Biological Frequency Optimisation: Universal Prime Harmonics in Natural Systems

This paper analyses biological oscillation frequencies through the Temporal Dynamics Framework. Computational analysis of 12 biological oscillation frequencies shows mean deviation of 0. 09% from the nearest primorial harmonic (p < 10^-115). The bee wingbeat frequency of 230 Hz is exactly K = 41 octaves below visible sunlight at 505. 8 THz. Seven pollinator species tested show wingbeat frequencies 2. 5 times closer to primorial harmonics than random expectation. The paper observes that K + 96 = 137, approximately equal to the inverse of the fine structure constant alpha, suggesting a connection to fundamental physics. The framework provides testable predictions: biological frequencies should cluster around primorial harmonics while artificial GHz frequencies show large deviations. Paper 7 in the Temporal Dynamics Framework Research Series.