Integrated Analysis of Methane Cycles and Trends at the WMO/GAW Station of Lamezia Terme (Calabria, Southern Italy)

Integrated Analysis of Methane Cycles and Trends at the WMO/GAW Station of Lamezia Terme (Calabria, Southern Italy)

Due to its high short-term global warming potential (GWP) compared to carbon dioxide, methane (CH4) is a considerable agent of climate change. This research is aimed at analyzing data on methane gathered at the GAW (Global Atmosphere Watch) station of Lamezia Terme (Calabria, Southern Italy) spannin...

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Bibliographic Details
Published in:Atmosphere Vol. 15; no. 8; p. 946
Main Authors: D'Amico, Francesco, Ammoscato, Ivano, Gullì, Daniel, Avolio, Elenio, Lo Feudo, Teresa, De Pino, Mariafrancesca, Cristofanelli, Paolo, Malacaria, Luana, Parise, Domenico, Sinopoli, Salvatore, De Benedetto, Giorgia, Calidonna, Claudia Roberta
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-08-2024
Subjects:
Airports
Anthropogenic factors
Atmosphere
Atmospheric circulation
Calabria
Carbon dioxide
Circulation patterns
Climate change
COVID-19
Emissions
Environmental aspects
Estimates
Forecasts and trends
GAW
Global warming
Lamezia Terme
Local winds
Measurement
Meteorological data
Meteorological stations
Methane
Observatories
Seasonal variation
Seasonal variations
Southern Italy
Trends
Wind
wind parameters
Italy
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Summary:Due to its high short-term global warming potential (GWP) compared to carbon dioxide, methane (CH4) is a considerable agent of climate change. This research is aimed at analyzing data on methane gathered at the GAW (Global Atmosphere Watch) station of Lamezia Terme (Calabria, Southern Italy) spanning seven years of continuous measurements (2016–2022) and integrating the results with key meteorological data. Compared to previous studies on detected methane mole fractions at the same station, daily-to-yearly patterns have become more prominent thanks to the analysis of a much larger dataset. Overall, the yearly increase of methane at the Lamezia Terme station is in general agreement with global measurements by NOAA, though local peaks are present, and an increase linked to COVID-19 is identified. Seasonal changes and trends have proved to be fully cyclic, with the daily cycles being largely driven by local wind circulation patterns and synoptic features. Outbreak events have been statistically evaluated depending on their weekday of occurrence to test possible correlations with anthropogenic activities. A cross analysis between methane peaks and specific wind directions has also proved that local sources may be deemed responsible for the highest mole fractions.
ISSN:2073-4433
2073-4433
DOI:10.3390/atmos15080946