Benthos () is the
community of
organisms that live on, in, or near the
seafloor, also known as the
benthic zone. •
Hyperbenthos (or hyperbenthic organisms), prefix , live just above the sediment. •
Epibenthos (or epibenthic organisms), prefix , live on top of the sediments. •
Endobenthos (or endobenthic organisms), prefix , live buried, or burrowing in the sediment, often in the
oxygenated top layer.
Microbenthos Marine
microbenthos are microorganisms that live in the
benthic zone of the ocean – that live near or on the seafloor, or within or on surface seafloor sediments. The word
benthos comes from Greek, meaning "depth of the sea". Microbenthos are found everywhere on or about the seafloor of continental shelves, as well as in deeper waters, with greater diversity in or on seafloor sediments. In shallow waters,
seagrass meadows,
coral reefs and
kelp forests provide particularly rich habitats. In
photic zones benthic diatoms dominate as photosynthetic organisms. In
intertidal zones changing
tides strongly control opportunities for microbenthos. File:Elphidium-incertum hg.jpg|
Elphidium a widespread abundant genus of benthic forams File:FMIB 50025 Textilaria.jpeg|
Heterohelix, an extinct genus of benthic forams File:Gastrotrich.jpg|
Darkfield photo of a
gastrotrich, 0.06-3.0 mm long, a worm-like animal living between sediment particles File:Pliciloricus enigmatus.jpg|Armoured
Pliciloricus enigmaticus, about 0.2 mm long, live in spaces between marine gravel
Diatoms form a (disputed) phylum containing about 100,000 recognised species of mainly unicellular algae. Diatoms generate about 20 per cent of the oxygen produced on the planet each year, take in over 6.7 billion metric tons of
silicon each year from the waters in which they live, and contribute nearly half of the organic material found in the oceans. File:Diatoms (248 05) Various diatoms.jpg|
Diatoms are one of the most common types of phytoplankton File:Diatom Helipelta metil.jpg|Their protective shells (frustles) are made of silicon File:Diatom - Triceratium favus.jpg File:Diatom2.jpg|They come in many shapes and sizes
Coccolithophores are minute unicellular photosynthetic protists with two
flagella for locomotion. Most of them are protected by a shell covered with ornate circular plates or scales called
coccoliths. The coccoliths are made from
calcium carbonate. The term coccolithophore derives from the Greek for a
seed carrying stone, referring to their small size and the coccolith stones they carry. Under the right conditions they
bloom, like other phytoplankton, and can turn the ocean
milky white. File:Coccolithus pelagicus.jpg File:JRYSEM-247-05-azurapl.jpg|
Radiolarians are unicellular predatory
protists encased in elaborate globular shells usually made of silica and pierced with holes. Their name comes from the Latin for "radius". They catch prey by extending parts of their body through the holes. As with the silica frustules of diatoms, radiolarian shells can sink to the ocean floor when radiolarians die and become preserved as part of the
ocean sediment. These remains, as
microfossils, provide valuable information about past oceanic conditions. File:Mikrofoto.de-Radiolarien 6.jpg|Like diatoms, radiolarians come in many shapes File:Theocotylissa ficus Ehrenberg - Radiolarian (34638920262).jpg|Also like diatoms, radiolarian shells are usually made of silicate File:Acantharian radiolarian Xiphacantha (Haeckel).jpg|However
acantharian radiolarians have shells made from
strontium sulfate crystals File:Spherical radiolarian 2.jpg|Cutaway schematic diagram of a spherical radiolarian shell Like radiolarians,
foraminiferans (
forams for short) are single-celled predatory protists, also protected with shells that have holes in them. Their name comes from the Latin for "hole bearers". Their shells, often called
tests, are
chambered (forams add more chambers as they grow). The shells are usually made of calcite, but are sometimes made of
agglutinated sediment particles or
chiton, and (rarely) of silica. Most forams are
benthic, but about 40 species are
planktic. They are widely researched with well established
fossil records which allow scientists to infer a lot about past environments and climates. The sudden
extinction event which killed the dinosaurs 66 million years ago also rendered extinct three-quarters of all other animal and plant species. However, deep-sea benthic forams flourished in the aftermath. In 2020 it was reported that researchers have examined the chemical composition of thousands of samples of these benthic forams and used their findings to build the most detailed climate record of Earth ever. Some
endoliths have extremely long lives. In 2013 researchers reported evidence of endoliths in the ocean floor, perhaps millions of years old, with a generation time of 10,000 years. These are slowly metabolizing and not in a dormant state. Some
Actinomycetota found in
Siberia are estimated to be half a million years old. ==Sediment cores==