[Parameters: Topic='ATMOSPHERE', Term='ATMOSPHERIC CHEMISTRY', Variable_Level_1='CARBON AND HYDROCARBON COMPOUNDS']
Vulnerability of Antarctic marine benthos to increased temperatures and ocean acidification associated with climate changeEntry ID: AAS_3134
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Abstract: Metadata record for data from AAS (ASAC) project 3134.
Data from this project will be available via the child records.
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.
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.
The specific aims of the project are to:
1 - examine the impacts of predicted future elevated ocean temperatures and CO2 on fertilisation success, embryonic and larval development of Antarctic molluscs and echinoderms
2 - document skeletal calcification and morphology and growth in larvae under controlled conditions of increased sea water temperature and CO2.
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
4 - used as a biomarker measure of stress and impaired calcification.
5 - compare biomineralisation and elemental signatures in skeletons in larvae of Antarctic molluscs and echinoderms under climate change scenarios with that determined for related species at lower latitudes to assess the relative sensitivity and vulnerability of Antarctic biota.
Taken from the 2009-2010 Progress Report:
Progress against objectives:
1. Unsuccessful as target species, Sterechinus neumayeri had already passed its spawning period, and attempts to spawn and fertilise the Antarctic bivalve, Laternula ellipticaskeleta failed.
2. Skeletal calcification and morphology of juveniles of Abatus nimrodi were successfully documented under controlled conditions of ocean warming and acidification.
3. Juveniles of A. nimrodi were preserved and returned to Australia in order to compare the dynamics of biomineralisation and skeletal mineralogy.
4. No heat shock protein experiments were carried out.
5. Air-dried tests of S. neumayeri and A. nimrodi were RTA'd in order to compare the dynamics of biomineralisation and skeletal mineralogy.
Taken from some project abstracts written by two students working on the project:
Impacts of ocean acidification and increasing seawater temperature on the early life history of the Antarctic echinoderm Sterechinus neumayeri.
Simultaneous effects of ocean acidification and temperature change in Antarctic environments warrant investigation as little is known about the synergistic consequences of these parameters on Antarctic benthic species.
Fertilisation success, embryo cleavage, blastulation and gastrulation were documented in the sea urchin Sterechinus neumayeri, reared for up to 12 days under experimental pCO2 and elevated temperature scenarios predicted by the IPCC (2007) over the next century. Experimental treatments included controls (-1 degrees C, pH 8.0), elevated temperature (1 degrees C, 3 degrees C) and decreased pH (7.8, 7.6) in all combinations in a multi-factorial design. Preliminary results suggest that fertilisation and development up to the gastrula stages are robust to increases in pCO2 and temperature predicted by the year 2100. Percentages of normally developing blastula and gastrula were also slightly higher in temperatures 2 degrees C above ambient.
Impacts of ocean acidification and increasing seawater temperature on juveniles of two Antarctic heart urchins, Abatus ingens and Abatus shackletoni.
Simultaneous effects of ocean acidification and temperature change in Antarctic environments warrant investigation as little is known about the synergistic consequences of these factors on Antarctic benthic species. Juvenile Abatus ingens and Abatus shackletoni were incubated under experimental pCO2 and elevated temperature scenarios reflective of those predicted by the IPCC (2007). Direct development from embryos to juveniles occurs in these species without a pelagic larval phase and the developing young are lecithotrophic for an extended period. Adult urchins were collected near Davis Station during the Austral summer season (January-February 2011). Juveniles were extracted from the parental brood pouch and reared in flow-through experimental treatments for 4 weeks. CO2-enriched air was supplied to seawater in which pCO2 was regulated at the target levels of 448 plus or minus 6.51 (pH 8.01 plus or minus 0.005), 846 plus or minus 6.58 (pH 7.83 plus or minus 0.005) and 1371 plus or minus 7.34 (pH 7.63 plus or minus 0.007) ppm and seawater temperature was set at -1 plus or minus 0.03 degrees C (Control) and 1 plus or minus 0.32 degrees C. Preliminary results from this investigation showed significant increases in spine growth in juveniles of both A.ingens and A. shackletoni over the experimental period. However, juveniles reared in 1 degrees C significantly exhibited more incidences of epithelial separation in the spines compared to those reared in -1 degrees C. This suggests that, although there is an inherent capacity for tolerance of varying levels of pH in seawater in the absence of the protection afforded by the maternal brood pouch, these juveniles are still at risk from increasing temperatures.
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Data Set Citation
Dataset Originator/Creator: Leila Ben Khelifa, Francoise Gasse
Dataset Title: European Diatom Database-North African Dataset
Dataset Release Place: Newcastle upon Tyne, United Kingdom
Dataset Publisher: The University of NewcastleOnline Resource: http://craticula.ncl.ac.uk/Eddi/jsp/datasetdesc.jsp?DatasetId=AfricaN
This data set description is a member of a collection. The collection is described in
Start Date: 1975-01-01Stop Date: 1986-12-31
TERRESTRIAL HYDROSPHERE > GROUND WATER > GROUNDWATER CHEMISTRY
TERRESTRIAL HYDROSPHERE > GROUND WATER > SALTWATER INTRUSION
TERRESTRIAL HYDROSPHERE > SURFACE WATER > LAKES > LAKEWATER CHEMICAL DATA
TERRESTRIAL HYDROSPHERE > SURFACE WATER > RIVERS/STREAMS > NIGER RIVER
TERRESTRIAL HYDROSPHERE > WATER QUALITY/WATER CHEMISTRY > ALKALINITY
TERRESTRIAL HYDROSPHERE > WATER QUALITY/WATER CHEMISTRY > CONDUCTIVITY
TERRESTRIAL HYDROSPHERE > WATER QUALITY/WATER CHEMISTRY > PH > LAKEWATER PH TRANSFER FUNCTION
TERRESTRIAL HYDROSPHERE > WATER QUALITY/WATER CHEMISTRY > TRACE METALS
LAND SURFACE > EROSION/SEDIMENTATION > SEDIMENT CHEMISTRY > SURFACE SEDIMENT SAMPLES
LAND SURFACE > EROSION/SEDIMENTATION > SEDIMENTS > SURFACE SEDIMENT SAMPLES
BIOLOGICAL CLASSIFICATION > PROTISTS > DIATOMS
BIOLOGICAL CLASSIFICATION > PLANTS > MICROALGAE > DIATOMS
BIOSPHERE > AQUATIC ECOSYSTEMS > LAKES
BIOSPHERE > AQUATIC ECOSYSTEMS > LAKES > SALINE LAKES > BARA SALT POND
Access Constraints None
Use Constraints None
Data Set Progress
Role: TECHNICAL CONTACT
Phone: 33 4 42 97 15 70
Fax: 33 4 42 97 15 95
Email: gasse at cerege.fr
CNRS-CEREGE, Europole Mediterraneen de l'Arbois- BP80
City: Aix en Provence Cedex 04
Postal Code: 13545
Role: DIF AUTHOR
Phone: (301) 614-6898
Email: Tyler.B.Stevens at nasa.gov
NASA Goddard Space Flight Center Global Change Master Directory
Province or State: MD
Postal Code: 20771
Ben Khelifa, L., 1989. Diatom?es continentales et pal?omilieux du Sud-Tunisien
(Palhydaf Site 1) au Quaternaire sup?rieur. Approche statistique bas?e sur les
diatom?es et les milieux naturels. Thesis. Univ. Paris-Sud, 233 pp.
Carvalho, L.R., Cox, E.J., Fritz, S.C., Juggins, S., Sims, PA., Gasse, F., and
Battarbee, R.W., 1995, Standardizing the taxonomy of saline lake ... Cyclotella
spp. Diatom Research, 10 (2) 229-240.
El Hamouti, N., Lamb, H., Fontes, J.Ch. et Gasse, F., 1991. Changements
hydroclimatiques abrupts dans le Moyen Atlas marocain depuis le dernier maximum
glaciaire. C. R. Acad. Sci., Paris. 313 , 259-265.
Fontes, J.Ch., Gasse, F., Callot, Y., Plaziat, J.C., Carbonel, P., Dupeuple,
P.A. & Kaczmarska, I., 1985. Freshwater to marine-like environments from
holocene lakes in Northern Sahara. Nature, 317, 608-610.
Gasse, F., Fontes, J.Ch., Plaziat, J.C., Carbonel, P., Kaczmarska, I. , De
Deckker, P., Souli?-Marsche, I., Callot, Y., & Dupeuple, P.A., 1987. Biological
remains, geochemistry and stable isotopes for the reconstruction of
environmental and hydrological changes in the Holocene lakes from North Sahara.
Paleoecol., Palaeogeogr , Palaeoclimat., 60, 1-46.
Gasse, F., 1987. Diatoms for reconstructing palaeoenvironments and
palaeohydrologyn tropical semi-arid zones. Example of some lakes from Niger
since 12,000 BP. Hydrobiologia, 154 : 127-163.
Gasse, F., T?het, R., Durand, A., Gibert, E., Fontes, J.Ch., 1990. The
arid-humid transition in the Sahara and the Sahel during the last deglaciation.
Nature, vol. 346(6280):141-156.
Gasse, F., Van Campo, E., 1994. Abrupt post-glacial climate events in West Asia
and North Africa monsoon domains. EPSL, 126, 435-456.
Lamb, H.F., Gasse, F., Ben Kaddour, A., El Hamouti, N., Van der Kaars,
S., Perkins, W.T., Pearce, N.J., Roberts, C.N., 1995. Relation between
century-scale Holocene arid intervals in tropical and temperate
zones. Nature, 373,134-137.
Extended Metadata Properties
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Creation and Review Dates
DIF Creation Date: 2002-09-23
Last DIF Revision Date: 2012-12-21
Future DIF Review Date: 2003-09-23