Biological communities on the abyssal plain are largely dependent on detritus from the surface ocean as their main source of energy. Seasonal fluctuations in the deposition of that detritus cause temporal variations in the quantity and quality of food available to these communities, altering their structure and the activity of the taxa present. However, direct observations of energy acquisition in relation to detritus availability across megafaunal taxa in abyssal communities are few. We used time-lapse photography and coincident measurement of organic matter flux from water column sediment traps to examine the impact of seasonal detrital inputs on resource acquisition by the deposit feeding megafauna assemblages at two sites: Station M (No...
The majority of deep-sea benthic communities rely on particulate organic matter (POM) sinking from t...
Detrital aggregates episodically deposited on the seafloor represent an underestimated food source t...
AbstractHolothurians are among the most abundant benthic megafauna at abyssal depths, and important ...
Biological communities on the abyssal plain are largely dependent on detritus from the surface ocean...
Large-scale photographic surveys present an opportunity to quantify variation in benthic megafaunal ...
Climatic fluctuations may significantly alter the taxonomic and biochemical composition of phytoplan...
Inputs of detritus from the surface ocean are an important driver of community dynamics in the deep ...
The effects of climate on abyssal megafaunal populations is largely unknown. Photo-transecting techn...
<div><p>Climatic fluctuations may significantly alter the taxonomic and biochemical composition of p...
Climatic fluctuations may significantly alter the taxonomic and biochemical composition of phytoplan...
Diverse faunal groups inhabit deep-sea sediments over much of Earth's surface, but our understanding...
Deposit-feeding megafauna occur in virtually all deep-sea environments, yet their feeding selectivit...
Deep-sea benthic ecosystems are sustained largely by organic matter settling from the euphotic zone....
Understanding the dynamics of abyssal community structure and function has become increasingly impor...
Abstract Trophic ecology of detrital-based food webs is still poorly understood. Abyssal plains depe...
The majority of deep-sea benthic communities rely on particulate organic matter (POM) sinking from t...
Detrital aggregates episodically deposited on the seafloor represent an underestimated food source t...
AbstractHolothurians are among the most abundant benthic megafauna at abyssal depths, and important ...
Biological communities on the abyssal plain are largely dependent on detritus from the surface ocean...
Large-scale photographic surveys present an opportunity to quantify variation in benthic megafaunal ...
Climatic fluctuations may significantly alter the taxonomic and biochemical composition of phytoplan...
Inputs of detritus from the surface ocean are an important driver of community dynamics in the deep ...
The effects of climate on abyssal megafaunal populations is largely unknown. Photo-transecting techn...
<div><p>Climatic fluctuations may significantly alter the taxonomic and biochemical composition of p...
Climatic fluctuations may significantly alter the taxonomic and biochemical composition of phytoplan...
Diverse faunal groups inhabit deep-sea sediments over much of Earth's surface, but our understanding...
Deposit-feeding megafauna occur in virtually all deep-sea environments, yet their feeding selectivit...
Deep-sea benthic ecosystems are sustained largely by organic matter settling from the euphotic zone....
Understanding the dynamics of abyssal community structure and function has become increasingly impor...
Abstract Trophic ecology of detrital-based food webs is still poorly understood. Abyssal plains depe...
The majority of deep-sea benthic communities rely on particulate organic matter (POM) sinking from t...
Detrital aggregates episodically deposited on the seafloor represent an underestimated food source t...
AbstractHolothurians are among the most abundant benthic megafauna at abyssal depths, and important ...