Mitigating climate impact through stabilized fertilizers: enhancing agricultural sustainability

Abstract

The recognition by the global scientific community that anthropogenic activities are responsible for the negative impact of climate change has led to the emergence of numerous theses and projects aimed at mitigating humanity's adverse effects on the environment. The biosphere's inherent characteristic of movement plays a significant role in the dispersion of pollutants, rendering the notion of a national ecosystem obsolete. In light of this understanding, this project focuses on the reduction of negative climate factors through the application of stabilized fertilizers with controlled nutrient release. The primary objective is to minimize the detrimental consequences of human activities on the Earth by implementing sustainable strategies. Conventional fertilizers often result in rapid nutrient release, leading to inefficiencies and environmental repercussions. This approach optimizes nutrient utilization, mitigates nutrient losses through leaching and volatilization, and reduces environmental contamination. Slow-release fertilizers, coated products, and nutrient-specific delivery systems are potential avenues for achieving this goal. Furthermore, by reducing nutrient runoff, these fertilizers contribute to preserving water quality and safeguarding aquatic ecosystems.