An attempt has been made, in the light of scaled factorial moment (SFM) analysis, to investigate hybrid UrQMD-hydro generated events of Au+Au collisions at 10 AGeV to realize the role of hydrodynamic evolution on observed intermittency, if any. ln < F q > values for q = 2 − 6 are found to increase with increasing values of lnM 2 indicating unambiguously the presence of intermittency in our data sample generated with both chiral and hadronic equation of state (EoS). Although various late processes like meson-meson (MM) and meson-baryon (MB) hadronic re-scattering and/or resonance decays are found to influence the intermittency index significantly, these process would not be held responsible for the observed intermittency in hybrid UrQMD-hydro data.