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In situ quantification of bioturbation using time-lapse fluorescent sediment profile imaging (f-SPI), luminophore tracers and model simulation

In situ quantification of bioturbation using time-lapse fluorescent sediment profile imaging (f-SPI), luminophore tracers and model simulation
In situ quantification of bioturbation using time-lapse fluorescent sediment profile imaging (f-SPI), luminophore tracers and model simulation
In order to link actual biological data on bioturbation to the abstract parameters in bioturbation models, high-resolution data on the frequency and lengths of particle displacements are required. The temporal variation in bioturbation for a subtidal macrofaunal assemblage was studied non-invasively and in situ using an optically modified fluorescence sensitive time-lapse sediment profile imaging camera (f-SPI), fluorescent-dyed sediment particles (luminophores) and mathematical modelling. This combined approach allowed tracer particles to be non-invasively tracked and their displacements monitored at an unprecedented spatial (78 µm) and temporal (every 10 min) resolution for extended periods of time (16 h). The redistribution of luminophores was digitally acquired from sequential images and compared to model predictions, with particle transport modelled as (1) a diffusive process, allowing the biodiffusion coefficient, Db, to be estimated, and (2) a non-local process, allowing a reworking activity constant, a, to be calculated. Model predictions of luminophore particle transport for the final image of the f-SPI sequence gave: Db = 1.26 × 102 cm2 yr-1; a = 5.23 × 10-2 cm-1 yr-1. Discrete values of a fluctuated widely throughout the sequence and allowed discrete bioturbation events to be identified. Time-lapse movie sequences revealed that most of the bioturbation observed during the deployment could be directly attributed to the behaviour of the brachyuran crab Hyas araneus. Our findings demonstrate that f-SPI provides a rapid and non-invasive means to visualise and quantify, in situ, the extent and influence of discrete infaunal bioturbation events on particle mixing. This technique provides detailed information on the spatial and temporal resolution of such bioturbation events, which could significantly improve existing models of bioturbation.
sediment profile imaging, luminophore tracer, bioturbation, biodiffusion coefficient, reworking activity constant, non-local modelling, benthic
0171-8630
1-12
Solan, M.
c28b294a-1db6-4677-8eab-bd8d6221fecf
Wigham, B.D.
baa74f68-edf2-4301-9d78-92beaa885acf
Hudson, I.R.
b389d7dc-3ff3-4925-82bd-7df95f200f2d
Kennedy, R.
8bebba0c-f251-465d-bfb7-3df6f7cd2973
Coulon, C.H.
dfd45c27-e4e0-4186-8427-3687d27577f2
Norling, K.
f626e7d7-ed7b-47e0-9ec7-578b561ceef6
Nilsson, H.C.
5158efa3-e862-428f-bf27-b8fc5e45a014
Rosenberg, R.
a88c7f59-2a63-49e7-b82d-553a1701a9ec
Solan, M.
c28b294a-1db6-4677-8eab-bd8d6221fecf
Wigham, B.D.
baa74f68-edf2-4301-9d78-92beaa885acf
Hudson, I.R.
b389d7dc-3ff3-4925-82bd-7df95f200f2d
Kennedy, R.
8bebba0c-f251-465d-bfb7-3df6f7cd2973
Coulon, C.H.
dfd45c27-e4e0-4186-8427-3687d27577f2
Norling, K.
f626e7d7-ed7b-47e0-9ec7-578b561ceef6
Nilsson, H.C.
5158efa3-e862-428f-bf27-b8fc5e45a014
Rosenberg, R.
a88c7f59-2a63-49e7-b82d-553a1701a9ec

Solan, M., Wigham, B.D., Hudson, I.R., Kennedy, R., Coulon, C.H., Norling, K., Nilsson, H.C. and Rosenberg, R. (2004) In situ quantification of bioturbation using time-lapse fluorescent sediment profile imaging (f-SPI), luminophore tracers and model simulation. Marine Ecology Progress Series, 271, 1-12.

Record type: Article

Abstract

In order to link actual biological data on bioturbation to the abstract parameters in bioturbation models, high-resolution data on the frequency and lengths of particle displacements are required. The temporal variation in bioturbation for a subtidal macrofaunal assemblage was studied non-invasively and in situ using an optically modified fluorescence sensitive time-lapse sediment profile imaging camera (f-SPI), fluorescent-dyed sediment particles (luminophores) and mathematical modelling. This combined approach allowed tracer particles to be non-invasively tracked and their displacements monitored at an unprecedented spatial (78 µm) and temporal (every 10 min) resolution for extended periods of time (16 h). The redistribution of luminophores was digitally acquired from sequential images and compared to model predictions, with particle transport modelled as (1) a diffusive process, allowing the biodiffusion coefficient, Db, to be estimated, and (2) a non-local process, allowing a reworking activity constant, a, to be calculated. Model predictions of luminophore particle transport for the final image of the f-SPI sequence gave: Db = 1.26 × 102 cm2 yr-1; a = 5.23 × 10-2 cm-1 yr-1. Discrete values of a fluctuated widely throughout the sequence and allowed discrete bioturbation events to be identified. Time-lapse movie sequences revealed that most of the bioturbation observed during the deployment could be directly attributed to the behaviour of the brachyuran crab Hyas araneus. Our findings demonstrate that f-SPI provides a rapid and non-invasive means to visualise and quantify, in situ, the extent and influence of discrete infaunal bioturbation events on particle mixing. This technique provides detailed information on the spatial and temporal resolution of such bioturbation events, which could significantly improve existing models of bioturbation.

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More information

Published date: 2004
Keywords: sediment profile imaging, luminophore tracer, bioturbation, biodiffusion coefficient, reworking activity constant, non-local modelling, benthic

Identifiers

Local EPrints ID: 9873
URI: http://eprints.soton.ac.uk/id/eprint/9873
ISSN: 0171-8630
PURE UUID: 87395e6d-c7d1-4be1-bd2a-f42cc792880a
ORCID for M. Solan: ORCID iD orcid.org/0000-0001-9924-5574

Catalogue record

Date deposited: 25 Oct 2005
Last modified: 25 Feb 2023 02:42

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Contributors

Author: M. Solan ORCID iD
Author: B.D. Wigham
Author: I.R. Hudson
Author: R. Kennedy
Author: C.H. Coulon
Author: K. Norling
Author: H.C. Nilsson
Author: R. Rosenberg

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