Arctic weather observations may help in predicting tropical cyclones

Upper-level observations such as radiosondes in the Arctic can help to forecast mid-latitude extreme events.

Update: 2018-09-24 02:52 GMT
The tropospheric polar vortex, sometimes, extends toward mid-latitudes accompanied with the meandering of mid-latitude westerly jets. (Photo: ANI)

Researchers have found that additional weather observations in the Arctic can help predict the track and intensity of tropical and mid-latitude cyclones more accurately, improving weather forecasting of extreme weather events.

Upper-level observations such as radiosondes in the Arctic can help to forecast mid-latitude extreme events. Impacts of the Arctic observations can transfer through the tropospheric polar vortex, which is massive low-pressure air mass over the Arctic or Antarctic regions at about 10-km altitude.

The tropospheric polar vortex, sometimes, extends toward mid-latitudes accompanied with the meandering of mid-latitude westerly jets. This extension can occur even in summer, that is, in August-September, where the meandering and extension were relatively active among the recent years. Thus, the impacts of the Arctic radiosonde observations could influence the mid-latitude extremes, the courses of three tropical cyclones approaching to Japan or Northern U.S. and Greenland, since the impacts transferred through the extended tropospheric polar vortex.

Having a clearer understanding of these influences can help us better predict, track and prepare for extreme weather events such as cyclones. Currently, meteorological observations are conducted by radiosonde, a weather instrument that records meteorological data, typically released into the atmosphere with a weather balloon. However, due to hostile conditions experienced in the Arctic and the limited reach of the low-pressure system, the number, and frequency of these observations are limited. Consequently, there are gaps in the data that result in weather forecasts being less accurate than what they could and should be, potentially putting peoples' lives at risk.

"Extreme weather events have been frequently observed in all seasons all over the world," said lead-author Kazutoshi Sato. "Hurricanes and typhoons are one of the most influential phenomena for human life. The precise weather forecast is critical to enable communities to adequately prepare for weather disasters," he added.

For the study, the researchers performed weather forecast experiments for three tropical cyclones that occurred over the North Atlantic and North Pacific during 2016, to determine whether additional observations could help predict their paths and intensity more accurately.

To supplement existing weather data observations, additional observations were conducted using weather balloons released from the ship- and land-based weather stations based in the Arctic. The data was analysed using a data assimilation system developed which can produce reanalysis datasets by "mixing" (assimilating) observations into global atmospheric conditions: the system was indispensable for the forecast experiments. The additional observations improved the predictability of the cyclones, allowing the scientists to track the paths of the cyclones as well as forecast their intensity more accurately.

Additional radiosonde observations and its evaluation on weather forecasts were conducted privately by scientists, said Inoue, adding that while "this 'quiet revolution of forecasting' is, of course, beneficial for end users," it is difficult to implement sustainable Arctic observations due to the harsh environment in the Arctic.

"From July to September 2018 additional 3,000 radiosondes have been launched from the Arctic region to reduce the uncertainty of forecasts in the Arctic and beyond as part of the Year of Polar Prediction (YOPP) project," said Inoue, a researcher. "Many meteorological centers will evaluate their impact on the atmospheric circulation in the Northern Hemisphere. Understanding the predictability of the atmosphere, ocean, and sea ice will progress with advances in the Arctic observing network and numerical model development," he said.

With extreme weather events becoming more frequent and more intense due to climate and ocean warming, being able to more accurately predict and track tropical cyclones can help communities be more prepared for potentially devastating storms, which in turn can help save lives.

The findings appeared in the Journal of Scientific Reports.

(Source)

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