Indications of Ongoing Noise-Tipping of a Bifurcating River System

Astrid Blom; Clàudia Ylla Arbós; M. Kifayath Chowdhury; Arjen Doelman; Max Rietkerk; Ralph M.J. Schielen

doi:10.1029/2024GL111846

Indications of Ongoing Noise-Tipping of a Bifurcating River System

Astrid Blom^*, Clàudia Ylla Arbós, M. Kifayath Chowdhury, Arjen Doelman, Max Rietkerk, Ralph M.J. Schielen

^*Corresponding author for this work

Spatial Ecology and Global Change

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

Abstract

Tipping occurs when a critical point is reached, beyond which a perturbation leads to persistent system change. Here, we present observational indications demonstrating presently ongoing noise-tipping of a real-world system. Noise in a river system is associated with the changing flow rate. In particular, we consider the upper Rhine River delta, where flow and sediment fluxes are partitioned over the two downstream branches (bifurcates) of an important river bifurcation. Field observations show that a sequence of peak flows in the 1990s resulted in sudden sediment deposition in one bifurcate, triggering a persistent and ongoing change in the flow partitioning. This has caused the system to move toward an alternative equilibrium state or attractor. An idealized model confirms that a river bifurcation system under such conditions is prone to tipping, and provides insight on the onset of tipping.

Original language	English
Article number	e2024GL111846
Number of pages	9
Journal	Geophysical Research Letters
Volume	51
Issue number	22
DOIs	https://doi.org/10.1029/2024GL111846
Publication status	Published - 28 Nov 2024

Bibliographical note

Publisher Copyright:
© 2024. The Author(s).

Keywords

river bifurcation
river morphodynamics
stability analysis
surface grain size
tipping
tipping point

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Geophysical Research Letters - 2024 - Blom - Indications of Ongoing Noise‐Tipping of a Bifurcating River SystemFinal published version, 1.7 MBLicence: CC BY

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title = "Indications of Ongoing Noise-Tipping of a Bifurcating River System",

abstract = "Tipping occurs when a critical point is reached, beyond which a perturbation leads to persistent system change. Here, we present observational indications demonstrating presently ongoing noise-tipping of a real-world system. Noise in a river system is associated with the changing flow rate. In particular, we consider the upper Rhine River delta, where flow and sediment fluxes are partitioned over the two downstream branches (bifurcates) of an important river bifurcation. Field observations show that a sequence of peak flows in the 1990s resulted in sudden sediment deposition in one bifurcate, triggering a persistent and ongoing change in the flow partitioning. This has caused the system to move toward an alternative equilibrium state or attractor. An idealized model confirms that a river bifurcation system under such conditions is prone to tipping, and provides insight on the onset of tipping.",

keywords = "river bifurcation, river morphodynamics, stability analysis, surface grain size, tipping, tipping point",

author = "Astrid Blom and {Ylla Arb{\'o}s}, Cl{\`a}udia and Chowdhury, {M. Kifayath} and Arjen Doelman and Max Rietkerk and Schielen, {Ralph M.J.}",

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T1 - Indications of Ongoing Noise-Tipping of a Bifurcating River System

AU - Blom, Astrid

AU - Ylla Arbós, Clàudia

AU - Chowdhury, M. Kifayath

AU - Doelman, Arjen

AU - Rietkerk, Max

AU - Schielen, Ralph M.J.

PY - 2024/11/28

Y1 - 2024/11/28

N2 - Tipping occurs when a critical point is reached, beyond which a perturbation leads to persistent system change. Here, we present observational indications demonstrating presently ongoing noise-tipping of a real-world system. Noise in a river system is associated with the changing flow rate. In particular, we consider the upper Rhine River delta, where flow and sediment fluxes are partitioned over the two downstream branches (bifurcates) of an important river bifurcation. Field observations show that a sequence of peak flows in the 1990s resulted in sudden sediment deposition in one bifurcate, triggering a persistent and ongoing change in the flow partitioning. This has caused the system to move toward an alternative equilibrium state or attractor. An idealized model confirms that a river bifurcation system under such conditions is prone to tipping, and provides insight on the onset of tipping.

AB - Tipping occurs when a critical point is reached, beyond which a perturbation leads to persistent system change. Here, we present observational indications demonstrating presently ongoing noise-tipping of a real-world system. Noise in a river system is associated with the changing flow rate. In particular, we consider the upper Rhine River delta, where flow and sediment fluxes are partitioned over the two downstream branches (bifurcates) of an important river bifurcation. Field observations show that a sequence of peak flows in the 1990s resulted in sudden sediment deposition in one bifurcate, triggering a persistent and ongoing change in the flow partitioning. This has caused the system to move toward an alternative equilibrium state or attractor. An idealized model confirms that a river bifurcation system under such conditions is prone to tipping, and provides insight on the onset of tipping.

KW - river bifurcation

KW - river morphodynamics

KW - stability analysis

KW - surface grain size

KW - tipping

KW - tipping point

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VL - 51

JO - Geophysical Research Letters

JF - Geophysical Research Letters

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M1 - e2024GL111846

ER -

Indications of Ongoing Noise-Tipping of a Bifurcating River System

Abstract

Bibliographical note

Keywords

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