Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients

Since the past century, rising CO2 levels have led to global changes (ocean warming and acidification) with subsequent effects on marine ecosystems and organisms. Macroalgae-herbivore interactions have a main role in the regulation of marine community structure (top-down control). Gradients of warmi...

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Published in:Marine Environmental Research
Main Authors: Sampaio, E., Franco Rodil, Ivan, Vaz-Pinto, F., Fernandez, A., Arenas, F.
Other Authors: Tvärminne Zoological Station, Marine Ecosystems Research Group, Tvärminne Benthic Ecology Team
Format: Article in Journal/Newspaper
Language:English
Published: ELSEVIER SCI IRELAND LTD 2020
Subjects:
Warming
Acidification
Macroalgae-herbivore interaction
Stressor gradient
Interaction strength
CLIMATE-CHANGE EXPERIMENTS
LIFE-HISTORY STAGES
ACID-BASE-BALANCE
PRIMARY PRODUCERS
MARINE ORGANISMS
CARBON-DIOXIDE
CHANGING OCEAN
ELEVATED CO2
TEMPERATURE
AMPHIPOD
1172 Environmental sciences
Ocean acidification
Online Access:http://hdl.handle.net/10138/309461
id ftunivhelsihelda:oai:helda.helsinki.fi:10138/309461
record_format openpolar
spelling ftunivhelsihelda:oai:helda.helsinki.fi:10138/309461 2024-01-07T09:45:46+01:00 Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients Sampaio, E. Franco Rodil, Ivan Vaz-Pinto, F. Fernandez, A. Arenas, F. Tvärminne Zoological Station Marine Ecosystems Research Group Tvärminne Benthic Ecology Team 2020-01-13T17:59:01Z 9 application/pdf http://hdl.handle.net/10138/309461 eng eng ELSEVIER SCI IRELAND LTD 10.1016/j.marenvres.2017.01.001 The authors are thankful to all members at the Laboratory of Costal Biodiversity for their assistance on species handling and maintaining the experiments. Financial support was provided by FCT (Portuguese Foundation for Science and Technology) funded project CLEF: "The combined impacts of invasion and climate change on coastal ecosystem functioning" (PDTC/AAC-AMB/ 102866/2008). Research co-funded by the European Regional Development Fund through the 'Programa Operacional Factores de Competitividade' (POFC-COMPETE) within the 'Quadro de Referenda Estrategico Nacional' (QREN) and PEST-C/IVIA1R/LA0015/2011. Sampaio , E , Franco Rodil , I , Vaz-Pinto , F , Fernandez , A & Arenas , F 2017 , ' Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients ' , Marine Environmental Research , vol. 125 , pp. 25-33 . https://doi.org/10.1016/j.marenvres.2017.01.001 ORCID: /0000-0001-6375-1598/work/44013232 85009119590 db404df4-1037-49fa-806b-fa7b5a7f183b http://hdl.handle.net/10138/309461 000397076700003 cc_by_nc_nd openAccess info:eu-repo/semantics/openAccess Warming Acidification Macroalgae-herbivore interaction Stressor gradient Interaction strength CLIMATE-CHANGE EXPERIMENTS LIFE-HISTORY STAGES ACID-BASE-BALANCE PRIMARY PRODUCERS MARINE ORGANISMS CARBON-DIOXIDE CHANGING OCEAN ELEVATED CO2 TEMPERATURE AMPHIPOD 1172 Environmental sciences Article acceptedVersion 2020 ftunivhelsihelda 2023-12-14T00:06:18Z Since the past century, rising CO2 levels have led to global changes (ocean warming and acidification) with subsequent effects on marine ecosystems and organisms. Macroalgae-herbivore interactions have a main role in the regulation of marine community structure (top-down control). Gradients of warming prompt complex non-linear effects on organism metabolism, cascading into altered trophic interactions and community dynamics. However, not much is known on how will acidification and grazer assemblage composition shape these effects. Within this context, we aimed to assess the combined effects of warming gradients and acidification on macroalgae-herbivore interactions, using three cosmopolitan species, abundant in the Iberian Peninsula and closely associated in nature: the amphipod Melita palmata, the gastropod Gibbula umbilicalis, and the green macroalga Ulva rigida. Under two CO2 treatments (triangle CO2 similar or equal to 450 mu atm) across a temperature gradient (13.5, 16.6, 19.9 and 22.1 degrees C), two mesocosm experiments were performed to assess grazer consumption rates and macroalgae-herbivore interaction, respectively. Warming (Experiment I and II) and acidification (Experiment II) prompted negative effects in grazer's survival and species-specific differences in consumption rates. M. palmata was shown to be the stronger grazer per biomass (but not per capita), and also the most affected by climate stressors. Macroalgae-herbivore interaction strength was markedly shaped by the temperature gradient, while simultaneous acidification lowered thermal optimal threshold. In the near future, warming and acidification are likely to strengthen top-down control, but further increases in disturbances may lead to bottom-up regulated communities. Finally, our results suggest that grazer assemblage composition may modulate future macroalgae-herbivore interactions. (C) 2017 Elsevier Ltd. All rights reserved. Peer reviewed Article in Journal/Newspaper Ocean acidification HELDA – University of Helsinki Open Repository Marine Environmental Research 125 25 33
institution Open Polar
collection HELDA – University of Helsinki Open Repository
op_collection_id ftunivhelsihelda
language English
topic Warming
Acidification
Macroalgae-herbivore interaction
Stressor gradient
Interaction strength
CLIMATE-CHANGE EXPERIMENTS
LIFE-HISTORY STAGES
ACID-BASE-BALANCE
PRIMARY PRODUCERS
MARINE ORGANISMS
CARBON-DIOXIDE
CHANGING OCEAN
ELEVATED CO2
TEMPERATURE
AMPHIPOD
1172 Environmental sciences
spellingShingle Warming
Acidification
Macroalgae-herbivore interaction
Stressor gradient
Interaction strength
CLIMATE-CHANGE EXPERIMENTS
LIFE-HISTORY STAGES
ACID-BASE-BALANCE
PRIMARY PRODUCERS
MARINE ORGANISMS
CARBON-DIOXIDE
CHANGING OCEAN
ELEVATED CO2
TEMPERATURE
AMPHIPOD
1172 Environmental sciences
Sampaio, E.
Franco Rodil, Ivan
Vaz-Pinto, F.
Fernandez, A.
Arenas, F.
Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients
topic_facet Warming
Acidification
Macroalgae-herbivore interaction
Stressor gradient
Interaction strength
CLIMATE-CHANGE EXPERIMENTS
LIFE-HISTORY STAGES
ACID-BASE-BALANCE
PRIMARY PRODUCERS
MARINE ORGANISMS
CARBON-DIOXIDE
CHANGING OCEAN
ELEVATED CO2
TEMPERATURE
AMPHIPOD
1172 Environmental sciences
description Since the past century, rising CO2 levels have led to global changes (ocean warming and acidification) with subsequent effects on marine ecosystems and organisms. Macroalgae-herbivore interactions have a main role in the regulation of marine community structure (top-down control). Gradients of warming prompt complex non-linear effects on organism metabolism, cascading into altered trophic interactions and community dynamics. However, not much is known on how will acidification and grazer assemblage composition shape these effects. Within this context, we aimed to assess the combined effects of warming gradients and acidification on macroalgae-herbivore interactions, using three cosmopolitan species, abundant in the Iberian Peninsula and closely associated in nature: the amphipod Melita palmata, the gastropod Gibbula umbilicalis, and the green macroalga Ulva rigida. Under two CO2 treatments (triangle CO2 similar or equal to 450 mu atm) across a temperature gradient (13.5, 16.6, 19.9 and 22.1 degrees C), two mesocosm experiments were performed to assess grazer consumption rates and macroalgae-herbivore interaction, respectively. Warming (Experiment I and II) and acidification (Experiment II) prompted negative effects in grazer's survival and species-specific differences in consumption rates. M. palmata was shown to be the stronger grazer per biomass (but not per capita), and also the most affected by climate stressors. Macroalgae-herbivore interaction strength was markedly shaped by the temperature gradient, while simultaneous acidification lowered thermal optimal threshold. In the near future, warming and acidification are likely to strengthen top-down control, but further increases in disturbances may lead to bottom-up regulated communities. Finally, our results suggest that grazer assemblage composition may modulate future macroalgae-herbivore interactions. (C) 2017 Elsevier Ltd. All rights reserved. Peer reviewed
author2 Tvärminne Zoological Station
Marine Ecosystems Research Group
Tvärminne Benthic Ecology Team
format Article in Journal/Newspaper
author Sampaio, E.
Franco Rodil, Ivan
Vaz-Pinto, F.
Fernandez, A.
Arenas, F.
author_facet Sampaio, E.
Franco Rodil, Ivan
Vaz-Pinto, F.
Fernandez, A.
Arenas, F.
author_sort Sampaio, E.
title Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients
title_short Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients
title_full Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients
title_fullStr Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients
title_full_unstemmed Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients
title_sort interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients
publisher ELSEVIER SCI IRELAND LTD
publishDate 2020
url http://hdl.handle.net/10138/309461
genre Ocean acidification
genre_facet Ocean acidification
op_relation 10.1016/j.marenvres.2017.01.001
The authors are thankful to all members at the Laboratory of Costal Biodiversity for their assistance on species handling and maintaining the experiments. Financial support was provided by FCT (Portuguese Foundation for Science and Technology) funded project CLEF: "The combined impacts of invasion and climate change on coastal ecosystem functioning" (PDTC/AAC-AMB/ 102866/2008). Research co-funded by the European Regional Development Fund through the 'Programa Operacional Factores de Competitividade' (POFC-COMPETE) within the 'Quadro de Referenda Estrategico Nacional' (QREN) and PEST-C/IVIA1R/LA0015/2011.
Sampaio , E , Franco Rodil , I , Vaz-Pinto , F , Fernandez , A & Arenas , F 2017 , ' Interaction strength between different grazers and macroalgae mediated by ocean acidification over warming gradients ' , Marine Environmental Research , vol. 125 , pp. 25-33 . https://doi.org/10.1016/j.marenvres.2017.01.001
ORCID: /0000-0001-6375-1598/work/44013232
85009119590
db404df4-1037-49fa-806b-fa7b5a7f183b
http://hdl.handle.net/10138/309461
000397076700003
op_rights cc_by_nc_nd
openAccess
info:eu-repo/semantics/openAccess
container_title Marine Environmental Research
container_volume 125
container_start_page 25
op_container_end_page 33
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