Turbulence observations have been limited because of difficulty in microstructure measurements. In order to efficiently obtain more turbulence data down to the ocean floor without spending extra ship-time, we introduce a new method using a fast response thermistor attached to a CTD frame. Turbulence intensity from CTD-attached profilers is evaluated by comparing it with free-fall vertical microstructure profilers measured at the same location within 2 hours. Turbulence intensity from the CTD-attached profilers is roughly comparable with the one from the free-fall profilers. Whereas, excessively overestimated data are sometimes observed for the CTD-attached method, and regarded to be abnormal since those data are deviated from log-normal distributions and correspond to the small fall rate W (W < 0.5 m/s) and the large standard deviation of W (W_sd > 0.1 m/s). Temperature gradient spectra also tend to be disturbed in that case. The overestimated data are capable to be removed by the simple criterion of W_sd/W > 0.2. As a result of the data screening, thermal and energy dissipation, χ and ε, from CTD-attached and free-fall profilers are consistent within the factor of 3 in the range of 10^-10 < χ[℃²/s] (ε[W/kg]) < 10^-7 (10^-8) for 50m-bin averaged data, respectively. Observations using CTD-attached profilers are performed covering a wide range of the northwest Pacific Ocean, and turbulence distribution from the surface to the deep ocean is estimated.