Ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator

The composition of local ecological communities is determined by the members of the regional community that are able to survive the abiotic and biotic conditions of a local ecosystem. Anthropogenic activities since the industrial revolution have increased atmospheric CO2 concentrations, which have i...

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Main Authors:	Hammill, Edd, Johnson, Ellery, Atwood, Trisha Brooke, Harianto, Januar, Hinchliffe, Charles, Calosi, Piero, Byrne, Maria
Other Authors:	Wiley
Format:	Text
Language:	unknown
Published:	Hosted by Utah State University Libraries 2017
Subjects:	Environmental Sciences Ocean acidification Copepods
Online Access:	https://digitalcommons.usu.edu/wats_facpub/968

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spelling	ftutahsudc:oai:digitalcommons.usu.edu:wats_facpub-1985 2023-05-15T17:50:48+02:00 Ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator Hammill, Edd Johnson, Ellery Atwood, Trisha Brooke Harianto, Januar Hinchliffe, Charles Calosi, Piero Byrne, Maria Wiley 2017-08-29T07:00:00Z https://digitalcommons.usu.edu/wats_facpub/968 unknown Hosted by Utah State University Libraries https://digitalcommons.usu.edu/wats_facpub/968 Watershed Sciences Faculty Publications Environmental Sciences text 2017 ftutahsudc 2022-10-27T17:19:47Z The composition of local ecological communities is determined by the members of the regional community that are able to survive the abiotic and biotic conditions of a local ecosystem. Anthropogenic activities since the industrial revolution have increased atmospheric CO2 concentrations, which have in turn decreased ocean pH and altered carbonate ion concentrations: so called ocean acidification (OA). Single-species experiments have shown how OA can dramatically affect zooplankton development, physiology and skeletal mineralization status, potentially reducing their defensive function and altering their predatory and antipredatory behaviors. This means that increased OA may indirectly alter the biotic conditions by modifying trophic interactions. We investigated how OA affects the impact of a cubozoan predator on their zooplankton prey, predominantly Copepoda, Pleocyemata, Dendrobranchiata, and Amphipoda. Experimental conditions were set at either current (pCO2 370 μatm) or end-of-the-century OA (pCO2 1,100 μatm) scenarios, crossed in an orthogonal experimental design with the presence/absence of the cubozoan predator Carybdea rastoni. The combined effects of exposure to OA and predation by C. rastoni caused greater shifts in community structure, and greater reductions in the abundance of key taxa than would be predicted from combining the effect of each stressor in isolation. Specifically, we show that in the combined presence of OA and a cubozoan predator, populations of the most abundant member of the zooplankton community (calanoid copepods) were reduced 27% more than it would be predicted based on the effects of these stressors in isolation, suggesting that OA increases the susceptibility of plankton to predation. Our results indicate that the ecological consequences of OA may be greater than predicted from single-species experiments, and highlight the need to understand future marine global change from a community perspective. Text Ocean acidification Copepods Utah State University: DigitalCommons@USU
institution	Open Polar
collection	Utah State University: DigitalCommons@USU
op_collection_id	ftutahsudc
language	unknown
topic	Environmental Sciences
spellingShingle	Environmental Sciences Hammill, Edd Johnson, Ellery Atwood, Trisha Brooke Harianto, Januar Hinchliffe, Charles Calosi, Piero Byrne, Maria Ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator
topic_facet	Environmental Sciences
description	The composition of local ecological communities is determined by the members of the regional community that are able to survive the abiotic and biotic conditions of a local ecosystem. Anthropogenic activities since the industrial revolution have increased atmospheric CO2 concentrations, which have in turn decreased ocean pH and altered carbonate ion concentrations: so called ocean acidification (OA). Single-species experiments have shown how OA can dramatically affect zooplankton development, physiology and skeletal mineralization status, potentially reducing their defensive function and altering their predatory and antipredatory behaviors. This means that increased OA may indirectly alter the biotic conditions by modifying trophic interactions. We investigated how OA affects the impact of a cubozoan predator on their zooplankton prey, predominantly Copepoda, Pleocyemata, Dendrobranchiata, and Amphipoda. Experimental conditions were set at either current (pCO2 370 μatm) or end-of-the-century OA (pCO2 1,100 μatm) scenarios, crossed in an orthogonal experimental design with the presence/absence of the cubozoan predator Carybdea rastoni. The combined effects of exposure to OA and predation by C. rastoni caused greater shifts in community structure, and greater reductions in the abundance of key taxa than would be predicted from combining the effect of each stressor in isolation. Specifically, we show that in the combined presence of OA and a cubozoan predator, populations of the most abundant member of the zooplankton community (calanoid copepods) were reduced 27% more than it would be predicted based on the effects of these stressors in isolation, suggesting that OA increases the susceptibility of plankton to predation. Our results indicate that the ecological consequences of OA may be greater than predicted from single-species experiments, and highlight the need to understand future marine global change from a community perspective.
author2	Wiley
format	Text
author	Hammill, Edd Johnson, Ellery Atwood, Trisha Brooke Harianto, Januar Hinchliffe, Charles Calosi, Piero Byrne, Maria
author_facet	Hammill, Edd Johnson, Ellery Atwood, Trisha Brooke Harianto, Januar Hinchliffe, Charles Calosi, Piero Byrne, Maria
author_sort	Hammill, Edd
title	Ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator
title_short	Ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator
title_full	Ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator
title_fullStr	Ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator
title_full_unstemmed	Ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator
title_sort	ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator
publisher	Hosted by Utah State University Libraries
publishDate	2017
url	https://digitalcommons.usu.edu/wats_facpub/968
genre	Ocean acidification Copepods
genre_facet	Ocean acidification Copepods
op_source	Watershed Sciences Faculty Publications
op_relation	https://digitalcommons.usu.edu/wats_facpub/968
_version_	1766157704582135808

Ocean acidification alters zooplankton communities and increases predation pressure of a cubozoan predator

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