Crevasse Propagation on Brittle Ice: Application to Cycloids on Europa

Mattia Poinelli; Eric Larour; Julie Castillo-Rogez; Bert Vermeersen

doi:10.1029/2019GL084033

Crevasse Propagation on Brittle Ice: Application to Cycloids on Europa

Mattia Poinelli^*, Eric Larour, Julie Castillo-Rogez, Bert Vermeersen

^*Corresponding author for this work

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

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Abstract

Existing lineaments on the surface of the Jovian moon Europa are thought to be the result of ongoing brittle crack formation in the elastic regime. Arcuate features are called cycloids and can be modeled using linear elastic fracture mechanics. Here, we build on existing terrestrial models of rift propagation and extend them to cycloids on the moon. We propose that these cracks tend to grow as a series of nearly instantaneous events, spaced by periods of inactivity. The behavior is similar to what is observed on Antarctic ice shelves, where rifts can remain dormant for years. We argue that dormant periods between growth events could explain the presence of cycloids on Europa even without invoking secular motion of the crust. Furthermore, being able to model propagation events and their timing should help future missions exploring the moon.

Original language	English
Pages (from-to)	11756-11763
Number of pages	8
Journal	Geophysical Research Letters
Volume	46
Issue number	21
DOIs	https://doi.org/10.1029/2019GL084033
Publication status	Published - 2019

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10.1029/2019GL084033

2019GL084033Final published version, 2.8 MBLicence: CC BY

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title = "Crevasse Propagation on Brittle Ice: Application to Cycloids on Europa",

abstract = "Existing lineaments on the surface of the Jovian moon Europa are thought to be the result of ongoing brittle crack formation in the elastic regime. Arcuate features are called cycloids and can be modeled using linear elastic fracture mechanics. Here, we build on existing terrestrial models of rift propagation and extend them to cycloids on the moon. We propose that these cracks tend to grow as a series of nearly instantaneous events, spaced by periods of inactivity. The behavior is similar to what is observed on Antarctic ice shelves, where rifts can remain dormant for years. We argue that dormant periods between growth events could explain the presence of cycloids on Europa even without invoking secular motion of the crust. Furthermore, being able to model propagation events and their timing should help future missions exploring the moon.",

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AU - Poinelli, Mattia

AU - Larour, Eric

AU - Castillo-Rogez, Julie

AU - Vermeersen, Bert

PY - 2019

Y1 - 2019

N2 - Existing lineaments on the surface of the Jovian moon Europa are thought to be the result of ongoing brittle crack formation in the elastic regime. Arcuate features are called cycloids and can be modeled using linear elastic fracture mechanics. Here, we build on existing terrestrial models of rift propagation and extend them to cycloids on the moon. We propose that these cracks tend to grow as a series of nearly instantaneous events, spaced by periods of inactivity. The behavior is similar to what is observed on Antarctic ice shelves, where rifts can remain dormant for years. We argue that dormant periods between growth events could explain the presence of cycloids on Europa even without invoking secular motion of the crust. Furthermore, being able to model propagation events and their timing should help future missions exploring the moon.

AB - Existing lineaments on the surface of the Jovian moon Europa are thought to be the result of ongoing brittle crack formation in the elastic regime. Arcuate features are called cycloids and can be modeled using linear elastic fracture mechanics. Here, we build on existing terrestrial models of rift propagation and extend them to cycloids on the moon. We propose that these cracks tend to grow as a series of nearly instantaneous events, spaced by periods of inactivity. The behavior is similar to what is observed on Antarctic ice shelves, where rifts can remain dormant for years. We argue that dormant periods between growth events could explain the presence of cycloids on Europa even without invoking secular motion of the crust. Furthermore, being able to model propagation events and their timing should help future missions exploring the moon.

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DO - 10.1029/2019GL084033

M3 - Article

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VL - 46

SP - 11756

EP - 11763

JO - Geophysical Research Letters

JF - Geophysical Research Letters

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ER -

Crevasse Propagation on Brittle Ice: Application to Cycloids on Europa

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Ocean Dynamics and Ice Fractures: Insights from Earth and Beyond

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