A detailed study of the magnetic ordering effects on the Raman spectra of t
he ferromagnetic superconductor RuSr2GdCu2O8 is presented. As the temperatu
re is lowered, additional phonon peaks are observed and assigned to folded
phonons rendered active by the doubling of the unit cell consequent with ro
tations of the RuO6 octahedra. The intensity of these modes strengthens ver
y rapidly as the sample is cooled below the Curie temperature, evidencing t
he importance of spin-dependent phonon Raman scattering in this material. I
n addition, all phonon fines display either an "anomalous" softening or har
dening below Tc, also indicative of a strong spin-phonon interaction, Most
interestingly, a different low energy peak which is nor seen in the related
ferromagnet SrRuO3 develops and shifts to higher energies below Tc. A tent
ative explanation is proposed in that this latter feature reflects the two-
dimensional density of RuO2-layer magnon states, observable by Rarnan scatt
ering through an "exchange-scattering" mechanism that involves the Gd3+ par
amagnetic spins. This conclusion and some of the phonon peak assignments ar
e partly supported by complementary measurements on a RuSr2EuCu2O8 sample w
here Gd3+(S=7/2) has been fully replaced by the J=0 ground-state Eu3+ ion.