Electromagnetic Resonance as Universal Species Identity: Extending Bioresonant Species Theory Across All Domains of Life

Abstract

This paper presents Bioresonant Species Theory (BST) as a universal framework for species identity, extending from multicellular organisms to microbes. BST defines species as communities unified by stable electromagnetic (EM) resonance bands ignited at fertilization or cellular division. In multicellular organisms, gametes synchronize through resonance; in single-celled species such as bacteria, resonance coherence underlies communication and coordination, analogous to sperm-ovum interactions. This framework explains reproductive isolation, microbial quorum sensing, and biodiversity as outcomes of resonance compatibility or incompatibility.

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