Competitive interactions moderate the effects of elevated temperature and atmospheric CO2 on the health and functioning of oysters

Global increases in sea temperatures and atmospheric concentrations of CO2 may affect the health of calcifying shellfish. Little is known, however, about how competitive inter actions within and between species may influence how species respond to multiple stressors. We experimentally assessed separ...

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Bibliographic Details
Main Authors: Dannielle S. Green, Hazel Christie, Nicola Pratt, Bas Boots, Jasmin Godbold, Martin Solan, Chris Hauton
Format: Article in Journal/Newspaper
Language:unknown
Published: 2017
Subjects:
warming
ocean acidification
intraspecific competition
interspecific competition
species interactions
complementarity
invasive species
Crassostrea gigas
Ocean acidification
Online Access:https://figshare.com/articles/journal_contribution/Competitive_interactions_moderate_the_effects_of_elevated_temperature_and_atmospheric_CO2_on_the_health_and_functioning_of_oysters/23776731
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record_format openpolar
spelling ftangliruskinfig:oai:figshare.com:article/23776731 2023-11-12T04:16:16+01:00 Competitive interactions moderate the effects of elevated temperature and atmospheric CO2 on the health and functioning of oysters Dannielle S. Green Hazel Christie Nicola Pratt Bas Boots Jasmin Godbold Martin Solan Chris Hauton 2017-11-06T00:00:00Z https://figshare.com/articles/journal_contribution/Competitive_interactions_moderate_the_effects_of_elevated_temperature_and_atmospheric_CO2_on_the_health_and_functioning_of_oysters/23776731 unknown 10779/aru.23776731.v1 https://figshare.com/articles/journal_contribution/Competitive_interactions_moderate_the_effects_of_elevated_temperature_and_atmospheric_CO2_on_the_health_and_functioning_of_oysters/23776731 CC BY 4.0 warming ocean acidification intraspecific competition interspecific competition species interactions complementarity invasive species Text Journal contribution 2017 ftangliruskinfig 2023-10-13T12:21:05Z Global increases in sea temperatures and atmospheric concentrations of CO2 may affect the health of calcifying shellfish. Little is known, however, about how competitive inter actions within and between species may influence how species respond to multiple stressors. We experimentally assessed separate and combined effects of temperature (12 or 16°C) and atmospheric CO2 concentrations (400 and 1000 ppm) on the health and biological functioning of native (Ostrea edulis) and invasive (Crassostrea gigas) oysters held alone and in intraspecific or inter specific mixtures. We found evidence of reduced phagocytosis under elevated CO2 and, when combined with increased temperature, a reduction in the number of circulating haemocytes. Generally, C. gigas showed lower respiration rates relative to O. edulis when the species were in intraspecific or interspecific mixtures. In contrast, O. edulis showed a higher respiration rate relative to C. gigas when held in an interspecific mixture and exhibited lower clearance rates when held in intraspecific or interspecific mixtures. Overall, clearance rates of C. gigas were consistently greater than those of O. edulis. Collectively, our findings indicate that a species’ ability to adapt metabolic processes to environmental conditions can be modified by biotic context and may make some species (here, C. gigas) competitively superior and less vulnerable to future climatic scenarios at local scales. If these conclusions are generic, the relative role of species interactions, and other biotic parameters, in altering the outcomes of climate change will require much greater research emphasis. Article in Journal/Newspaper Crassostrea gigas Ocean acidification Anglia Ruskin University: Figshare
institution Open Polar
collection Anglia Ruskin University: Figshare
op_collection_id ftangliruskinfig
language unknown
topic warming
ocean acidification
intraspecific competition
interspecific competition
species interactions
complementarity
invasive species
spellingShingle warming
ocean acidification
intraspecific competition
interspecific competition
species interactions
complementarity
invasive species
Dannielle S. Green
Hazel Christie
Nicola Pratt
Bas Boots
Jasmin Godbold
Martin Solan
Chris Hauton
Competitive interactions moderate the effects of elevated temperature and atmospheric CO2 on the health and functioning of oysters
topic_facet warming
ocean acidification
intraspecific competition
interspecific competition
species interactions
complementarity
invasive species
description Global increases in sea temperatures and atmospheric concentrations of CO2 may affect the health of calcifying shellfish. Little is known, however, about how competitive inter actions within and between species may influence how species respond to multiple stressors. We experimentally assessed separate and combined effects of temperature (12 or 16°C) and atmospheric CO2 concentrations (400 and 1000 ppm) on the health and biological functioning of native (Ostrea edulis) and invasive (Crassostrea gigas) oysters held alone and in intraspecific or inter specific mixtures. We found evidence of reduced phagocytosis under elevated CO2 and, when combined with increased temperature, a reduction in the number of circulating haemocytes. Generally, C. gigas showed lower respiration rates relative to O. edulis when the species were in intraspecific or interspecific mixtures. In contrast, O. edulis showed a higher respiration rate relative to C. gigas when held in an interspecific mixture and exhibited lower clearance rates when held in intraspecific or interspecific mixtures. Overall, clearance rates of C. gigas were consistently greater than those of O. edulis. Collectively, our findings indicate that a species’ ability to adapt metabolic processes to environmental conditions can be modified by biotic context and may make some species (here, C. gigas) competitively superior and less vulnerable to future climatic scenarios at local scales. If these conclusions are generic, the relative role of species interactions, and other biotic parameters, in altering the outcomes of climate change will require much greater research emphasis.
format Article in Journal/Newspaper
author Dannielle S. Green
Hazel Christie
Nicola Pratt
Bas Boots
Jasmin Godbold
Martin Solan
Chris Hauton
author_facet Dannielle S. Green
Hazel Christie
Nicola Pratt
Bas Boots
Jasmin Godbold
Martin Solan
Chris Hauton
author_sort Dannielle S. Green
title Competitive interactions moderate the effects of elevated temperature and atmospheric CO2 on the health and functioning of oysters
title_short Competitive interactions moderate the effects of elevated temperature and atmospheric CO2 on the health and functioning of oysters
title_full Competitive interactions moderate the effects of elevated temperature and atmospheric CO2 on the health and functioning of oysters
title_fullStr Competitive interactions moderate the effects of elevated temperature and atmospheric CO2 on the health and functioning of oysters
title_full_unstemmed Competitive interactions moderate the effects of elevated temperature and atmospheric CO2 on the health and functioning of oysters
title_sort competitive interactions moderate the effects of elevated temperature and atmospheric co2 on the health and functioning of oysters
publishDate 2017
url https://figshare.com/articles/journal_contribution/Competitive_interactions_moderate_the_effects_of_elevated_temperature_and_atmospheric_CO2_on_the_health_and_functioning_of_oysters/23776731
genre Crassostrea gigas
Ocean acidification
genre_facet Crassostrea gigas
Ocean acidification
op_relation 10779/aru.23776731.v1
https://figshare.com/articles/journal_contribution/Competitive_interactions_moderate_the_effects_of_elevated_temperature_and_atmospheric_CO2_on_the_health_and_functioning_of_oysters/23776731
op_rights CC BY 4.0
_version_ 1782333408031014912

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