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Active HORIZON European Commission

Nanoscale dynamics of volcanic processes: Experimental insights and numerical simulations of explosive eruptions

€2M EUR

Funder European Commission
Recipient Organization Consiglio Nazionale Delle Ricerche
Country Italy
Start Date Jan 01, 2023
End Date Dec 31, 2027
Duration 1,825 days
Number of Grantees 2
Roles Coordinator; Participant
Data Source European Commission
Grant ID 101044772
Grant Description

Volcanism is virtually ubiquitous in space and time across the universe. Its explosive expression impacts planetary evolution, life and history on Earth.

The brittle molecular failure of magma is central to trigger explosive eruptions and yet, its occurrence is elusive to us.The mechanistic understanding of magma dynamics, combined with monitoring activities, form the basis for forecasting eruptions.

This is central for modelling the impact on volcanic eruptions and determining the risk scenario in populated areas and along flight routes. A lack of understanding of magma failure thus hampers our ability to study the local and global impact of volcanism.

It is only in the last years that nanosized crystals (nanolites) have been exponentially identified in products of explosive eruptions.

Pioneering experiments and in situ observations of magmas dynamics, I showed that nanolite formation can occur within seconds and has the potential to set the conditions for brittle magma fragmentation.

It is time to observe in situ, under volcanic conditions the formation of nanolites and unravel their role in triggering explosive eruptions. This cutting-edge approach requires interdisciplinary research combined with technological advances.

Through NANOVOLC, I will integrate earth sciences with materials science and artificial intelligence to lift the veil on the process of nanolite formation and its role in magma failure.

I will deliver a numerical model of magma ascent and eruption to forecast and quantify the impacts of explosive eruptions.

To this end, I will i) perform in situ observations of nanolite formation in magmas, ii) build a unique magma fragmentation apparatus that will push the experimental boundaries explored so far, and iii) use artificial intelligence to support numerical model of non-linear volcanic processes.

Beyond volcanology, NANOVOLC will provide fundamental understanding of nanocrystal formation in technical glasses, relevant to glass-ceramic industry.

All Grantees

Consiglio Nazionale Delle Ricerche; Universitat Bayreuth

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