Details of Award

NERC Reference : NE/T009594/1

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NSFGEO-NERC: Collaborative Research: Multi-scale investigation of rheology and emplacement of multi-phase lava

Grant Award

Principal Investigator:: Professor EW Llewellin, Durham University, Earth Sciences
Grant held at:: Durham University, Earth Sciences

Science Area:: Terrestrial
Overall Classification:: Panel A

Science Classification details

ENRIs:: Environmental Risks and Hazards
Science Topics:: Geohazards; Properties Of Earth Materials; Volcanic Processes; Materials Characterisation

Abstract:: When a volcanic eruption produces lava flows that threaten a community, as happened recently during the 2018 Kilauea Volcano eruption in Hawai'i, the two most pressing questions are often:"where will the lava go?",and "how soon will it get there?". This project seeks to help answer these questions by building a quantitative description of the rheology of lava and how it evolves during flow emplacement. Simply put, lava rheology determines how quickly the lava will flow and what form the flow will take. Lava flows displace communities, destroy homes and infrastructure, and in some cases present a serious hazard to life. Accurate forecasting of lava flow emplacement is essential to hazard mitigation and management. To achieve this, we must resolve two key issues: 1) how lava rheology evolves during emplacement; 2) how rheology controls emplacement. The central goal of this project is to produce a quantitative description of the complex feedback between lava rheology and emplacement. The 2018 eruption at the lower east rift zone of Kilauea (KLERZ) provides an opportunity to investigate lava emplacement in unprecedented detail. During the eruption, an Unoccupied Aerial System (UAS) captured a comprehensive time-series of overhead videos of channelized lava (the "Fissure 8", or F8 flow). The videography campaign was purposefully designed to collect data for 'remote rheometry' by hovering above specific sites and revisiting the same sites on multiple occasions. Crucially, a companion suite of samples was collected from the same sites both during and immediately after the eruption. Our plan leverages the value of the linked data sets by integrating tasks addressing a range of scales: analysis and rheometry of KLERZ lavas; fluid dynamic experiments with lava analogs; numerical modelling. Combined, these studies will produce a quantitative framework for understanding lava flow emplacement. This project involves a new international collaboration with scientists in the USA and the UK, which we intend to continue after this project ends. The inter-agency collaboration between university scientists and the United States Geological Survey will facilitate and expedite the application of new academic knowledge to real-world challenges.

Period of Award:: 1 Oct 2019 - 29 Feb 2024
Value:: £184,457

(FY details)

Authorised funds only

NERC Reference:: NE/T009594/1
Grant Stage:: Completed
Scheme:: Standard Grant FEC
Grant Status:: Closed
Programme:: Lead Agency Grant

This grant award has a total value of £184,457

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FDAB - Financial Details (Award breakdown by headings)

DI - Other Costs	Indirect - Indirect Costs	DA - Investigators	DI - Staff	DA - Estate Costs	DA - Other Directly Allocated	DI - T&S
£2,032	£77,340	£9,916	£56,760	£24,492	£4,241	£9,676

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