The ionization energy loss distributions (spectra) of high-energy protons in oriented silicon crystals are considered on the basis of computer simulation. Evolution of the spectra with the change of the angle $$\theta $$
θ
between the particle momentum and the crystal (110) plane is investigated. It is shown that both the most probable and the average energy loss change non-monotonically with the increase of $$\theta $$
θ
. While at small $$\theta $$
θ
these losses are lower than their values in a disoriented crystal, at larger $$\theta $$
θ
they can be higher than these values. The dependence of the most probable energy loss on $$\theta $$
θ
contains a discontinuity, which however might be challenging to register experimentally. Additionally, the influence of dechanneling and the incident beam divergence on the spectra of planar channeled protons is demonstrated.