AI Article Synopsis
- Cities are significant sources of methane emissions, and monitoring their atmospheric concentrations is crucial for understanding human-related emissions, especially since existing observation sites in major emitting cities like China are limited.
- A year-long study in Hangzhou revealed distinct seasonal variations in methane concentrations, with notable differences compared to other cities, highlighting the contributions of both background and enhanced emissions.
- The Random Forest model outperformed other methods in accuracy for simulating methane concentrations, and the largest contributing factor to seasonal variations was temperature-induced increases in microbial emissions from waste treatment and wetlands.
Article Abstract
Cities are treated as global methane (CH) emission hotspots and the monitoring of atmospheric CH concentration in cities is necessary to evaluate anthropogenic CH emissions. However, the continuous and in-situ observation sites within cities are still sparsely distributed in the largest CH emitter as of China, and although obvious seasonal variations of atmospheric CH concentrations have been observed in cities worldwide, questions regarding the drivers for their temporal variations still have not been well addressed. Therefore, to quantify the contributions to seasonal variations of atmospheric CH concentrations, year-round CH concentration observations from 1st December 2020 to 30th November 2021 were conducted in Hangzhou megacity, China, and three models were chosen to simulate urban atmospheric CH concentration and partition its drivers including machine learning based Random Forest (RF) model, atmospheric transport processes based numerical model (WRF-STILT), and regression analysis based Multiple Linear Regression (MLR) model. The findings are as follows: (1) the atmospheric CH concentration showed obvious seasonal variations and were different with previous observations in other cities, the seasonality were 5.8 ppb, 21.1 ppb, and 50.1 ppb between spring-winter, summer-winter and autumn-winter, respectively, where the CH background contributed by -8.1 ppb, -44.6 ppb, and -1.0 ppb, respectively, and the CH enhancements contributed by 13.9 ppb, 65.7 ppb, and 51.1 ppb. (2) The RF model showed the highest accuracy in simulating CH concentrations, followed by MLR model and WRF-STILT model. (3) We further partition contributions from different factors, results showed the largest contribution was from temperature-induced increase in microbial process based CH emissions including waste treatment and wetland, which ranged from 38.1 to 76.3 ppb when comparing different seasons with winter. The second largest contribution was from seasonal boundary layer height (BLH) variations, which ranged from -13.4 to -6.3 ppb. And the temperature induced seasonal CH emission and enhancement variations were overwhelming BLH changes and other meteorological parameters.
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| http://dx.doi.org/10.1016/j.envpol.2024.124781 | DOI Listing |
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