1 to 4 of 4 Results
Oct 2, 2024
Pozzer, Andrea; Steffens, Brendan; Bacer,Sara, 2024, "Atmospheric health burden across the century and the accelerating impact of temperature compared to pollution", https://doi.org/10.17617/3.ITPOI5, Edmond, V1
Anthropogenic emissions alter atmospheric composition and therefore the climate, with implications for air pollution- and climate-related human health. Mortality attributable to air pollution and non-optimal temperature is a major concern, which is subject to change in the future... |
Sep 15, 2024
Pozzer, Andrea; Cho, Yoori, 2024, "Rising atmospheric levels of fine particulate matter reduce the degree of linear polarisation of light", https://doi.org/10.17617/3.K7ZDG5, Edmond, V1
Many insects utilise optical information in linearly polarised light for navigation, with the degree of linear polarisation (DoLP) determining whether the ‘visibility’ of such optical information is available to them. However, changes in degree of linear polarisation in response... |
Jul 24, 2024
Georgiades, Pantelis; Pozzer, Andrea, 2024, "High-resolution global ultrafine particle concentrations through a machine learning model and Earth observations", https://doi.org/10.17617/3.YK9I4B, Edmond, V1
Atmospheric pollution is a major concern due to its well-documented and detrimental impacts on human health, with millions of excess deaths attributed to it annually. Particulate matter (PM), comprising airborne pollutants in the form of solid and liquid particles suspended in th... |
Sep 25, 2023
Kohl, Matthias; Pozzer, Andrea, 2023, "Simulated global ultrafine particle (UFP) concentrations", https://doi.org/10.17617/3.7945XI, Edmond, V1
Numerical simulation of global ultrafine particle (UFP; particulate matter with diameter < 0.1 um) concentrations with the ECHAM/MESSy Atmospheric Chemistry model (EMAC) for the year 2015. The simulations are available at two different horizontal resolutions: model resolution (1.... |