Add to ORKGHere we use a new technique to study life history variation in deep-pelagic fishes from a mid-ocean ridge system. Shape of length distribution in a population is to a significant extent determined by the degree to which an average individual approaches its asymptotic maximum size. Analysing the material from the pelagic trawl hauls taken during the 2004 Mar-Eco expedition along the northern Mid-Atlantic Ridge, we show that length distributions in many deep-pelagic fish species are characterised by negative skew (the left tail of the distribution is longer). In other words, a large proportion of individuals had a size close to species-specific maximum size. Provided that our sampling can be considered representative, this finding suggests th...
The spatial distribution of organisms plays a key role in facilitating biological processes, such as...
Applications of acoustic and optical sensing and intensive, discrete-depth sampling, in concert with...
The deep-pelagic zone (\u3e 200 m) is essentially boundless in 3 dimensions for most of its extent, ...
Here we use a new technique to study life history variation in deep-pelagic fishes from a mid-ocean ...
Here we use a new technique to study life history variation in deep-pelagic fishes from a midocean ...
Applications of acoustic and optical sensing and intensive, discrete-depth sampling, in concert with...
Only a tiny fraction of the world\u27s largest volume of living space, the ocean\u27s mid-water regi...
The assemblage structure and vertical distribution of deep-pelagic fishes relative to a mid-ocean ri...
The assemblage structure and vertical distribution of deep-pelagic fishes relative to a mid-ocean ri...
Only a tiny fraction of the world’s largest volume of living space, the ocean’s midwater biome, has ...
The assemblage structure and vertical distribution of deep-pelagic fishes relative to a mid-ocean r...
The deep sea is the largest environment on Earth, but has remained relatively under-studied due to i...
Only a miniscule fraction of the world’s largest volume of living space, the ocean’s midwater biome,...
The World Ocean\u27s midwaters contain the vast majority of Earth\u27s vertebrates in the form of me...
The spatial distribution of organisms plays a key role in facilitating biological processes, such as...
Applications of acoustic and optical sensing and intensive, discrete-depth sampling, in concert with...
The deep-pelagic zone (\u3e 200 m) is essentially boundless in 3 dimensions for most of its extent, ...
Here we use a new technique to study life history variation in deep-pelagic fishes from a mid-ocean ...
Here we use a new technique to study life history variation in deep-pelagic fishes from a midocean ...
Applications of acoustic and optical sensing and intensive, discrete-depth sampling, in concert with...
Only a tiny fraction of the world\u27s largest volume of living space, the ocean\u27s mid-water regi...
The assemblage structure and vertical distribution of deep-pelagic fishes relative to a mid-ocean ri...
The assemblage structure and vertical distribution of deep-pelagic fishes relative to a mid-ocean ri...
Only a tiny fraction of the world’s largest volume of living space, the ocean’s midwater biome, has ...
The assemblage structure and vertical distribution of deep-pelagic fishes relative to a mid-ocean r...
The deep sea is the largest environment on Earth, but has remained relatively under-studied due to i...
Only a miniscule fraction of the world’s largest volume of living space, the ocean’s midwater biome,...
The World Ocean\u27s midwaters contain the vast majority of Earth\u27s vertebrates in the form of me...
The spatial distribution of organisms plays a key role in facilitating biological processes, such as...
Applications of acoustic and optical sensing and intensive, discrete-depth sampling, in concert with...
The deep-pelagic zone (\u3e 200 m) is essentially boundless in 3 dimensions for most of its extent, ...