Does presence of a mid-ocean ridge enhance biomass and biodiversity?

In contrast to generally sparse biological communities in open-ocean settings, seamounts and ridges are perceived as areas of elevated productivity and biodiversity capable of supporting commercial fisheries. We investigated the origin of this apparent biological enhancement over a segment of the No...

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Published in:Progress in Oceanography
Main Authors: Priede, Imants G., Bergstad, Odd Aksel, Miller, Peter I., Vecchione, Michael, Gebruk, Andrey, Falkenhaug, Tone, Billett, David S. M., Craig, Jessica, Dale, Andrew C., Shields, Mark A., Tilstone, Gavin H., Sutton, Tracey T., Gooday, Andrew J., Inall, Mark E., Jones, Daniel O. B., Martinez-Vicente, Victor, Menezes, Gui M., Niedzielski, Tomasz, Sigurosson, Porsteinn, Rothe, Nina, Rogacheva, Antonina, Alt, Claudia H. S., Brand, Timothy, Abell, Richard, Brierley, Andrew S., Cousins, Nicola J., Crockard, Deborah, Hoelzel, A. Rus, Hoines, Age, Letessier, Tom B., Read, Jane F., Shimmield, Tracy, Cox, Martin J., Galbraith, John K., Gordon, John D. M., Horton, Tammy, Neat, Francis, Lorance, Pascal
Other Authors: NERC, University of St Andrews. School of Biology, University of St Andrews. Marine Alliance for Science & Technology Scotland, University of St Andrews. Scottish Oceans Institute, University of St Andrews. Centre for Research into Ecological & Environmental Modelling, University of St Andrews. Pelagic Ecology Research Group
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Mid-Atlantic Ridge
Temperate North Eastern Atlantic
Deep water fish
North Atlantic
Sea floor
Coryphaenoides rupestris
Demersal fish
Ocean
Seamounts
Patterns
SDG 14 - Life Below Water
Online Access:http://hdl.handle.net/10023/4521
https://doi.org/10.1371/journal.pone.0061550
id ftstandrewserep:oai:research-repository.st-andrews.ac.uk:10023/4521
record_format openpolar
institution Open Polar
collection University of St Andrews: Digital Research Repository
op_collection_id ftstandrewserep
language English
topic Mid-Atlantic Ridge
Temperate North Eastern Atlantic
Deep water fish
North Atlantic
Sea floor
Coryphaenoides rupestris
Demersal fish
Ocean
Seamounts
Patterns
SDG 14 - Life Below Water
spellingShingle Mid-Atlantic Ridge
Temperate North Eastern Atlantic
Deep water fish
North Atlantic
Sea floor
Coryphaenoides rupestris
Demersal fish
Ocean
Seamounts
Patterns
SDG 14 - Life Below Water
Priede, Imants G.
Bergstad, Odd Aksel
Miller, Peter I.
Vecchione, Michael
Gebruk, Andrey
Falkenhaug, Tone
Billett, David S. M.
Craig, Jessica
Dale, Andrew C.
Shields, Mark A.
Tilstone, Gavin H.
Sutton, Tracey T.
Gooday, Andrew J.
Inall, Mark E.
Jones, Daniel O. B.
Martinez-Vicente, Victor
Menezes, Gui M.
Niedzielski, Tomasz
Sigurosson, Porsteinn
Rothe, Nina
Rogacheva, Antonina
Alt, Claudia H. S.
Brand, Timothy
Abell, Richard
Brierley, Andrew S.
Cousins, Nicola J.
Crockard, Deborah
Hoelzel, A. Rus
Hoines, Age
Letessier, Tom B.
Read, Jane F.
Shimmield, Tracy
Cox, Martin J.
Galbraith, John K.
Gordon, John D. M.
Horton, Tammy
Neat, Francis
Lorance, Pascal
Does presence of a mid-ocean ridge enhance biomass and biodiversity?
topic_facet Mid-Atlantic Ridge
Temperate North Eastern Atlantic
Deep water fish
North Atlantic
Sea floor
Coryphaenoides rupestris
Demersal fish
Ocean
Seamounts
Patterns
SDG 14 - Life Below Water
description In contrast to generally sparse biological communities in open-ocean settings, seamounts and ridges are perceived as areas of elevated productivity and biodiversity capable of supporting commercial fisheries. We investigated the origin of this apparent biological enhancement over a segment of the North Mid-Atlantic Ridge (MAR) using sonar, corers, trawls, traps, and a remotely operated vehicle to survey habitat, biomass, and biodiversity. Satellite remote sensing provided information on flow patterns, thermal fronts, and primary production, while sediment traps measured export flux during 2007-2010. The MAR, 3,704,404 km 2 in area, accounts for 44.7% lower bathyal habitat (800-3500 m depth) in the North Atlantic and is dominated by fine soft sediment substrate (95% of area) on a series of flat terraces with intervening slopes either side of the ridge axis contributing to habitat heterogeneity. The MAR fauna comprises mainly species known from continental margins with no evidence of greater biodiversity. Primary production and export flux over the MAR were not enhanced compared with a nearby reference station over the Porcupine Abyssal Plain. Biomasses of benthic macrofauna and megafauna were similar to global averages at the same depths totalling an estimated 258.9 kt C over the entire lower bathyal north MAR. A hypothetical flat plain at 3500 m depth in place of the MAR would contain 85.6 kt C, implying an increase of 173.3 kt C attributable to the presence of the Ridge. This is approximately equal to 167 kt C of estimated pelagic biomass displaced by the volume of the MAR. There is no enhancement of biological productivity over the MAR; oceanic bathypelagic species are replaced by benthic fauna otherwise unable to survive in the mid ocean. We propose that globally sea floor elevation has no effect on deep sea biomass; pelagic plus benthic biomass is constant within a given surface productivity regime. Publisher PDF Peer reviewed
author2 NERC
University of St Andrews. School of Biology
University of St Andrews. Marine Alliance for Science & Technology Scotland
University of St Andrews. Scottish Oceans Institute
University of St Andrews. Centre for Research into Ecological & Environmental Modelling
University of St Andrews. Pelagic Ecology Research Group
format Article in Journal/Newspaper
author Priede, Imants G.
Bergstad, Odd Aksel
Miller, Peter I.
Vecchione, Michael
Gebruk, Andrey
Falkenhaug, Tone
Billett, David S. M.
Craig, Jessica
Dale, Andrew C.
Shields, Mark A.
Tilstone, Gavin H.
Sutton, Tracey T.
Gooday, Andrew J.
Inall, Mark E.
Jones, Daniel O. B.
Martinez-Vicente, Victor
Menezes, Gui M.
Niedzielski, Tomasz
Sigurosson, Porsteinn
Rothe, Nina
Rogacheva, Antonina
Alt, Claudia H. S.
Brand, Timothy
Abell, Richard
Brierley, Andrew S.
Cousins, Nicola J.
Crockard, Deborah
Hoelzel, A. Rus
Hoines, Age
Letessier, Tom B.
Read, Jane F.
Shimmield, Tracy
Cox, Martin J.
Galbraith, John K.
Gordon, John D. M.
Horton, Tammy
Neat, Francis
Lorance, Pascal
author_facet Priede, Imants G.
Bergstad, Odd Aksel
Miller, Peter I.
Vecchione, Michael
Gebruk, Andrey
Falkenhaug, Tone
Billett, David S. M.
Craig, Jessica
Dale, Andrew C.
Shields, Mark A.
Tilstone, Gavin H.
Sutton, Tracey T.
Gooday, Andrew J.
Inall, Mark E.
Jones, Daniel O. B.
Martinez-Vicente, Victor
Menezes, Gui M.
Niedzielski, Tomasz
Sigurosson, Porsteinn
Rothe, Nina
Rogacheva, Antonina
Alt, Claudia H. S.
Brand, Timothy
Abell, Richard
Brierley, Andrew S.
Cousins, Nicola J.
Crockard, Deborah
Hoelzel, A. Rus
Hoines, Age
Letessier, Tom B.
Read, Jane F.
Shimmield, Tracy
Cox, Martin J.
Galbraith, John K.
Gordon, John D. M.
Horton, Tammy
Neat, Francis
Lorance, Pascal
author_sort Priede, Imants G.
title Does presence of a mid-ocean ridge enhance biomass and biodiversity?
title_short Does presence of a mid-ocean ridge enhance biomass and biodiversity?
title_full Does presence of a mid-ocean ridge enhance biomass and biodiversity?
title_fullStr Does presence of a mid-ocean ridge enhance biomass and biodiversity?
title_full_unstemmed Does presence of a mid-ocean ridge enhance biomass and biodiversity?
title_sort does presence of a mid-ocean ridge enhance biomass and biodiversity?
publishDate 2014
url http://hdl.handle.net/10023/4521
https://doi.org/10.1371/journal.pone.0061550
geographic Mid-Atlantic Ridge
geographic_facet Mid-Atlantic Ridge
genre North Atlantic
genre_facet North Atlantic
op_relation PLoS One
Priede , I G , Bergstad , O A , Miller , P I , Vecchione , M , Gebruk , A , Falkenhaug , T , Billett , D S M , Craig , J , Dale , A C , Shields , M A , Tilstone , G H , Sutton , T T , Gooday , A J , Inall , M E , Jones , D O B , Martinez-Vicente , V , Menezes , G M , Niedzielski , T , Sigurosson , P , Rothe , N , Rogacheva , A , Alt , C H S , Brand , T , Abell , R , Brierley , A S , Cousins , N J , Crockard , D , Hoelzel , A R , Hoines , A , Letessier , T B , Read , J F , Shimmield , T , Cox , M J , Galbraith , J K , Gordon , J D M , Horton , T , Neat , F & Lorance , P 2013 , ' Does presence of a mid-ocean ridge enhance biomass and biodiversity? ' , PLoS One , vol. 8 , no. 5 , e61550 . https://doi.org/10.1371/journal.pone.0061550
1932-6203
PURE: 100061939
PURE UUID: 02b51e05-ad4c-4d78-b338-96f5f08b921a
WOS: 000321200500009
Scopus: 84877074545
ORCID: /0000-0002-6438-6892/work/60427324
http://hdl.handle.net/10023/4521
https://doi.org/10.1371/journal.pone.0061550
NE/C51300X/1
op_rights Copyright © 2013 Priede et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
op_doi https://doi.org/10.1371/journal.pone.0061550
container_title Progress in Oceanography
container_volume 130
container_start_page 47
op_container_end_page 64
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spelling ftstandrewserep:oai:research-repository.st-andrews.ac.uk:10023/4521 2023-07-02T03:33:06+02:00 Does presence of a mid-ocean ridge enhance biomass and biodiversity? Priede, Imants G. Bergstad, Odd Aksel Miller, Peter I. Vecchione, Michael Gebruk, Andrey Falkenhaug, Tone Billett, David S. M. Craig, Jessica Dale, Andrew C. Shields, Mark A. Tilstone, Gavin H. Sutton, Tracey T. Gooday, Andrew J. Inall, Mark E. Jones, Daniel O. B. Martinez-Vicente, Victor Menezes, Gui M. Niedzielski, Tomasz Sigurosson, Porsteinn Rothe, Nina Rogacheva, Antonina Alt, Claudia H. S. Brand, Timothy Abell, Richard Brierley, Andrew S. Cousins, Nicola J. Crockard, Deborah Hoelzel, A. Rus Hoines, Age Letessier, Tom B. Read, Jane F. Shimmield, Tracy Cox, Martin J. Galbraith, John K. Gordon, John D. M. Horton, Tammy Neat, Francis Lorance, Pascal NERC University of St Andrews. School of Biology University of St Andrews. Marine Alliance for Science & Technology Scotland University of St Andrews. Scottish Oceans Institute University of St Andrews. Centre for Research into Ecological & Environmental Modelling University of St Andrews. Pelagic Ecology Research Group 2014-03-12T16:01:08Z 10 application/pdf http://hdl.handle.net/10023/4521 https://doi.org/10.1371/journal.pone.0061550 eng eng PLoS One Priede , I G , Bergstad , O A , Miller , P I , Vecchione , M , Gebruk , A , Falkenhaug , T , Billett , D S M , Craig , J , Dale , A C , Shields , M A , Tilstone , G H , Sutton , T T , Gooday , A J , Inall , M E , Jones , D O B , Martinez-Vicente , V , Menezes , G M , Niedzielski , T , Sigurosson , P , Rothe , N , Rogacheva , A , Alt , C H S , Brand , T , Abell , R , Brierley , A S , Cousins , N J , Crockard , D , Hoelzel , A R , Hoines , A , Letessier , T B , Read , J F , Shimmield , T , Cox , M J , Galbraith , J K , Gordon , J D M , Horton , T , Neat , F & Lorance , P 2013 , ' Does presence of a mid-ocean ridge enhance biomass and biodiversity? ' , PLoS One , vol. 8 , no. 5 , e61550 . https://doi.org/10.1371/journal.pone.0061550 1932-6203 PURE: 100061939 PURE UUID: 02b51e05-ad4c-4d78-b338-96f5f08b921a WOS: 000321200500009 Scopus: 84877074545 ORCID: /0000-0002-6438-6892/work/60427324 http://hdl.handle.net/10023/4521 https://doi.org/10.1371/journal.pone.0061550 NE/C51300X/1 Copyright © 2013 Priede et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Mid-Atlantic Ridge Temperate North Eastern Atlantic Deep water fish North Atlantic Sea floor Coryphaenoides rupestris Demersal fish Ocean Seamounts Patterns SDG 14 - Life Below Water Journal article 2014 ftstandrewserep https://doi.org/10.1371/journal.pone.0061550 2023-06-13T18:28:26Z In contrast to generally sparse biological communities in open-ocean settings, seamounts and ridges are perceived as areas of elevated productivity and biodiversity capable of supporting commercial fisheries. We investigated the origin of this apparent biological enhancement over a segment of the North Mid-Atlantic Ridge (MAR) using sonar, corers, trawls, traps, and a remotely operated vehicle to survey habitat, biomass, and biodiversity. Satellite remote sensing provided information on flow patterns, thermal fronts, and primary production, while sediment traps measured export flux during 2007-2010. The MAR, 3,704,404 km 2 in area, accounts for 44.7% lower bathyal habitat (800-3500 m depth) in the North Atlantic and is dominated by fine soft sediment substrate (95% of area) on a series of flat terraces with intervening slopes either side of the ridge axis contributing to habitat heterogeneity. The MAR fauna comprises mainly species known from continental margins with no evidence of greater biodiversity. Primary production and export flux over the MAR were not enhanced compared with a nearby reference station over the Porcupine Abyssal Plain. Biomasses of benthic macrofauna and megafauna were similar to global averages at the same depths totalling an estimated 258.9 kt C over the entire lower bathyal north MAR. A hypothetical flat plain at 3500 m depth in place of the MAR would contain 85.6 kt C, implying an increase of 173.3 kt C attributable to the presence of the Ridge. This is approximately equal to 167 kt C of estimated pelagic biomass displaced by the volume of the MAR. There is no enhancement of biological productivity over the MAR; oceanic bathypelagic species are replaced by benthic fauna otherwise unable to survive in the mid ocean. We propose that globally sea floor elevation has no effect on deep sea biomass; pelagic plus benthic biomass is constant within a given surface productivity regime. Publisher PDF Peer reviewed Article in Journal/Newspaper North Atlantic University of St Andrews: Digital Research Repository Mid-Atlantic Ridge Progress in Oceanography 130 47 64

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