Calendar Event Details

613 Seminar: Isaac Moradi

Affiliation: UMD-ESSIC/GMAO
Event Date: Wednesday, February 21, 2018

Location: Building 33 Room H114
Time: 1:30 PM

Tropospheric Humidity: A Known Unknown

Water vapor is the most dominant greenhouse gas and plays a critical role in the climate by regulating the Earth's radiation budget and hydrological cycle. A comprehensive dataset is required to describe the temporal and spatial distribution of water vapor, evaluate the performance of climate and weather prediction models in terms of simulating tropospheric humidity, and understand the role of water vapor and its feedback in the climate system. Satellite microwave and radiosonde measurements are two main sources of tropospheric humidity. However, both datasets are subject to errors and uncertainties. This talk focuses on our knowledge of these errors and uncertainties as well as some applications of such observations, as follows:

The quality of operational radiosonde data were investigated for different sensor types. It was found that the use of a variety of sensors over the globe introduces temporal and spatial errors in the data. Furthermore, it was shown that the daytime radiation dry bias, which is one of the most important errors in radiosonde data, depends on both sensor type and radiosonde launch time.

Radiometric errors in satellite data were investigated using both intercomparison of coincident observations as well as validation versus high-quality radiosonde and Global Positioning System Radio Occultation (GPS-RO) data. Overall, the absolute accuracy of the microwave satellite data cannot still be validated due to the lack of reference measurements.

In addition, a novel technique for correcting geolocation errors in microwave satellite data was developed based on the difference between ascending and descending observations along the coastlines. Using this method, several important errors including timing errors and sensor mounting errors were found in some of the microwave instruments.

Finally, since satellite data are indirect measurements, a method was developed to transform satellite radiances from different water vapor channels to layer averaged humidity. The technique is very fast because radiative transfer calculations are only required to determine the empirical coefficients. This technique was then used to evaluate the diurnal variation of tropospheric humidity in the tropical region.

Seminar Series Coordinators

Posted or updated: Tuesday, February 20, 2018

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