Understanding the impacts of global climate change on marine organisms is essential in a warming world in order to predict the future development and functioning of the benthic ecosystem. The Arctic is impacted by warming surface waters and a shrinking sea-ice cover, both influencing primary productivity and subsequent organic matter export to the deep ocean. Furthermore, benthic bacteria that mainly depend on organic matter supply from the surface ocean and that play a major role in carbon cycling at the seafloor, will be affected by these changes. However, only little is known about spatial and temporal variations of microbial benthic communities in relation to climate change impacts on pelago-benthic coupling, due to the lack of benthic ...
Marine benthic organisms living in shelf seas of the Siberian Arctic are impacted severely by the pr...
Arctic ecosystems are facing unprecedented changes today. Annual surface temperatures increased almo...
Climate warming influences structure and function of Arctic benthic ecosystems. Assessing the respon...
Understanding the impacts of global climate change on marine organisms is essential in a warming wor...
Understanding the impacts of global climate change on marine organisms is essential in a warming wor...
The global climate change has an unprecedented impact on the Arctic Ocean, resulting in warming of t...
Between 2005 and 2007, a warming anomaly of the Atlantic water inflow into the Arctic Ocean took pla...
The deep-sea floor covers about 65% of the Earth s surface and benthic biomass is dominated by highl...
The Arctic Ocean ecosystem is rapidly changing in response to climate warming. The ongoing decline o...
The deep-sea floor covers about 65% of the Earth s surface and benthic biomass is dominated by highl...
Benthic deep-sea communities are largely dependent on particle flux from surface waters. In the Arct...
As climate change is expected to be extremely intense in the Arctic Ocean there is an utmost need to...
The global climate change has an unprecedented impact on the Arctic Ocean, resulting in warming of t...
Marine benthic organisms living in shelf seas of the Siberian Arctic are impacted severely by the pr...
The deep-sea floor covers about 65% of the Earth s surface and benthic biomass is dominated by highl...
Marine benthic organisms living in shelf seas of the Siberian Arctic are impacted severely by the pr...
Arctic ecosystems are facing unprecedented changes today. Annual surface temperatures increased almo...
Climate warming influences structure and function of Arctic benthic ecosystems. Assessing the respon...
Understanding the impacts of global climate change on marine organisms is essential in a warming wor...
Understanding the impacts of global climate change on marine organisms is essential in a warming wor...
The global climate change has an unprecedented impact on the Arctic Ocean, resulting in warming of t...
Between 2005 and 2007, a warming anomaly of the Atlantic water inflow into the Arctic Ocean took pla...
The deep-sea floor covers about 65% of the Earth s surface and benthic biomass is dominated by highl...
The Arctic Ocean ecosystem is rapidly changing in response to climate warming. The ongoing decline o...
The deep-sea floor covers about 65% of the Earth s surface and benthic biomass is dominated by highl...
Benthic deep-sea communities are largely dependent on particle flux from surface waters. In the Arct...
As climate change is expected to be extremely intense in the Arctic Ocean there is an utmost need to...
The global climate change has an unprecedented impact on the Arctic Ocean, resulting in warming of t...
Marine benthic organisms living in shelf seas of the Siberian Arctic are impacted severely by the pr...
The deep-sea floor covers about 65% of the Earth s surface and benthic biomass is dominated by highl...
Marine benthic organisms living in shelf seas of the Siberian Arctic are impacted severely by the pr...
Arctic ecosystems are facing unprecedented changes today. Annual surface temperatures increased almo...
Climate warming influences structure and function of Arctic benthic ecosystems. Assessing the respon...