Effects of ocean acidification on skeletal characteristics of a temperate coral at a CO2 vent system

Ocean Acidification (OA) is predicted to have profound impacts on marine ecosystems because carbonate ions are an essential substrate for the biomineralization of shells and skeletons of calcifying marine organisms, from phytoplankton and corals to fishes1,2,3. Volcanic CO2 vent systems, where seawa...

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Main Authors: Teixidó, N., di Meglio, E., Gambi, M. C., CECCARELLI, CHIARA, CAROSELLI, ERIK, GOFFREDO, STEFANO
Other Authors: Ceccarelli, C., Caroselli, E., Goffredo, S.
Format: Conference Object
Language:English
Published: 2016
Subjects:
ocean acidification
skeletal characteristic
temperate coral
CO2 vent system
Ocean acidification
Online Access:http://hdl.handle.net/11585/589497
http://www.itrs11.org/
id ftunibolognairis:oai:cris.unibo.it:11585/589497
record_format openpolar
spelling ftunibolognairis:oai:cris.unibo.it:11585/589497 2024-04-14T08:17:39+00:00 Effects of ocean acidification on skeletal characteristics of a temperate coral at a CO2 vent system Teixidó, N. di Meglio, E. Gambi, M. C. CECCARELLI, CHIARA CAROSELLI, ERIK GOFFREDO, STEFANO Teixidó, N. Ceccarelli, C. Caroselli, E. di Meglio, E. Gambi, M. C. Goffredo, S. 2016 ELETTRONICO http://hdl.handle.net/11585/589497 http://www.itrs11.org/ eng eng ispartofbook:Eleventh International Temperate Reefs Symposium, Pisa (Italy), 26-30 June, 2016 Eleventh International Temperate Reefs Symposium firstpage:1 lastpage:1 numberofpages:1 http://hdl.handle.net/11585/589497 http://www.itrs11.org/ ocean acidification skeletal characteristic temperate coral CO2 vent system info:eu-repo/semantics/conferenceObject 2016 ftunibolognairis 2024-03-21T17:41:02Z Ocean Acidification (OA) is predicted to have profound impacts on marine ecosystems because carbonate ions are an essential substrate for the biomineralization of shells and skeletons of calcifying marine organisms, from phytoplankton and corals to fishes1,2,3. Volcanic CO2 vent systems, where seawater is naturally acidified, offer a unique opportunity to investigate the response of benthic organisms and habitats to OA. The Ischia Island (Tyrrhenian Sea, Italy) offers a natural laboratory for OA studies, allowing us to investigate how a suite of habitats and species responds to acidification. A. calycularis is a Mediterranean endemic azooxanthellate coral. It is long-lived species and commonly found in dim light shallow rocky habitats of the south-western Mediterranean Sea4. It broods its larvae5 and thus has relatively low dispersal capacities and high potential for local adaptation. This coral is reported as vulnerable in the IUCN red list6. There is one population of A. calycularis that naturally occurs in a semi-submersed cave (Grotta del Mago) affected by CO2 venting, where is highly abundant (70% cover at 1 m depth). Here, we assess population structure and the skeletal characteristics of A. calycularis originating from different sites (naturally acidified and ambient pH sites) along the coast of Ischia Island . We hypothesize that the population thriving under naturally acidified conditions shows higher population dynamics and differences in biomineralization process than the populations studied from other reference sites with ambient pH.Colonies in the Grotta del Mago have encrusting morphology, with smaller size and consequent, lower weight and lower number of polyps compared to conspecifics from sites at normal pH conditions. With increasing acidification (lower pH), the skeletal porosity decreased while the bulk and micro- density increased. Given the reduced calcification rate that may be expected in acidified waters, the observed increase in skeletal density may be counterbalanced by a strong ... Conference Object Ocean acidification IRIS Università degli Studi di Bologna (CRIS - Current Research Information System)
institution Open Polar
collection IRIS Università degli Studi di Bologna (CRIS - Current Research Information System)
op_collection_id ftunibolognairis
language English
topic ocean acidification
skeletal characteristic
temperate coral
CO2 vent system
spellingShingle ocean acidification
skeletal characteristic
temperate coral
CO2 vent system
Teixidó, N.
di Meglio, E.
Gambi, M. C.
CECCARELLI, CHIARA
CAROSELLI, ERIK
GOFFREDO, STEFANO
Effects of ocean acidification on skeletal characteristics of a temperate coral at a CO2 vent system
topic_facet ocean acidification
skeletal characteristic
temperate coral
CO2 vent system
description Ocean Acidification (OA) is predicted to have profound impacts on marine ecosystems because carbonate ions are an essential substrate for the biomineralization of shells and skeletons of calcifying marine organisms, from phytoplankton and corals to fishes1,2,3. Volcanic CO2 vent systems, where seawater is naturally acidified, offer a unique opportunity to investigate the response of benthic organisms and habitats to OA. The Ischia Island (Tyrrhenian Sea, Italy) offers a natural laboratory for OA studies, allowing us to investigate how a suite of habitats and species responds to acidification. A. calycularis is a Mediterranean endemic azooxanthellate coral. It is long-lived species and commonly found in dim light shallow rocky habitats of the south-western Mediterranean Sea4. It broods its larvae5 and thus has relatively low dispersal capacities and high potential for local adaptation. This coral is reported as vulnerable in the IUCN red list6. There is one population of A. calycularis that naturally occurs in a semi-submersed cave (Grotta del Mago) affected by CO2 venting, where is highly abundant (70% cover at 1 m depth). Here, we assess population structure and the skeletal characteristics of A. calycularis originating from different sites (naturally acidified and ambient pH sites) along the coast of Ischia Island . We hypothesize that the population thriving under naturally acidified conditions shows higher population dynamics and differences in biomineralization process than the populations studied from other reference sites with ambient pH.Colonies in the Grotta del Mago have encrusting morphology, with smaller size and consequent, lower weight and lower number of polyps compared to conspecifics from sites at normal pH conditions. With increasing acidification (lower pH), the skeletal porosity decreased while the bulk and micro- density increased. Given the reduced calcification rate that may be expected in acidified waters, the observed increase in skeletal density may be counterbalanced by a strong ...
author2 Teixidó, N.
Ceccarelli, C.
Caroselli, E.
di Meglio, E.
Gambi, M. C.
Goffredo, S.
format Conference Object
author Teixidó, N.
di Meglio, E.
Gambi, M. C.
CECCARELLI, CHIARA
CAROSELLI, ERIK
GOFFREDO, STEFANO
author_facet Teixidó, N.
di Meglio, E.
Gambi, M. C.
CECCARELLI, CHIARA
CAROSELLI, ERIK
GOFFREDO, STEFANO
author_sort Teixidó, N.
title Effects of ocean acidification on skeletal characteristics of a temperate coral at a CO2 vent system
title_short Effects of ocean acidification on skeletal characteristics of a temperate coral at a CO2 vent system
title_full Effects of ocean acidification on skeletal characteristics of a temperate coral at a CO2 vent system
title_fullStr Effects of ocean acidification on skeletal characteristics of a temperate coral at a CO2 vent system
title_full_unstemmed Effects of ocean acidification on skeletal characteristics of a temperate coral at a CO2 vent system
title_sort effects of ocean acidification on skeletal characteristics of a temperate coral at a co2 vent system
publishDate 2016
url http://hdl.handle.net/11585/589497
http://www.itrs11.org/
genre Ocean acidification
genre_facet Ocean acidification
op_relation ispartofbook:Eleventh International Temperate Reefs Symposium, Pisa (Italy), 26-30 June, 2016
Eleventh International Temperate Reefs Symposium
firstpage:1
lastpage:1
numberofpages:1
http://hdl.handle.net/11585/589497
http://www.itrs11.org/
_version_ 1796316884682932224

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