The other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominance

Predictions concerning the consequences of the oceanic uptake of increasing atmospheric carbon dioxide (CO2) have been primarily occupied with the effects of ocean acidification on calcifying organisms, particularly those critical to the formation of habitats (e.g. coral reefs) or their maintenance...

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Bibliographic Details
Main Authors: Connell, Sean D, Kroeker, Kristy J, Fabricius, Katharina E, Kline, David I, Russell, Bayden D
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2013
Subjects:
Life Below Water
Biofilms
Carbon Dioxide
Coral Reefs
Hydrogen-Ion Concentration
Macrocystis
Models
Biological
Oceans and Seas
Seawater
Species Specificity
competition
coral reef
kelp
multiple stressor
phase-shift
Biological Sciences
Medical and Health Sciences
Evolutionary Biology
Ocean acidification
Online Access:https://escholarship.org/uc/item/6tn3d5ps
id ftcdlib:oai:escholarship.org:ark:/13030/qt6tn3d5ps
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spelling ftcdlib:oai:escholarship.org:ark:/13030/qt6tn3d5ps 2023-10-01T03:58:32+02:00 The other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominance Connell, Sean D Kroeker, Kristy J Fabricius, Katharina E Kline, David I Russell, Bayden D 20120442 2013-10-05 application/pdf https://escholarship.org/uc/item/6tn3d5ps unknown eScholarship, University of California qt6tn3d5ps https://escholarship.org/uc/item/6tn3d5ps public Philosophical Transactions of the Royal Society B Biological Sciences, vol 368, iss 1627 Life Below Water Biofilms Carbon Dioxide Coral Reefs Hydrogen-Ion Concentration Macrocystis Models Biological Oceans and Seas Seawater Species Specificity competition coral reef kelp multiple stressor phase-shift Biological Sciences Medical and Health Sciences Evolutionary Biology article 2013 ftcdlib 2023-09-04T18:04:16Z Predictions concerning the consequences of the oceanic uptake of increasing atmospheric carbon dioxide (CO2) have been primarily occupied with the effects of ocean acidification on calcifying organisms, particularly those critical to the formation of habitats (e.g. coral reefs) or their maintenance (e.g. grazing echinoderms). This focus overlooks direct and indirect effects of CO2 on non-calcareous taxa that play critical roles in ecosystem shifts (e.g. competitors). We present the model that future atmospheric [CO2] may act as a resource for mat-forming algae, a diverse and widespread group known to reduce the resilience of kelp forests and coral reefs. We test this hypothesis by combining laboratory and field CO2 experiments and data from 'natural' volcanic CO2 vents. We show that mats have enhanced productivity in experiments and more expansive covers in situ under projected near-future CO2 conditions both in temperate and tropical conditions. The benefits of CO2 are likely to vary among species of producers, potentially leading to shifts in species dominance in a high CO2 world. We explore how ocean acidification combines with other environmental changes across a number of scales, and raise awareness of CO2 as a resource whose change in availability could have wide-ranging community consequences beyond its direct effects. Article in Journal/Newspaper Ocean acidification University of California: eScholarship
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language unknown
topic Life Below Water
Biofilms
Carbon Dioxide
Coral Reefs
Hydrogen-Ion Concentration
Macrocystis
Models
Biological
Oceans and Seas
Seawater
Species Specificity
competition
coral reef
kelp
multiple stressor
phase-shift
Biological Sciences
Medical and Health Sciences
Evolutionary Biology
spellingShingle Life Below Water
Biofilms
Carbon Dioxide
Coral Reefs
Hydrogen-Ion Concentration
Macrocystis
Models
Biological
Oceans and Seas
Seawater
Species Specificity
competition
coral reef
kelp
multiple stressor
phase-shift
Biological Sciences
Medical and Health Sciences
Evolutionary Biology
Connell, Sean D
Kroeker, Kristy J
Fabricius, Katharina E
Kline, David I
Russell, Bayden D
The other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominance
topic_facet Life Below Water
Biofilms
Carbon Dioxide
Coral Reefs
Hydrogen-Ion Concentration
Macrocystis
Models
Biological
Oceans and Seas
Seawater
Species Specificity
competition
coral reef
kelp
multiple stressor
phase-shift
Biological Sciences
Medical and Health Sciences
Evolutionary Biology
description Predictions concerning the consequences of the oceanic uptake of increasing atmospheric carbon dioxide (CO2) have been primarily occupied with the effects of ocean acidification on calcifying organisms, particularly those critical to the formation of habitats (e.g. coral reefs) or their maintenance (e.g. grazing echinoderms). This focus overlooks direct and indirect effects of CO2 on non-calcareous taxa that play critical roles in ecosystem shifts (e.g. competitors). We present the model that future atmospheric [CO2] may act as a resource for mat-forming algae, a diverse and widespread group known to reduce the resilience of kelp forests and coral reefs. We test this hypothesis by combining laboratory and field CO2 experiments and data from 'natural' volcanic CO2 vents. We show that mats have enhanced productivity in experiments and more expansive covers in situ under projected near-future CO2 conditions both in temperate and tropical conditions. The benefits of CO2 are likely to vary among species of producers, potentially leading to shifts in species dominance in a high CO2 world. We explore how ocean acidification combines with other environmental changes across a number of scales, and raise awareness of CO2 as a resource whose change in availability could have wide-ranging community consequences beyond its direct effects.
format Article in Journal/Newspaper
author Connell, Sean D
Kroeker, Kristy J
Fabricius, Katharina E
Kline, David I
Russell, Bayden D
author_facet Connell, Sean D
Kroeker, Kristy J
Fabricius, Katharina E
Kline, David I
Russell, Bayden D
author_sort Connell, Sean D
title The other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominance
title_short The other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominance
title_full The other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominance
title_fullStr The other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominance
title_full_unstemmed The other ocean acidification problem: CO2 as a resource among competitors for ecosystem dominance
title_sort other ocean acidification problem: co2 as a resource among competitors for ecosystem dominance
publisher eScholarship, University of California
publishDate 2013
url https://escholarship.org/uc/item/6tn3d5ps
op_coverage 20120442
genre Ocean acidification
genre_facet Ocean acidification
op_source Philosophical Transactions of the Royal Society B Biological Sciences, vol 368, iss 1627
op_relation qt6tn3d5ps
https://escholarship.org/uc/item/6tn3d5ps
op_rights public
_version_ 1778531365298372608

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