The role of antarctic marine protists in trophodynamics and global change and the impact of UV-B on these organisms - ASAC_40

Progress Code: completed Statement: See the child records for further information. This is a parent metadata record for work carried out as part of ASAC/AAS project 40. See the child metadata records for further information. More than 95% of the biomass in the Southern Ocean is microscopic - single...

Full description

Bibliographic Details
Format: Dataset
Language:unknown
Published: Australian Ocean Data Network
Subjects:
biota
oceans
EARTH SCIENCE &gt
ATMOSPHERE &gt
ATMOSPHERIC RADIATION &gt
ULTRAVIOLET RADIATION
BIOSPHERE &gt
VEGETATION &gt
CHLOROPHYLL
BIOLOGICAL CLASSIFICATION &gt
PROTISTS
ECOSYSTEMS &gt
AQUATIC ECOSYSTEMS &gt
PLANKTON &gt
PHYTOPLANKTON
OCEANS &gt
OCEAN CHEMISTRY &gt
PIGMENTS &gt
CAROTENOIDS
CHEMTAX
CHLOROPHYLL A
CLIMATE CHANGE
CTD
DATE
DEPTH
LATITUDE
LONGITUDE
TEMPERATURE
UV
UV-B
SHIPS
AMD/AU
CEOS
AMD
OCEAN &gt
SOUTHERN OCEAN
CONTINENT &gt
ANTARCTICA
GEOGRAPHIC REGION &gt
Antarctic
Southern Ocean
Astrolabe
Antarc*
Antarctica
Ocean acidification
Sea ice
Online Access:https://researchdata.edu.au/the-role-antarctic-organisms-asac40/2822373
id ftands:oai:ands.org.au::2822373
record_format openpolar
spelling ftands:oai:ands.org.au::2822373 2023-12-03T10:13:21+01:00 The role of antarctic marine protists in trophodynamics and global change and the impact of UV-B on these organisms - ASAC_40 Spatial: westlimit=60; southlimit=-70.0; eastlimit=-180; northlimit=-43.0 Temporal: From 1980-01-01 to 2013-04-01 https://researchdata.edu.au/the-role-antarctic-organisms-asac40/2822373 unknown Australian Ocean Data Network https://researchdata.edu.au/the-role-antarctic-organisms-asac40/2822373 ASAC_40 AU/AADC > Australian Antarctic Data Centre, Australia biota oceans EARTH SCIENCE &gt ATMOSPHERE &gt ATMOSPHERIC RADIATION &gt ULTRAVIOLET RADIATION BIOSPHERE &gt VEGETATION &gt CHLOROPHYLL BIOLOGICAL CLASSIFICATION &gt PROTISTS ECOSYSTEMS &gt AQUATIC ECOSYSTEMS &gt PLANKTON &gt PHYTOPLANKTON OCEANS &gt OCEAN CHEMISTRY &gt PIGMENTS &gt CAROTENOIDS CHEMTAX CHLOROPHYLL A CLIMATE CHANGE CTD DATE DEPTH LATITUDE LONGITUDE TEMPERATURE UV UV-B SHIPS AMD/AU CEOS AMD OCEAN &gt SOUTHERN OCEAN CONTINENT &gt ANTARCTICA GEOGRAPHIC REGION &gt dataset ftands 2023-11-06T23:53:30Z Progress Code: completed Statement: See the child records for further information. This is a parent metadata record for work carried out as part of ASAC/AAS project 40. See the child metadata records for further information. More than 95% of the biomass in the Southern Ocean is microscopic - single celled plants, animals, bacteria and viruses. We are studying the factors that control their distribution and abundance - oceanographic and seasonal conditions, their physiology, and grazing - in order to model their vital roles as food for other organisms and their influence in moderating global climate change through absorption of CO2 and production of DMS. We are also addressing the changes expected in microbial communities through effects of climate change - global warming, sea ice retreat, ocean acidification and enhanced ultraviolet radiation. This project aims to determine the role of microorganisms in the Southern Ocean. The major objectives are to: * Identify and quantify key protistan components of the Southern Ocean ecosystem and study their autoecology. * Identify environmental and ecological processes that control abundance of key microbial components. * Determine interactions between key microbial components to quantify major pathways of carbon flow. * Determine the activity and viability of bacterioplankton and protists in the Southern Ocean. * Distinguish different microbial communities by identifying key taxa and associations so that processes such as primary production, respiration, grazing and particle flux can be readily parameterised in ecological models. * Determine the effect of elevated CO2 concentrations on microbial populations and processes. Taken from the 2008-2009 Progress Report: Progress against objectives: 1. Ongoing sampling from Astrolabe has continued, with 3 return voyages being sampled for phytoplankton species, chlorophyll a and other pigments, coccolithophorid counts and DNA profiles, in conjunction with measurements of CO2, ocean structure, fluorescence and ocean colour by ... Dataset Antarc* Antarctic Antarctica Ocean acidification Sea ice Southern Ocean Research Data Australia (Australian National Data Service - ANDS) Antarctic Southern Ocean Astrolabe ENVELOPE(140.000,140.000,-66.733,-66.733)
institution Open Polar
collection Research Data Australia (Australian National Data Service - ANDS)
op_collection_id ftands
language unknown
topic biota
oceans
EARTH SCIENCE &gt
ATMOSPHERE &gt
ATMOSPHERIC RADIATION &gt
ULTRAVIOLET RADIATION
BIOSPHERE &gt
VEGETATION &gt
CHLOROPHYLL
BIOLOGICAL CLASSIFICATION &gt
PROTISTS
ECOSYSTEMS &gt
AQUATIC ECOSYSTEMS &gt
PLANKTON &gt
PHYTOPLANKTON
OCEANS &gt
OCEAN CHEMISTRY &gt
PIGMENTS &gt
CAROTENOIDS
CHEMTAX
CHLOROPHYLL A
CLIMATE CHANGE
CTD
DATE
DEPTH
LATITUDE
LONGITUDE
TEMPERATURE
UV
UV-B
SHIPS
AMD/AU
CEOS
AMD
OCEAN &gt
SOUTHERN OCEAN
CONTINENT &gt
ANTARCTICA
GEOGRAPHIC REGION &gt
spellingShingle biota
oceans
EARTH SCIENCE &gt
ATMOSPHERE &gt
ATMOSPHERIC RADIATION &gt
ULTRAVIOLET RADIATION
BIOSPHERE &gt
VEGETATION &gt
CHLOROPHYLL
BIOLOGICAL CLASSIFICATION &gt
PROTISTS
ECOSYSTEMS &gt
AQUATIC ECOSYSTEMS &gt
PLANKTON &gt
PHYTOPLANKTON
OCEANS &gt
OCEAN CHEMISTRY &gt
PIGMENTS &gt
CAROTENOIDS
CHEMTAX
CHLOROPHYLL A
CLIMATE CHANGE
CTD
DATE
DEPTH
LATITUDE
LONGITUDE
TEMPERATURE
UV
UV-B
SHIPS
AMD/AU
CEOS
AMD
OCEAN &gt
SOUTHERN OCEAN
CONTINENT &gt
ANTARCTICA
GEOGRAPHIC REGION &gt
The role of antarctic marine protists in trophodynamics and global change and the impact of UV-B on these organisms - ASAC_40
topic_facet biota
oceans
EARTH SCIENCE &gt
ATMOSPHERE &gt
ATMOSPHERIC RADIATION &gt
ULTRAVIOLET RADIATION
BIOSPHERE &gt
VEGETATION &gt
CHLOROPHYLL
BIOLOGICAL CLASSIFICATION &gt
PROTISTS
ECOSYSTEMS &gt
AQUATIC ECOSYSTEMS &gt
PLANKTON &gt
PHYTOPLANKTON
OCEANS &gt
OCEAN CHEMISTRY &gt
PIGMENTS &gt
CAROTENOIDS
CHEMTAX
CHLOROPHYLL A
CLIMATE CHANGE
CTD
DATE
DEPTH
LATITUDE
LONGITUDE
TEMPERATURE
UV
UV-B
SHIPS
AMD/AU
CEOS
AMD
OCEAN &gt
SOUTHERN OCEAN
CONTINENT &gt
ANTARCTICA
GEOGRAPHIC REGION &gt
description Progress Code: completed Statement: See the child records for further information. This is a parent metadata record for work carried out as part of ASAC/AAS project 40. See the child metadata records for further information. More than 95% of the biomass in the Southern Ocean is microscopic - single celled plants, animals, bacteria and viruses. We are studying the factors that control their distribution and abundance - oceanographic and seasonal conditions, their physiology, and grazing - in order to model their vital roles as food for other organisms and their influence in moderating global climate change through absorption of CO2 and production of DMS. We are also addressing the changes expected in microbial communities through effects of climate change - global warming, sea ice retreat, ocean acidification and enhanced ultraviolet radiation. This project aims to determine the role of microorganisms in the Southern Ocean. The major objectives are to: * Identify and quantify key protistan components of the Southern Ocean ecosystem and study their autoecology. * Identify environmental and ecological processes that control abundance of key microbial components. * Determine interactions between key microbial components to quantify major pathways of carbon flow. * Determine the activity and viability of bacterioplankton and protists in the Southern Ocean. * Distinguish different microbial communities by identifying key taxa and associations so that processes such as primary production, respiration, grazing and particle flux can be readily parameterised in ecological models. * Determine the effect of elevated CO2 concentrations on microbial populations and processes. Taken from the 2008-2009 Progress Report: Progress against objectives: 1. Ongoing sampling from Astrolabe has continued, with 3 return voyages being sampled for phytoplankton species, chlorophyll a and other pigments, coccolithophorid counts and DNA profiles, in conjunction with measurements of CO2, ocean structure, fluorescence and ocean colour by ...
format Dataset
title The role of antarctic marine protists in trophodynamics and global change and the impact of UV-B on these organisms - ASAC_40
title_short The role of antarctic marine protists in trophodynamics and global change and the impact of UV-B on these organisms - ASAC_40
title_full The role of antarctic marine protists in trophodynamics and global change and the impact of UV-B on these organisms - ASAC_40
title_fullStr The role of antarctic marine protists in trophodynamics and global change and the impact of UV-B on these organisms - ASAC_40
title_full_unstemmed The role of antarctic marine protists in trophodynamics and global change and the impact of UV-B on these organisms - ASAC_40
title_sort role of antarctic marine protists in trophodynamics and global change and the impact of uv-b on these organisms - asac_40
publisher Australian Ocean Data Network
url https://researchdata.edu.au/the-role-antarctic-organisms-asac40/2822373
op_coverage Spatial: westlimit=60; southlimit=-70.0; eastlimit=-180; northlimit=-43.0
Temporal: From 1980-01-01 to 2013-04-01
long_lat ENVELOPE(140.000,140.000,-66.733,-66.733)
geographic Antarctic
Southern Ocean
Astrolabe
geographic_facet Antarctic
Southern Ocean
Astrolabe
genre Antarc*
Antarctic
Antarctica
Ocean acidification
Sea ice
Southern Ocean
genre_facet Antarc*
Antarctic
Antarctica
Ocean acidification
Sea ice
Southern Ocean
op_source AU/AADC > Australian Antarctic Data Centre, Australia
op_relation https://researchdata.edu.au/the-role-antarctic-organisms-asac40/2822373
ASAC_40
_version_ 1784260078955659264

Similar Items