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Evidence for seasonal cycles in deep-sea fish abundances:: A great migration in the deep SE Atlantic?

Evidence for seasonal cycles in deep-sea fish abundances:: A great migration in the deep SE Atlantic?
Evidence for seasonal cycles in deep-sea fish abundances:: A great migration in the deep SE Atlantic?
Animal migrations are of global ecological significance, providing mechanisms for the transport of nutrients and energy between distant locations. In much of the deep sea (>200 m water depth), the export of nutrients from the surface ocean provides a crucial but seasonally variable energy source to seafloor ecosystems. Seasonal faunal migrations have been hypothesized to occur on the deep seafloor as a result, but have not been documented. Here, we analyse a 7.5‐year record of photographic data from the Deep‐ocean Environmental Long‐term Observatory Systems seafloor observatories to determine whether there was evidence of seasonal (intra‐annual) migratory behaviours in a deep‐sea fish assemblage on the West African margin and, if so, identify potential cues for the behaviour. Our findings demonstrate a correlation between intra‐annual changes in demersal fish abundance at 1,400 m depth and satellite‐derived estimates of primary production off the coast of Angola. Highest fish abundances were observed in late November with a smaller peak in June, occurring approximately 4 months after corresponding peaks in primary production. Observed changes in fish abundance occurred too rapidly to be explained by recruitment or mortality, and must therefore have a behavioural driver. Given the recurrent patterns observed, and the established importance of bottom‐up trophic structuring in deep‐sea ecosystems, we hypothesize that a large fraction of the fish assemblage may conduct seasonal migrations in this region, and propose seasonal variability in surface ocean primary production as a plausible cause. Such trophic control could lead to changes in the abundance of fishes across the seafloor by affecting secondary production of prey species and/or carrion availability for example. In summary, we present the first evidence for seasonally recurring patterns in deep‐sea demersal fish abundances over a 7‐year period, and demonstrate a previously unobserved level of dynamism in the deep sea, potentially mirroring the great migrations so well characterized in terrestrial systems.
Africa, SE Atlantic Ocean, connectivity, deep sea, fishes, migration
0021-8790
1593-1603
Milligan, Rosanna J.
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Scott, E. Marian
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Jones, Daniel O. B.
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Bett, Brian J.
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Jamieson, Alan J.
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O’brien, Robert
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Pereira Costa, Sofia
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Rowe, Gilbert T.
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Ruhl, Henry A.
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Smith, Ken L.
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De Susanne, Philippe
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Vardaro, Michael F.
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Bailey, David M.
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Chapman, Jason
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Milligan, Rosanna J.
adc65061-69ca-427d-9a0b-f1ea50b45e71
Scott, E. Marian
9019c321-1a95-41d8-9f8f-ea0e8dbfd5fe
Jones, Daniel O. B.
44fc07b3-5fb7-4bf5-9cec-78c78022613a
Bett, Brian J.
61342990-13be-45ae-9f5c-9540114335d9
Jamieson, Alan J.
ab7c9067-fe1d-47f9-921f-c57108b6f23c
O’brien, Robert
3e26e64d-72ee-497c-bcdb-0959caf349b4
Pereira Costa, Sofia
1748ecd4-a2ed-4dff-ae23-8073e1a411d9
Rowe, Gilbert T.
11e8f2e4-91e0-40a7-8472-91e7807d7f8d
Ruhl, Henry A.
177608ef-7793-4911-86cf-cd9960ff22b6
Smith, Ken L.
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De Susanne, Philippe
6b14266e-d489-4920-876c-1289b347d7cb
Vardaro, Michael F.
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Bailey, David M.
6888df28-2844-45f7-97c6-c4fa3cd745ab
Chapman, Jason
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Milligan, Rosanna J., Scott, E. Marian, Jones, Daniel O. B., Bett, Brian J., Jamieson, Alan J., O’brien, Robert, Pereira Costa, Sofia, Rowe, Gilbert T., Ruhl, Henry A., Smith, Ken L., De Susanne, Philippe, Vardaro, Michael F. and Bailey, David M. , Chapman, Jason (ed.) (2020) Evidence for seasonal cycles in deep-sea fish abundances:: A great migration in the deep SE Atlantic? Journal of Animal Ecology, 89 (7), 1593-1603. (doi:10.1111/1365-2656.13215).

Record type: Article

Abstract

Animal migrations are of global ecological significance, providing mechanisms for the transport of nutrients and energy between distant locations. In much of the deep sea (>200 m water depth), the export of nutrients from the surface ocean provides a crucial but seasonally variable energy source to seafloor ecosystems. Seasonal faunal migrations have been hypothesized to occur on the deep seafloor as a result, but have not been documented. Here, we analyse a 7.5‐year record of photographic data from the Deep‐ocean Environmental Long‐term Observatory Systems seafloor observatories to determine whether there was evidence of seasonal (intra‐annual) migratory behaviours in a deep‐sea fish assemblage on the West African margin and, if so, identify potential cues for the behaviour. Our findings demonstrate a correlation between intra‐annual changes in demersal fish abundance at 1,400 m depth and satellite‐derived estimates of primary production off the coast of Angola. Highest fish abundances were observed in late November with a smaller peak in June, occurring approximately 4 months after corresponding peaks in primary production. Observed changes in fish abundance occurred too rapidly to be explained by recruitment or mortality, and must therefore have a behavioural driver. Given the recurrent patterns observed, and the established importance of bottom‐up trophic structuring in deep‐sea ecosystems, we hypothesize that a large fraction of the fish assemblage may conduct seasonal migrations in this region, and propose seasonal variability in surface ocean primary production as a plausible cause. Such trophic control could lead to changes in the abundance of fishes across the seafloor by affecting secondary production of prey species and/or carrion availability for example. In summary, we present the first evidence for seasonally recurring patterns in deep‐sea demersal fish abundances over a 7‐year period, and demonstrate a previously unobserved level of dynamism in the deep sea, potentially mirroring the great migrations so well characterized in terrestrial systems.

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1365-2656.13215 - Version of Record
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Accepted/In Press date: 14 February 2020
e-pub ahead of print date: 11 April 2020
Published date: 1 July 2020
Additional Information: Funding Information: The authors would like to thank Mr John Polanski and Dr Stewart Chalmers for their assistance with data collection and processing, as well as the captains and crews of the field support vessels for their expertise in deploying and recovering the DELOS observatory modules. This research was funded by BP Exploration and BP Angola, and is a collaboration between Glasgow University (UK), the National Oceanography Centre (UK), Oceanlab (University of Aberdeen, UK), the Instituto Nacional de Investiga??o Pesqueira (Angola), Monterey Bay Aquarium Research Institute (USA), Texas A&M University (USA) and Sonangol. R.J.M. was funded by a NERC studentship (NE/I528369). D.O.B.J., B.J.B. and H.A.R. received support from the UK Natural Environment Research Council via National Capability funding of ?Climate Linked Atlantic Sector Science? (CLASS; NE/R015953/1). The authors declare no competing interests. Publisher Copyright: © 2020 The Authors. Journal of Animal Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society
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Keywords: Africa, SE Atlantic Ocean, connectivity, deep sea, fishes, migration

Identifiers

Local EPrints ID: 439790
URI: http://eprints.soton.ac.uk/id/eprint/439790
DOI: doi:10.1111/1365-2656.13215
ISSN: 0021-8790
PURE UUID: 559360a6-b0b5-4005-807c-dfc6fca65ffe

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Date deposited: 04 May 2020 16:34
Last modified: 10 May 2024 16:59

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Contributors

Author: Rosanna J. Milligan
Author: E. Marian Scott
Author: Daniel O. B. Jones
Author: Brian J. Bett
Author: Alan J. Jamieson
Author: Robert O’brien
Author: Sofia Pereira Costa
Author: Gilbert T. Rowe
Author: Henry A. Ruhl
Author: Ken L. Smith
Author: Philippe De Susanne
Author: Michael F. Vardaro
Author: David M. Bailey
Editor: Jason Chapman

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