Assessing the impact of bioturbation on sedimentary isotopic records through numerical models

Dominik Hülse; Pam Vervoort; Sebastiaan van de Velde; Yoshiki Kanzaki; Bernard Bourdreau; Sandra  Arndt; David Bottjer; Babette Hoogakker; Matthias Kuderer; Jack Middelburg; Nils Volkenborn; Sandy Kirtland Turner; Andy Ridgwell

doi:10.1016/j.earscirev.2022.104213

Assessing the impact of bioturbation on sedimentary isotopic records through numerical models

Dominik Hülse^*, Pam Vervoort, Sebastiaan van de Velde, Yoshiki Kanzaki, Bernard Bourdreau, Sandra Arndt, David Bottjer, Babette Hoogakker, Matthias Kuderer, Jack Middelburg, Nils Volkenborn, Sandy Kirtland Turner, Andy Ridgwell

^*Corresponding author for this work

Earth and Environmental Sciences

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Abstract

The disturbance of seafloor sediments by the activities of bottom-dwelling organisms, known as bioturbation, significantly alters the marine paleorecord by redistributing particles in the upper sediment layers. Consequently, ‘proxy’ signals recorded in these sediment particles, such as the size, abundance, or isotopic composition of plankton shells, are distorted by particle mixing. Accordingly, bioturbation can alter the apparent timing, duration, and magnitude of recorded events by smoothing climatic and oceanographic signals. In an extreme scenario, biological mixing can significantly obscure our view of the past by homogenizing the bioturbated layer, destroying sediment layering, and distorting the relative timing and intensity of past climatological events. Here we explore how bioturbation distorts proxy records of environmental events from a modeling perspective. First, we provide an overview and comparison of different numerical models created for simulating the movement and structural alteration of sediment by bioturbation. Next, we use an updated particle resolving model – iTURBO2 – to illustrate how various modes and intensities of bioturbation distort the signature of past climatological events, considering a range of conceptual shapes of vertical proxy profiles. Finally, we demonstrate how sampled proxy records can differ due to the combined effects of particle mixing and differential abundance changes that often concur with environmental transitions. We make the iTURBO2 MATLAB code openly available to facilitate further exploration of proxy biases due to bioturbation to aid the interpretation of the climatological record preserved in marine sediments.

Original language	English
Article number	104213
Number of pages	16
Journal	Earth-Science Reviews
Volume	14
Issue number	8
Early online date	23 Oct 2022
DOIs	https://doi.org/10.1016/j.earscirev.2022.104213
Publication status	Published - Nov 2022

Bibliographical note

Acknowledgments
This paper arose from a workshop on “Instigating a Mechanistic Understanding of the Dynamics of the Sedimentary record (‘iMUDS’)” that was sponsored by the Heising-Simons foundation. We would like to thank Stephen Meyers (UW-Madison) and three anonymous reviewers for their constructive critiques and suggestions that have improved this paper. We thank Martin Trauth for developing the original TURBO2 model. DH is supported by a postdoctoral fellowship from the Simons Foundation (Award 653829). SJV is supported by the Belgian Science Policy office (BELSPO, Grant No. FED-tWIN2019-prf-008). DH, PV, YK, AR and SKT acknowledge support from the Heising-Simons Foundation (Grant No. #2015–145). BH acknowledges support from UKRI Future Leaders GrantMR/S034293/1. MK and JJM thank support from the Netherlands Earth System Science Centre financially supported by the Ministry of Education, Culture and Science (OCW).

Keywords

Bioturbation
Sedimentary proxy record
Paleoceanography

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Hülse, D., Vervoort, P., van de Velde, S., Kanzaki, Y., Bourdreau, B., Arndt, S., Bottjer, D., Hoogakker, B., Kuderer, M., Middelburg, J., Volkenborn, N., Kirtland Turner, S., & Ridgwell, A. (2022). Assessing the impact of bioturbation on sedimentary isotopic records through numerical models. Earth-Science Reviews, 14(8), Article 104213. https://doi.org/10.1016/j.earscirev.2022.104213

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title = "Assessing the impact of bioturbation on sedimentary isotopic records through numerical models",

abstract = "The disturbance of seafloor sediments by the activities of bottom-dwelling organisms, known as bioturbation, significantly alters the marine paleorecord by redistributing particles in the upper sediment layers. Consequently, {\textquoteleft}proxy{\textquoteright} signals recorded in these sediment particles, such as the size, abundance, or isotopic composition of plankton shells, are distorted by particle mixing. Accordingly, bioturbation can alter the apparent timing, duration, and magnitude of recorded events by smoothing climatic and oceanographic signals. In an extreme scenario, biological mixing can significantly obscure our view of the past by homogenizing the bioturbated layer, destroying sediment layering, and distorting the relative timing and intensity of past climatological events. Here we explore how bioturbation distorts proxy records of environmental events from a modeling perspective. First, we provide an overview and comparison of different numerical models created for simulating the movement and structural alteration of sediment by bioturbation. Next, we use an updated particle resolving model – iTURBO2 – to illustrate how various modes and intensities of bioturbation distort the signature of past climatological events, considering a range of conceptual shapes of vertical proxy profiles. Finally, we demonstrate how sampled proxy records can differ due to the combined effects of particle mixing and differential abundance changes that often concur with environmental transitions. We make the iTURBO2 MATLAB code openly available to facilitate further exploration of proxy biases due to bioturbation to aid the interpretation of the climatological record preserved in marine sediments.",

keywords = "Bioturbation, Sedimentary proxy record, Paleoceanography",

author = "Dominik H{\"u}lse and Pam Vervoort and {van de Velde}, Sebastiaan and Yoshiki Kanzaki and Bernard Bourdreau and Sandra Arndt and David Bottjer and Babette Hoogakker and Matthias Kuderer and Jack Middelburg and Nils Volkenborn and {Kirtland Turner}, Sandy and Andy Ridgwell",

note = "Acknowledgments This paper arose from a workshop on “Instigating a Mechanistic Understanding of the Dynamics of the Sedimentary record ({\textquoteleft}iMUDS{\textquoteright})” that was sponsored by the Heising-Simons foundation. We would like to thank Stephen Meyers (UW-Madison) and three anonymous reviewers for their constructive critiques and suggestions that have improved this paper. We thank Martin Trauth for developing the original TURBO2 model. DH is supported by a postdoctoral fellowship from the Simons Foundation (Award 653829). SJV is supported by the Belgian Science Policy office (BELSPO, Grant No. FED-tWIN2019-prf-008). DH, PV, YK, AR and SKT acknowledge support from the Heising-Simons Foundation (Grant No. #2015–145). BH acknowledges support from UKRI Future Leaders GrantMR/S034293/1. MK and JJM thank support from the Netherlands Earth System Science Centre financially supported by the Ministry of Education, Culture and Science (OCW).",

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Hülse, D, Vervoort, P, van de Velde, S, Kanzaki, Y, Bourdreau, B, Arndt, S, Bottjer, D, Hoogakker, B, Kuderer, M, Middelburg, J, Volkenborn, N, Kirtland Turner, S & Ridgwell, A 2022, 'Assessing the impact of bioturbation on sedimentary isotopic records through numerical models', Earth-Science Reviews, vol. 14, no. 8, 104213. https://doi.org/10.1016/j.earscirev.2022.104213

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T1 - Assessing the impact of bioturbation on sedimentary isotopic records through numerical models

AU - Hülse, Dominik

AU - Vervoort, Pam

AU - van de Velde, Sebastiaan

AU - Kanzaki, Yoshiki

AU - Bourdreau, Bernard

AU - Arndt, Sandra

AU - Bottjer, David

AU - Hoogakker, Babette

AU - Kuderer, Matthias

AU - Middelburg, Jack

AU - Volkenborn, Nils

AU - Kirtland Turner, Sandy

AU - Ridgwell, Andy

N1 - Acknowledgments This paper arose from a workshop on “Instigating a Mechanistic Understanding of the Dynamics of the Sedimentary record (‘iMUDS’)” that was sponsored by the Heising-Simons foundation. We would like to thank Stephen Meyers (UW-Madison) and three anonymous reviewers for their constructive critiques and suggestions that have improved this paper. We thank Martin Trauth for developing the original TURBO2 model. DH is supported by a postdoctoral fellowship from the Simons Foundation (Award 653829). SJV is supported by the Belgian Science Policy office (BELSPO, Grant No. FED-tWIN2019-prf-008). DH, PV, YK, AR and SKT acknowledge support from the Heising-Simons Foundation (Grant No. #2015–145). BH acknowledges support from UKRI Future Leaders GrantMR/S034293/1. MK and JJM thank support from the Netherlands Earth System Science Centre financially supported by the Ministry of Education, Culture and Science (OCW).

PY - 2022/11

Y1 - 2022/11

N2 - The disturbance of seafloor sediments by the activities of bottom-dwelling organisms, known as bioturbation, significantly alters the marine paleorecord by redistributing particles in the upper sediment layers. Consequently, ‘proxy’ signals recorded in these sediment particles, such as the size, abundance, or isotopic composition of plankton shells, are distorted by particle mixing. Accordingly, bioturbation can alter the apparent timing, duration, and magnitude of recorded events by smoothing climatic and oceanographic signals. In an extreme scenario, biological mixing can significantly obscure our view of the past by homogenizing the bioturbated layer, destroying sediment layering, and distorting the relative timing and intensity of past climatological events. Here we explore how bioturbation distorts proxy records of environmental events from a modeling perspective. First, we provide an overview and comparison of different numerical models created for simulating the movement and structural alteration of sediment by bioturbation. Next, we use an updated particle resolving model – iTURBO2 – to illustrate how various modes and intensities of bioturbation distort the signature of past climatological events, considering a range of conceptual shapes of vertical proxy profiles. Finally, we demonstrate how sampled proxy records can differ due to the combined effects of particle mixing and differential abundance changes that often concur with environmental transitions. We make the iTURBO2 MATLAB code openly available to facilitate further exploration of proxy biases due to bioturbation to aid the interpretation of the climatological record preserved in marine sediments.

AB - The disturbance of seafloor sediments by the activities of bottom-dwelling organisms, known as bioturbation, significantly alters the marine paleorecord by redistributing particles in the upper sediment layers. Consequently, ‘proxy’ signals recorded in these sediment particles, such as the size, abundance, or isotopic composition of plankton shells, are distorted by particle mixing. Accordingly, bioturbation can alter the apparent timing, duration, and magnitude of recorded events by smoothing climatic and oceanographic signals. In an extreme scenario, biological mixing can significantly obscure our view of the past by homogenizing the bioturbated layer, destroying sediment layering, and distorting the relative timing and intensity of past climatological events. Here we explore how bioturbation distorts proxy records of environmental events from a modeling perspective. First, we provide an overview and comparison of different numerical models created for simulating the movement and structural alteration of sediment by bioturbation. Next, we use an updated particle resolving model – iTURBO2 – to illustrate how various modes and intensities of bioturbation distort the signature of past climatological events, considering a range of conceptual shapes of vertical proxy profiles. Finally, we demonstrate how sampled proxy records can differ due to the combined effects of particle mixing and differential abundance changes that often concur with environmental transitions. We make the iTURBO2 MATLAB code openly available to facilitate further exploration of proxy biases due to bioturbation to aid the interpretation of the climatological record preserved in marine sediments.

KW - Bioturbation

KW - Sedimentary proxy record

KW - Paleoceanography

UR - https://www.sciencedirect.com/science/article/pii/S0012825222002975

U2 - 10.1016/j.earscirev.2022.104213

DO - 10.1016/j.earscirev.2022.104213

M3 - Article

VL - 14

JO - Earth-Science Reviews

JF - Earth-Science Reviews

IS - 8

M1 - 104213

ER -

Assessing the impact of bioturbation on sedimentary isotopic records through numerical models

Abstract

Bibliographical note

Keywords

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