We present the MEON-R2 v1. 21/v125 consolidated framework as an effective numerical and theoretical test construction combining R²/reservoir closure, an early-universe activation switch, spin/torsion anchoring, and the v125 baryonic torsion-activation scale. The v125 extension introduces a baryonic activation relation rₛ (M ₁₀ₑ) = r₀ (M ₁₀ₑ/M₀) ^ with 0. 3, incorporated through the additional effective term T^ bar/tors (rₛ (M bar) ) and source contribution S ₁₀ₑ (r, M ₁₀ₑ) . In the v1. 21 combination test, all 18 internal numerical gates pass, including reservoir closure, balanced dark-sector bookkeeping, stable effective torsion evolution, externally anchored spin/torsion proxies, and CMB-compatible equality within the embedded comparison data. The preferred effective comparison yields ²=0 relative to the ΛCDM baseline in the included CMB test data. Under the conditional closure scenario in which the reservoir/baryonic structure replaces one effective free parameter, the framework shows an Occam advantage with AIC=-2. 0 and BIC=-8. 58. Under a harsher parameter count in which all R² hyperparameters are treated as free, the model is instead penalized. These results should therefore be interpreted conservatively: MEON-R2 v1. 21/v125 demonstrates internal consistency and a conditional Occam advantage in the tested effective CMB-compatible limit, but it does not constitute a final disproof of ΛCDM. Remaining requirements include a full covariant action derivation, official Planck high-/lensing likelihood evaluation, and complete MCMC-based parameter inference.
Asil Karahan (Sat,) studied this question.