A study by the Spanish National Research Council (CSIC), an agency dependent on the Ministry of Science, Innovation and Universities of Spain, concludes that the most intense Saharan dust events, ever recorded in the air quality monitoring networks of Spain and Portugal, occurred between 2020 and 2022. This research, published in Atmospheric Chemistry and Physics, confirms the historical record-breaking nature of the dust storms occurred on February 2020 in the Canary Islands and March 2022 in the mainland Spain and continental Portugal, associated with so high dust concentrations that turned the skies orange.
Dust concentration were so high that the air quality monitors were unable to measure such high concentration of respirable PM10 particles, so the Sergio Rodríguez and Jessica López Darias, CSIC researchers at the Institute of Natural Products and Agrobiology in Tenerife (Canary Islands), developed a data reconstruction methodology. The concentration of respirable PM10 and PM2.5 particles, i.e. particles with a diameter smaller than 10 and 2.5 microns, respectively, is a key record in the air quality networks, in the European Union standards.
Since early February 2020, the two scientists of CSIC observed that during Saharan dust events the PM10 monitors of the air quality network of the Canary Islands experienced “saturation”, i.e. “PM10 concentrations increased up to reach 1000 µg/m3, the highest concentration that many of the commercial instruments can measure, a PM10 concentration much higher than the 20 to 30 µg/m3 of PM10 characteristic of the Canary Islands under dust free conditions”, Rodríguez explained.
During these events, PM10 monitors were saturated, whereas PM2.5 monitors showed high but variable concentrations, and this allowed to develop a new data reconstruction methodology that could be validated with the few instruments able to measure more than 1000 µg/m3. This reconstruction methodology was applied to the dust events that affected the Canary Islands in February 2020, February 2021, January and February 2022 in the Canary Islands and Iberian Peninsula in mid-March 2022. The reconstructed data evidenced that “during these dust events, the 1-hour average concentrations of PM10 respirable particles reached values close to 5000 micrograms per cubic meter in Tenerife and Almería and exceeded 5250 micrograms per cubic meter in Gran Canaria”, Jessica Lopez said.
Historic records
The researchers analysed the 2000-2022 data of 341 air quality monitoring station of Spain and Portugal and reconstructed 1690 (1-h average) data of PM10 concentrations of 55 stations. Then, the 24 h average PM10 concentrations were calculated, since this is the parameter used by the World Health Organization, which recommend that the population be not exposed to concentrations higher than 45 µg/m3. Results shows that during the Saharan dust events of the period 2020 to 2022, PM10 concentrations experienced an important increase, with respect to Saharan dust events of the period 2000-2019.
In the Canary Islands, intense dust events have usually (2000-2019) had PM10 concentrations between 200 and 400 µg/m3 – 24h average-; however, in the period 2020-2022 there have been 6 extreme dust events with PM10 concentrations within the range 600 y 1840 µg/m3; the latter value recorded in Gran Canaria island.
Mainland Spain and continental Portugal reached record-breaking PM10 concentrations during the 15-16 of March 2022 dust event, when a massive dusty air mass from Algeria crossed the Iberian Peninsula from the southeast to the northwest. “In mainland Spain and continental Portugal, PM10 concentrations during Saharan dust events are usually lower than 100 micrograms per cubic meter; however, during the extreme dust event of the 15-16 March 2022 the 24h average PM10 concentrations were similar to those typical of the Sahara desert, with values within the ranges 1500-3100 in Almería, 800-950 in Salamanca, Ávila and Valladolid, 600 to 650 in Central Portugal o 440 to 480 in Orense and northern Portugal”, Sergio Rodríguez said.
These are the highest dust concentrations ever recorded in the air quality network since the measurements were standardized in the European Union in 2005. Researchers also analyzed previous data.
Meteorology and climate change
These extreme dust events are occurring in an anomalous meteorological scenario, characterized by a blocking anticyclonic situation in the Iberian Peninsula and Western Europe, which deviate southward, to the region Canary Islands – Cabo Verde, the cyclones regularly linked to the mid-latitude westerly circulation. The anticyclone over the Iberian Peninsula and the cyclone south of the Canary Islands – Cabo Verde creates a meteorological dipole (clockwise over the anticyclone and anticlockwise in the cyclone) with intense winds that results in massive emission and transport of dust.
This study doesn’t address if these extreme dust events are caused by climate change, however the researchers highlight that all these extreme dust events occurred during meteorological anomalies in the Northern Hemisphere characterized by subtropical anticyclones shifting to higher latitudes, a widened tropical belt and amplified mid-latitude Rossby waves, features that resemble to the anomalies in the atmospheric circulation linked by climate change, according to previous studies.
The extreme dust events, to which the authors of this study refer as duxt episodes, are an emerging meteorological phenomenon. In 2018, a duxt event impacted the eastern Mediterranean. In June 2020, the so-called Godzilla episode affected to the Caribean and North America. In March 2021, two duxt events occurred in China and in November 2021 a new duxt episode occurred in Uzbekistan, all events induced by meteorological dipoles. These duxt events are occurring in a paradoxical context in which dust emissions are decreasing in north Africa and Asia due to a decrease in wind speed linked to climate change, a feature that makes extraordinary difficult to make a long term forecast of these phenomena.
This study is part of the project AEROEXTREME (PID2021-125669NB-I00) funded by the State Research Agency (Agencia Estatal de Investigación), the Ministry of Science and Innovation of Spain and the European Regional Development Funds.
Journal
Atmospheric Chemistry and Physics
Method of Research
Data/statistical analysis
Article Title
Extreme Saharan dust events expand northward over the Atlantic and Europe, prompting record-breaking PM10 and PM2.5 episodes
Article Publication Date
28-Oct-2024