Periodic outgassing as a result of unsteady convection in Ray lava lake, Mount Erebus, Antarctica
Periodic outgassing as a result of unsteady convection in Ray lava lake, Mount Erebus, Antarctica
Persistently active lava lakes show continuous outgassing and open convection over years to decades. Ray Lake, the lava lake at Mount Erebus, Ross Island, Antarctica, maintains long-term, near steady-state behavior in temperature, heat flux, gas flux, lake level, and composition. This activity is superposed by periodic small pulses of gas and hot magma every 5-18 min and disrupted by sporadic Strombolian eruptions. The periodic pulses have been attributed to a variety of potential processes including unstable bidirectional flow in the conduit feeding the lake. In contrast to hypotheses invoking a conduit source for the observed periodicity, we test the hypothesis that the behavior could be the result of dynamics within the lake itself, independent of periodic influx from the conduit. We perform numerical simulations of convection in Ray Lake driven by both constant and periodic inflow of gas-rich magma from the conduit to identify whether the two cases have different observational signatures at the surface. Our simulations show dripping diapirs or pulsing plumes leading to observable surface behavior with periodicities in the range of 5-20 min. We conclude that a convective speed faster than the inflow speed can result in periodic behavior without requiring periodicity in conduit dynamics. This finding suggests that the surface behavior of lava lakes might be less indicative of volcanic conduit processes in persistently outgassing volcanoes than previously thought, and that dynamics within the lava lake itself may modify or overprint patterns emerging from the conduit. Beyond its importance for Erebus, this result highlights the need to understand periodic processes emerging at all levels of the volcanic plumbing system in order to interpret surface observations.
Birnbaum, Janine
0352028e-ac94-4003-92ba-c914d86e6c5d
Keller, Tobias
d8dfcfa5-89d1-4203-aa2d-8c142c00a169
Suckale, Jenny
2f422629-845e-4186-bf3a-c00dd1a417d6
Lev, Einat
6d1d881b-8376-4928-ab08-c8b02652cff1
12 December 2019
Birnbaum, Janine
0352028e-ac94-4003-92ba-c914d86e6c5d
Keller, Tobias
d8dfcfa5-89d1-4203-aa2d-8c142c00a169
Suckale, Jenny
2f422629-845e-4186-bf3a-c00dd1a417d6
Lev, Einat
6d1d881b-8376-4928-ab08-c8b02652cff1
Birnbaum, Janine, Keller, Tobias, Suckale, Jenny and Lev, Einat
(2019)
Periodic outgassing as a result of unsteady convection in Ray lava lake, Mount Erebus, Antarctica.
Earth and Planetary Science Letters, 530.
(doi:10.1016/j.epsl.2019.115903).
Abstract
Persistently active lava lakes show continuous outgassing and open convection over years to decades. Ray Lake, the lava lake at Mount Erebus, Ross Island, Antarctica, maintains long-term, near steady-state behavior in temperature, heat flux, gas flux, lake level, and composition. This activity is superposed by periodic small pulses of gas and hot magma every 5-18 min and disrupted by sporadic Strombolian eruptions. The periodic pulses have been attributed to a variety of potential processes including unstable bidirectional flow in the conduit feeding the lake. In contrast to hypotheses invoking a conduit source for the observed periodicity, we test the hypothesis that the behavior could be the result of dynamics within the lake itself, independent of periodic influx from the conduit. We perform numerical simulations of convection in Ray Lake driven by both constant and periodic inflow of gas-rich magma from the conduit to identify whether the two cases have different observational signatures at the surface. Our simulations show dripping diapirs or pulsing plumes leading to observable surface behavior with periodicities in the range of 5-20 min. We conclude that a convective speed faster than the inflow speed can result in periodic behavior without requiring periodicity in conduit dynamics. This finding suggests that the surface behavior of lava lakes might be less indicative of volcanic conduit processes in persistently outgassing volcanoes than previously thought, and that dynamics within the lava lake itself may modify or overprint patterns emerging from the conduit. Beyond its importance for Erebus, this result highlights the need to understand periodic processes emerging at all levels of the volcanic plumbing system in order to interpret surface observations.
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Accepted/In Press date: 14 October 2019
Published date: 12 December 2019
Identifiers
Local EPrints ID: 488270
URI: http://eprints.soton.ac.uk/id/eprint/488270
ISSN: 0012-821X
PURE UUID: ba107625-433c-48b5-b3ea-3be0bca55f87
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Date deposited: 19 Mar 2024 17:49
Last modified: 21 Mar 2024 03:16
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Author:
Janine Birnbaum
Author:
Tobias Keller
Author:
Jenny Suckale
Author:
Einat Lev
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