Add to ORKGDeep-sea sponges inhabit multiple areas of the deep North Atlantic at depths below 250 m. Living in the deep ocean, where environmental properties below the permanent thermocline generally change slowly, they may not easily acclimatize to abrupt changes in the environment. Until now consistent monitoring timeseries of the environment at deep sea sponge habitats are missing. Therefore, long-term simulation with coupled bio-physical models can shed light on the changes in environmental conditions sponges are exposed to. To investigate the variability of North Atlantic sponge habitats for the past half century, the deep-sea conditions have been simulated with a 67-year model hindcast from 1948 to 2014. The hindcast was generated using the ocea...
The deep sea forms by far the largest part of our biosphere. Yet, the majority of deep-water ecosyst...
Deep-sea sponge grounds are hotspots of benthic biomass and diversity. To date, very limited data ex...
The Scotian Shelf harbors unique aggregations of the glass sponge Vazella pourtalesii providing an i...
Deep-sea sponges inhabit multiple areas of the deep North Atlantic at depths below 250 m. Living in ...
Predicting the ambient environmental conditions in the coming several years to one decade is of key ...
ABSTRACT Shallow-water sponges are often cited as being ‘climate change winners’ due to their resil...
ABSTRACT Mass occurrences of large sponges, or ‘sponge grounds’, are found globally in a range of o...
Shallow-water sponges are often cited as being ‘climate change winners’ due to their resiliency agai...
Predicting the ambient environmental conditions in the coming several years to one decade is of key ...
The deep sea is one of the least studied environments of our planet. It is often considered an unfav...
ABSTRACT Water masses are bodies of water with distinctive physical and biogeochemical properties. ...
Deep-sea sponge grounds are hotspots of benthic biomass and diversity. To date, very limited data ex...
Discovery and understanding of fragile deep-sea habitats like sponge aggregations, are being outpace...
The Scotian Shelf harbors unique aggregations of the glass sponge Vazella pourtalesii that provides ...
The deep sea forms by far the largest part of our biosphere. Yet, the majority of deep-water ecosyst...
Deep-sea sponge grounds are hotspots of benthic biomass and diversity. To date, very limited data ex...
The Scotian Shelf harbors unique aggregations of the glass sponge Vazella pourtalesii providing an i...
Deep-sea sponges inhabit multiple areas of the deep North Atlantic at depths below 250 m. Living in ...
Predicting the ambient environmental conditions in the coming several years to one decade is of key ...
ABSTRACT Shallow-water sponges are often cited as being ‘climate change winners’ due to their resil...
ABSTRACT Mass occurrences of large sponges, or ‘sponge grounds’, are found globally in a range of o...
Shallow-water sponges are often cited as being ‘climate change winners’ due to their resiliency agai...
Predicting the ambient environmental conditions in the coming several years to one decade is of key ...
The deep sea is one of the least studied environments of our planet. It is often considered an unfav...
ABSTRACT Water masses are bodies of water with distinctive physical and biogeochemical properties. ...
Deep-sea sponge grounds are hotspots of benthic biomass and diversity. To date, very limited data ex...
Discovery and understanding of fragile deep-sea habitats like sponge aggregations, are being outpace...
The Scotian Shelf harbors unique aggregations of the glass sponge Vazella pourtalesii that provides ...
The deep sea forms by far the largest part of our biosphere. Yet, the majority of deep-water ecosyst...
Deep-sea sponge grounds are hotspots of benthic biomass and diversity. To date, very limited data ex...
The Scotian Shelf harbors unique aggregations of the glass sponge Vazella pourtalesii providing an i...