Remote triggering of damage followed by healing recorded in groundwater pressure

Eyal Shalev; Hallel Lutzky; Ittai Kurzon; Vladimir Lyakhovsky

doi:10.3390/w13243656

Remote triggering of damage followed by healing recorded in groundwater pressure

Eyal Shalev
, Hallel Lutzky
, Ittai Kurzon
, Vladimir Lyakhovsky

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

2 Scopus citations

Abstract

Water levels in three adjacent water wells in the Yarmouk Gorge area have all responded to the 2020 Elazığ Mw 6.8 teleseismic earthquake. Water levels in two aquifers exhibited reciprocal behavior: during the first eight days after the earthquake, water level decreased by 40 cm in the deeper highly confined aquifer, and increased by 90 cm in the shallower less confined aquifer. The recovery of the water levels in both aquifers continued for at least three months. We interpret these observations as reflecting the increase in damage along the fault at the Yarmouk Gorge. Ground shaking increased the damage and permeability of this fault, temporarily connecting the two aquifers, allowing flow from the deep aquifer to the shallow one. Model results showing decreased permeability suggest that the fault healed by one order of magnitude within three days. This is the first documentation of decrease in permeability in a fault zone within such short time scales.

Original language	English
Article number	3656
Journal	Water (Switzerland)
Volume	13
Issue number	24
DOIs	https://doi.org/10.3390/w13243656
State	Published - 1 Dec 2021
Externally published	Yes

Keywords

Fault zone
Remote triggering
Water level

ASJC Scopus subject areas

Geography, Planning and Development
Biochemistry
Aquatic Science
Water Science and Technology

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10.3390/w13243656

Cite this

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title = "Remote triggering of damage followed by healing recorded in groundwater pressure",

abstract = "Water levels in three adjacent water wells in the Yarmouk Gorge area have all responded to the 2020 Elazığ Mw 6.8 teleseismic earthquake. Water levels in two aquifers exhibited reciprocal behavior: during the first eight days after the earthquake, water level decreased by 40 cm in the deeper highly confined aquifer, and increased by 90 cm in the shallower less confined aquifer. The recovery of the water levels in both aquifers continued for at least three months. We interpret these observations as reflecting the increase in damage along the fault at the Yarmouk Gorge. Ground shaking increased the damage and permeability of this fault, temporarily connecting the two aquifers, allowing flow from the deep aquifer to the shallow one. Model results showing decreased permeability suggest that the fault healed by one order of magnitude within three days. This is the first documentation of decrease in permeability in a fault zone within such short time scales.",

keywords = "Fault zone, Remote triggering, Water level",

author = "Eyal Shalev and Hallel Lutzky and Ittai Kurzon and Vladimir Lyakhovsky",

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doi = "10.3390/w13243656",

language = "English",

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journal = "Water (Switzerland)",

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T1 - Remote triggering of damage followed by healing recorded in groundwater pressure

AU - Shalev, Eyal

AU - Lutzky, Hallel

AU - Kurzon, Ittai

AU - Lyakhovsky, Vladimir

PY - 2021/12/1

Y1 - 2021/12/1

N2 - Water levels in three adjacent water wells in the Yarmouk Gorge area have all responded to the 2020 Elazığ Mw 6.8 teleseismic earthquake. Water levels in two aquifers exhibited reciprocal behavior: during the first eight days after the earthquake, water level decreased by 40 cm in the deeper highly confined aquifer, and increased by 90 cm in the shallower less confined aquifer. The recovery of the water levels in both aquifers continued for at least three months. We interpret these observations as reflecting the increase in damage along the fault at the Yarmouk Gorge. Ground shaking increased the damage and permeability of this fault, temporarily connecting the two aquifers, allowing flow from the deep aquifer to the shallow one. Model results showing decreased permeability suggest that the fault healed by one order of magnitude within three days. This is the first documentation of decrease in permeability in a fault zone within such short time scales.

AB - Water levels in three adjacent water wells in the Yarmouk Gorge area have all responded to the 2020 Elazığ Mw 6.8 teleseismic earthquake. Water levels in two aquifers exhibited reciprocal behavior: during the first eight days after the earthquake, water level decreased by 40 cm in the deeper highly confined aquifer, and increased by 90 cm in the shallower less confined aquifer. The recovery of the water levels in both aquifers continued for at least three months. We interpret these observations as reflecting the increase in damage along the fault at the Yarmouk Gorge. Ground shaking increased the damage and permeability of this fault, temporarily connecting the two aquifers, allowing flow from the deep aquifer to the shallow one. Model results showing decreased permeability suggest that the fault healed by one order of magnitude within three days. This is the first documentation of decrease in permeability in a fault zone within such short time scales.

KW - Fault zone

KW - Remote triggering

KW - Water level

UR - https://www.scopus.com/pages/publications/85121686703

U2 - 10.3390/w13243656

DO - 10.3390/w13243656

M3 - Article

AN - SCOPUS:85121686703

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VL - 13

JO - Water (Switzerland)

JF - Water (Switzerland)

IS - 24

M1 - 3656

ER -

Remote triggering of damage followed by healing recorded in groundwater pressure

Abstract

Keywords

ASJC Scopus subject areas

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