Mudflat

Mudflats or mud flats, also known as tidal flats, are coastal wetlands that form when mud is deposited by tides or rivers. They are found in sheltered areas such as bays, bayous, lagoons, and estuaries. Mudflats may be viewed geologically as exposed layers of bay mud, resulting from deposition of estuarine silts, clays and marine animal detritus. Most of the sediment within a mudflat is within the intertidal zone, and thus the flat is submerged and exposed approximately twice daily.

In the past tidal flats were considered unhealthy, economically unimportant areas and were often dredged and developed into agricultural land.^[1] Several especially shallow mudflat areas, such as the Wadden Sea, are now popular among those practising the sport of mudflat hiking.

On the Baltic Sea coast of Germany in places, mudflats are exposed not by tidal action, but by wind-action driving water away from the shallows into the sea. These wind-affected mudflats are called windwatts in German.

Ecology

Tidal flats, along with intertidal salt marshes and mangrove forests, are important ecosystems.^[2] They usually support a large population of wildlife, and are a key habitat that allows tens of millions of migratory shorebirds to migrate from breeding sites in the northern hemisphere to non-breeding areas in the southern hemisphere. They are often of vital importance to migratory birds, as well as certain species of crabs,^[3] mollusks and fish.^[4] In the United Kingdom mudflats have been classified as a Biodiversity Action Plan priority habitat.

The maintenance of mudflats is important in preventing coastal erosion. However, mudflats worldwide are under threat from predicted sea level rises, land claims for development, dredging due to shipping purposes, and chemical pollution.

Geology

Mudflat sediment deposits are focused into the Intertidal zone which is composed of a barren zone, marsh and salt pan. Within these areas are various ratios of sand and mud that make up the sedimentary layers ^[5]

Barren zones extend from the lowest portion of the intertidal zone to the marsh areas. Beginning in close proximity to the tidal bars, sand dominated layers are prominent and become increasingly muddy throughout the tidal channels. Common bedding types include laminated sand, ripple bedding, and bay mud. Bioturbation also has a strong presence in barren zones.

Marshes contain an abundance of Herbaceous plants while the sediment layers consist of thin sand and mud layers. Mudcracks are a common as well as wavy bedding planes.

Salt pans can be distinguished in that they contain thinly laminated layers of clayey silt. The main source of the silt comes from rivers. Dried up mud along with wind erosion forms silt dunes. When flooding, rain or tides come in, the dried sediment is then re-distributed ^[6]

Selected example areas

Arcachon Bay, France
Banc d'Arguin, Mauritania
Great Rann of Kutch, India
Belhaven, East Lothian Scotland, United Kingdom
Bridgwater Bay and Morecambe Bay, United Kingdom
Cape Cod Bay, Massachusetts, United States
Cook Inlet, Alaska, United States
Lindisfarne Island, England, United Kingdom
Minas Basin, Nova Scotia, Canada
Padilla Bay, Washington, United States
Plymouth Bay, Massachusetts, United States
Port of Tacoma, Washington, United States
Skagit Bay, Washington
Snettisham Norfolk England, United Kingdom
Wadden Sea: Netherlands, Germany, Denmark
West coast of Andros Island, Bahamas
Yellow Sea, China, Korea
Moreton Bay, Queensland, Australia

Gallery

Mudflats near Oban on Stewart Island, New Zealand.
Mudflats in Brewster, Massachusetts, United States, extending hundreds of yards offshore at the low tide. The line of seashells in the foreground indicates the high water mark.
Gulls feeding on mudflats in Skagit Bay, Washington.

References

^ Dredging Indian River Lagoon Wetlands 1920 - 1950s
^ Tidal flat habitats
^ Mud crab (Scylla serrata) culture in tidal flats with existing mangroves
^ Manko - Tidal Flat, Mangrove Forest
^ [ Reineck, H.E, and I.B Singh. Deposistional Sedimentary Enviornments. 2nd Ed. New York: Springer-Verlag Berlin Heidelberg, 1980. 427. Print]
^ [ Reineck, H.E, and I.B Singh. Deposistional Sedimentary Enviornments. 2nd Ed. New York: Springer-Verlag Berlin Heidelberg, 1980. 428. Print]

External links

[1] Dredging Indian River Lagoon Wetlands 1920 - 1950s

[2] Tidal flat habitats

[3] Mud crab (Scylla serrata) culture in tidal flats with existing mangroves

[4] Manko - Tidal Flat, Mangrove Forest

[5] [ Reineck, H.E, and I.B Singh. Deposistional Sedimentary Enviornments. 2nd Ed. New York: Springer-Verlag Berlin Heidelberg, 1980. 427. Print]

[6] [ Reineck, H.E, and I.B Singh. Deposistional Sedimentary Enviornments. 2nd Ed. New York: Springer-Verlag Berlin Heidelberg, 1980. 428. Print]

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v t e Coastal geography
Landforms	Anchialine pool Archipelago Atoll Avulsion Ayre Barrier island Bay Bight Bodden Brackish marsh Cape Channel Cliff Coast Coastal plain Coastal waterfall Continental margin Continental shelf Coral reef Cove Dune cliff-top Estuary Firth Fjard Fjord Freshwater marsh Fundus Gat Geo Gulf Gut Hapua Headland Inlet Intertidal wetland Island Islet Isthmus Lagoon Machair Mudflat Natural arch Peninsula Reef Ria Salt marsh Shoal Shore Skerry Sound Spit Stack Strait Strand plain Submarine canyon Tidal island Tidal marsh Tide pool Tied island Tombolo Waituna Windwatt
Beaches	Beach cusps Beach evolution Coastal morphodynamics Beach ridge Beachrock Beaches in estuaries and bays Pocket beach Raised beach Recession Shell beach Shingle beach Storm beach Wash margin Beach wrack
River mouths	Debouch River delta mega regressive Mouth bar baymouth
Processes	Blowhole Cliffed coast Coastal biogeomorphology Coastal erosion Concordant coastline Current Cuspate foreland Discordant coastline Emergent coastline Feeder bluff Fetch Flat coast Graded shoreline Ingression coast Large-scale coastal behaviour Longshore drift Marine regression Marine transgression Raised shoreline Rip current Rocky shore Sea cave Sea foam Shoal (Peresyp) Steep coast Submergent coastline Surf break Surf zone Surge channel Swash Undertow Volcanic arc Wave-cut platform Wave shoaling Wind wave
Management	Accretion Coastal management Integrated coastal zone management Submersion
Related	Bulkhead line Coastal engineering Grain size boulder clay cobble granule gravel pebble sand shingle silt Intertidal zone Littoral zone Physical oceanography River plume Region of freshwater influence
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