Trophic interactions of fish communities at midwater depths enhance long-term carbon storage and benthic production on continental slopes
Trophic interactions of fish communities at midwater depths enhance long-term carbon storage and benthic production on continental slopes
Biological transfer of nutrients and materials between linked ecosystems influences global carbon budgets and ecosystem structure and function. Identifying the organisms or functional groups that are responsible for nutrient transfer, and quantifying their influence on ecosystem structure and carbon capture is an essential step for informed management of ecosystems in physically distant, but ecologically linked areas. Here, we combine natural abundance stable isotope tracers and survey data to show that mid-water and bentho-pelagic-feeding demersal fishes play an important role in the ocean carbon cycle, bypassing the detrital particle flux and transferring carbon to deep long-term storage. Global peaks in biomass and diversity of fishes at mid-slope depths are explained by competitive release of the demersal fish predators of mid-water organisms, which in turn support benthic fish production. Over 50% of the biomass of the demersal fish community at depths between 500 and 1800 m is supported by biological rather than detrital nutrient flux processes, and we estimate that bentho-pelagic fishes from the UK–Irish continental slope capture and store a volume of carbon equivalent to over 1 million tonnes of CO2 every year.
benthic–pelagic coupling, food web, North Atlantic, carbon, nitrogen, mesopelagic
Trueman, C.N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
Johnston, G.
8ddc6fc7-cda1-426d-8c53-ab44bea2fa71
O'Hea, B.
27fb0963-a473-4cc2-8d68-022f9f7e3712
MacKenzie, K.M.
512f2b73-f8e4-4ab4-8d91-16c0a2084120
22 July 2014
Trueman, C.N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
Johnston, G.
8ddc6fc7-cda1-426d-8c53-ab44bea2fa71
O'Hea, B.
27fb0963-a473-4cc2-8d68-022f9f7e3712
MacKenzie, K.M.
512f2b73-f8e4-4ab4-8d91-16c0a2084120
Trueman, C.N., Johnston, G., O'Hea, B. and MacKenzie, K.M.
(2014)
Trophic interactions of fish communities at midwater depths enhance long-term carbon storage and benthic production on continental slopes.
Proceedings of the Royal Society B: Biological Sciences, 281 (1787), [20140669].
(doi:10.1098/rspb.2014.0669).
Abstract
Biological transfer of nutrients and materials between linked ecosystems influences global carbon budgets and ecosystem structure and function. Identifying the organisms or functional groups that are responsible for nutrient transfer, and quantifying their influence on ecosystem structure and carbon capture is an essential step for informed management of ecosystems in physically distant, but ecologically linked areas. Here, we combine natural abundance stable isotope tracers and survey data to show that mid-water and bentho-pelagic-feeding demersal fishes play an important role in the ocean carbon cycle, bypassing the detrital particle flux and transferring carbon to deep long-term storage. Global peaks in biomass and diversity of fishes at mid-slope depths are explained by competitive release of the demersal fish predators of mid-water organisms, which in turn support benthic fish production. Over 50% of the biomass of the demersal fish community at depths between 500 and 1800 m is supported by biological rather than detrital nutrient flux processes, and we estimate that bentho-pelagic fishes from the UK–Irish continental slope capture and store a volume of carbon equivalent to over 1 million tonnes of CO2 every year.
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Accepted/In Press date: 2 May 2014
e-pub ahead of print date: 4 June 2014
Published date: 22 July 2014
Keywords:
benthic–pelagic coupling, food web, North Atlantic, carbon, nitrogen, mesopelagic
Organisations:
Geochemistry
Identifiers
Local EPrints ID: 366927
URI: http://eprints.soton.ac.uk/id/eprint/366927
ISSN: 0962-8452
PURE UUID: 17d0897a-2325-4d91-a030-20a819132144
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Date deposited: 15 Jul 2014 09:31
Last modified: 15 Mar 2024 03:17
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Author:
G. Johnston
Author:
B. O'Hea
Author:
K.M. MacKenzie
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