The effective actions of massless scalar and spin-1/2 fields are determined
as functions of the deformation of a symmetrically squashed 3-sphere. The
extreme oblate case is particularly examined as pertinent to a high-tempera
ture statislical-mechanical interpretation that may be relevant for the hol
ographic principle. Interpreting the squashing parameter as a temperature,
we find that the effective 'free energies' on the 3-sphere are mixtures of
thermal 2-sphere scalars and spinors which, in the case of the spinor on th
e 3-sphere, have the 'wrong' thermal periodicities. However, the free energ
ies do have the same leading high-temperature forms as the standard free en
ergies on the 2-sphere. The next few terms in the high-temperature series a
re also evaluated and briefly compared with the Taub-Bolt-AdS bulk result.