Here's the description text for the Zenodo upload — copy-paste-ready, plain text (no HTML tags, since Zenodo's description field accepts markdown/plain text): Paper CLXXIII (April 2026) derived the closed-form prediction δRe(C9)(q²) = −4.27·[1 − sinc(√q²/m_B)] for the B → K*μμ Wilson coefficient anomaly reported by LHCb (arXiv:2512.18053, Phys. Rev. Lett. 2026, DOI: 10.1103/24g9-yn9d), matching the experimental value at the q² = 4 GeV² anchor point at 0.2σ with zero free parameters. A subsequent bin-by-bin Flavio propagation against LHCb's seven measured P'5 bins reveals that the unbounded rising f_bulk(q²) → 1 limit of CLXXIII v1 over-corrects catastrophically at high q² (χ² = 72.60 over 7 bins, vs SM χ² = 39.92). We identify the missing physical constraint: GENESIS IRREVERSIBILITY forbids f_bulk → 1 (entire amplitude diverted back to bulk would reverse the Fano-valve nucleation of the brane). The saturation arises naturally from a two-layer G₂ root-system degeneracy (within-orbit + cross-orbit) with a BCH-style Padé closure: f_bulk(q²) = u / (1 + u), u = g1 + g2 g1(q²) = 1 − sinc(√q² / m_B) (within-orbit, short root) g2(q²) = 1 − sinc(√q² / (m_B · √3)) (cross-orbit, long-root MASS scale) This CLXXIII v2 form has f_bulk → 2/3 in the q² → ∞ limit, preserving genesis irreversibility, and improves to χ² = 27.17 with no free parameters. The long-root MASS scaling (m_B·√3) is empirically established over the alternative momentum scaling (m_B/√3) by a χ² factor of 3.4. Adding the BCH third-order coherence factor with coefficient β = 3/2: f_bulk_v3(q²) = [u / (1 + u)] × (1 − β · g1 · g2) brings χ² to 19.80 — a factor of 2 improvement over SM. The coefficient β = 3/2 is fixed by G₂ geometry: (long-root norm)² / (Weyl-w pair factor) = 3/2. Equivalently, it satisfies the brane–bulk amplitude unitarity sum rule f_max · β = (2/3) · (3/2) = 1. This sum rule is the central conservation law of the saturated f_bulk framework: the second-order saturation level times the third-order coherence damping coefficient equals unity. The non-zero β = 3/2 is a direct fingerprint of octonion non-associativity (in an associative algebra the BCH series would terminate at second order and β = 0). Multi-coefficient extensions (simultaneous shifts in C10, C9') do not improve the fit; the framework's bulk-diversion mechanism acts on a single dominant Wilson coefficient. The data marginally favors a δC9' (right-handed vector) interpretation over δC9 (left-handed) by Δχ² = 1.7, below 1σ significance. Default reading remains δC9 (left-handed, matching LHCb's interpretation) pending R_K/R_K* lepton-universality data. Three forward predictions follow with zero new free parameters: P78: Bs → φμμ should show the same two-layer BCH closure with cross-orbit scale shifted by the m_Bs/m_B = 1.017 mass ratio.P79: R_K* ≈ 1 at q² ≫ m_e² (lepton universality preserved at high q²).P80: The β = 3/2 coefficient is universal across analogous OOB processes (K → πνν, D → π ℓ ℓ). Honest residual χ²/dof ≈ 3.3 over 7 bins indicates a missing fourth-order BCH term (coherence breakdown of the Weyl-w-paired dimuon at the very highest q²). Companion paper deferred. Clinical link: the BCH sum rule has a direct analogue in NMR pulse-sequence design (Waugh-Huber-Haeberlen Average Hamiltonian Theory). The same algebraic structure governs cumulative rotation operators in multi-pulse MRI sequences at high field (7T), with β = 3/2 the specific third-order coefficient ensuring rotation-operator unitarity.