Après Nous, le Déluge: A Human-Triggered Jökulhlaup From a Subglacial Lake

E. Gaidos; T. Jóhannesson; B. Einarsson; Th Thorsteinsson; J. P. Amend; M. Skidmore

doi:10.1029/2020GL089876

Après Nous, le Déluge: A Human-Triggered Jökulhlaup From a Subglacial Lake

E. Gaidos, T. Jóhannesson, B. Einarsson, Th Thorsteinsson, J. P. Amend, M. Skidmore

University of Iceland

Research output: Contribution to journal › Article › peer-review

Abstract

Glacial floods (jökulhlaups) are a phenomenon of some temperate ice masses; they are a significant natural hazard, but their complex hydrology is incompletely understood. We document a jökulhlaup from a subglacial lake in Iceland that was inadvertently triggered by a borehole drilled through the overlying ice. We propose that this borehole allowed an englacial water body to drain into the lake, inducing a transient rise in pressure that overwhelmed the lake's subglacial seal 5 days later. Runaway melting of a subglacial conduit by 4°C lake water then initiated a flood to the outlet glacier margin. This incident suggests that draining of englacial water bodies via hydrofracturing crevasses and flooding of moulins by precipitation events are potential natural triggers of jökulhlaups and explains a correlation between surface melting and jökulhlaups. This hydraulic trigger could have wider implications for relations between meteorological conditions, drainage, and dynamics of some glaciers.

Original language	English
Article number	e2020GL089876
Journal	Geophysical Research Letters
Volume	47
Issue number	22
DOIs	https://doi.org/10.1029/2020GL089876
Publication status	Published - 28 Nov 2020

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10.1029/2020GL089876

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title = "Apr{\`e}s Nous, le D{\'e}luge: A Human-Triggered J{\"o}kulhlaup From a Subglacial Lake",

abstract = "Glacial floods (j{\"o}kulhlaups) are a phenomenon of some temperate ice masses; they are a significant natural hazard, but their complex hydrology is incompletely understood. We document a j{\"o}kulhlaup from a subglacial lake in Iceland that was inadvertently triggered by a borehole drilled through the overlying ice. We propose that this borehole allowed an englacial water body to drain into the lake, inducing a transient rise in pressure that overwhelmed the lake's subglacial seal 5 days later. Runaway melting of a subglacial conduit by 4°C lake water then initiated a flood to the outlet glacier margin. This incident suggests that draining of englacial water bodies via hydrofracturing crevasses and flooding of moulins by precipitation events are potential natural triggers of j{\"o}kulhlaups and explains a correlation between surface melting and j{\"o}kulhlaups. This hydraulic trigger could have wider implications for relations between meteorological conditions, drainage, and dynamics of some glaciers.",

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T2 - A Human-Triggered Jökulhlaup From a Subglacial Lake

AU - Gaidos, E.

AU - Jóhannesson, T.

AU - Einarsson, B.

AU - Thorsteinsson, Th

AU - Amend, J. P.

AU - Skidmore, M.

PY - 2020/11/28

Y1 - 2020/11/28

N2 - Glacial floods (jökulhlaups) are a phenomenon of some temperate ice masses; they are a significant natural hazard, but their complex hydrology is incompletely understood. We document a jökulhlaup from a subglacial lake in Iceland that was inadvertently triggered by a borehole drilled through the overlying ice. We propose that this borehole allowed an englacial water body to drain into the lake, inducing a transient rise in pressure that overwhelmed the lake's subglacial seal 5 days later. Runaway melting of a subglacial conduit by 4°C lake water then initiated a flood to the outlet glacier margin. This incident suggests that draining of englacial water bodies via hydrofracturing crevasses and flooding of moulins by precipitation events are potential natural triggers of jökulhlaups and explains a correlation between surface melting and jökulhlaups. This hydraulic trigger could have wider implications for relations between meteorological conditions, drainage, and dynamics of some glaciers.

AB - Glacial floods (jökulhlaups) are a phenomenon of some temperate ice masses; they are a significant natural hazard, but their complex hydrology is incompletely understood. We document a jökulhlaup from a subglacial lake in Iceland that was inadvertently triggered by a borehole drilled through the overlying ice. We propose that this borehole allowed an englacial water body to drain into the lake, inducing a transient rise in pressure that overwhelmed the lake's subglacial seal 5 days later. Runaway melting of a subglacial conduit by 4°C lake water then initiated a flood to the outlet glacier margin. This incident suggests that draining of englacial water bodies via hydrofracturing crevasses and flooding of moulins by precipitation events are potential natural triggers of jökulhlaups and explains a correlation between surface melting and jökulhlaups. This hydraulic trigger could have wider implications for relations between meteorological conditions, drainage, and dynamics of some glaciers.

UR - https://www.scopus.com/pages/publications/85096561291

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DO - 10.1029/2020GL089876

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JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 22

M1 - e2020GL089876

ER -

Après Nous, le Déluge: A Human-Triggered Jökulhlaup From a Subglacial Lake

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