Species Identity in Bioresonant Species Theory: Electromagnetic Resonance as the Boundary of Life

Abstract

This paper defines species within the framework of Bioresonant Species Theory (BST), a physicalist model proposing that each species is characterized by a unique electromagnetic (EM) resonance signature. Unlike genetic or morphological definitions, BST emphasizes resonance coherence as the determinant of species identity. It further explains why different species exist: resonance incompatibility prevents cross-species reproduction, ensuring biodiversity and ecological coherence. Closely related species, such as primates, exhibit near-adjacent resonance bands, accounting for their morphological and behavioral similarities while maintaining reproductive isolation. By grounding species identity in measurable EM phenomena such as biophotonics, zinc sparks, and biofield emissions, BST offers a testable alternative to gene-centric models and speculative morphic resonance.

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