Biochemical responses to ocean acidification contrast between tropical corals with high and low abundances at volcanic carbon dioxide seeps

AbstractAt two natural volcanic seeps in Papua New Guinea, the partial pressure of carbon dioxide (pCO2) in the seawater is consistent with projections for 2100. Here, the cover of massive scleractinian corals Porites spp. is twice as high at elevated compared with ambient pCO2, while that of branch...

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Bibliographic Details
Main Authors: J Strahl, David Francis, J Doyle, C Humphrey, KE Fabricius
Format: Article in Journal/Newspaper
Language:unknown
Published: 2016
Subjects:
Science & Technology
Life Sciences & Biomedicine
Physical Sciences
Fisheries
Marine & Freshwater Biology
Oceanography
energy storage
fatty acids
lipid classes
ocean acidification
oxidative stress
pigments
scleractinia
volcanic carbon dioxide seeps
REEF BUILDING CORAL
PHOTOSYNTHESIS
CALCIFICATION
VERRUCOSA
COMMUNITY
STRESS
LIPIDS
GAS
050101 Ecological Impacts of Climate Change
070402 Aquatic Ecosystem Studies and Stock Assessment
060205 Marine and Estuarine Ecology (incl Marine Ichthyology)
970105 Expanding Knowledge in the Environmental Sciences
School of Life and Environmental Sciences
Centre for Chemistry and Biotechnology
MD Multidisciplinary
3103 Ecology
3109 Zoology
3199 Other biological sciences
Ocean acidification
Online Access:http://hdl.handle.net/10536/DRO/DU:30086967
https://figshare.com/articles/journal_contribution/Biochemical_responses_to_ocean_acidification_contrast_between_tropical_corals_with_high_and_low_abundances_at_volcanic_carbon_dioxide_seeps/20885737
id ftdeakinunifig:oai:figshare.com:article/20885737
record_format openpolar
spelling ftdeakinunifig:oai:figshare.com:article/20885737 2024-06-23T07:55:52+00:00 Biochemical responses to ocean acidification contrast between tropical corals with high and low abundances at volcanic carbon dioxide seeps J Strahl David Francis J Doyle C Humphrey KE Fabricius 2016-03-01T00:00:00Z http://hdl.handle.net/10536/DRO/DU:30086967 https://figshare.com/articles/journal_contribution/Biochemical_responses_to_ocean_acidification_contrast_between_tropical_corals_with_high_and_low_abundances_at_volcanic_carbon_dioxide_seeps/20885737 unknown http://hdl.handle.net/10536/DRO/DU:30086967 https://figshare.com/articles/journal_contribution/Biochemical_responses_to_ocean_acidification_contrast_between_tropical_corals_with_high_and_low_abundances_at_volcanic_carbon_dioxide_seeps/20885737 All Rights Reserved Science & Technology Life Sciences & Biomedicine Physical Sciences Fisheries Marine & Freshwater Biology Oceanography energy storage fatty acids lipid classes ocean acidification oxidative stress pigments scleractinia volcanic carbon dioxide seeps REEF BUILDING CORAL PHOTOSYNTHESIS CALCIFICATION VERRUCOSA COMMUNITY STRESS LIPIDS GAS 050101 Ecological Impacts of Climate Change 070402 Aquatic Ecosystem Studies and Stock Assessment 060205 Marine and Estuarine Ecology (incl Marine Ichthyology) 970105 Expanding Knowledge in the Environmental Sciences School of Life and Environmental Sciences Centre for Chemistry and Biotechnology MD Multidisciplinary 3103 Ecology 3109 Zoology 3199 Other biological sciences Text Journal contribution 2016 ftdeakinunifig 2024-06-06T01:47:51Z AbstractAt two natural volcanic seeps in Papua New Guinea, the partial pressure of carbon dioxide (pCO2) in the seawater is consistent with projections for 2100. Here, the cover of massive scleractinian corals Porites spp. is twice as high at elevated compared with ambient pCO2, while that of branching corals such as Acropora millepora is greater than twofold reduced. To assess the underlying mechanisms for such community shifts under long-term exposure to elevated pCO2, biochemical parameters related to tissue biomass, energy storage, pigmentation, cell protection, and cell damage were compared between Porites spp. and A. millepora from control (mean pHtotal = 8.1, pCO2 = 323 µatm) and CO2 seep sites (mean pHtotal = 7.8, pCO2 = 803 µatm) each at two reefs. In Porites spp., only one of the biochemical parameters investigated (the ratio of photoprotective to light-harvesting pigments) responded to pCO2, while tissue biomass, total lipids, total proteins, and some pigments differed between the two reefs, possibly reflecting differences in food availability. Furthermore, some fatty acids showed pCO2 –reef interactions. In A. millepora, most pigments investigated were reduced at elevated pCO2, while other parameters (e.g. tissue biomass, total proteins, total lipids, protein carbonyls, some fatty acids and pigments) differed between reefs or showed pCO2–reef interactions. Tissue biomass, total lipids, and cell-protective capacities were distinctly higher in Porites spp. than in A. millepora, indicating higher resistance to environmental stress in massive Porites. However, our data suggest that important biochemical measures remain relatively unaffected in these two coral species in response to elevated pCO2 up to 800 µatm, with most responses being smaller than differences between species and locations, and also when compared with responses to other environmental stressors such as ocean warming. Article in Journal/Newspaper Ocean acidification DRO - Deakin Research Online
institution Open Polar
collection DRO - Deakin Research Online
op_collection_id ftdeakinunifig
language unknown
topic Science & Technology
Life Sciences & Biomedicine
Physical Sciences
Fisheries
Marine & Freshwater Biology
Oceanography
energy storage
fatty acids
lipid classes
ocean acidification
oxidative stress
pigments
scleractinia
volcanic carbon dioxide seeps
REEF BUILDING CORAL
PHOTOSYNTHESIS
CALCIFICATION
VERRUCOSA
COMMUNITY
STRESS
LIPIDS
GAS
050101 Ecological Impacts of Climate Change
070402 Aquatic Ecosystem Studies and Stock Assessment
060205 Marine and Estuarine Ecology (incl Marine Ichthyology)
970105 Expanding Knowledge in the Environmental Sciences
School of Life and Environmental Sciences
Centre for Chemistry and Biotechnology
MD Multidisciplinary
3103 Ecology
3109 Zoology
3199 Other biological sciences
spellingShingle Science & Technology
Life Sciences & Biomedicine
Physical Sciences
Fisheries
Marine & Freshwater Biology
Oceanography
energy storage
fatty acids
lipid classes
ocean acidification
oxidative stress
pigments
scleractinia
volcanic carbon dioxide seeps
REEF BUILDING CORAL
PHOTOSYNTHESIS
CALCIFICATION
VERRUCOSA
COMMUNITY
STRESS
LIPIDS
GAS
050101 Ecological Impacts of Climate Change
070402 Aquatic Ecosystem Studies and Stock Assessment
060205 Marine and Estuarine Ecology (incl Marine Ichthyology)
970105 Expanding Knowledge in the Environmental Sciences
School of Life and Environmental Sciences
Centre for Chemistry and Biotechnology
MD Multidisciplinary
3103 Ecology
3109 Zoology
3199 Other biological sciences
J Strahl
David Francis
J Doyle
C Humphrey
KE Fabricius
Biochemical responses to ocean acidification contrast between tropical corals with high and low abundances at volcanic carbon dioxide seeps
topic_facet Science & Technology
Life Sciences & Biomedicine
Physical Sciences
Fisheries
Marine & Freshwater Biology
Oceanography
energy storage
fatty acids
lipid classes
ocean acidification
oxidative stress
pigments
scleractinia
volcanic carbon dioxide seeps
REEF BUILDING CORAL
PHOTOSYNTHESIS
CALCIFICATION
VERRUCOSA
COMMUNITY
STRESS
LIPIDS
GAS
050101 Ecological Impacts of Climate Change
070402 Aquatic Ecosystem Studies and Stock Assessment
060205 Marine and Estuarine Ecology (incl Marine Ichthyology)
970105 Expanding Knowledge in the Environmental Sciences
School of Life and Environmental Sciences
Centre for Chemistry and Biotechnology
MD Multidisciplinary
3103 Ecology
3109 Zoology
3199 Other biological sciences
description AbstractAt two natural volcanic seeps in Papua New Guinea, the partial pressure of carbon dioxide (pCO2) in the seawater is consistent with projections for 2100. Here, the cover of massive scleractinian corals Porites spp. is twice as high at elevated compared with ambient pCO2, while that of branching corals such as Acropora millepora is greater than twofold reduced. To assess the underlying mechanisms for such community shifts under long-term exposure to elevated pCO2, biochemical parameters related to tissue biomass, energy storage, pigmentation, cell protection, and cell damage were compared between Porites spp. and A. millepora from control (mean pHtotal = 8.1, pCO2 = 323 µatm) and CO2 seep sites (mean pHtotal = 7.8, pCO2 = 803 µatm) each at two reefs. In Porites spp., only one of the biochemical parameters investigated (the ratio of photoprotective to light-harvesting pigments) responded to pCO2, while tissue biomass, total lipids, total proteins, and some pigments differed between the two reefs, possibly reflecting differences in food availability. Furthermore, some fatty acids showed pCO2 –reef interactions. In A. millepora, most pigments investigated were reduced at elevated pCO2, while other parameters (e.g. tissue biomass, total proteins, total lipids, protein carbonyls, some fatty acids and pigments) differed between reefs or showed pCO2–reef interactions. Tissue biomass, total lipids, and cell-protective capacities were distinctly higher in Porites spp. than in A. millepora, indicating higher resistance to environmental stress in massive Porites. However, our data suggest that important biochemical measures remain relatively unaffected in these two coral species in response to elevated pCO2 up to 800 µatm, with most responses being smaller than differences between species and locations, and also when compared with responses to other environmental stressors such as ocean warming.
format Article in Journal/Newspaper
author J Strahl
David Francis
J Doyle
C Humphrey
KE Fabricius
author_facet J Strahl
David Francis
J Doyle
C Humphrey
KE Fabricius
author_sort J Strahl
title Biochemical responses to ocean acidification contrast between tropical corals with high and low abundances at volcanic carbon dioxide seeps
title_short Biochemical responses to ocean acidification contrast between tropical corals with high and low abundances at volcanic carbon dioxide seeps
title_full Biochemical responses to ocean acidification contrast between tropical corals with high and low abundances at volcanic carbon dioxide seeps
title_fullStr Biochemical responses to ocean acidification contrast between tropical corals with high and low abundances at volcanic carbon dioxide seeps
title_full_unstemmed Biochemical responses to ocean acidification contrast between tropical corals with high and low abundances at volcanic carbon dioxide seeps
title_sort biochemical responses to ocean acidification contrast between tropical corals with high and low abundances at volcanic carbon dioxide seeps
publishDate 2016
url http://hdl.handle.net/10536/DRO/DU:30086967
https://figshare.com/articles/journal_contribution/Biochemical_responses_to_ocean_acidification_contrast_between_tropical_corals_with_high_and_low_abundances_at_volcanic_carbon_dioxide_seeps/20885737
genre Ocean acidification
genre_facet Ocean acidification
op_relation http://hdl.handle.net/10536/DRO/DU:30086967
https://figshare.com/articles/journal_contribution/Biochemical_responses_to_ocean_acidification_contrast_between_tropical_corals_with_high_and_low_abundances_at_volcanic_carbon_dioxide_seeps/20885737
op_rights All Rights Reserved
_version_ 1802648634114703360

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