The climatic impact of supervolcanic ash blankets
The climatic impact of supervolcanic ash blankets
Supervolcanoes are large caldera systems that can expel vast quantities of ash, volcanic gases in a single eruption, far larger than any recorded in recent history. These super-eruptions have been suggested as possible catalysts for long-term climate change and may be responsible for bottlenecks in human and animal populations. Here, we consider the previously neglected climatic effects of a continent-sized ash deposit with a high albedo and show that a decadal climate forcing is expected. We use a coupled atmosphere-ocean General Circulation Model (GCM) to simulate the effect of an ash blanket from Yellowstone volcano, USA, covering much of North America. Reflectivity measurements of dry volcanic ash show albedo values as high as snow, implying that the effects of an ash blanket would be severe. The modeling results indicate major disturbances to the climate, particularly to oscillatory patterns such as the El Niño Southern Oscillation (ENSO). Atmospheric disruptions would continue for decades after the eruption due to extended ash blanket longevity. The climatic response to an ash blanket is not significant enough to instigate a change to stadial periods at present day boundary conditions, though this is one of several impacts associated with a super-eruption which may induce long-term climatic change.
Supervolcano, Super-eruption, Ash blanket, ENSO, Climate change
553-564
Jones, Morgan T.
cf1c7a87-0578-4e4b-8708-a22a5b9e7df4
Sparks, R. Stephen J.
4061b9a3-c979-4515-a8cf-89c848648401
Valdes, Paul J.
d4cdc123-544c-4df7-8c61-1781cf50f104
22 November 2007
Jones, Morgan T.
cf1c7a87-0578-4e4b-8708-a22a5b9e7df4
Sparks, R. Stephen J.
4061b9a3-c979-4515-a8cf-89c848648401
Valdes, Paul J.
d4cdc123-544c-4df7-8c61-1781cf50f104
Jones, Morgan T., Sparks, R. Stephen J. and Valdes, Paul J.
(2007)
The climatic impact of supervolcanic ash blankets.
Climate Dynamics, 29 (6), .
(doi:10.1007/s00382-007-0248-7).
Abstract
Supervolcanoes are large caldera systems that can expel vast quantities of ash, volcanic gases in a single eruption, far larger than any recorded in recent history. These super-eruptions have been suggested as possible catalysts for long-term climate change and may be responsible for bottlenecks in human and animal populations. Here, we consider the previously neglected climatic effects of a continent-sized ash deposit with a high albedo and show that a decadal climate forcing is expected. We use a coupled atmosphere-ocean General Circulation Model (GCM) to simulate the effect of an ash blanket from Yellowstone volcano, USA, covering much of North America. Reflectivity measurements of dry volcanic ash show albedo values as high as snow, implying that the effects of an ash blanket would be severe. The modeling results indicate major disturbances to the climate, particularly to oscillatory patterns such as the El Niño Southern Oscillation (ENSO). Atmospheric disruptions would continue for decades after the eruption due to extended ash blanket longevity. The climatic response to an ash blanket is not significant enough to instigate a change to stadial periods at present day boundary conditions, though this is one of several impacts associated with a super-eruption which may induce long-term climatic change.
This record has no associated files available for download.
More information
Published date: 22 November 2007
Keywords:
Supervolcano, Super-eruption, Ash blanket, ENSO, Climate change
Identifiers
Local EPrints ID: 67025
URI: http://eprints.soton.ac.uk/id/eprint/67025
ISSN: 0930-7575
PURE UUID: a73479a8-126a-4a0d-ba41-0eeb6ad36307
Catalogue record
Date deposited: 30 Jul 2009
Last modified: 13 Mar 2024 18:43
Export record
Altmetrics
Contributors
Author:
Morgan T. Jones
Author:
R. Stephen J. Sparks
Author:
Paul J. Valdes
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics