reliant on synthetic molecules for weed, pest, and disease control, is not a sustainable solution. Sustainable production necessitates a holistic approach. Synthetic molecules, whether pesticides or mineral fertilizers, disrupt the delicate balance of chemical, physical, microbiological, and energetic elements within agrosystems, adversely affecting all life forms. Nature, with its inherent resilience, attempts to restore equilibrium, but repeated interventions make it increasingly difficult to return to the original state. This study advocates for a paradigm shift in agriculture, wherein technological innovations and novel products play a pivotal role in creating sustainable production systems. These innovations offer a viable path for farmers seeking to maintain or increase crop productivity while minimizing the ecological footprint. By embracing forward-looking solutions, agriculture can move closer to the elusive goal of sustainability