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Large mesopelagic fishes biomass and trophic efficiency in the open ocean

by Hernandez-Leon, S. , Martinez, U. , Bode, A. , Aksnes, D. L. , Irigoien, Xabier , Klevjer, T. A. , Duarte, C. M. , Røstad, A. , Gonzalez-Gordillo, J. I. , Acuña, J. L. , Kaartvedt, S. , Boyra, G. , Agusti, S. , Echevarria, F.

in 704/158/2446 / Acoustics / Animals / Biogeochemical cycles / Biomass / Energy transfer / Fishes / Food Chain / Humanities and Social Sciences / Marine ecosystems / Models, Theoretical / multidisciplinary / Oceans and Seas / Phytoplankton / Primary production / Science / Science (multidisciplinary) / Sensitivity analysis

2014

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Large mesopelagic fishes biomass and trophic efficiency in the open ocean

2014

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2014

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Journal Article

Large mesopelagic fishes biomass and trophic efficiency in the open ocean

Hernandez-Leon, S.,

Martinez, U.,

Bode, A.,

Aksnes, D. L.,

Irigoien, Xabier,

Klevjer, T. A.,

Duarte, C. M.,

Røstad, A.,

Gonzalez-Gordillo, J. I.,

Acuña, J. L.,

Kaartvedt, S.,

Boyra, G.,

Agusti, S.,

Echevarria, F.

2014

Overview

With a current estimate of ~1,000 million tons, mesopelagic fishes likely dominate the world total fishes biomass. However, recent acoustic observations show that mesopelagic fishes biomass could be significantly larger than the current estimate. Here we combine modelling and a sensitivity analysis of the acoustic observations from the Malaspina 2010 Circumnavigation Expedition to show that the previous estimate needs to be revised to at least one order of magnitude higher. We show that there is a close relationship between the open ocean fishes biomass and primary production, and that the energy transfer efficiency from phytoplankton to mesopelagic fishes in the open ocean is higher than what is typically assumed. Our results indicate that the role of mesopelagic fishes in oceanic ecosystems and global ocean biogeochemical cycles needs to be revised as they may be respiring ~10% of the primary production in deep waters. Mesopelagic fishes dominate the global fishes biomass, yet there exist major uncertainties regarding their global biomass. Irigoien et al. analyse acoustic data collected during a circumglobal cruise and show that biomass estimates should be raised by an order of magnitude.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Pub. Group

Subject

704/158/2446

/ Acoustics

/ Animals

/ Biogeochemical cycles

/ Biomass

/ Energy transfer

/ Fishes