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Insoluble prokaryotic membrane lipids in continental shelf sediments offshore Cape Town: implications for organic matter preservation

Insoluble prokaryotic membrane lipids in continental shelf sediments offshore Cape Town: implications for organic matter preservation
Insoluble prokaryotic membrane lipids in continental shelf sediments offshore Cape Town: implications for organic matter preservation
The largest organic carbon (OC) reservoir on Earth is in the geosphere, mainly comprising insoluble organic matter (IOM). IOM formation, therefore, plays an important role in the short and long-term carbon cycle, carbon bioavailability and formation of source rocks. To explore the mechanism of insolubilization of organic matter (OM), we have analysed soluble and IOM fractions of continental shelf marine sediments. We have applied sequential solvent-extractions followed by a selective chemical degradation of the post-extraction residue, specifically targeting prokaryotic membrane lipids (branched fatty acids – FAs, hopanoids, archaeol and glycerol dialkyl glycerol tetraethers – GDGTs). Up to 80% of prokaryotic membrane lipids are not solvent-extractable, and we observe compound-specific differences in partitioning between soluble and IOM fractions. Based on these observations, we propose a variety of mechanisms for the incorporation of prokaryotic lipids into IOM in marine sediments: First, OM association with authigenic carbonates; second, cross-linking via esterification reactions with time, which could be particularly relevant for FAs; third, competition between reactivity and loss of polar head groups, the latter rendering the OM less susceptible to incorporation; and finally, inherent solvent-insolubility of some lipids associated with prokaryotic cells.
Marine sediments Insoluble organic matter Selective chemical degradation Carbonates GDGTs TEX
0304-4203
38-51
Chaves Torres, Lidia
80bd4994-0fa8-4501-83d1-5e4f4e7af214
Melbourne, Leanne A.
bda3dc1a-62d7-4217-a642-5df3ef8b2d00
Hernandez-Sanchez, Maria T.
43508768-fa14-43ab-a85c-b3b587fe1cb6
Inglis, Gordon N.
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Pancost, Richard D.
5914e19e-7777-4304-9fd8-86e2e9cfe8a1
Chaves Torres, Lidia
80bd4994-0fa8-4501-83d1-5e4f4e7af214
Melbourne, Leanne A.
bda3dc1a-62d7-4217-a642-5df3ef8b2d00
Hernandez-Sanchez, Maria T.
43508768-fa14-43ab-a85c-b3b587fe1cb6
Inglis, Gordon N.
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Pancost, Richard D.
5914e19e-7777-4304-9fd8-86e2e9cfe8a1

Chaves Torres, Lidia, Melbourne, Leanne A., Hernandez-Sanchez, Maria T., Inglis, Gordon N. and Pancost, Richard D. (2017) Insoluble prokaryotic membrane lipids in continental shelf sediments offshore Cape Town: implications for organic matter preservation. Marine Chemistry, 197, 38-51. (doi:10.1016/j.marchem.2017.10.003).

Record type: Article

Abstract

The largest organic carbon (OC) reservoir on Earth is in the geosphere, mainly comprising insoluble organic matter (IOM). IOM formation, therefore, plays an important role in the short and long-term carbon cycle, carbon bioavailability and formation of source rocks. To explore the mechanism of insolubilization of organic matter (OM), we have analysed soluble and IOM fractions of continental shelf marine sediments. We have applied sequential solvent-extractions followed by a selective chemical degradation of the post-extraction residue, specifically targeting prokaryotic membrane lipids (branched fatty acids – FAs, hopanoids, archaeol and glycerol dialkyl glycerol tetraethers – GDGTs). Up to 80% of prokaryotic membrane lipids are not solvent-extractable, and we observe compound-specific differences in partitioning between soluble and IOM fractions. Based on these observations, we propose a variety of mechanisms for the incorporation of prokaryotic lipids into IOM in marine sediments: First, OM association with authigenic carbonates; second, cross-linking via esterification reactions with time, which could be particularly relevant for FAs; third, competition between reactivity and loss of polar head groups, the latter rendering the OM less susceptible to incorporation; and finally, inherent solvent-insolubility of some lipids associated with prokaryotic cells.

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More information

Accepted/In Press date: 14 October 2017
e-pub ahead of print date: 19 October 2017
Published date: 20 December 2017
Keywords: Marine sediments Insoluble organic matter Selective chemical degradation Carbonates GDGTs TEX
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Identifiers

Local EPrints ID: 437533
URI: http://eprints.soton.ac.uk/id/eprint/437533
DOI: doi:10.1016/j.marchem.2017.10.003
ISSN: 0304-4203
PURE UUID: 9c4ca892-8307-4c9d-a4af-f607f52daf84
ORCID for Gordon N. Inglis: ORCID iD orcid.org/0000-0002-0032-4668

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Date deposited: 04 Feb 2020 17:30
Last modified: 17 Mar 2024 04:00

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Contributors

Author: Lidia Chaves Torres
Author: Leanne A. Melbourne
Author: Maria T. Hernandez-Sanchez
Author: Gordon N. Inglis ORCID iD
Author: Richard D. Pancost

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