We detail a novel theoretical prediction that a geometric torsion model for scalar field dark matter could lead to oscillations, on readily probeable timescales, in the time evolution of cosmological redshifts of astronomical sources with qualitatively distinct behavior at different redshift scales (larger or smaller than z ~ 0.1). We present an analysis of extant spectroscopy data from the Australian Dark Energy Survey (OzDES) to assess whether such signals are present across a wide array of cosmological sources and baseline redshifts on the six-year timescale of OzDES. While a simple Fourier analysis of redshift variations weakly identifies some candidate frequencies, and so further investigation with future cosmological data sets may be warranted, we have not found compelling empirical evidence for the theory under consideration in this data set, placing tentative constraints on its free parameters.
Comment: 18 pages; 5 figures