出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2014/11/03 14:45:34」(JST)
Sediment is a naturally occurring material that is broken down by processes of weathering and erosion, and is subsequently transported by the action of wind, water, or ice, and/or by the force of gravity acting on the particles. For example, silt falls out of suspension via sedimentation and forms soil (some of which may eventually become sedimentary rock).
Sediments are most often transported by water (fluvial processes), wind (aeolian processes) and glaciers. Beach sands and river channel deposits are examples of fluvial transport and deposition, though sediment also often settles out of slow-moving or standing water in lakes and oceans. Desert sand dunes and loess are examples of aeolian transport and deposition. Glacial moraine deposits and till are ice-transported sediments.
Sediment can be classified based on its grain size and/or its composition.
Sediment size is measured on a log base 2 scale, called the "Phi" scale, which classifies particles by size from "colloid" to "boulder".
φ scale | Size range (metric) |
Size range (inches) |
Aggregate class (Wentworth) |
Other names |
---|---|---|---|---|
< -8 | > 256 mm | > 10.1 in | Boulder | |
-6 to -8 | 64–256 mm | 2.5–10.1 in | Cobble | |
-5 to -6 | 32–64 mm | 1.26–2.5 in | Very coarse gravel | Pebble |
-4 to -5 | 16–32 mm | 0.63–1.26 in | Coarse gravel | Pebble |
-3 to -4 | 8–16 mm | 0.31–0.63 in | Medium gravel | Pebble |
-2 to -3 | 4–8 mm | 0.157–0.31 in | Fine gravel | Pebble |
-1 to -2 | 2–4 mm | 0.079–0.157 in | Very fine gravel | Granule |
0 to -1 | 1–2 mm | 0.039–0.079 in | Very coarse sand | |
1 to 0 | 0.5–1 mm | 0.020–0.039 in | Coarse sand | |
2 to 1 | 0.25–0.5 mm | 0.010–0.020 in | Medium sand | |
3 to 2 | 125–250 µm | 0.0049–0.010 in | Fine sand | |
4 to 3 | 62.5–125 µm | 0.0025–0.0049 in | Very fine sand | |
8 to 4 | 3.9–62.5 µm | 0.00015–0.0025 in | Silt | Mud |
> 8 | < 3.9 µm | < 0.00015 in | Clay | Mud |
>10 | < 1 µm | < 0.000039 in | Colloid | Mud |
Composition of sediment can be measured in terms of:
This leads to an ambiguity in which clay can be used as both a size-range and a composition (see clay minerals).
Sediment is transported based on the strength of the flow that carries it and its own size, volume, density, and shape. Stronger flows will increase the lift and drag on the particle, causing it to rise, while larger or denser particles will be more likely to fall through the flow.
Rivers and streams carry sediment in their flows. This sediment can be in a variety of locations within the flow, depending on the balance between the upwards velocity on the particle (drag and lift forces), and the settling velocity of the particle. These relationships are shown in the following table for the Rouse number, which is a ratio of sediment fall velocity to upwards velocity.
where
Mode of Transport | Rouse Number |
---|---|
Bed load | >2.5 |
Suspended load: 50% Suspended | >1.2, <2.5 |
Suspended load: 100% Suspended | >0.8, <1.2 |
Wash load | <0.8 |
If the upwards velocity approximately equal to the settling velocity, sediment will be transported downstream entirely as suspended load. If the upwards velocity is much less than the settling velocity, but still high enough for the sediment to move (see Initiation of motion), it will move along the bed as bed load by rolling, sliding, and saltating (jumping up into the flow, being transported a short distance then settling again). If the upwards velocity is higher than the settling velocity, the sediment will be transported high in the flow as wash load.
As there are generally a range of different particle sizes in the flow, it is common for material of different sizes to move through all areas of the flow for given stream conditions.
Sediment motion can create self-organized structures such as ripples, dunes, antidunes on the river or stream bed. These bedforms are often preserved in sedimentary rocks and can be used to estimate the direction and magnitude of the flow that deposited the sediment.
Overland flow can erode soil particles and transport them downslope. The erosion associated with overland flow may occur through different methods depending on meteorological and flow conditions.
The major fluvial (river and stream) environments for deposition of sediments include:
Wind results in the transportation of fine sediment and the formation of sand dune fields and soils from airborne dust.
Glaciers carry a wide range of sediment sizes, and deposit it in moraines.
The overall balance between sediment in transport and sediment being deposited on the bed is given by the Exner equation. This expression states that the rate of increase in bed elevation due to deposition is proportional to the amount of sediment that falls out of the flow. This equation is important in that changes in the power of the flow changes the ability of the flow to carry sediment, and this is reflected in patterns of erosion and deposition observed throughout a stream. This can be localized, and simply due to small obstacles: examples are scour holes behind boulders, where flow accelerates, and deposition on the inside of meander bends. Erosion and deposition can also be regional: erosion can occur due to dam removal and base level fall. Deposition can occur due to dam emplacement that causes the river to pool, and deposit its entire load or due to base level rise.
Seas, oceans and lakes accumulate sediment over time. The sediment could consist of terrigenous material, which originates on land, but may be deposited in either terrestrial, marine, or lacustrine (lake) environments; or of sediments (often biological) originating in the body of water. Terrigenous material is often supplied by nearby rivers and streams or reworked marine sediment (e.g. sand). In the mid-ocean, living organisms are primarily responsible for the sediment accumulation, their shells sinking to the ocean floor upon death.
Deposited sediments are the source of sedimentary rocks, which can contain fossils of the inhabitants of the body of water that were, upon death, covered by accumulating sediment. Lake bed sediments that have not solidified into rock can be used to determine past climatic conditions.
The major areas for deposition of sediments in the marine environment include:
One other depositional environment which is a mixture of fluvial and marine is the turbidite system, which is a major source of sediment to the deep sedimentary and abyssal basins as well as the deep oceanic trenches.
Any depression in a marine environment where sediments accumulate over time is known as a sediment trap.
The null point theory explains how sediment deposition (geology) undergoes a hydrodynamic sorting process within the marine environment leading to a seaward fining of sediment grain size.
One cause of high sediment loads from slash and burn and shifting cultivation of tropical forests. When the ground surface is stripped of vegetation and then seared of all living organisms, the upper soils are vulnerable to both wind and water erosion. In a number of regions of the earth, entire sectors of a country have become erodible. For example, on the Madagascar high central plateau, which constitutes approximately ten percent of that country's land area, most of the land area is devegetated, and gullies have eroded into the underlying soil in furrows typically in excess of 50 meters deep and one kilometer wide.[citation needed] This siltation results in discoloration of rivers to a dark red brown color and leads to fish kills.
Erosion is also an issue in areas of modern farming, where the removal of native vegetation for the cultivation and harvesting of a single type of crop has left the soil unsupported. Many of these regions are near rivers and drainages. Loss of soil due to erosion removes useful farmland, adds to sediment loads, and can help transport anthropogenic fertilizers into the river system, which leads to eutrophication.
Sediment in wine, beer, Turkish coffee or other beverages is known as dregs.
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