Radiation variations over the Tibetan Plateau (TP) are crucial for global climate and regional ecological environment.
Radiation variations over the Tibetan Plateau (TP) are crucial for global climate and regional ecological environment. Previous radiation studies over the TP were widely based on ground and satellite measurements of the radiation budget at the surface and at the top of the atmosphere. In situ vertical radiation measurements from the surface up to the upper troposphere and lower stratosphere (UTLS), about 10~22 km in altitude, are rare over the TP or even over a large territory of China.
Dr. ZHANG Jinqiang from the Institute of Atmospheric Physics (IAP) of the Chinese Academy of Sciences (CAS), developed a balloon-based measurement system to measure stratospheric radiation, in collaboration with scientists from the Aerospace Information Research Institute of CAS. This original system, for the first time, provides in situ measurements of multiwavelength radiation profiles from the surface up to the UTLS over the TP. Using this system, scientists can study how and why radiation profiles vary over the TP during the Asian summer monsoon period.
The observation campaigns have been conducted three times in the summer of 2018 and 2019, of which the longest flight observation lasted more than 30 hours and achieved a breakthrough of diurnal radiation variation in the UTLS.According to the team, the stratospheric balloon-based radiation profiles, combined with simultaneous operational radiosondes, ground measurements, satellite retrievals and radiative transfer model simulations, are valuable because the data can be used to study radiation variations and the radiative forcings of clouds and aerosols over the TP during the Asian summer monsoon period. The radiation retrievals from the radiative transfer model simulations and satellite observations are also validated.
Read more at Institute Of Atmospheric Physics, Chinese Academy Of Sciences
Image: The release of the stratospheric balloon-based radiation measurement system (Image by ZHANG Jinqiang)