Impacts of Elevated pCO2 on a Dominant Aragonitic Pteropod (Thecosomata) and its Specialist Predator (Gymnosomata) in the Ross Sea

Abstract: Rising atmospheric carbon dioxide concentrations have resulted in greater oceanic uptake of anthropogenic carbon dioxide. Elevated partial pressure of carbon dioxide can impact marine organisms both via decreased carbonate saturation that affects calcification rates and via disturbance to...

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Bibliographic Details
Main Author: Seibel, Brad
Format: Dataset
Language:unknown
Published: IEDA: US Antarctic Program Data Center 2010
Subjects:
CO2
McMurdo Station
Shell fish
Antarctic Organisms and Ecosystems
Biology
Sample/Collection Description
Southern Ocean
Biosphere
Oceans
Ross Island
US Antarctic Program Data Center (USAP-DC)
Antarctic
The Antarctic
Ross Sea
Marcos
Antarc*
Antarctica
Limacina helicina
Online Access:http://get.iedadata.org/metadata/iso/600055
id dataone:http://get.iedadata.org/metadata/iso/600055
record_format openpolar
spelling dataone:http://get.iedadata.org/metadata/iso/600055 2024-11-03T19:44:46+00:00 Impacts of Elevated pCO2 on a Dominant Aragonitic Pteropod (Thecosomata) and its Specialist Predator (Gymnosomata) in the Ross Sea Seibel, Brad ENVELOPE(166.0,167.0,-77.0,-78.0) BEGINDATE: 2006-09-01T00:00:00Z ENDDATE: 2010-08-31T00:00:00Z 2010-01-01T00:00:00Z http://get.iedadata.org/metadata/iso/600055 unknown IEDA: US Antarctic Program Data Center CO2 McMurdo Station Shell fish Antarctic Organisms and Ecosystems Biology Sample/Collection Description Southern Ocean Biosphere Oceans Ross Island US Antarctic Program Data Center (USAP-DC) Dataset 2010 dataone:urn:node:IEDA_USAP 2024-11-03T19:11:43Z Abstract: Rising atmospheric carbon dioxide concentrations have resulted in greater oceanic uptake of anthropogenic carbon dioxide. Elevated partial pressure of carbon dioxide can impact marine organisms both via decreased carbonate saturation that affects calcification rates and via disturbance to acid-base (metabolic) physiology. Pteropod molluscs (Thecosomata) form shells made of aragonite, a type of calcium carbonate that is highly soluble, suggesting that these organisms may be particularly sensitive to increasing carbon dioxide and reduced carbonate ion concentration. Thecosome pteropods, which dominate the calcium carbonate export south of the Antarctic Polar Front, will be the first major group of marine calcifying organisms to experience carbonate undersaturation within parts of their present-day geographical ranges as a result of anthropogenic carbon dioxide. An unusual, co-evolved relationship between thecosomes and their specialized gymnosome predators provides a unique backdrop against which to assess the physiological and ecological importance of elevated partial pressure of carbon dioxide. Pteropods are functionally important components of the Antarctic ecosystem with potential to influence phytoplankton stocks, carbon export, and dimethyl sulfide levels that, in turn, influence global climate through ocean-atmosphere feedback loops. The research will quantify the impact of elevated carbon dioxide on a dominant aragonitic pteropod, Limacina helicina, and its specialist predator, the gymnosome Clione antarctica, in the Ross Sea through laboratory experimentation. Results will be disseminated broadly to enhance scientific understanding in this field. The project involves collaboration between researchers at a predominantly undergraduate institution with a significant enrollment of students that are typically underrepresented in the research environment (California State University San Marcos - CSUSM) and at a Ph.D.-granting institution (University of Rhode Island - URI). The program will promote education and learning through the joint education of undergraduate students and graduate students at CSUSM and URI as part of a research team, as well as through the teaching activities of the principal investigators. Dr. Keating, CSUSM professor of science education, will participate in the McMurdo fieldwork and lead the outreach opportunities for the project. Dataset Antarc* Antarctic Antarctica Limacina helicina Ross Island Ross Sea Southern Ocean IEDA: US Antarctic Program Data Center (via DataONE) Antarctic Southern Ocean The Antarctic Ross Sea Ross Island McMurdo Station ENVELOPE(166.667,166.667,-77.850,-77.850) Marcos ENVELOPE(-61.833,-61.833,-64.500,-64.500) ENVELOPE(166.0,167.0,-77.0,-78.0)
institution Open Polar
collection IEDA: US Antarctic Program Data Center (via DataONE)
op_collection_id dataone:urn:node:IEDA_USAP
language unknown
topic CO2
McMurdo Station
Shell fish
Antarctic Organisms and Ecosystems
Biology
Sample/Collection Description
Southern Ocean
Biosphere
Oceans
Ross Island
US Antarctic Program Data Center (USAP-DC)
spellingShingle CO2
McMurdo Station
Shell fish
Antarctic Organisms and Ecosystems
Biology
Sample/Collection Description
Southern Ocean
Biosphere
Oceans
Ross Island
US Antarctic Program Data Center (USAP-DC)
Seibel, Brad
Impacts of Elevated pCO2 on a Dominant Aragonitic Pteropod (Thecosomata) and its Specialist Predator (Gymnosomata) in the Ross Sea
topic_facet CO2
McMurdo Station
Shell fish
Antarctic Organisms and Ecosystems
Biology
Sample/Collection Description
Southern Ocean
Biosphere
Oceans
Ross Island
US Antarctic Program Data Center (USAP-DC)
description Abstract: Rising atmospheric carbon dioxide concentrations have resulted in greater oceanic uptake of anthropogenic carbon dioxide. Elevated partial pressure of carbon dioxide can impact marine organisms both via decreased carbonate saturation that affects calcification rates and via disturbance to acid-base (metabolic) physiology. Pteropod molluscs (Thecosomata) form shells made of aragonite, a type of calcium carbonate that is highly soluble, suggesting that these organisms may be particularly sensitive to increasing carbon dioxide and reduced carbonate ion concentration. Thecosome pteropods, which dominate the calcium carbonate export south of the Antarctic Polar Front, will be the first major group of marine calcifying organisms to experience carbonate undersaturation within parts of their present-day geographical ranges as a result of anthropogenic carbon dioxide. An unusual, co-evolved relationship between thecosomes and their specialized gymnosome predators provides a unique backdrop against which to assess the physiological and ecological importance of elevated partial pressure of carbon dioxide. Pteropods are functionally important components of the Antarctic ecosystem with potential to influence phytoplankton stocks, carbon export, and dimethyl sulfide levels that, in turn, influence global climate through ocean-atmosphere feedback loops. The research will quantify the impact of elevated carbon dioxide on a dominant aragonitic pteropod, Limacina helicina, and its specialist predator, the gymnosome Clione antarctica, in the Ross Sea through laboratory experimentation. Results will be disseminated broadly to enhance scientific understanding in this field. The project involves collaboration between researchers at a predominantly undergraduate institution with a significant enrollment of students that are typically underrepresented in the research environment (California State University San Marcos - CSUSM) and at a Ph.D.-granting institution (University of Rhode Island - URI). The program will promote education and learning through the joint education of undergraduate students and graduate students at CSUSM and URI as part of a research team, as well as through the teaching activities of the principal investigators. Dr. Keating, CSUSM professor of science education, will participate in the McMurdo fieldwork and lead the outreach opportunities for the project.
format Dataset
author Seibel, Brad
author_facet Seibel, Brad
author_sort Seibel, Brad
title Impacts of Elevated pCO2 on a Dominant Aragonitic Pteropod (Thecosomata) and its Specialist Predator (Gymnosomata) in the Ross Sea
title_short Impacts of Elevated pCO2 on a Dominant Aragonitic Pteropod (Thecosomata) and its Specialist Predator (Gymnosomata) in the Ross Sea
title_full Impacts of Elevated pCO2 on a Dominant Aragonitic Pteropod (Thecosomata) and its Specialist Predator (Gymnosomata) in the Ross Sea
title_fullStr Impacts of Elevated pCO2 on a Dominant Aragonitic Pteropod (Thecosomata) and its Specialist Predator (Gymnosomata) in the Ross Sea
title_full_unstemmed Impacts of Elevated pCO2 on a Dominant Aragonitic Pteropod (Thecosomata) and its Specialist Predator (Gymnosomata) in the Ross Sea
title_sort impacts of elevated pco2 on a dominant aragonitic pteropod (thecosomata) and its specialist predator (gymnosomata) in the ross sea
publisher IEDA: US Antarctic Program Data Center
publishDate 2010
url http://get.iedadata.org/metadata/iso/600055
op_coverage ENVELOPE(166.0,167.0,-77.0,-78.0)
BEGINDATE: 2006-09-01T00:00:00Z ENDDATE: 2010-08-31T00:00:00Z
long_lat ENVELOPE(166.667,166.667,-77.850,-77.850)
ENVELOPE(-61.833,-61.833,-64.500,-64.500)
ENVELOPE(166.0,167.0,-77.0,-78.0)
geographic Antarctic
Southern Ocean
The Antarctic
Ross Sea
Ross Island
McMurdo Station
Marcos
geographic_facet Antarctic
Southern Ocean
The Antarctic
Ross Sea
Ross Island
McMurdo Station
Marcos
genre Antarc*
Antarctic
Antarctica
Limacina helicina
Ross Island
Ross Sea
Southern Ocean
genre_facet Antarc*
Antarctic
Antarctica
Limacina helicina
Ross Island
Ross Sea
Southern Ocean
_version_ 1814737127436451840

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