Tuesday, December 20, 2022

Loon stratospheric balloons confirm wind data from Aeolus

Researchers recommend more vertical measurements for follow-up mission

Peer-Reviewed Publication

LEIBNIZ INSTITUTE FOR TROPOSPHERIC RESEARCH (TROPOS)

AEOLUS - profiling winds 

IMAGE: ESA'S AEOLUS WIND MISSION PROVIDES TIMELY AND ACCURATE PROFILES OF THE WORLD'S WINDS, AS WELL AS OTHER INFORMATION ABOUT AEROSOLS AND CLOUDS. view more 

CREDIT: ESA/ATG MEDIALAB HTTPS://WWW.ESA.INT/ESA_MULTIMEDIA/IMAGES/2014/03/UNDERSTANDING_EARTH_S_WINDS FOR USE IN THE MEDIA FOR EDUCATIONAL AND INFORMATIONAL PURPOSES ONLY - SEE ESA'S POLICY ON THE USE OF IMAGES HERE: HTTPS://WWW.ESA.INT/ESA_MULTIMEDIA/COPYRIGHT_NOTICE_IMAGES

Leipzig. ESA's novel Aeolus satellite reliably measures wind speed also in higher air layers and thus in a region of the atmosphere where other direct global wind measurements are relatively sparse. This is the result of a study for which data from the satellite were compared with wind observations from stratospheric balloons. Stratospheric balloons would provide highly accurate data on the horizontal wind speed and are therefore also suitable for the validation of future satellite missions. Future wind satellites should increase the vertical resolution to better resolve gravity waves in the tropics, writes the team of researchers from the Leibniz Institute for Tropospheric Research (TROPOS), the European Space Agency (ESA), the European Centre for Medium-Range Weather Forecasts (ECMWF), the University of Hamburg and the Google company Loon. The study has now been published in the Quarterly Journal of the Royal Meteorological Society.

 

 

The quality of numerical weather prediction models and thus of weather forecasts depends heavily on the available data. In recent decades, a global observation system has therefore been built up which also includes wind profiles from weather balloons, aircraft data or wind profiler radar systems. However, most of this data comes from the densely populated northern hemisphere. In the southern hemisphere, over the oceans and especially in the tropics, the network of direct measurements is still relatively sparse.

 

The launch of the European Space Agency's (ESA) first wind satellite Aeolus on 22 August 2018 was therefore a major step towards global wind measurements. This novel satellite has a powerful laser on board, the Atmospheric Laser Doppler Instrument (ALADIN). ALADIN is the first Doppler wind lidar in space to provide profiles of horizontal wind speed from the Earth's surface or from the top of thick clouds up to a height of about 30 km on a global scale. To do this, the satellite emits short ultraviolet laser pulses as it orbits the Earth. A small part of these light pulses is scattered back to the satellite by air molecules, aerosols and clouds and collected and processed in the detector there. For one circumnavigation of the globe Aeolus takes 90 minutes, within a week the satellite collects wind data around the entire globe. This data is assimilated by weather forecasting centres around the world to improve their forecasts. Since there have been no comparable satellite missions so far, the data are checked particularly critically and compared with other wind measurements.

 

A study recently published used data from 229 stratospheric balloons of the Loon project between July 2019 and December 2020 from tropical Latin America, Atlantic Ocean, Africa and Indian Ocean for comparison. Loon was a commercial project that had provided remote regions with internet access via helium balloons in the stratosphere. The balloons, which were about 12 metres in diameter, acted as floating mobile phone stations at altitudes of 16 to 20 kilometres above the ground. For maintaining the network, the balloons had to automatically correct the wind direction by changing the altitude. This created an extensive data set on wind speeds in these atmospheric layers, which partially fills the gap in wind data at this altitude in the global observation system. The Loon project was discontinued in 2021 for economic reasons, but a highly interesting data set remains for atmospheric research.

 

"Our analysis confirms that the Aeolus satellite provides almost bias-free wind measurements in the upper troposphere and lower stratosphere. In contrast, the current ECWMF weather model systematically underestimates the wind speed there by about 1 metre per second, which could be demonstrated by the Aeolus and Loon data. These results are important to better understand dynamical processes in the upper troposphere and lower stratosphere and to further improve the weather models," emphasises Dr. Sebastian Bley from TROPOS, who worked for the study at ESA in Frascati, Italy. Another recommendation of the researchers is to carry out more vertical measurements to be able to provide more wind information in the atmospheric layers. This could further improve the accuracy of upcoming wind satellites. In addition to wind speed, Aeolus also provides information about aerosols and clouds, but only via a portion of the backscattered light. "We hope that future wind missions will also be able to measure depolarisation, the rotation of light when it is reflected. That would be a milestone because the satellite could then also provide more information about aerosols," explains Bley.

 

Aeolus was developed as an explorer mission with an expected lifetime of 3 years to demonstrate the technology of a Doppler wind lidar in space. However, expectations have been exceeded and Aeolus has now been providing valuable data for over 4 years. The wind data are now used in the weather forecasts of several weather services throughout Europe, such as the German Weather Service (DWD), and have been convincing due to their positive influence on the quality of weather forecasts. The way forward for the follow-on mission Aeolus-2 has been recently decided in the ESA ministerial and will be jointly developed by ESA and EUMETSAT.

 

In September, researchers from the USA had integrated Aeolus data into the hurricane model (HWRF) of the US weather and oceanography agency NOAA on a trial basis in order to better predict tropical storms. Their conclusion is that the use of Aeolus wind data is most effective where there are no reconnaissance flights into the hurricanes and could therefore have the greatest positive impact on tropical cyclone forecasting in the Pacific and Indian Oceans.

With these two new studies from the tropics, the chances are increasing that Aeolus data will also be used outside Europe and that a follow-up mission could improve weather forecasts. Tilo Arnhold

  

A study now published used data from 229 Loon Project stratospheric balloons between July 2019 and December 2020 from tropical Latin America, Atlantic Ocean, Africa and Indian Ocean for comparison.

CREDIT

Sebastian Bley, TROPOS / QJRMS (CC BY 4.0) https://creativecommons.org/licenses/by/4.0/

 

Loon_-_Launch_Event-(CC-BY-2.0 (IMAGE)

LEIBNIZ INSTITUTE FOR TROPOSPHERIC RESEARCH (TROPOS)

Further information and lin 

ESA-Aeolus:

https://www.esa.int/Applications/Observing_the_Earth/FutureEO/Aeolus

 

ESA’s wind mission could help to forecast tropical storms (27 Oct 2022):

https://earth.esa.int/eogateway/news/esa-s-wind-mission-could-help-to-forecast-tropical-storms

 

Aeolus DISC (Data, Innovation, and Science Cluster)

https://earth.esa.int/eogateway/activities/aeolus-disc

 

EVAA - Experimentelle Validierung und Assimilation von Aeolus Beobachtungen

https://www.meteo.physik.uni-muenchen.de/evaa/doku.php?id=en:start

 

Large measurement campaign in the Atlantic starts (Press release, 30 Jun 2021)

https://www.tropos.de/en/current-issues/press-releases/details/grosse-messkampagne-im-atlantik-laeuft-an

 

Californian smoke drifted as far as Central Europe in autumn 2020 and caused heavy clouding of the sun (Press release, 01 Jun 2021)

https://www.tropos.de/en/current-issues/press-releases/details/kalifornischer-rauch-zog-im-herbst-2020-bis-nach-mitteleuropa-und-sorgte-fuer-starke-truebung-der-sonne

 

ADM Aeolus – Measuring the wind from space with a laser for the first time (Press release, 21 Aug 2018)

https://www.tropos.de/en/current-issues/press-releases/details/adm-aeolus-measuring-the-wind-from-space-with-a-laser-for-the-first-time

 

 

 

 

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