We investigated the physical conditions of the Spring pack ice environment at Terra Nova Bay to understand their influence on the structure and physiology of sympagic microalgae. Bio-optical methods were used to study the availability and spectral quality of solar radiation, both inside and underneath the ice cover. Pack ice thickness was around 2.5 m, with a temperature between -2 and -7°C. On average, only 1.4% of surface PAR penetrated to the bottom ice and less than 0.6% below platelet ice level. Surface UV-B radiation under the bottom ice was 0.20.4%. Biomass concentrations up to 2400 mg Chl a m-3, dominated by two species of diatoms (Entomoneis kjellmannii and Nitschia cf. stellata), showed marked spatial and temporal patterns. Maximu...
Microalgae colonizing the underside of sea ice in spring are a key component of the Arctic foodweb a...
AbstractThe photosynthetic characteristics of sinking a microalgal community were studied to compare...
Our study addresses how environmental variables, such as macronutrients concentrations, snow cover, ...
We investigated the physical conditions of the Spring pack ice environment at Terra Nova Bay to unde...
We investigated the physical conditions of the Spring pack ice environment at Terra Nova Bay to unde...
The aim of the study was to investigate the capacity of microalgae from the extremely low light habi...
Sea ice is an important habitat for a wide variety of microalgal species. Depending on the species c...
Pack ice in the Bellingshausen Sea contained moderate to high stocks of microalgal biomass (3-10 mg ...
Studies on the chemical and biological properties of annual pack ice at a coastal station in Terra N...
Sea ice covers approximately 5 % of the ocean surface and is one of the most extensive ecosystems on...
Studies on the chemical and biological properties of annual pack ice at a coastal station in Terra N...
Abstract Sea ice covers approximately 5% of the ocean surface and is one of the most extensive ecosy...
The photosynthetic nature of the ice-associated microalgal assemblages (ice-algae) was investigated ...
Pack ice around Svalbard was sampled during the expedition ARK XIX/1 of RV "Polarstern" (March-April...
<div><p>Our study addresses how environmental variables, such as macronutrients concentrations, snow...
Microalgae colonizing the underside of sea ice in spring are a key component of the Arctic foodweb a...
AbstractThe photosynthetic characteristics of sinking a microalgal community were studied to compare...
Our study addresses how environmental variables, such as macronutrients concentrations, snow cover, ...
We investigated the physical conditions of the Spring pack ice environment at Terra Nova Bay to unde...
We investigated the physical conditions of the Spring pack ice environment at Terra Nova Bay to unde...
The aim of the study was to investigate the capacity of microalgae from the extremely low light habi...
Sea ice is an important habitat for a wide variety of microalgal species. Depending on the species c...
Pack ice in the Bellingshausen Sea contained moderate to high stocks of microalgal biomass (3-10 mg ...
Studies on the chemical and biological properties of annual pack ice at a coastal station in Terra N...
Sea ice covers approximately 5 % of the ocean surface and is one of the most extensive ecosystems on...
Studies on the chemical and biological properties of annual pack ice at a coastal station in Terra N...
Abstract Sea ice covers approximately 5% of the ocean surface and is one of the most extensive ecosy...
The photosynthetic nature of the ice-associated microalgal assemblages (ice-algae) was investigated ...
Pack ice around Svalbard was sampled during the expedition ARK XIX/1 of RV "Polarstern" (March-April...
<div><p>Our study addresses how environmental variables, such as macronutrients concentrations, snow...
Microalgae colonizing the underside of sea ice in spring are a key component of the Arctic foodweb a...
AbstractThe photosynthetic characteristics of sinking a microalgal community were studied to compare...
Our study addresses how environmental variables, such as macronutrients concentrations, snow cover, ...
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