What you call "duality" (that for two commuting actions under reasonable conditions ergodic properties of either action on the space of orbits of the other one are the same) goes back to the work of Furstenberg in the 60s. This idea is especially useful when dealing with the so called "geometric flows": the horocycle and the geodesic ones. However, usually one goes in the direction opposite to the one you mention, namely first studies the action on the space of $\Gamma$-orbits and then deduces the corresponding properties of geometric flows.
You are referring to the situation with the horocycle flow: its ergodicity on the quotient of the hyperbolic plane $\mathbf H^2$ by a discrete subgroup $\Gamma$ is equivalent to ergodicity of the action of $\Gamma$ on the space of horocycles in $\mathbf H^2$ (the latter one being isomorphic to the linear action of $\Gamma$ on $\mathbb R^2\setminus\{0\}$). In the case of the geodesic flow the space of its orbits, i.e., the space of geodesics in the hyperbolic plane, is isomorphic to the square of the boundary circle with removed diagonal $\partial\mathbf H^2\times\partial\mathbf H^2\setminus \text{diag}$. In particular, invariant measures of the geodesic flow are in natural one-to-one correspondence with the so-called geodesic currents, i.e., invariant Radon measures on $\partial\mathbf H^2\times\partial\mathbf H^2\setminus \text{diag}$.
For geodesic flows the case of "big" surfaces and manifolds (with infinite volume) was being considered from the very beginning of the theory in the 30s (and in the constant curvature case finalized in the so-called Hopf-Tsuji-Sullivan theorem in the late 70s), whereas for the horocycle flow it wasn't really considered (and settled) until the late 90s. For the complete picture see the works of Babillot - Ledrappier MR1699356, Kaimanovich MR1738739, MR1919405, MR2731695, Pollicott MR1739598, Coudene MR1836430 , Solomyak MR1860491, Ledrappier MR1871151, Hamenstadt MR1926280, Ledrappier - Pollicott MR1953296, Babillot MR2087786, Ledrappier - Sarig MR2226490, Sarig MR2827866.