ABSTRACT: This paper presents a comprehensive and novel vision of the Modern Microbiota Revolution, in which microorganisms are transformed from passive biological elements into intelligent engineering systems capable of meaningfully improving human life. This vision leverages the biological principles of microorganisms — including their metabolic and excretory processes — and integrates them with environmentally friendly, cost-effective, and sustainable technologies applicable to fields such as construction materials, infrastructure, and modern automotive systems. Specifically, the framework proposes the development of self-healing materials and systems in paints, asphalt, and water pipes, as well as biologically inspired energy-transfer mechanisms modelled on chloroplasts. Through the integration of calcium carbonate-precipitating bacteria, biologically inspired energy-transport systems, and protective living layers in water networks and infrastructure, this research opens new horizons for designing sustainable technologies that reduce resource consumption, protect the environment, and enhance the performance and efficiency of vehicles and public utilities. Beyond the theoretical level, this paper proposes innovative application mechanisms to serve as a cornerstone for a future in which microorganisms function as practical, intelligent elements within infrastructure and modern technology, achieving a synthesis of microbial vitality, sustainability, and efficiency.
Mohammed Ibrahim Al-Saeed Issa (Wed,) studied this question.