A terrestrial reference frame (TRF) is estimated from space-geodetic station-position data sets that are several decades long. The primary model upon which the data are combined has been the linear motion due mostly to plate tectonics and post-glacial rebound. In recent TRF realizations such as ITRF2014 and JTRF2014, models of local motions are introduced to improve the estimation accuracy. These additional models include post-seismic displacements as well as annual, semi-annual, and random ground deformations due to atmospheric loading and ground water storage loading. Although such motions are often regionally correlated, the models of these ground deformations are formulated to be strictly local in space at present. In this presentation, we present our approach to include spatial correlation in the context of the stochastic motion model of geodetic station positions used in the JTRF2014 realization. In particular, we focus on the use of time-varying gravity data from the GRACE mission to globally determine spatial correlations in seasonal ground deformation. We will incorporate the data-driven correlations in the stochastic model and then examine effects of the spatial correlations on the TRF estimates. We note that the GRACE data do not directly enter in the TRF (station position) estimates; instead, the spatial correlations estimated from GRACE data will be used as parameters of the stochastic model used in TRF estimation.