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Comparison of mesozooplankton communities at three shallow seamounts in the South West Indian Ocean

Comparison of mesozooplankton communities at three shallow seamounts in the South West Indian Ocean
Comparison of mesozooplankton communities at three shallow seamounts in the South West Indian Ocean
Seamounts are recognised as hotspots of biodiversity, attracting large numbers of top predators, but the underlying mechanisms are still unclear. We studied mesozooplankton abundance and size distribution at three shallow seamounts (60 m, 240 m and 18 m deep) in the South West Indian Ocean, along a latitudinal gradient (19°S, 27°S and 33°S). Samples were analysed using a ZooScan, allowing the use of a size-based approach. Differences were observed between seamount areas, but overall zooplankton communities did not seem to be affected by the changes in topography. Only in the lee of La Pérouse seamount was the zooplankton community slightly more concentrated than upstream, suggesting that zooplankton were flushed downstream of the seamount. The southernmost and shallowest seamount, Walters Shoal, had low abundance and its size spectrum differed greatly from the two other seamounts further north. These differences were attributed to seasonality and mesozooplankton population dynamics, whereas the other two seamounts exhibited a more “typical” oligotrophic pelagic ecosystem, at equilibrium and dominated by small organisms. At the time of sampling, the unnamed seamount south of Madagascar was influenced by a mesoscale dipole that impacted the zooplankton distribution, potentially masking any seamount effect. The normalised biomass size spectrum approach contributed to a better understanding of the ecosystem dynamics (i.e. equilibrium vs. non-steady state) but revealed little variability within a stable oligotrophic environment.
Mesoscale eddies, Normalised biovolume size spectrum (NBSS), Oligotrophic environment, Pelagic ecology, Topography
0967-0645
Noyon, Margaux
1a6ae88b-11d0-4801-9b5f-4dc88e09d1c1
Rasoloarijao, Zo
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Huggett, Jenny
9e97e3d6-53af-4d0e-a301-9c635681a565
Ternon, Jean-Francois
f197091c-90c6-441c-89fb-91c170a6b1e9
Roberts, Michael
7f219d40-854f-4688-a924-de002b71169d
Noyon, Margaux
1a6ae88b-11d0-4801-9b5f-4dc88e09d1c1
Rasoloarijao, Zo
5b41c367-7042-42af-a85b-4088a86b438c
Huggett, Jenny
9e97e3d6-53af-4d0e-a301-9c635681a565
Ternon, Jean-Francois
f197091c-90c6-441c-89fb-91c170a6b1e9
Roberts, Michael
7f219d40-854f-4688-a924-de002b71169d

Noyon, Margaux, Rasoloarijao, Zo, Huggett, Jenny, Ternon, Jean-Francois and Roberts, Michael (2020) Comparison of mesozooplankton communities at three shallow seamounts in the South West Indian Ocean. Deep Sea Research Part II: Topical Studies in Oceanography, 176, [104759]. (doi:10.1016/j.dsr2.2020.104759).

Record type: Article

Abstract

Seamounts are recognised as hotspots of biodiversity, attracting large numbers of top predators, but the underlying mechanisms are still unclear. We studied mesozooplankton abundance and size distribution at three shallow seamounts (60 m, 240 m and 18 m deep) in the South West Indian Ocean, along a latitudinal gradient (19°S, 27°S and 33°S). Samples were analysed using a ZooScan, allowing the use of a size-based approach. Differences were observed between seamount areas, but overall zooplankton communities did not seem to be affected by the changes in topography. Only in the lee of La Pérouse seamount was the zooplankton community slightly more concentrated than upstream, suggesting that zooplankton were flushed downstream of the seamount. The southernmost and shallowest seamount, Walters Shoal, had low abundance and its size spectrum differed greatly from the two other seamounts further north. These differences were attributed to seasonality and mesozooplankton population dynamics, whereas the other two seamounts exhibited a more “typical” oligotrophic pelagic ecosystem, at equilibrium and dominated by small organisms. At the time of sampling, the unnamed seamount south of Madagascar was influenced by a mesoscale dipole that impacted the zooplankton distribution, potentially masking any seamount effect. The normalised biomass size spectrum approach contributed to a better understanding of the ecosystem dynamics (i.e. equilibrium vs. non-steady state) but revealed little variability within a stable oligotrophic environment.

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Accepted/In Press date: 10 February 2020
e-pub ahead of print date: 19 February 2020
Published date: June 2020
Additional Information: Funding Information: The authors would like to thank the anonymous reviewers as well as Hervé Demarcq for his help with the remote sensing products. We also thank the crew and scientists who worked on the RV Antea . All cruises were supported by the Flotte Océanographique Française (French Oceanographic Fleet) and IRD regarding the logistics on the RV Antea . Additional funding was received from Région Reunion ( Réunion Regional Council ) for La Pérouse cruise, from the Fonds Français pour l’Environnement Mondial (FFEM) as part of the FFEM-SWIO project on Areas Beyond National Jurisdiction (ABNJ) of the South West Indian Ocean for MAD-Ridge cruise as well as from the UKRI Global Challenges Research Fund (GCRF) Project: NE/P021050/01 - Sustainable Oceans, Livelihoods and food Security Through Increased Capacity in Ecosystem research in the Western Indian Ocean (SOLSTICE-WIO). Zo Rasoloarijao received a MSc bursary from the South African National Research Foundation (NRF). Publisher Copyright: © 2020 Elsevier Ltd
Keywords: Mesoscale eddies, Normalised biovolume size spectrum (NBSS), Oligotrophic environment, Pelagic ecology, Topography

Identifiers

Local EPrints ID: 442011
URI: http://eprints.soton.ac.uk/id/eprint/442011
ISSN: 0967-0645
PURE UUID: eff4a132-9aea-4aa9-a2f2-fd04c7443707

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Date deposited: 03 Jul 2020 16:38
Last modified: 16 Mar 2024 07:48

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Contributors

Author: Margaux Noyon
Author: Zo Rasoloarijao
Author: Jenny Huggett
Author: Jean-Francois Ternon
Author: Michael Roberts

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