Add to ORKGThe World Ocean\u27s midwaters contain the vast majority of Earth\u27s vertebrates in the form of mesoand bathypelagic (\u27deep-pelagic,\u27 in the combined sense) fishes. Understanding the ecology and variability of deep-pelagic ecosystems has increased substantially in the past few decades due to advances in sampling/observation technology. Researchers have discovered that the deep sea hosts a complex assemblage of organisms adapted to a “harsh” environment by terrestrial standards (i.e., dark, cold, high pressure). We have learned that despite the lack of physical barriers, the deep-sea realm is not a homogeneous ecosystem, but is spatially and temporally variable on multiple scales. While there is a well-documented reduction of biomass...
Because deep-sea fisheries are increasing as coastal fisheries decline, fisheries scientists need ba...
Here we use a new technique to study life history variation in deep-pelagic fishes from a mid-ocean ...
Recent global synthetic analyses have revealed that marine taxonomic inventories are far from comple...
The bathypelagic zone, Earth’s largest living space, is essentially boundless in three dimensions fo...
Applications of acoustic and optical sensing and intensive, discrete-depth sampling, in concert with...
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\u27s largest volume of living space, the ocean\u27s mid-water regi...
The deep-pelagic zone (\u3e 200 m) is essentially boundless in 3 dimensions for most of its extent, ...
A classic paradigm of oceanic ecology is that pelagic animal biomass decreases exponentially with de...
The assemblage structure and vertical distribution of deep-pelagic fishes relative to a mid-ocean r...
Because deep-sea fisheries are increasing as coastal fisheries decline, fisheries scientists need ba...
Here we use a new technique to study life history variation in deep-pelagic fishes from a mid-ocean ...
Recent global synthetic analyses have revealed that marine taxonomic inventories are far from comple...
The bathypelagic zone, Earth’s largest living space, is essentially boundless in three dimensions fo...
Applications of acoustic and optical sensing and intensive, discrete-depth sampling, in concert with...
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\u27s largest volume of living space, the ocean\u27s mid-water regi...
The deep-pelagic zone (\u3e 200 m) is essentially boundless in 3 dimensions for most of its extent, ...
A classic paradigm of oceanic ecology is that pelagic animal biomass decreases exponentially with de...
The assemblage structure and vertical distribution of deep-pelagic fishes relative to a mid-ocean r...
Because deep-sea fisheries are increasing as coastal fisheries decline, fisheries scientists need ba...
Here we use a new technique to study life history variation in deep-pelagic fishes from a mid-ocean ...
Recent global synthetic analyses have revealed that marine taxonomic inventories are far from comple...