The rf field enhancement of the 53Cr NMR in a single crystal of the uniaxial ferromagnet CrBr3 was measured, using rotary saturation, fast passage, and/or pulse turning angle techniques, in magnetic fields H0 both greater and less than the saturating field HS. With H0>HS, and H0 applied either ∥ or ⊥ to the easy direction, η exhibits the dependence on H0 expected from a domain-rotation mechanism. However, when H0<HS, the two resonances (``a'' and ``b'') observed, corresponding to nuclei belonging to Cr3+ spins oriented ∥ and ⊥ to the easy axis, respectively, have η's, intensities, rf polarizations, and H0 dependencies that are not consistent with domain rotation (for ``a'') and simple wall motion (for ``b'') enhancements. We believe that the ``a'' NMR probably arises from nuclei on the edge of the wall and the ``b'' NMR from nuclei residing in perpendicularly oriented domains (e.g., domains of closure). We demonstrate that rotary saturation measurements of η imply a distribution of maximum enhancement factors in a domain wall and that η is not strongly dependent upon the orientation of the applied rf field.