Add to ORKGIn connexion with the high species richness of deep-sea sediments the question arises which spatial processes influence the species composition, abundance and biomass of the communities. Which processes produce and maintain diversity in the deep sea and at what spatial scales do they operate?The background of the study is the concept that biogenic structures create at a small scale a heterogeneous environment that influences the structure of the communities and the dynamics of the populations of benthic meiofauna organisms. As an example for biogenic structures, the influence of deep-sea sponges on small-scale distribution pattern of benthic deep-sea nematodes was investigated.Overall the nematode community from the sponge samples show a hi...
Alongside a primary productivity gradient between the Galicia Bank region in the Northeast Atlantic ...
The positive correlation between sediment particle-size diversity (a measure of habitat heterogeneit...
Most of our knowledge of biodiversity and its causes in the deep-sea benthos derives from regional-s...
In connexion with the high species richness of deep-sea sediments the question arises which spatial ...
Bathymetric patterns in standing stocks and diversity are a major topic of investigation in deep-sea...
The deep sea is the largest biome of the biosphere. The knowledge of the spatial variability of deep...
It is recognised that productivity, flow, oxygen, sediment heterogeneity, and biotic disturbance are...
Understanding how biodiversity varies at different spatial scales and the drivers behind these patte...
The great variety of geological and hydrological conditions in the deep sea generates many different...
The urge to understand spatial distributions of species and communities and their causative processe...
A variety of analytical techniques were used to quantify and describe small-scale (centimetre to dec...
Understanding biodiversity patterns and how they are driven at different spatial scales is a crucial...
Understanding community assembly and processes driving diversity in deep-sea environments is a major...
Abstract Theoretical ecology predicts that heterogeneous habitats allow more species to co-exist in...
Alongside a primary productivity gradient between the Galicia Bank region in the Northeast Atlantic ...
The positive correlation between sediment particle-size diversity (a measure of habitat heterogeneit...
Most of our knowledge of biodiversity and its causes in the deep-sea benthos derives from regional-s...
In connexion with the high species richness of deep-sea sediments the question arises which spatial ...
Bathymetric patterns in standing stocks and diversity are a major topic of investigation in deep-sea...
The deep sea is the largest biome of the biosphere. The knowledge of the spatial variability of deep...
It is recognised that productivity, flow, oxygen, sediment heterogeneity, and biotic disturbance are...
Understanding how biodiversity varies at different spatial scales and the drivers behind these patte...
The great variety of geological and hydrological conditions in the deep sea generates many different...
The urge to understand spatial distributions of species and communities and their causative processe...
A variety of analytical techniques were used to quantify and describe small-scale (centimetre to dec...
Understanding biodiversity patterns and how they are driven at different spatial scales is a crucial...
Understanding community assembly and processes driving diversity in deep-sea environments is a major...
Abstract Theoretical ecology predicts that heterogeneous habitats allow more species to co-exist in...
Alongside a primary productivity gradient between the Galicia Bank region in the Northeast Atlantic ...
The positive correlation between sediment particle-size diversity (a measure of habitat heterogeneit...
Most of our knowledge of biodiversity and its causes in the deep-sea benthos derives from regional-s...