Antarctic sea ice algae : primary production and carbon allocation ...
Sea ice is a semi-solid matrix of brine-filled channels, typically displaying strong vertical gradients in temperature, salinity, light, and space. Prolonged biological activity within the confines of the brine channels itself alters the microenvironment and physicochemistry. To be able to cope with...
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| Format: | Thesis |
| Language: | unknown |
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University Of Tasmania
2023
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| Online Access: | https://dx.doi.org/10.25959/23238932 https://figshare.utas.edu.au/articles/thesis/Antarctic_sea_ice_algae_primary_production_and_carbon_allocation/23238932 |
| Summary: | Sea ice is a semi-solid matrix of brine-filled channels, typically displaying strong vertical gradients in temperature, salinity, light, and space. Prolonged biological activity within the confines of the brine channels itself alters the microenvironment and physicochemistry. To be able to cope with these changes, ice algae display a complex suite of physiological and metabolic adaptations. One such adaptation is the exudation of photosynthetically-derived organic carbon. Research undertaken for the thesis details primary production and carbon allocation of ice algal communities in laboratory and field conditions, and discusses the relationships between microbial growth dynamics, responses to physicochemical change, and ecosystem dynamics. The thesis finds that sea ice algae are capable of exuding large quantities of photosynthetically-derived organic carbon. Allocation to exuded organic carbon is highest during times of adverse conditions, such as challenging biochemical and physicochemical conditions. The ... |
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