A better understanding of climate change

Researchers study cloud movement in the Arctic.

Precise measurement of the warming and cooling of transported air masses for the first time.

Special features of the Arctic climate, such as the strong reflection of the sun’s rays off the light snow or the low position of the sun, amplify global warming in the Arctic. However, researchers are often faced with the challenge of modelling the underlying climatic processes in order to be able to provide reliable weather forecasts. Scientists from the HALO (𝒜𝒞)³ aircraft campaign have succeeded in precisely measuring the movement of air masses from and to the Arctic. This will contribute to a better understanding of the processes accelerating climate change in the region. Their research has been published in a European Geosciences Union paper.

“We want to make fundamental and ground-breaking progress in our understanding of Arctic amplification and improve the reliability of models for predicting the dramatic warming in the Arctic,” says Professor Manfred Wendisch, Director of the Institute for Meteorology at Leipzig University and lead author of the study. In mid-March 2022, the large-scale international research campaign HALO (AC)³ began its investigation of changes in air masses in the Arctic. Researchers from Leipzig University and several other research institutions are involved.

During the campaign, they used special aircraft to study the movement of air masses to and from the Arctic via northward moist- and warm-air intrusions (WAIs) and southward marine cold-air outbreaks (CAOs). Two low-flying aircraft and one long-range, high-altitude research aircraft were flown in close formation whenever possible. “We observed air mass transformations over areas of open ocean, the marginal sea ice zone and the central Arctic sea ice,” says Wendisch.

The HALO (AC)³ aircraft campaign was conducted over the Norwegian and Greenland Seas, the Fram Strait, and the central Arctic Ocean in March and April 2022. A new observation strategy was used to track the changes in the air masses. This enabled the researchers to measure the moving-air parcels twice along their transport pathway. The meteorologist explains: “This allowed us to quantify the warming and cooling of the transported air masses for the first time. For example, we have shown that cold air that breaks out of the Arctic and heads south warms up to three degrees Celsius per hour on its way from the sea ice to the open sea. In addition, the humidity of the air increases as it moves south.” The scientists also studied changes in cloud properties as air masses are transported. This unprecedented data is currently being compared with calculations from the German weather forecast model.

Wissenschaftliche Ansprechpartner:

Professor Manfred Wendisch
Leipzig University
Phone: +49 341 97-32851
EMail: m.wendisch@uni-leipzig.de

Originalpublikation:

Original title of the paper of the European Geosciences Union:
“Overview: quasi-Lagrangian observations of Arctic air mass transformations – introduction and initial results of the HALO–( )3 aircraft campaign”
https://doi.org/10.5194/acp-24-8865-2024

Weitere Informationen:

https://halo-ac3.de/