Vulnerability of Antarctic marine benthos to increased temperatures and ocean acidification associated with climate change - x-ray diffractometry of sea urchin skeletons

Progress Code: completed Public Ocean acidification and warming are global phenomena that will impact marine biota through the 21st century. This project will provide urgently needed predictive information on the likely survivorship of benthic invertebrates in near shore Antarctic environments that...

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Bibliographic Details
Other Authors: AADC (owner), AADC, DATA OFFICER (distributor), AADC, DATA OFFICER (custodian), AU/AADC > Australian Antarctic Data Centre, Australia (hasAssociationWith), Australian Antarctic Data Centre (publisher), Australian Antarctic Division (sponsor), BYRNE, MARIA (collaborator), BYRNE, MARIA (hasPrincipalInvestigator), CONNELL, DAVE J. (author)
Format: Dataset
Language:unknown
Published: Australian Ocean Data Network
Subjects:
biota
environment
oceans
EARTH SCIENCE &gt
BIOLOGICAL CLASSIFICATION &gt
ANIMALS/INVERTEBRATES &gt
ECHINODERMS &gt
SEA URCHINS
x-ray diffractometry
Ocean acidification
XRD &gt
X-ray Diffractometer
LABORATORY
AMD
AMD/AU
CEOS
CONTINENT &gt
ANTARCTICA
OCEAN &gt
SOUTHERN OCEAN
GEOGRAPHIC REGION &gt
POLAR
Antarctic
Southern Ocean
Antarc*
Antarctica
Online Access:https://researchdata.edu.au/vulnerability-antarctic-marine-urchin-skeletons/2819439
Description
Summary:Progress Code: completed Public Ocean acidification and warming are global phenomena that will impact marine biota through the 21st century. This project will provide urgently needed predictive information on the likely survivorship of benthic invertebrates in near shore Antarctic environments that is crucial for risk assessment of potential future changes to oceans. As oceans acidify carbonate saturation decreases, reducing the material required to produce marine skeletons. By examining the effects of increased ocean temperature and acidification on planktonic and benthic life stages of both calcifying and non-calcifying ecologically important organisms, predictions can be made on the potential vulnerability of marine biota to climatic change. Project Objectives: This project aims to deliver one of the first assessments of the impacts that ocean warming and acidification through rising CO2 levels will have on Antarctic benthic marine invertebrates and of the adaptive capacity of common Antarctic biota to climate change. The developmental success of species that have a skeleton will be compared to those that do not under controlled conditions of increased sea water temperature and CO2. A comparison of the responses and sensitivity of developmental stages of calcifiers (echinoids, bivalves) and non-calcifiers (asteroids) to elevated CO2 and temperature will generate much needed empirical data for assessment of risk and adaptive capacity of Antarctica's marine biota and will enable predictions of how benthic invertebrates will fare with respect to climate change scenarios. This dataset addresses objective 3, and part of objective 5: 3 - compare the dynamics of biomineralisation with respect to the elemental composition in response to increased temperature and CO2 in species with aragonite and calcite exoskeletons (bivalves) and porous high magnesium calcite endoskeletons (echinoids) to assess the potential for an in-built adaptive response in calcification 5 - compare biomineralisation and elemental signatures ...

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