The transport of 222Rn from fractured rock has been studied in an abandoned mine. Pressure-induced flow (both natural and artificial) is quite important and can easily cause an order of magnitude increase in the instantaneous transport of radon into the tunnel airspace compared to that due to flow-free diffusion. Permeability studies indicate that large-scale cracks of surface density of the order of several cracks per square meter dominate flow. In first order, effective flux due to natural pressure variation follows and approximate dP/dt dependence. In higher order, there exists an enhancement of time-averaged flux by typically a factor of 2 due to natural pressure variation. Mathematical modeling indicates that the relation between pressure and the strength and time dependence of the radon transport is difficult to explain solely with conventional models for semi-infinite homogeneous porous media. A model of cul-de-sac chambers is proposed to account for some of this dependence.