Tracking bioturbation through time: the evolution of the marine sedimentary mixed and transition layers
Tracking bioturbation through time: the evolution of the marine sedimentary mixed and transition layers
The physical, biogeochemical, and ecological properties of the modern seafloor are extensively shaped by the activities of burrowing and sediment-mixing animals, processes collectively known as bioturbation. Bioturbation is primarily recorded by homogenized sediments of the seafloor mixed layer and the underlying transition layer of discrete burrows. Although these two zones can be readily measured today, there has been limited understanding of how the mixed and transition layers evolved over the Phanerozoic since animals first began to extensively colonize the seafloor. Here, we provide a record for the depths of the sedimentary mixed and transition layers through the Phanerozoic. We find that although deepening of the sediment mixed layer spanned hundreds of millions of years, a deep transition layer was established as early as the Cambrian and did not further deepen until the Mesozoic—trajectories reflecting evolutionary radiations, changes in nutrient cycling, and alleviation of oxygen stress.
Tarhan, Lidya G.
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Pippenger, Kate H.
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Cribb, Alison T.
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Zill, Michelle
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Phelps, William
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Droser, Mary L.
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Bottjer, David J.
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Clapham, Matthew E.
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30 July 2025
Tarhan, Lidya G.
29f39ec4-aa2f-4c34-bcf5-6b9166a36001
Pippenger, Kate H.
4f4ee19e-9091-4aca-8c0e-0442f3412834
Cribb, Alison T.
70b2dee5-38d6-4d76-8d51-3e59048e819f
Zill, Michelle
59f0f33b-ae4b-4b59-925c-d20492211d62
Phelps, William
cb62f095-379c-4279-9d5b-7a912fd91661
Droser, Mary L.
e50974e6-7c3a-4c8d-a590-dbdf06144af0
Bottjer, David J.
c99de4e5-fe1d-43e9-9980-f75474d0dd2d
Clapham, Matthew E.
1277327e-a549-4b6d-81ec-7922529b0a1f
Tarhan, Lidya G., Pippenger, Kate H., Cribb, Alison T., Zill, Michelle, Phelps, William, Droser, Mary L., Bottjer, David J. and Clapham, Matthew E.
(2025)
Tracking bioturbation through time: the evolution of the marine sedimentary mixed and transition layers.
Science Advances, 11 (31).
(doi:10.1126/sciadv.adu7719).
Abstract
The physical, biogeochemical, and ecological properties of the modern seafloor are extensively shaped by the activities of burrowing and sediment-mixing animals, processes collectively known as bioturbation. Bioturbation is primarily recorded by homogenized sediments of the seafloor mixed layer and the underlying transition layer of discrete burrows. Although these two zones can be readily measured today, there has been limited understanding of how the mixed and transition layers evolved over the Phanerozoic since animals first began to extensively colonize the seafloor. Here, we provide a record for the depths of the sedimentary mixed and transition layers through the Phanerozoic. We find that although deepening of the sediment mixed layer spanned hundreds of millions of years, a deep transition layer was established as early as the Cambrian and did not further deepen until the Mesozoic—trajectories reflecting evolutionary radiations, changes in nutrient cycling, and alleviation of oxygen stress.
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Tarhanetal_adu7719R1_MainText_marked_v5
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sciadv.adu7719
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Accepted/In Press date: 2 July 2025
Published date: 30 July 2025
Identifiers
Local EPrints ID: 504721
URI: http://eprints.soton.ac.uk/id/eprint/504721
ISSN: 2375-2548
PURE UUID: 5500f4fb-ebc8-4881-bb6e-2e880eceaa01
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Date deposited: 18 Sep 2025 16:42
Last modified: 19 Sep 2025 02:13
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Contributors
Author:
Lidya G. Tarhan
Author:
Kate H. Pippenger
Author:
Alison T. Cribb
Author:
Michelle Zill
Author:
William Phelps
Author:
Mary L. Droser
Author:
David J. Bottjer
Author:
Matthew E. Clapham
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