Impacts of ocean warming and acidification on the energy budget of three commercially important fish species

Abstract A mechanistic model based on Dynamic Energy Budget (DEB) theory was developed to predict the combined effects of ocean warming, acidification and decreased food availability on growth and reproduction of three commercially important marine fish species: white seabream (Diplodus sargus), zeb...

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Published in:Conservation Physiology
Main Authors: Moreira, José M, Mendes, Ana Candeias, Maulvault, Ana Luísa, Marques, António, Rosa, Rui, Pousão-Ferreira, Pedro, Sousa, Tânia, Anacleto, Patrícia, Marques, Gonçalo M
Other Authors: Cooke, Steven, CEECIND, Foundation for Science and Technology
Format: Article in Journal/Newspaper
Language:English
Published: Oxford University Press (OUP) 2022
Subjects:
Management, Monitoring, Policy and Law
Nature and Landscape Conservation
Ecological Modeling
Physiology
Ocean acidification
Online Access:http://dx.doi.org/10.1093/conphys/coac048
https://academic.oup.com/conphys/article-pdf/10/1/coac048/45046253/coac048.pdf
id croxfordunivpr:10.1093/conphys/coac048
record_format openpolar
spelling croxfordunivpr:10.1093/conphys/coac048 2024-04-28T08:35:00+00:00 Impacts of ocean warming and acidification on the energy budget of three commercially important fish species Moreira, José M Mendes, Ana Candeias Maulvault, Ana Luísa Marques, António Rosa, Rui Pousão-Ferreira, Pedro Sousa, Tânia Anacleto, Patrícia Marques, Gonçalo M Cooke, Steven CEECIND Foundation for Science and Technology 2022 http://dx.doi.org/10.1093/conphys/coac048 https://academic.oup.com/conphys/article-pdf/10/1/coac048/45046253/coac048.pdf en eng Oxford University Press (OUP) https://creativecommons.org/licenses/by/4.0/ Conservation Physiology volume 10, issue 1 ISSN 2051-1434 Management, Monitoring, Policy and Law Nature and Landscape Conservation Ecological Modeling Physiology journal-article 2022 croxfordunivpr https://doi.org/10.1093/conphys/coac048 2024-04-02T08:05:59Z Abstract A mechanistic model based on Dynamic Energy Budget (DEB) theory was developed to predict the combined effects of ocean warming, acidification and decreased food availability on growth and reproduction of three commercially important marine fish species: white seabream (Diplodus sargus), zebra seabream (Diplodus cervinus) and Senegalese sole (Solea senegalensis). Model simulations used a parameter set for each species, estimated by the Add-my-Pet method using data from laboratory experiments complemented with bibliographic sources. An acidification stress factor was added as a modifier of the somatic maintenance costs and estimated for each species to quantify the effect of a decrease in pH from 8.0 to 7.4 (white seabream) or 7.7 (zebra seabream and Senegalese sole). The model was used to project total length of individuals along their usual lifespan and number of eggs produced by an adult individual within one year, under different climate change scenarios for the end of the 21st century. For the Intergovernmental Panel on Climate Change SSP5–8.5, ocean warming led to higher growth rates during the first years of development, as well as an increase of 32–34% in egg production, for the three species. Ocean acidification contributed to reduced growth for white seabream and Senegalese sole and a small increase for zebra seabream, as well as a decrease in egg production of 48–52% and 14–33% for white seabream and Senegalese sole, respectively, and an increase of 4–5% for zebra seabream. The combined effect of ocean warming and acidification is strongly dependent on the decrease of food availability, which leads to significant reduction in growth and egg production. This is the first study to assess the combined effects of ocean warming and acidification using DEB models on fish, therefore, further research is needed for a better understanding of these climate change-related effects among different taxonomic groups and species. Article in Journal/Newspaper Ocean acidification Oxford University Press Conservation Physiology 10 1
institution Open Polar
collection Oxford University Press
op_collection_id croxfordunivpr
language English
topic Management, Monitoring, Policy and Law
Nature and Landscape Conservation
Ecological Modeling
Physiology
spellingShingle Management, Monitoring, Policy and Law
Nature and Landscape Conservation
Ecological Modeling
Physiology
Moreira, José M
Mendes, Ana Candeias
Maulvault, Ana Luísa
Marques, António
Rosa, Rui
Pousão-Ferreira, Pedro
Sousa, Tânia
Anacleto, Patrícia
Marques, Gonçalo M
Impacts of ocean warming and acidification on the energy budget of three commercially important fish species
topic_facet Management, Monitoring, Policy and Law
Nature and Landscape Conservation
Ecological Modeling
Physiology
description Abstract A mechanistic model based on Dynamic Energy Budget (DEB) theory was developed to predict the combined effects of ocean warming, acidification and decreased food availability on growth and reproduction of three commercially important marine fish species: white seabream (Diplodus sargus), zebra seabream (Diplodus cervinus) and Senegalese sole (Solea senegalensis). Model simulations used a parameter set for each species, estimated by the Add-my-Pet method using data from laboratory experiments complemented with bibliographic sources. An acidification stress factor was added as a modifier of the somatic maintenance costs and estimated for each species to quantify the effect of a decrease in pH from 8.0 to 7.4 (white seabream) or 7.7 (zebra seabream and Senegalese sole). The model was used to project total length of individuals along their usual lifespan and number of eggs produced by an adult individual within one year, under different climate change scenarios for the end of the 21st century. For the Intergovernmental Panel on Climate Change SSP5–8.5, ocean warming led to higher growth rates during the first years of development, as well as an increase of 32–34% in egg production, for the three species. Ocean acidification contributed to reduced growth for white seabream and Senegalese sole and a small increase for zebra seabream, as well as a decrease in egg production of 48–52% and 14–33% for white seabream and Senegalese sole, respectively, and an increase of 4–5% for zebra seabream. The combined effect of ocean warming and acidification is strongly dependent on the decrease of food availability, which leads to significant reduction in growth and egg production. This is the first study to assess the combined effects of ocean warming and acidification using DEB models on fish, therefore, further research is needed for a better understanding of these climate change-related effects among different taxonomic groups and species.
author2 Cooke, Steven
CEECIND
Foundation for Science and Technology
format Article in Journal/Newspaper
author Moreira, José M
Mendes, Ana Candeias
Maulvault, Ana Luísa
Marques, António
Rosa, Rui
Pousão-Ferreira, Pedro
Sousa, Tânia
Anacleto, Patrícia
Marques, Gonçalo M
author_facet Moreira, José M
Mendes, Ana Candeias
Maulvault, Ana Luísa
Marques, António
Rosa, Rui
Pousão-Ferreira, Pedro
Sousa, Tânia
Anacleto, Patrícia
Marques, Gonçalo M
author_sort Moreira, José M
title Impacts of ocean warming and acidification on the energy budget of three commercially important fish species
title_short Impacts of ocean warming and acidification on the energy budget of three commercially important fish species
title_full Impacts of ocean warming and acidification on the energy budget of three commercially important fish species
title_fullStr Impacts of ocean warming and acidification on the energy budget of three commercially important fish species
title_full_unstemmed Impacts of ocean warming and acidification on the energy budget of three commercially important fish species
title_sort impacts of ocean warming and acidification on the energy budget of three commercially important fish species
publisher Oxford University Press (OUP)
publishDate 2022
url http://dx.doi.org/10.1093/conphys/coac048
https://academic.oup.com/conphys/article-pdf/10/1/coac048/45046253/coac048.pdf
genre Ocean acidification
genre_facet Ocean acidification
op_source Conservation Physiology
volume 10, issue 1
ISSN 2051-1434
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.1093/conphys/coac048
container_title Conservation Physiology
container_volume 10
container_issue 1
_version_ 1797591484039430144

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