COMPARISON OF RADIOPHYSICAL AND OPTICAL INFRARED GROUND-BASED METHODS FOR MEASURING INTEGRATED CONTENT OF ATMOSPHERIC WATER VAPOR IN ATMOSPHERE

摘要

By virtue of their all-weather capabilities, the radiophysical atmospheric sensing methods allow one, in particular, to perform continuous observations of variations in the atmospheric content of water vapor being the most important natural greenhouse gas. The measurement station of St. Petersburg State University at Peterhof (59.88A degrees N, 29.83A degrees E) runs a number of ground-based instruments to determine total water-vapor content (TWVC) in the atmosphere. During a year period from September 2014 to September 2015, the TWVC was synchronously measured by two radiophysical methods, namely, the microwave and radio-refraction techniques, as well as the optical infrared method. Comparisons show that the average systematic and random discrepancies among the three methods amount to 0.3-0.5 kg/m(2) (3-7%) and 0.4-0.6 kg/m(2) (8-11%), respectively. The maximum relative differences (up to 20%) among the results of different-type measurements are observed for very small TWVC values (below 5 kg/m(2)). Empirical estimates of the random errors of the methods were 0.5, 0.3, and 0.3 kg/m(2) for the radio-refraction, microwave, and infrared methods, respectively. The results of the TWVC measuring by the radio-refraction and microwave methods are in good agreement and yield greater values than those obtained by the optical method. The obtained discrepancies in the TWVC estimates are small compared with the published results of similar comparisons, which can, in particular, be attributed to the high spatiotemporal matching of various measurements.