Marine Sediments Chap 5
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Lithogenous/Terrigenous Sediment Derived from land Origin from weathering/erosion Mainly quartz (SiO2) – resistant to abrasion Main constituent of continental shelf sediment can also be found in deep ocean
Sediment Texture Big, cars go so slow, cool
Sediment Erosion, Transportation, Deposition
Sediment Maturity
Neretic Deposits (near shore lithogenous) found along continental margins and islands – mainly lithogenous Beach deposits – mainly quartz rich sands – but what ever is available Continental Shelf deposits – carried by rivers Turbidite deposits due to underwater avalanches – from turbidity currents –show graded bedding Glacial Deposits – grinding by ice and trapped in glacial ice
Pelagic Deposits (open water lithogenous) Fine grained material that accumulates on the ocean floor. Abyssal Clay >70% clay sized particles from continent- due to lack of other particles Contain oxidized iron making them red-brown or buff
Biogenous Sediment Derived from hard parts of once-living organisms – algae and protozoans. Macroscopic can be seen with eyes Microscopic too small to be seen with unaided eye Microscopic organisms produce small shells called tests and accumulates in the deep ocean to form ooze.
Composition Calcium Carbonate - CaCO3 (makes mineral calcite) Silica SiO2.
Calcium Carbonate forms Calcareous Ooze Foraminiferans are protozoans with porous CaCO3shells . Coccolithophores are microalgae that are 10-100 times smaller than diatoms, they are called nanoplankton. They have CaCO3 plates (cocoliths) that make up their shell. These decompose to form cocolith-rich CaCO3 ooze that can later lithify to form chalk and limestone. Dover
Stromatolites Lobate structures made of layers of carbonate from cyanobacteria at particular shallow depth.
Silica forms Siliceous Ooze Silica biogenous ooze made mainly from planktonic algae called diatoms and a protozoans called radiolarians Diatomaceous earth used in filters, abrasives, absorbents, glass. Also diatoms have a droplet of oil in them that have accumulated into petroleum deposits (ex: off California) Silica dissolves is seawater and will only accumulate silica ooze where there is high production.
Calcite Compensation Depth -CCD CaCO3 is saturate in warm shallow waters and can form sediments. At deeper cooler waters CaCO3 is not saturated so does not form deposits after a certain depth – CCD. Average CCD is 4500 m Below 5000 m, calcareous ooze not usually found unless it was made at a higher depth and then covered before it’s present depth. lysocline
Hydrogenous Sediment Derived from seawater Chemical reaction cause minerals to precipitate out of sea water usually when there is a temperature or pressure change
Manganese nodules 5-20 cm lumps of Mn, Fe and other metals Found on deep ocean floor 100/m2
Phosphates Phosphate bearing compounds found on rocks and nodules on the continental shelf and banks at depths < 1000m. Used as fertilizer and other agricultural proposes
Carbonates Aragonite and calcite are the two most important carbonate sediments Aragonite has a different crystalline structure and is less stable and changes into calcite over time. Biogenous in origin, aragonite crstals can form hydrogenously by precipitating directly from seawater. Oolites are small calcite spheres that form in shallow tropical waters with high CaCO3 concentrations.
Metal Sulfides Made by black smokers at hydrothermal vents Iron, nickel, copper, zinc, silver and other metals.
Evaporites minerals In restricted circulation areas where evaporation is high – seawater becomes saturated with minerals and the minerals precipitate out. Collectively called salts, some evaporites may taste salty because of NaCl and other do not like calcium sulfate minerals anhydrite (CaSO4) amd gypsum (and H20)
Cosmogenous Sediment Extraterrestrial origin Spherules = microscopic, usually once molten basalt from impact events, forms tektites Although 90% of tektites are destroyed by frictional heating with the atmosphere, 300,000 metric tons/year reach Earth Meteor = macroscopic, impact material made of rock (chondrites) or iron and nickel (irons) settle out around impact sites.
% of Pelagic Sediments 47.7% Carbonate 14.2% Siliceous 38.1% Abyssal