Add to ORKGPolar ecosystems thrive significantly on carbon synthesized by sea ice-associated microalgae during long periods of the year. Continued alterations of the sea ice system might not only have dramatic consequences for the sympagic (ice-associated) ecosystem, but will also have a large impact on the pelagic food web due to the close connectivity between the sea ice and the pelagic system. Thus, it is crucial to identify to which extent ecologically important species in the Arctic Ocean trophically depend on ice algae-produced carbon versus carbon produced by pelagic phytoplankton
How the abundant pelagic life of the Southern Ocean survives winter darkness, when the sea is covere...
The relative importance of sea ice algal-based production is often vital for studies about climate c...
Pelagic primary production in Arctic seas has traditionally been viewed as biologically insignifican...
To better predict ecological consequences of changing Arctic sea ice environments, we aimed to quant...
Polar ecosystems thrive significantly on carbon synthesized by sea ice-associated microalgae. The un...
Microalgae growing within and attached to the bottom of Arctic sea ice (sympagic algae) can serve as...
Microalgae growing within and attached to the bottom of Arctic sea ice (sympagic algae) can serve as...
The Svalbard region faces drastic environmental changes, including sea-ice loss and “Atlantification...
The Arctic Ocean faces a complete loss of the summer sea ice cover in the coming decades. Sea ice is...
We assessed the digestibility and utilization of ice algae and phytoplankton by the shallow, subtida...
Ongoing changes in sea ice distribution will have major implications for the ecology of the Arctic O...
<div><p>Pelagic primary production in Arctic seas has traditionally been viewed as biologically insi...
The Arctic Ocean is undergoing substantial warming and sea ice loss which are likely to cause change...
Author Posting. © Inter-Research, 2006. This article is posted here by permission of Inter-Research...
Reduction of sea ice in the Arctic may significantly alter the relative fluxes of phytoplankton and ...
How the abundant pelagic life of the Southern Ocean survives winter darkness, when the sea is covere...
The relative importance of sea ice algal-based production is often vital for studies about climate c...
Pelagic primary production in Arctic seas has traditionally been viewed as biologically insignifican...
To better predict ecological consequences of changing Arctic sea ice environments, we aimed to quant...
Polar ecosystems thrive significantly on carbon synthesized by sea ice-associated microalgae. The un...
Microalgae growing within and attached to the bottom of Arctic sea ice (sympagic algae) can serve as...
Microalgae growing within and attached to the bottom of Arctic sea ice (sympagic algae) can serve as...
The Svalbard region faces drastic environmental changes, including sea-ice loss and “Atlantification...
The Arctic Ocean faces a complete loss of the summer sea ice cover in the coming decades. Sea ice is...
We assessed the digestibility and utilization of ice algae and phytoplankton by the shallow, subtida...
Ongoing changes in sea ice distribution will have major implications for the ecology of the Arctic O...
<div><p>Pelagic primary production in Arctic seas has traditionally been viewed as biologically insi...
The Arctic Ocean is undergoing substantial warming and sea ice loss which are likely to cause change...
Author Posting. © Inter-Research, 2006. This article is posted here by permission of Inter-Research...
Reduction of sea ice in the Arctic may significantly alter the relative fluxes of phytoplankton and ...
How the abundant pelagic life of the Southern Ocean survives winter darkness, when the sea is covere...
The relative importance of sea ice algal-based production is often vital for studies about climate c...
Pelagic primary production in Arctic seas has traditionally been viewed as biologically insignifican...