Paper LXXI established that the ν = −1 auxetic Fano brane retains the imprint of past cosmological events far longer than a conventional elastic medium. We now focus on a specic and important consequence: the CMB acoustic oscillations the standing waves of the photon-baryon plasma are not merely oscillations in a uid that happen to propagate through neutral spacetime. In the brane-bulk frame- work, the acoustic waves are standing wave modes of the Fano brane fabric itself ; the photon-baryon plasma is the tracer, not the carrier. The brane fabric, being auxetic with ν = −1, is the medium in which the acoustic energy is stored. This reidentication has ve consequences that are derived and quantied here. (1) Silk damping is sup- pressed. Standard Silk damping arises from photon diusion transferring energy from acoustic modes into transverse (random) modes. In the auxetic brane, the transverse modes reinforce rather than drain the acoustic mode. The eective Silk damping factor becomes: Dauxetic n = exp(−n2π2σ2 D |1 + νeff|/r2 s), with |1 + νeff| ≈αs(ΛQCD)/π ≈0.038 at the Silk scale. BAO peaks at harmonic n ≥4 are suppressed by a factor of ∼n2 less than in ΛCDM, with a peak amplitude at n = 10 of ∼4.9× the standard prediction. (2) The photon-baryon plasma rides the brane wave. The acoustic oscillation speed, restoring force, and damping time are set by the brane fabric (spring constant k = m2 H = v2/4 from Paper LXX), not by the photon pressure alone. The brane restoring force is larger than the photon pressure gradient and sets the true acoustic oscillation frequency. (3) The brane acoustic wave persists past recombination. When photons decouple at recombination, the photon-baryon uid ceases to oscillate acoustically. But the brane fabric, being auxetic, continues to carry the acoustic stand- ing wave. Dark matter which in the framework traces the brane fabric (Paper LVI) therefore continues to oscillate at the acoustic scale post-recombination. This drives the BAO imprint in the galaxy distribution not as a frozen relic but as an ongoing brane wave. (4) BAO harmonics at rs/n are enhanced. In the standard picture, only the fundamental BAO scale rs ≈147 Mpc is cleanly detectable; higher harmonics at rs/2 ≈73.5 Mpc, rs/3 ≈49 Mpc are suppressed by Silk damping. In the auxetic brane, all harmonics are retained at nearly full amplitude, making BAO harmonics at rs/2 and rs/3 detectable in the galaxy power spectrum at the level accessible to DESI, Euclid, and the...Part of the One-Octonion Brane-Bulk Framework series. Anchor DOI: 10.5281/zenodo.19120873. Community: one-octonion-brane-bulk. Author: Bharathi Dasan Jagadeesan, M.D., University of Minnesota. ORCID: 0000-0002-1143-941X.