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Ocean Sediments. Importance of Sediments. Economic Value Oil, fossil fuels Salt & Phosphorus deposits Determine shape & structure of Ocean bottom Strongly affect distribution of Benthic Organisms Chronological record of Earth’s history Tectonic history Climate history
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Importance of Sediments • Economic Value • Oil, fossil fuels • Salt & Phosphorus deposits • Determine shape & structure of Ocean bottom • Strongly affect distribution of Benthic Organisms • Chronological record of Earth’s history • Tectonic history • Climate history • Evolutionary history
Law of Superposition Younger sediments over Old sediments YOUNG ---------------------- OLD
Sediment Classification • By Grain Size • By Origin
Sediment Classification • Grain Size • Clay <4 μm • Silt 4-62 μm • Sand 62-2000 μm • Gravel >2000 μm
Sediment Sorting Well-sorted sediments are those of similar size class • Beach: well sorted (far from source) • Glacier: not sorted (close to source)
Sediment Angularity Sediment weathering during transport induces loss in angularity • Angular grains (close to source) • Rounded grains (far from source)
Sediment Classification • Origin • Lithogenous or Terrigenous (~75%) • Biogenous (~20%) • Hydrogenous • Cosmogenous
Lithogenous Sediments • Fragments of rocks broken, weathered and eroded form lithogenous sediments
http://images.google.com Frost Wedging
Wind & Rain erosion www.naturalphotos.com
Lithogenous Sediments • Transport of sediments by: • Rivers • Glaciers • Waves • Wind • Landslides • Humans
www.southalabama.edu http://earthobservatory.nasa.gov
Sediment Discharge by Rivers • Ganges: 1700 million Tm/year • Amazon: 900 million Tm/year • Mississippi 260 million Tm/year (Figure 6-2)
Aerial dust transport Winter Summer
http://geohazards.cr.usgs.gov/ http://web.umr.edu/~rogersda
Biogenous Sediments • Composed of planktonic organism remains • Calcareous skeletons (CaCO3) • Siliceous skeletons (SiO2) • Accumulation rate controlled by: • Primary productivity • Rate of dissolution (Importance of fecal pellets)
Figure 3.21a Diatoms (siliceous high latitudes) Coccololithospheres (calcareous – mid latitides)
Figure 3.21b Radiolarians (siliceous – low latitudes)
Pteropods (calcareous – all latitudes) http://www.mbari.org/expeditions/
Dissolution Biogenous Particles • Silica • Ocean is UNDERSATURATED with silica • Dissolution highest in surface waters • Low Pressure • High Temperature Accumulation in sediments occurs in: • Areas of very high productivity • Poles and upwelling zones (diatoms) • Tropics (Radiolarians)
Dissolution Biogenous Particles • Carbonates • Foraminifera (Calcite) – less soluble • Pteropods (Aragonite) – More soluble • Dissolution is highest in Deep Waters • High pressure • Low temperatures • Low pH (high C02) Carbonate Compensation Depth (CCD)
Carbonate Compensation Depth • CCD varies with Latitude • CCD varies between Oceans • North Pacific: 1000m • South Pacific: 2500m • Atlantic: 4000m
Carbonate Compensation Depth • New Deep Waters have low CO2 conc. • Old Deep Waters have high CO2 conc. • Animal respiration • Decomposer activities Pacific Deep Waters are older than Atlantic Deep Waters
Carbonate Compensation Depth& Greenhouse Effect? • CO2 atmosphere, seawater & sediments are interrelated! • Will increase in atmospheric CO2 cause increase in dissolved seawater CO2? • Consequences of a shallow CCD? • Release into atmosphere of dissolved carbonate sediments?
Hydrogenous Sediments • Lower concentrations than Lithogenous and Biogenous sediments • Ocean water usually is UNDERSATURATED, but.. • Hydrothermal Vent Minerals (metal rich sedim.) • Manganese Nodules (areas of low sedimentation) • Carbonate banks - CaCO3 precipitates at: • High Temperature • Low Pressure • High pH (low CO2) • Caused by high productivity - photosynthesis