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Sinking organic particles in the ocean—flux estimates from in situ optical devices

Sinking organic particles in the ocean—flux estimates from in situ optical devices
Sinking organic particles in the ocean—flux estimates from in situ optical devices
Optical particle measurements are emerging as an important technique for understanding the ocean carbon cycle, including contributions to estimates of their downward flux, which sequesters carbon dioxide (CO2) in the deep sea. Optical instruments can be used from ships or installed on autonomous platforms, delivering much greater spatial and temporal coverage of particles in the mesopelagic zone of the ocean than traditional techniques, such as sediment traps. Technologies to image particles have advanced greatly over the last two decades, but the quantitative translation of these immense datasets into biogeochemical properties remains a challenge. In particular, advances are needed to enable the optimal translation of imaged objects into carbon content and sinking velocities. In addition, different devices often measure different optical properties, leading to difficulties in comparing results. Here we provide a practical overview of the challenges and potential of using these instruments, as a step toward improvement and expansion of their applications.
automated classification, biological carbon pump, carbon content, image processing, in situ optical particle measurements, sinking particle fluxes, sinking velocities, size
2296-7745
Giering, Sarah Lou Carolin
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Cavan, Emma Louise
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Basedow, Sünnje Linnéa
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Briggs, Nathan
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Burd, Adrian B.
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Darroch, Louise J.
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Guidi, Lionel
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Irisson, Jean-olivier
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Iversen, Morten H.
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Kiko, Rainer
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Lindsay, Dhugal
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Marcolin, Catarina R.
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Mcdonnell, Andrew M. P.
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Möller, Klas Ove
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Passow, Uta
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Thomalla, Sandy
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Trull, Thomas William
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Waite, Anya M.
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Giering, Sarah Lou Carolin
e9b75287-e35e-414a-a5f2-cef9f2ab2efd
Cavan, Emma Louise
f96a77ae-997b-4027-b996-03b79201b429
Basedow, Sünnje Linnéa
ed133c79-2c84-4880-bd7a-8b484067c0ab
Briggs, Nathan
a53aa80d-785a-4ace-99d3-72fa05e94471
Burd, Adrian B.
b9104c67-56ce-4304-a1a7-76bc457e138d
Darroch, Louise J.
de3d6e3e-b6df-4a9d-bb61-3497bed9c541
Guidi, Lionel
ccca7f9a-a7e6-4ce5-8dd7-e89b56a254b2
Irisson, Jean-olivier
2cc0745a-4c7f-416c-ace0-9ec57a872296
Iversen, Morten H.
88b6d693-8ce7-4951-8e7f-b8b75c7a7f82
Kiko, Rainer
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Lindsay, Dhugal
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Marcolin, Catarina R.
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Mcdonnell, Andrew M. P.
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Möller, Klas Ove
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Passow, Uta
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Thomalla, Sandy
374c20de-16d7-4df5-9763-b32561d41f1d
Trull, Thomas William
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Waite, Anya M.
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Giering, Sarah Lou Carolin, Cavan, Emma Louise, Basedow, Sünnje Linnéa, Briggs, Nathan, Burd, Adrian B., Darroch, Louise J., Guidi, Lionel, Irisson, Jean-olivier, Iversen, Morten H., Kiko, Rainer, Lindsay, Dhugal, Marcolin, Catarina R., Mcdonnell, Andrew M. P., Möller, Klas Ove, Passow, Uta, Thomalla, Sandy, Trull, Thomas William and Waite, Anya M. (2020) Sinking organic particles in the ocean—flux estimates from in situ optical devices. Frontiers in Marine Science, 6 (834), [834]. (doi:10.3389/fmars.2019.00834).

Record type: Review

Abstract

Optical particle measurements are emerging as an important technique for understanding the ocean carbon cycle, including contributions to estimates of their downward flux, which sequesters carbon dioxide (CO2) in the deep sea. Optical instruments can be used from ships or installed on autonomous platforms, delivering much greater spatial and temporal coverage of particles in the mesopelagic zone of the ocean than traditional techniques, such as sediment traps. Technologies to image particles have advanced greatly over the last two decades, but the quantitative translation of these immense datasets into biogeochemical properties remains a challenge. In particular, advances are needed to enable the optimal translation of imaged objects into carbon content and sinking velocities. In addition, different devices often measure different optical properties, leading to difficulties in comparing results. Here we provide a practical overview of the challenges and potential of using these instruments, as a step toward improvement and expansion of their applications.

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Accepted/In Press date: 27 December 2019
Published date: 18 February 2020
Additional Information: Funding Information: This work was supported by Scientific Committee on Oceanic Research (SCOR). SG’s time was funded by UKRI through National Capability funding. Publisher Copyright: © Copyright © 2020 Giering, Cavan, Basedow, Briggs, Burd, Darroch, Guidi, Irisson, Iversen, Kiko, Lindsay, Marcolin, McDonnell, Möller, Passow, Thomalla, Trull and Waite.
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Keywords: automated classification, biological carbon pump, carbon content, image processing, in situ optical particle measurements, sinking particle fluxes, sinking velocities, size

Identifiers

Local EPrints ID: 439721
URI: http://eprints.soton.ac.uk/id/eprint/439721
DOI: doi:10.3389/fmars.2019.00834
ISSN: 2296-7745
PURE UUID: 50bc108d-4634-4be6-946e-62a4ecac352b

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Date deposited: 30 Apr 2020 16:31
Last modified: 16 Mar 2024 07:43

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Contributors

Author: Sarah Lou Carolin Giering
Author: Emma Louise Cavan
Author: Sünnje Linnéa Basedow
Author: Nathan Briggs
Author: Adrian B. Burd
Author: Louise J. Darroch
Author: Lionel Guidi
Author: Jean-olivier Irisson
Author: Morten H. Iversen
Author: Rainer Kiko
Author: Dhugal Lindsay
Author: Catarina R. Marcolin
Author: Andrew M. P. Mcdonnell
Author: Klas Ove Möller
Author: Uta Passow
Author: Sandy Thomalla
Author: Thomas William Trull
Author: Anya M. Waite

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