The influence of the energy of femtosecond laser pulses on the intensity of Fe I(371.99 nm) emission line and the continuous spectrum of the plasma generated on the surface of Fe~(3+)water solution by a Ti: sapphire laser radiation with pulse duration <45 fs and energies up to 7 m J is determined. A calibration curve was obtained for Fe~(3+)concentration range from 0.5 g/L to the limit of detection in water solution, and its saturation was detected for concentrations above 0.25 g/L, which is ascribed to self-absorption. The 3σ- limit of detection obtained for Fe in water solution is 2.6 mg/L in the case of 7 m J laser pulse energy. It is found that an increase of laser pulse energy insignificantly affects on LOD in the time-resolved LIBS and leads to a slight improvement of the limit of detection. The influence of the energy of femtosecond laser pulses on the intensity of Fe I (371.99 nm) emission line and the continuous spectrum of the plasma generated on the surface of Fe ~ (3+) water solution by a Ti: sapphire laser radiation with pulse A calibration curve was obtained for concentration of Fe from (3+) from 0.5 g / L to the limit of detection in water solution, and its saturation was detected for concentration above The 3σ-limit of detection obtained for Fe in water solution is 2.6 mg / L in the case of 7 m J laser pulse energy. It is found that an increase of laser pulse energy insignificantly affects on LOD in the time-resolved LIBS and leads to a slight improvement of the limit of detection.