This project bridged atmospheric science expertise in quantifying ice nucleation and geochemistry expertise in characterising ash properties which likely dictate its behaviour. Working across various research groups at ULeeds and LMU, including Ice Nucleation, Geochemistry, and Volcanology, contributed to developing new knowledge on ash-atmosphere interactions. Experiments on a wide range of ash samples allowed us to separate the influence of chemical composition and mineralogy on INA, and simulations of eruptive and atmospheric processes enabled us to study enhancement and depression of INA due to thermal and chemical alteration of ash.
Such insights on links between the INA of ash and its magmatic, eruptive, and atmospheric history are essential to constraining the potential influence of ash emissions on ice formation and thus, ultimately, to better understanding the atmospheric and climatic impacts of explosive eruptions. Laboratory data from this project can be parameterised for use in numerical models to explore and quantify the importance of ash INPs to atmospheric composition and climate under different scenarios. Such results could have value for policy stakeholders outside of academia concerned with airborne ash such as the London Volcanic Ash Advisory Center and UK Met Office Atmospheric Dispersion Group. Further, fundamental knowledge gained from this research concerning the effect of various properties and processes on INA might be relevant to understanding ice nucleation by other solid materials too (e.g. desert dust, glacial flour).
Outreach activities during the project, including a public discussion on Volcanic Hazards Communication at Leeds Central Library and engagement with pupils across the UK in ‘I’m A Scientist, Get Me Out of Here,’ gave me valuable opportunities for exchange with the public. A project website and Twitter profile was also used to share information with a wide audience.
Overall, the main goals of the INoVA project have been successfully achieved and, once all work has been published, it will hopefully represent a foundation of new knowledge on ash ice nucleation and pave the way for future research in this area. This fellowship has also contributed greatly to my professional development and prospects to continue a research career.