Jelly-falls historic and recent observations: a review to drive future research directions
Jelly-falls historic and recent observations: a review to drive future research directions
The biological pump describes the transport of particulate matter from the sea surface to the ocean’s interior including the seabed. The contribution by gelatinous zooplankton bodies as particulate organic matter (POM) vectors (“jelly-falls”) has been neglected owing to technical and spatiotemporal sampling limitations. Here, we assess the existing evidence on jelly-falls from early ocean observations to present times. The seasonality of jelly-falls indicates that they mostly occur after periods of strong upwelling and/or spring blooms in temperate/subpolar zones and during late spring/early summer. A conceptual model helps to define a jelly-fall based on empirical and field observations of biogeochemical and ecological processes. We then compile and discuss existing strategic and observational oceanographic techniques that could be implemented to further jelly-falls research. Seabed video- and photography-based studies deliver the best results, and the correct use of fishing techniques, such as trawling, could provide comprehensive regional datasets. We conclude by considering the possibility of increased gelatinous biomasses in the future ocean induced by upper ocean processes favouring their populations, thus increasing jelly-POM downward transport. We suggest that this could provide a “natural compensation” for predicted losses in pelagic POM with respect to fuelling benthic ecosystems.
Biological pump, Gelatinous zooplankton, Jelly-fall, Organic matter
227-245
Lebrato, Mario
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Pitt, Kylie A.
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Sweetman, Andrew K.
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Jones, Daniel O.B.
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Cartes, Joan E.
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Oschlies, Andreas
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Condon, Robert H.
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Molinero, Juan Carlos
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Adler, Laetitia
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Gaillard, Christian
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Lloris, Domingo
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Billett, David S.M.
aab439e2-c839-4cd2-815c-3d401e0468db
2012
Lebrato, Mario
0c14d20e-c641-4a61-8ba2-b6377cdf1777
Pitt, Kylie A.
5aa1bb5c-3ee9-4b32-b27f-1f3373989148
Sweetman, Andrew K.
5304cde0-8e83-4a68-8249-fa2d9e70d8bb
Jones, Daniel O.B.
44fc07b3-5fb7-4bf5-9cec-78c78022613a
Cartes, Joan E.
de93ec1c-d054-41c9-976a-2bb9a6fc2292
Oschlies, Andreas
75e18f55-3134-44a2-82ba-71334397727f
Condon, Robert H.
f4038285-21fd-46b9-b07b-0ae0d76cfe86
Molinero, Juan Carlos
c1535d85-7a43-4438-8da6-f58d896b7806
Adler, Laetitia
1d6c0b2a-300a-464f-8a5c-d3bc7ecfb983
Gaillard, Christian
8e6e7700-03a8-44ba-bfa7-fb5bc9571a9a
Lloris, Domingo
49e8b6cd-fcfd-4264-b168-d28c80e76993
Billett, David S.M.
aab439e2-c839-4cd2-815c-3d401e0468db
Lebrato, Mario, Pitt, Kylie A., Sweetman, Andrew K., Jones, Daniel O.B., Cartes, Joan E., Oschlies, Andreas, Condon, Robert H., Molinero, Juan Carlos, Adler, Laetitia, Gaillard, Christian, Lloris, Domingo and Billett, David S.M.
(2012)
Jelly-falls historic and recent observations: a review to drive future research directions.
Hydrobiologia, 690 (1), .
(doi:10.1007/s10750-012-1046-8).
Abstract
The biological pump describes the transport of particulate matter from the sea surface to the ocean’s interior including the seabed. The contribution by gelatinous zooplankton bodies as particulate organic matter (POM) vectors (“jelly-falls”) has been neglected owing to technical and spatiotemporal sampling limitations. Here, we assess the existing evidence on jelly-falls from early ocean observations to present times. The seasonality of jelly-falls indicates that they mostly occur after periods of strong upwelling and/or spring blooms in temperate/subpolar zones and during late spring/early summer. A conceptual model helps to define a jelly-fall based on empirical and field observations of biogeochemical and ecological processes. We then compile and discuss existing strategic and observational oceanographic techniques that could be implemented to further jelly-falls research. Seabed video- and photography-based studies deliver the best results, and the correct use of fishing techniques, such as trawling, could provide comprehensive regional datasets. We conclude by considering the possibility of increased gelatinous biomasses in the future ocean induced by upper ocean processes favouring their populations, thus increasing jelly-POM downward transport. We suggest that this could provide a “natural compensation” for predicted losses in pelagic POM with respect to fuelling benthic ecosystems.
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Published date: 2012
Keywords:
Biological pump, Gelatinous zooplankton, Jelly-fall, Organic matter
Organisations:
Marine Biogeochemistry
Identifiers
Local EPrints ID: 340758
URI: http://eprints.soton.ac.uk/id/eprint/340758
ISSN: 0018-8158
PURE UUID: b0ef06b9-73de-429d-930c-0b158c5ea8ec
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Date deposited: 02 Jul 2012 12:24
Last modified: 14 Mar 2024 11:29
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Contributors
Author:
Mario Lebrato
Author:
Kylie A. Pitt
Author:
Andrew K. Sweetman
Author:
Daniel O.B. Jones
Author:
Joan E. Cartes
Author:
Andreas Oschlies
Author:
Robert H. Condon
Author:
Juan Carlos Molinero
Author:
Laetitia Adler
Author:
Christian Gaillard
Author:
Domingo Lloris
Author:
David S.M. Billett
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