β-diversity of deep-sea holothurians and asteroids along a bathymetric gradient (NE Atlantic)
β-diversity of deep-sea holothurians and asteroids along a bathymetric gradient (NE Atlantic)
Measuring and understanding patterns of ?-diversity remain major challenges in community ecology. Recently, ?-diversity has been shown to consist of 2 distinct components: (1) spatial turnover and (2) species loss leading to nestedness. Both components structure deep-sea macrofaunal assemblages but vary in importance among taxa and ocean basins and with energy availability. Here, we present the first evidence for turnover and nestedness along a bathymetric gradient in 2 major megafaunal taxa, holothurians and asteroids. Turnover is the dominant component of ?-diversity throughout bathyal and abyssal zones in both taxa, despite major differences in ?-diversity and trophic composition. High spatial turnover suggests a role for evolutionary adaptation to environmental circumstances within depth bands. This pattern differs fundamentally from those in some macrofaunal groups in low-energy environments where abyssal nestedness is high and diversity low, with diversity maintained partly by source-sink dynamics.
Beta diversity, Nestedness, Turnover, Source-sink dynamics, Deep sea, Echinoderms, Asteroids, Holothurians
177-185
Wagstaff, M.C.
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Howell, K.L.
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Bett, Brian J.
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Billett, David S.M.
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Brault, S.
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Stuart, C.T.
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Rex, M.A.
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4 August 2014
Wagstaff, M.C.
b191ec5f-d6a8-4e0f-885a-ca95f268e7ce
Howell, K.L.
3bfa5538-0159-4c5a-af48-7962e87e3436
Bett, Brian J.
61342990-13be-45ae-9f5c-9540114335d9
Billett, David S.M.
aab439e2-c839-4cd2-815c-3d401e0468db
Brault, S.
4c8ea623-c423-4e9c-97f9-1a32a2ea2e76
Stuart, C.T.
d44f62a1-db74-4356-95fa-4dcaa908b5c0
Rex, M.A.
6bbb4fb4-6a68-4edb-afc9-6b251df51a25
Wagstaff, M.C., Howell, K.L., Bett, Brian J., Billett, David S.M., Brault, S., Stuart, C.T. and Rex, M.A.
(2014)
β-diversity of deep-sea holothurians and asteroids along a bathymetric gradient (NE Atlantic).
Marine Ecology Progress Series, 508, .
(doi:10.3354/meps10877).
Abstract
Measuring and understanding patterns of ?-diversity remain major challenges in community ecology. Recently, ?-diversity has been shown to consist of 2 distinct components: (1) spatial turnover and (2) species loss leading to nestedness. Both components structure deep-sea macrofaunal assemblages but vary in importance among taxa and ocean basins and with energy availability. Here, we present the first evidence for turnover and nestedness along a bathymetric gradient in 2 major megafaunal taxa, holothurians and asteroids. Turnover is the dominant component of ?-diversity throughout bathyal and abyssal zones in both taxa, despite major differences in ?-diversity and trophic composition. High spatial turnover suggests a role for evolutionary adaptation to environmental circumstances within depth bands. This pattern differs fundamentally from those in some macrofaunal groups in low-energy environments where abyssal nestedness is high and diversity low, with diversity maintained partly by source-sink dynamics.
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Published date: 4 August 2014
Keywords:
Beta diversity, Nestedness, Turnover, Source-sink dynamics, Deep sea, Echinoderms, Asteroids, Holothurians
Organisations:
National Oceanography Centre
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Local EPrints ID: 368589
URI: http://eprints.soton.ac.uk/id/eprint/368589
PURE UUID: 8626c933-eeee-47c2-bb93-c61989c85e8b
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Date deposited: 04 Sep 2014 12:34
Last modified: 14 Mar 2024 17:50
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Author:
M.C. Wagstaff
Author:
K.L. Howell
Author:
Brian J. Bett
Author:
David S.M. Billett
Author:
S. Brault
Author:
C.T. Stuart
Author:
M.A. Rex
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