Early-Warning Signals for Marine Anoxic Events

Rick Hennekam; Bregje van der Bolt; Egbert H. van Nes; Gert J. de Lange; Marten Scheffer; Gert Jan Reichart

doi:10.1029/2020GL089183

Early-Warning Signals for Marine Anoxic Events

Rick Hennekam^*, Bregje van der Bolt, Egbert H. van Nes, Gert J. de Lange, Marten Scheffer, Gert Jan Reichart

^*Corresponding author for this work

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

Abstract

Predicting which marine systems are close to abrupt transitions into oxygen-deficient conditions (“anoxia”) is notoriously hard but important—as rising temperatures and coastal eutrophication drive many marine systems toward such tipping points. Rapid oxic-to-anoxic transitions occurred regularly within the eastern Mediterranean Sea on (multi)centennial time scales, and hence, its sedimentary archive allows exploring statistical methods that can indicate approaching tipping points. The here presented high-resolution reconstructions of past oxygen dynamics in the Mediterranean Sea reveal that early-warning signals in these deoxygenation time series occurred long before fast transitions to anoxia. These statistical indicators (i.e., rise in autocorrelation and variance) are hallmarks of so-called critical slowing down, signaling a steady loss of resilience of the oxygenated state as the system approaches a tipping point. Hence, even without precise knowledge of the mechanisms involved, early-warning signals for widespread anoxia in marine systems are recognizable using an appropriate statistical approach.

Original language	English
Article number	e2020GL089183
Number of pages	9
Journal	Geophysical Research Letters
Volume	47
Issue number	20
DOIs	https://doi.org/10.1029/2020GL089183
Publication status	Published - 28 Oct 2020

Funding

All participants of the MIMES (cores MS21 and MS66) and NESSC (core 64PE406E1) cruises with R/V Pelagia are thanked for their onboard assistance. Analytical assistance of Patrick Laan (ICP‐MS; NIOZ) and Wim Boer (ICP‐MS; NIOZ) was greatly appreciated. This work was supported by the Netherlands Organization for Scientific Research (NWO), with funding to the SCANALOGUE project (ALWOP.2015.113). This study was also carried out under the program of the Netherlands Earth System Science Centre (NESSC; 024.002.001), financially supported by the Dutch Ministry of Education, Culture and Science (OCW). Core material recovered during the MIMES and NESSC cruises were made possible through funding of the MEDIFLUX project (855.01.031) by NWO and NESSC (024.002.001) by OCW, respectively. We acknowledge the constructive comments by two anonymous reviewers, which were helpful to improve the original manuscript.

Keywords

anoxia
early-warning signals
Mediterranean Sea
sapropels
sedimentary trace metals
tipping points

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1029/2020GL089183

2020GL089183Final published version, 1.65 MB

Cite this

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title = "Early-Warning Signals for Marine Anoxic Events",

abstract = "Predicting which marine systems are close to abrupt transitions into oxygen-deficient conditions (“anoxia”) is notoriously hard but important—as rising temperatures and coastal eutrophication drive many marine systems toward such tipping points. Rapid oxic-to-anoxic transitions occurred regularly within the eastern Mediterranean Sea on (multi)centennial time scales, and hence, its sedimentary archive allows exploring statistical methods that can indicate approaching tipping points. The here presented high-resolution reconstructions of past oxygen dynamics in the Mediterranean Sea reveal that early-warning signals in these deoxygenation time series occurred long before fast transitions to anoxia. These statistical indicators (i.e., rise in autocorrelation and variance) are hallmarks of so-called critical slowing down, signaling a steady loss of resilience of the oxygenated state as the system approaches a tipping point. Hence, even without precise knowledge of the mechanisms involved, early-warning signals for widespread anoxia in marine systems are recognizable using an appropriate statistical approach.",

keywords = "anoxia, early-warning signals, Mediterranean Sea, sapropels, sedimentary trace metals, tipping points",

author = "Rick Hennekam and {van der Bolt}, Bregje and {van Nes}, {Egbert H.} and {de Lange}, {Gert J.} and Marten Scheffer and Reichart, {Gert Jan}",

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TY - JOUR

T1 - Early-Warning Signals for Marine Anoxic Events

AU - Hennekam, Rick

AU - van der Bolt, Bregje

AU - van Nes, Egbert H.

AU - de Lange, Gert J.

AU - Scheffer, Marten

AU - Reichart, Gert Jan

PY - 2020/10/28

Y1 - 2020/10/28

N2 - Predicting which marine systems are close to abrupt transitions into oxygen-deficient conditions (“anoxia”) is notoriously hard but important—as rising temperatures and coastal eutrophication drive many marine systems toward such tipping points. Rapid oxic-to-anoxic transitions occurred regularly within the eastern Mediterranean Sea on (multi)centennial time scales, and hence, its sedimentary archive allows exploring statistical methods that can indicate approaching tipping points. The here presented high-resolution reconstructions of past oxygen dynamics in the Mediterranean Sea reveal that early-warning signals in these deoxygenation time series occurred long before fast transitions to anoxia. These statistical indicators (i.e., rise in autocorrelation and variance) are hallmarks of so-called critical slowing down, signaling a steady loss of resilience of the oxygenated state as the system approaches a tipping point. Hence, even without precise knowledge of the mechanisms involved, early-warning signals for widespread anoxia in marine systems are recognizable using an appropriate statistical approach.

AB - Predicting which marine systems are close to abrupt transitions into oxygen-deficient conditions (“anoxia”) is notoriously hard but important—as rising temperatures and coastal eutrophication drive many marine systems toward such tipping points. Rapid oxic-to-anoxic transitions occurred regularly within the eastern Mediterranean Sea on (multi)centennial time scales, and hence, its sedimentary archive allows exploring statistical methods that can indicate approaching tipping points. The here presented high-resolution reconstructions of past oxygen dynamics in the Mediterranean Sea reveal that early-warning signals in these deoxygenation time series occurred long before fast transitions to anoxia. These statistical indicators (i.e., rise in autocorrelation and variance) are hallmarks of so-called critical slowing down, signaling a steady loss of resilience of the oxygenated state as the system approaches a tipping point. Hence, even without precise knowledge of the mechanisms involved, early-warning signals for widespread anoxia in marine systems are recognizable using an appropriate statistical approach.

KW - anoxia

KW - early-warning signals

KW - Mediterranean Sea

KW - sapropels

KW - sedimentary trace metals

KW - tipping points

U2 - 10.1029/2020GL089183

DO - 10.1029/2020GL089183

M3 - Article

AN - SCOPUS:85094683342

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VL - 47

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 20

M1 - e2020GL089183

ER -

Early-Warning Signals for Marine Anoxic Events

Abstract

Funding

Keywords

UN SDGs

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