Biological systems - "Symphonies of Life": Reviving Friedrich Cramer's general resonance theory

Understanding biological systems in terms of scientific materialism has arguably reached a frontier, leaving fundamental questions about their complexity unanswered. In 1998, Friedrich Cramer proposed a general resonance theory as a way forward. His theory builds on the extension of the quantum physical duality of matter and wave to the macroscopic world. According to Cramer' theory, agents constituting biological systems oscillate, akin to musical soundwaves, at specific eigenfrequencies. Biological system dynamics can be described as "Symphonies of Life" emerging from the resonance (and dissonance) of eigenfrequencies within the interacting collective. His theory has potential for studying biological problems of increasing complexity in a fast-changing Anthropocene from a new and transdisciplinary angle. Despite data becoming increasingly available for analyses, Cramer's theory remains ignored and therefore untested a quarter century after its publication. This paper discusses how the theory can move to quantitative assessments and application. Cramer's general resonance theory deserves revival. Schematic of biological systems as "Symphonies of Life". Resonant and dissonant patterns are symbolized with color circle lines and shapes in gray tones, respectively. Each symbol represents an agent with specific eigenfrequencies in a biological system. Different colors symbolize distinct self-similar eigenfrequency patterns emerging from individual eigenfrequencies in the system.image