Add to ORKGBiogeography of macro- and micro-organisms in the deep sea is, in part, shaped by naturally occurring heterogeneous habitat features of geological and biological origin such as seeps, vents, seamounts, whale and wood-falls. Artificial features including shipwrecks and energy infrastructure shape the biogeographic patterns of macro-organisms; how they influence microorganisms is unclear. Shipwrecks may function as islands of biodiversity for microbiomes, creating a patchwork of habitats with influence radiating out into the seabed. Here we show microbiome richness and diversity increase as a function of proximity to the historic deep-sea shipwreck Anona in the Gulf of Mexico. Diversity and richness extinction plots provide evidence of an isl...
International audienceConspicuous, systematic patterns of holes in soft sediment around wreck sites ...
Large-scale systematic bioturbation is documented in 30 m of water depth around the Yongala shipwrec...
Organic falls create localised patches of organic enrichment and disturbance where enhanced degradat...
The seafloor contains complex ecosystems where habitat heterogeneity influences biodiversity. Natura...
Historic shipwrecks function as habitats for benthic organisms by providing food, refuge, and struct...
More than 2,000 historic shipwrecks spanning 500 years of history, rest on the Gulf of Mexico seaflo...
AWAITING PUBLICATIONAn estimated three million shipwrecks exist worldwide and are recognized as cult...
This thesis investigates how historic shipwrecks potentially shape dispersal of deep-sea microbiomes...
Wood arrives on the seabed from natural and anthropogenic sources (e.g., wood falls and wooden shipw...
Shipwrecks act as artificial reefs and provide a solid surface in aquatic systems for many different...
Microorganisms are ubiquitously distributed across all aquatic habitats, but it is the environmental...
International audienceWith an increased appreciation of the frequency of their occurrence, large org...
<div><p>Sinking of large organic food falls i.e. kelp, wood and whale carcasses to the oligotrophic ...
Sinking of large organic food falls i.e. kelp, wood and whale carcasses to the oligotrophic deep-sea...
Large organic food falls to the deep sea – such as whale carcasses and wood logs – are known to serv...
International audienceConspicuous, systematic patterns of holes in soft sediment around wreck sites ...
Large-scale systematic bioturbation is documented in 30 m of water depth around the Yongala shipwrec...
Organic falls create localised patches of organic enrichment and disturbance where enhanced degradat...
The seafloor contains complex ecosystems where habitat heterogeneity influences biodiversity. Natura...
Historic shipwrecks function as habitats for benthic organisms by providing food, refuge, and struct...
More than 2,000 historic shipwrecks spanning 500 years of history, rest on the Gulf of Mexico seaflo...
AWAITING PUBLICATIONAn estimated three million shipwrecks exist worldwide and are recognized as cult...
This thesis investigates how historic shipwrecks potentially shape dispersal of deep-sea microbiomes...
Wood arrives on the seabed from natural and anthropogenic sources (e.g., wood falls and wooden shipw...
Shipwrecks act as artificial reefs and provide a solid surface in aquatic systems for many different...
Microorganisms are ubiquitously distributed across all aquatic habitats, but it is the environmental...
International audienceWith an increased appreciation of the frequency of their occurrence, large org...
<div><p>Sinking of large organic food falls i.e. kelp, wood and whale carcasses to the oligotrophic ...
Sinking of large organic food falls i.e. kelp, wood and whale carcasses to the oligotrophic deep-sea...
Large organic food falls to the deep sea – such as whale carcasses and wood logs – are known to serv...
International audienceConspicuous, systematic patterns of holes in soft sediment around wreck sites ...
Large-scale systematic bioturbation is documented in 30 m of water depth around the Yongala shipwrec...
Organic falls create localised patches of organic enrichment and disturbance where enhanced degradat...