Effects of ocean acidification on sponge communities, supplement to: Goodwin, Claire; Rodolfo-Metalpa, Riccardo; Picton, Bernard; Hall-Spencer, Jason M (2014): Effects of ocean acidification on sponge communities. Marine Ecology, 35, 41-49

The effects of ocean acidification on lower invertebrates such as sponges may be pronounced because of their low capacity for acid-base regulation. However, so far, most studies have focused on calcifiers. We present the first study of the effects of ocean acidification on the Porifera. Sponge speci...

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Bibliographic Details
Main Authors: Goodwin, Claire, Rodolfo-Metalpa, Riccardo, Picton, Bernard, Hall-Spencer, Jason M
Format: Dataset
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2014
Subjects:
Benthos
Chondrilla nucula
Chondrosia reniformis
CO2 vent
Coast and continental shelf
Community composition and diversity
Crambe crambe
Entire community
Eurypon major
Field observation
Growth/Morphology
Haliclona mediterranea
Hemimycale columella
Ircinia variabilis
Mediterranean Sea
Microciona cf toxitenuis
Petrosia ficiformis
Phorbas ficticius
Phorbas fictitius
Phorbas tenacior
Rocky-shore community
Sarcotragus spinosulus
Scalarispongia scalaris
Spirastrella cunctatrix
Temperate
Species
Station label
Coverage
Coverage, standard error
Identification
Description
Area
Distance
pH
Partial pressure of carbon dioxide water at sea surface temperature wet air
Carbonate ion
Bicarbonate ion
Calcite saturation state
Aragonite saturation state
Salinity
Temperature, water
Alkalinity, total
Carbonate system computation flag
Carbon dioxide
Fugacity of carbon dioxide water at sea surface temperature wet air
Carbon, inorganic, dissolved
Experiment
Potentiometric
Calculated using CO2SYS
Potentiometric titration
Calculated using seacarb after Nisumaa et al. 2010
Mediterranean Sea Acidification in a Changing Climate MedSeA
Ocean Acidification International Coordination Centre OA-ICC
Goodwin
Ocean acidification
Online Access:https://dx.doi.org/10.1594/pangaea.833805
https://doi.pangaea.de/10.1594/PANGAEA.833805
id ftdatacite:10.1594/pangaea.833805
record_format openpolar
spelling ftdatacite:10.1594/pangaea.833805 2023-05-15T17:49:52+02:00 Effects of ocean acidification on sponge communities, supplement to: Goodwin, Claire; Rodolfo-Metalpa, Riccardo; Picton, Bernard; Hall-Spencer, Jason M (2014): Effects of ocean acidification on sponge communities. Marine Ecology, 35, 41-49 Goodwin, Claire Rodolfo-Metalpa, Riccardo Picton, Bernard Hall-Spencer, Jason M 2014 text/tab-separated-values https://dx.doi.org/10.1594/pangaea.833805 https://doi.pangaea.de/10.1594/PANGAEA.833805 en eng PANGAEA - Data Publisher for Earth & Environmental Science https://cran.r-project.org/package=seacarb https://dx.doi.org/10.1111/maec.12093 https://cran.r-project.org/package=seacarb Creative Commons Attribution 3.0 Unported https://creativecommons.org/licenses/by/3.0/legalcode cc-by-3.0 CC-BY Benthos Chondrilla nucula Chondrosia reniformis CO2 vent Coast and continental shelf Community composition and diversity Crambe crambe Entire community Eurypon major Field observation Growth/Morphology Haliclona mediterranea Hemimycale columella Ircinia variabilis Mediterranean Sea Microciona cf toxitenuis Petrosia ficiformis Phorbas ficticius Phorbas fictitius Phorbas tenacior Rocky-shore community Sarcotragus spinosulus Scalarispongia scalaris Spirastrella cunctatrix Temperate Species Station label Coverage Coverage, standard error Identification Description Area Distance pH Partial pressure of carbon dioxide water at sea surface temperature wet air Carbonate ion Bicarbonate ion Calcite saturation state Aragonite saturation state Salinity Temperature, water Alkalinity, total Carbonate system computation flag Carbon dioxide Fugacity of carbon dioxide water at sea surface temperature wet air Carbon, inorganic, dissolved Experiment Potentiometric Calculated using CO2SYS Potentiometric titration Calculated using seacarb after Nisumaa et al. 2010 Mediterranean Sea Acidification in a Changing Climate MedSeA Ocean Acidification International Coordination Centre OA-ICC Supplementary Dataset dataset Dataset 2014 ftdatacite https://doi.org/10.1594/pangaea.833805 https://doi.org/10.1111/maec.12093 2022-02-08T16:24:46Z The effects of ocean acidification on lower invertebrates such as sponges may be pronounced because of their low capacity for acid-base regulation. However, so far, most studies have focused on calcifiers. We present the first study of the effects of ocean acidification on the Porifera. Sponge species composition and cover along pH gradients at CO2 vents off Ischia (Tyrrhenian Sea, Italy) was measured at sites with normal pH (8.1-8.2), lowered pH (mean 7.8-7.9, min 7.4-7.5) and extremely low pH (6.6). There was a strong correlation between pH and both sponge cover and species composition. Crambe crambe was the only species present in any abundance in the areas with mean pH 6.6, seven species were present at mean pH 7.8-7.9 and four species (Phorbas tenacior, Petrosia ficiformis, Chondrilla nucula and Hemimycale columella) were restricted to sites with normal pH. Sponge percentage cover decreased significantly from normal to acidified sites. No significant effect of increasing CO2 levels and decreasing pH was found on spicule form in Crambe crambe. This study indicates that increasing CO2 concentrations will likely affect sponge community composition as some demosponge species appear to be more vulnerable than others. Further research into the mechanisms by which acidification affects sponges would be useful in predicting likely effects on sessile marine communities. : In order to allow full comparability with other ocean acidification data sets, the R package seacarb (Lavigne et al, 2014) was used to compute a complete and consistent set of carbonate system variables, as described by Nisumaa et al. (2010). In this dataset the original values were archived in addition with the recalculated parameters (see related PI). The date of carbonate chemistry calculation is 2014-07-03. Dataset Ocean acidification DataCite Metadata Store (German National Library of Science and Technology) Goodwin ENVELOPE(-62.833,-62.833,-65.100,-65.100)
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Benthos
Chondrilla nucula
Chondrosia reniformis
CO2 vent
Coast and continental shelf
Community composition and diversity
Crambe crambe
Entire community
Eurypon major
Field observation
Growth/Morphology
Haliclona mediterranea
Hemimycale columella
Ircinia variabilis
Mediterranean Sea
Microciona cf toxitenuis
Petrosia ficiformis
Phorbas ficticius
Phorbas fictitius
Phorbas tenacior
Rocky-shore community
Sarcotragus spinosulus
Scalarispongia scalaris
Spirastrella cunctatrix
Temperate
Species
Station label
Coverage
Coverage, standard error
Identification
Description
Area
Distance
pH
Partial pressure of carbon dioxide water at sea surface temperature wet air
Carbonate ion
Bicarbonate ion
Calcite saturation state
Aragonite saturation state
Salinity
Temperature, water
Alkalinity, total
Carbonate system computation flag
Carbon dioxide
Fugacity of carbon dioxide water at sea surface temperature wet air
Carbon, inorganic, dissolved
Experiment
Potentiometric
Calculated using CO2SYS
Potentiometric titration
Calculated using seacarb after Nisumaa et al. 2010
Mediterranean Sea Acidification in a Changing Climate MedSeA
Ocean Acidification International Coordination Centre OA-ICC
spellingShingle Benthos
Chondrilla nucula
Chondrosia reniformis
CO2 vent
Coast and continental shelf
Community composition and diversity
Crambe crambe
Entire community
Eurypon major
Field observation
Growth/Morphology
Haliclona mediterranea
Hemimycale columella
Ircinia variabilis
Mediterranean Sea
Microciona cf toxitenuis
Petrosia ficiformis
Phorbas ficticius
Phorbas fictitius
Phorbas tenacior
Rocky-shore community
Sarcotragus spinosulus
Scalarispongia scalaris
Spirastrella cunctatrix
Temperate
Species
Station label
Coverage
Coverage, standard error
Identification
Description
Area
Distance
pH
Partial pressure of carbon dioxide water at sea surface temperature wet air
Carbonate ion
Bicarbonate ion
Calcite saturation state
Aragonite saturation state
Salinity
Temperature, water
Alkalinity, total
Carbonate system computation flag
Carbon dioxide
Fugacity of carbon dioxide water at sea surface temperature wet air
Carbon, inorganic, dissolved
Experiment
Potentiometric
Calculated using CO2SYS
Potentiometric titration
Calculated using seacarb after Nisumaa et al. 2010
Mediterranean Sea Acidification in a Changing Climate MedSeA
Ocean Acidification International Coordination Centre OA-ICC
Goodwin, Claire
Rodolfo-Metalpa, Riccardo
Picton, Bernard
Hall-Spencer, Jason M
Effects of ocean acidification on sponge communities, supplement to: Goodwin, Claire; Rodolfo-Metalpa, Riccardo; Picton, Bernard; Hall-Spencer, Jason M (2014): Effects of ocean acidification on sponge communities. Marine Ecology, 35, 41-49
topic_facet Benthos
Chondrilla nucula
Chondrosia reniformis
CO2 vent
Coast and continental shelf
Community composition and diversity
Crambe crambe
Entire community
Eurypon major
Field observation
Growth/Morphology
Haliclona mediterranea
Hemimycale columella
Ircinia variabilis
Mediterranean Sea
Microciona cf toxitenuis
Petrosia ficiformis
Phorbas ficticius
Phorbas fictitius
Phorbas tenacior
Rocky-shore community
Sarcotragus spinosulus
Scalarispongia scalaris
Spirastrella cunctatrix
Temperate
Species
Station label
Coverage
Coverage, standard error
Identification
Description
Area
Distance
pH
Partial pressure of carbon dioxide water at sea surface temperature wet air
Carbonate ion
Bicarbonate ion
Calcite saturation state
Aragonite saturation state
Salinity
Temperature, water
Alkalinity, total
Carbonate system computation flag
Carbon dioxide
Fugacity of carbon dioxide water at sea surface temperature wet air
Carbon, inorganic, dissolved
Experiment
Potentiometric
Calculated using CO2SYS
Potentiometric titration
Calculated using seacarb after Nisumaa et al. 2010
Mediterranean Sea Acidification in a Changing Climate MedSeA
Ocean Acidification International Coordination Centre OA-ICC
description The effects of ocean acidification on lower invertebrates such as sponges may be pronounced because of their low capacity for acid-base regulation. However, so far, most studies have focused on calcifiers. We present the first study of the effects of ocean acidification on the Porifera. Sponge species composition and cover along pH gradients at CO2 vents off Ischia (Tyrrhenian Sea, Italy) was measured at sites with normal pH (8.1-8.2), lowered pH (mean 7.8-7.9, min 7.4-7.5) and extremely low pH (6.6). There was a strong correlation between pH and both sponge cover and species composition. Crambe crambe was the only species present in any abundance in the areas with mean pH 6.6, seven species were present at mean pH 7.8-7.9 and four species (Phorbas tenacior, Petrosia ficiformis, Chondrilla nucula and Hemimycale columella) were restricted to sites with normal pH. Sponge percentage cover decreased significantly from normal to acidified sites. No significant effect of increasing CO2 levels and decreasing pH was found on spicule form in Crambe crambe. This study indicates that increasing CO2 concentrations will likely affect sponge community composition as some demosponge species appear to be more vulnerable than others. Further research into the mechanisms by which acidification affects sponges would be useful in predicting likely effects on sessile marine communities. : In order to allow full comparability with other ocean acidification data sets, the R package seacarb (Lavigne et al, 2014) was used to compute a complete and consistent set of carbonate system variables, as described by Nisumaa et al. (2010). In this dataset the original values were archived in addition with the recalculated parameters (see related PI). The date of carbonate chemistry calculation is 2014-07-03.
format Dataset
author Goodwin, Claire
Rodolfo-Metalpa, Riccardo
Picton, Bernard
Hall-Spencer, Jason M
author_facet Goodwin, Claire
Rodolfo-Metalpa, Riccardo
Picton, Bernard
Hall-Spencer, Jason M
author_sort Goodwin, Claire
title Effects of ocean acidification on sponge communities, supplement to: Goodwin, Claire; Rodolfo-Metalpa, Riccardo; Picton, Bernard; Hall-Spencer, Jason M (2014): Effects of ocean acidification on sponge communities. Marine Ecology, 35, 41-49
title_short Effects of ocean acidification on sponge communities, supplement to: Goodwin, Claire; Rodolfo-Metalpa, Riccardo; Picton, Bernard; Hall-Spencer, Jason M (2014): Effects of ocean acidification on sponge communities. Marine Ecology, 35, 41-49
title_full Effects of ocean acidification on sponge communities, supplement to: Goodwin, Claire; Rodolfo-Metalpa, Riccardo; Picton, Bernard; Hall-Spencer, Jason M (2014): Effects of ocean acidification on sponge communities. Marine Ecology, 35, 41-49
title_fullStr Effects of ocean acidification on sponge communities, supplement to: Goodwin, Claire; Rodolfo-Metalpa, Riccardo; Picton, Bernard; Hall-Spencer, Jason M (2014): Effects of ocean acidification on sponge communities. Marine Ecology, 35, 41-49
title_full_unstemmed Effects of ocean acidification on sponge communities, supplement to: Goodwin, Claire; Rodolfo-Metalpa, Riccardo; Picton, Bernard; Hall-Spencer, Jason M (2014): Effects of ocean acidification on sponge communities. Marine Ecology, 35, 41-49
title_sort effects of ocean acidification on sponge communities, supplement to: goodwin, claire; rodolfo-metalpa, riccardo; picton, bernard; hall-spencer, jason m (2014): effects of ocean acidification on sponge communities. marine ecology, 35, 41-49
publisher PANGAEA - Data Publisher for Earth & Environmental Science
publishDate 2014
url https://dx.doi.org/10.1594/pangaea.833805
https://doi.pangaea.de/10.1594/PANGAEA.833805
long_lat ENVELOPE(-62.833,-62.833,-65.100,-65.100)
geographic Goodwin
geographic_facet Goodwin
genre Ocean acidification
genre_facet Ocean acidification
op_relation https://cran.r-project.org/package=seacarb
https://dx.doi.org/10.1111/maec.12093
https://cran.r-project.org/package=seacarb
op_rights Creative Commons Attribution 3.0 Unported
https://creativecommons.org/licenses/by/3.0/legalcode
cc-by-3.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.1594/pangaea.833805
https://doi.org/10.1111/maec.12093
_version_ 1766156374823141376

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