Photosynthetic adaptation to low iron, light, and temperature in Southern Ocean phytoplankton
Maintenance and Update Frequency: notPlanned Statement: Southern Ocean phytoplankton isolates were grown under trace metal clean conditions in a low temperature incubator under low and high iron concentrations at sub saturating continuous light. The cultures were sampled for growth rates, intracellu...
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ftands:oai:ands.org.au::1425060 2024-09-15T17:47:58+00:00 Photosynthetic adaptation to low iron, light, and temperature in Southern Ocean phytoplankton IMAS Data Manager (pointOfContact) Institute for Marine and Antarctic Studies (IMAS), University of Tasmania (UTAS) (hasAssociationWith) Strzepek, Robert (pointOfContact) Strzepek, Robert (hasPrincipalInvestigator) Strzepek, Robert F. (pointOfContact) Strzepek, Robert F. (hasPrincipalInvestigator) Strzepek, Robert, Dr (pointOfContact) Strzepek, Robert, Dr (hasPrincipalInvestigator) Spatial: westlimit=147.197753906; southlimit=-42.9849030764; eastlimit=147.505371094; northlimit=-42.7931625259 Temporal: From 2017-01-01 to 2019-01-23 https://researchdata.edu.au/photosynthetic-adaptation-low-ocean-phytoplankton/1425060 unknown Australian Ocean Data Network https://researchdata.edu.au/photosynthetic-adaptation-low-ocean-phytoplankton/1425060 6fbeb554-352b-4b79-b986-debfff6e3a01 Institute for Marine and Antarctic Studies (IMAS), University of Tasmania (UTAS) biota iron light temperature Eucampia antarctica Proboscia inermis Phaeocystis antarctica Thalassiosira oceanica Thalassiosira weissflogii EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | AQUATIC ECOSYSTEMS | PLANKTON | PHYTOPLANKTON EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | MARINE ECOSYSTEMS EARTH SCIENCE | BIOSPHERE | ECOLOGICAL DYNAMICS | ECOSYSTEM FUNCTIONS | PHOTOSYNTHESIS dataset ftands 2024-08-06T01:59:01Z Maintenance and Update Frequency: notPlanned Statement: Southern Ocean phytoplankton isolates were grown under trace metal clean conditions in a low temperature incubator under low and high iron concentrations at sub saturating continuous light. The cultures were sampled for growth rates, intracellular iron and carbon concentrations, and photosynthetic rates and composition. Credit Marsden Fund of New Zealand Credit Ministry of Science and Innovation New Zealand Phytoplankton productivity in the polar Southern Ocean (SO) plays an important role in the transfer of carbon from the atmosphere to the ocean’s interior, a process called the biological carbon pump, which helps regulate global climate. SO productivity in turn is limited by low iron, light, and temperature, which restrict the ef- ficiency of the carbon pump. Iron and light can colimit productivity due to the high iron content of the photosynthetic photosystems and the need for increased photosystems for low-light acclimation in many phytoplankton. Here we show that SO phytoplankton have evolved critical adaptations to enhance photosynthetic rates under the joint constraints of low iron, light, and temperature. Under growth-limiting iron and light levels, three SO species had up to sixfold higher photosynthetic rates per photosystem II and similar or higher rates per mol of photosynthetic iron than tem- perate species, despite their lower growth temperature (3 vs. 18 °C) and light intensity (30 vs. 40 μmol quanta·m2·s−1), which should have decreased photosynthetic rates. These unexpectedly high rates in the SO species are partly explained by their unusually large photosynthetic antennae, which are among the largest ever recorded in marine phytoplankton. Large antennae are disadvan- tageous at low light intensities because they increase excitation energy loss as heat, but this loss may be mitigated by the low SO temperatures. Such adaptations point to higher SO production rates than environmental conditions should otherwise permit, with ... Dataset Antarc* Antarctica Southern Ocean Research Data Australia (Australian National Data Service - ANDS) |
institution |
Open Polar |
collection |
Research Data Australia (Australian National Data Service - ANDS) |
op_collection_id |
ftands |
language |
unknown |
topic |
biota iron light temperature Eucampia antarctica Proboscia inermis Phaeocystis antarctica Thalassiosira oceanica Thalassiosira weissflogii EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | AQUATIC ECOSYSTEMS | PLANKTON | PHYTOPLANKTON EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | MARINE ECOSYSTEMS EARTH SCIENCE | BIOSPHERE | ECOLOGICAL DYNAMICS | ECOSYSTEM FUNCTIONS | PHOTOSYNTHESIS |
spellingShingle |
biota iron light temperature Eucampia antarctica Proboscia inermis Phaeocystis antarctica Thalassiosira oceanica Thalassiosira weissflogii EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | AQUATIC ECOSYSTEMS | PLANKTON | PHYTOPLANKTON EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | MARINE ECOSYSTEMS EARTH SCIENCE | BIOSPHERE | ECOLOGICAL DYNAMICS | ECOSYSTEM FUNCTIONS | PHOTOSYNTHESIS Photosynthetic adaptation to low iron, light, and temperature in Southern Ocean phytoplankton |
topic_facet |
biota iron light temperature Eucampia antarctica Proboscia inermis Phaeocystis antarctica Thalassiosira oceanica Thalassiosira weissflogii EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | AQUATIC ECOSYSTEMS | PLANKTON | PHYTOPLANKTON EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | MARINE ECOSYSTEMS EARTH SCIENCE | BIOSPHERE | ECOLOGICAL DYNAMICS | ECOSYSTEM FUNCTIONS | PHOTOSYNTHESIS |
description |
Maintenance and Update Frequency: notPlanned Statement: Southern Ocean phytoplankton isolates were grown under trace metal clean conditions in a low temperature incubator under low and high iron concentrations at sub saturating continuous light. The cultures were sampled for growth rates, intracellular iron and carbon concentrations, and photosynthetic rates and composition. Credit Marsden Fund of New Zealand Credit Ministry of Science and Innovation New Zealand Phytoplankton productivity in the polar Southern Ocean (SO) plays an important role in the transfer of carbon from the atmosphere to the ocean’s interior, a process called the biological carbon pump, which helps regulate global climate. SO productivity in turn is limited by low iron, light, and temperature, which restrict the ef- ficiency of the carbon pump. Iron and light can colimit productivity due to the high iron content of the photosynthetic photosystems and the need for increased photosystems for low-light acclimation in many phytoplankton. Here we show that SO phytoplankton have evolved critical adaptations to enhance photosynthetic rates under the joint constraints of low iron, light, and temperature. Under growth-limiting iron and light levels, three SO species had up to sixfold higher photosynthetic rates per photosystem II and similar or higher rates per mol of photosynthetic iron than tem- perate species, despite their lower growth temperature (3 vs. 18 °C) and light intensity (30 vs. 40 μmol quanta·m2·s−1), which should have decreased photosynthetic rates. These unexpectedly high rates in the SO species are partly explained by their unusually large photosynthetic antennae, which are among the largest ever recorded in marine phytoplankton. Large antennae are disadvan- tageous at low light intensities because they increase excitation energy loss as heat, but this loss may be mitigated by the low SO temperatures. Such adaptations point to higher SO production rates than environmental conditions should otherwise permit, with ... |
author2 |
IMAS Data Manager (pointOfContact) Institute for Marine and Antarctic Studies (IMAS), University of Tasmania (UTAS) (hasAssociationWith) Strzepek, Robert (pointOfContact) Strzepek, Robert (hasPrincipalInvestigator) Strzepek, Robert F. (pointOfContact) Strzepek, Robert F. (hasPrincipalInvestigator) Strzepek, Robert, Dr (pointOfContact) Strzepek, Robert, Dr (hasPrincipalInvestigator) |
format |
Dataset |
title |
Photosynthetic adaptation to low iron, light, and temperature in Southern Ocean phytoplankton |
title_short |
Photosynthetic adaptation to low iron, light, and temperature in Southern Ocean phytoplankton |
title_full |
Photosynthetic adaptation to low iron, light, and temperature in Southern Ocean phytoplankton |
title_fullStr |
Photosynthetic adaptation to low iron, light, and temperature in Southern Ocean phytoplankton |
title_full_unstemmed |
Photosynthetic adaptation to low iron, light, and temperature in Southern Ocean phytoplankton |
title_sort |
photosynthetic adaptation to low iron, light, and temperature in southern ocean phytoplankton |
publisher |
Australian Ocean Data Network |
url |
https://researchdata.edu.au/photosynthetic-adaptation-low-ocean-phytoplankton/1425060 |
op_coverage |
Spatial: westlimit=147.197753906; southlimit=-42.9849030764; eastlimit=147.505371094; northlimit=-42.7931625259 Temporal: From 2017-01-01 to 2019-01-23 |
genre |
Antarc* Antarctica Southern Ocean |
genre_facet |
Antarc* Antarctica Southern Ocean |
op_source |
Institute for Marine and Antarctic Studies (IMAS), University of Tasmania (UTAS) |
op_relation |
https://researchdata.edu.au/photosynthetic-adaptation-low-ocean-phytoplankton/1425060 6fbeb554-352b-4b79-b986-debfff6e3a01 |
_version_ |
1810497713079320576 |