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Sediment mixed layer as a proxy for benthic ecosystem process and function

Sediment mixed layer as a proxy for benthic ecosystem process and function
Sediment mixed layer as a proxy for benthic ecosystem process and function
Faunal mediated particle and porewater mixing (bioturbation) alters the structure of the surface sediment layer, forming a distinct mixed layer, where the majority of organic matter degradation takes place. Current methods of assessing benthic habitat quality often reference this mixed layer as an indicator of benthic activity. Whilst a great deal of effort has been devoted to linking macro-invertebrate activity to the mixing depth, less attention has been given to defining what the mixing depth represents in terms of ecosystem process and function. Here, in situ sediment profile images are analysed using grey scale intensity analysis to distinguish the mixed zone and relate it to the physicochemical environment in order to determine the biological, chemical and physical variables most influential in its formation. Significant differences were found between biogeochemical conditions within the mixed layer relative to the underlying historic sediment layer. These were attributed to a combination of environmental variables (Fe, Mn, Si, chlorophyll a and NO3 – ) rather than a single dominant driver of change. Although these findings are consistent across multiple locations, the driver(s) that influence the depth of the mixed layer are site- and season-specific. The mixing depth thus provides a reasonable approximation of benthic ecosystem functioning, but when considering ecosystem process the link between the mixing depth and its driving factors (faunal mixing, food input, environmental conditions) is highly context-dependent. Conclusions on benthic community dynamics and ecosystem process, including assessments of habitat quality, cannot therefore be drawn from estimates of the mixing depth alone.
0171-8630
Teal, L. R.
89ee9eba-9405-4a1a-aa30-e3e3181980cf
Parker, E. R.
1e7487cc-7ddf-4c56-9a6c-c6b1aafdaa3f
Solan, M.
c28b294a-1db6-4677-8eab-bd8d6221fecf
Teal, L. R.
89ee9eba-9405-4a1a-aa30-e3e3181980cf
Parker, E. R.
1e7487cc-7ddf-4c56-9a6c-c6b1aafdaa3f
Solan, M.
c28b294a-1db6-4677-8eab-bd8d6221fecf

Teal, L. R., Parker, E. R. and Solan, M. (2010) Sediment mixed layer as a proxy for benthic ecosystem process and function. Marine Ecology Progress Series. (doi:10.3354/meps08736).

Record type: Article

Abstract

Faunal mediated particle and porewater mixing (bioturbation) alters the structure of the surface sediment layer, forming a distinct mixed layer, where the majority of organic matter degradation takes place. Current methods of assessing benthic habitat quality often reference this mixed layer as an indicator of benthic activity. Whilst a great deal of effort has been devoted to linking macro-invertebrate activity to the mixing depth, less attention has been given to defining what the mixing depth represents in terms of ecosystem process and function. Here, in situ sediment profile images are analysed using grey scale intensity analysis to distinguish the mixed zone and relate it to the physicochemical environment in order to determine the biological, chemical and physical variables most influential in its formation. Significant differences were found between biogeochemical conditions within the mixed layer relative to the underlying historic sediment layer. These were attributed to a combination of environmental variables (Fe, Mn, Si, chlorophyll a and NO3 – ) rather than a single dominant driver of change. Although these findings are consistent across multiple locations, the driver(s) that influence the depth of the mixed layer are site- and season-specific. The mixing depth thus provides a reasonable approximation of benthic ecosystem functioning, but when considering ecosystem process the link between the mixing depth and its driving factors (faunal mixing, food input, environmental conditions) is highly context-dependent. Conclusions on benthic community dynamics and ecosystem process, including assessments of habitat quality, cannot therefore be drawn from estimates of the mixing depth alone.

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Published date: 13 September 2010
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Identifiers

Local EPrints ID: 455784
URI: http://eprints.soton.ac.uk/id/eprint/455784
DOI: doi:10.3354/meps08736
ISSN: 0171-8630
PURE UUID: 8e18de66-7168-485f-a6ba-8b6a9af44d1e
ORCID for M. Solan: ORCID iD orcid.org/0000-0001-9924-5574

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Date deposited: 04 Apr 2022 16:46
Last modified: 17 Mar 2024 03:15

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Contributors

Author: L. R. Teal
Author: E. R. Parker
Author: M. Solan ORCID iD

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