deltas with changes

Information about deltas with changes

Published on January 9, 2008

Author: Susett

Source: authorstream.com

Content

Deltas:  Deltas Mangoky River Delta All images courtesy of NASA (http://earth.jsc.nasa.gov) The Nile Delta: a Prototype:  The Nile Delta: a Prototype Early geographers, reminded of the Greek letter delta when noting its roughly triangular shape, named it accordingly. Introduction:  Introduction Deltas are transitional environments they are neither fully marine or terrestrial Deltas are built by the accumulation of river-borne sediment when the accumulation exceeds sea level Deltas often contain subordinate systems marshes, swamps, and tidal flats Deltas are sensitive to sea level change and alterations to their basins they are heavily impacted by human activities Introduction Continued:  Introduction Continued Deltas occur on every continent on trailing edge continental margins (but the U.S. Atlantic Coast has no real deltas; most East Coast rivers empty into estuaries where their sediment is then dispersed) marginal seas and protected coasts are especially conducive to delta formation leading edge continental margins are not conducive continental shelves are too narrow and deep to allow sediments to accumulate, wave energy is too high and tends to sweep away river sediments, and nearby mountains make for narrow rivers which carry relatively small amounts of sediment Delta Age:  Delta Age Deltas are geologically young features Most deltas postdate the period of high sea level rise about 5,000 years ago However, this is not always the case. For example, the Mississippi River Delta is built upon much older deltas that are several million years old (although its newest lobe is only about 600 years old) The Mississippi Delta:  The Mississippi Delta A bird’s foot delta located in Louisiana adjacent to the Gulf of Mexico Jetties have been built and dredging occurs to allow large vessels to navigate the delta channel Note the large amounts of sediment that surrounds the delta The Atchafalaya Delta:  The Atchafalaya Delta This delta is considered to be the Mississippi’s largest distributary This is one of the few areas where the Louisiana coastline is growing The Atchafalaya diverts large quantities of water from the Mississippi Delta Environments:  Delta Environments Delta Plain: the land-ward, very flat extension of the delta distributary: branching of the main river channel into a series of smaller channels these smaller channels distribute water and sediment across the delta plain and delta front interdistributary bays and marshes: broad relatively flat areas between distributaries with either open water (bays) or marsh (herbacious wetland) Delta Environments Continued:  Delta Environments Continued Delta plain levees: the built-up areas adjacent to the channel where sediments accumulate because this area is flooded more frequently (sediments are often coarser on levees as the coarse material drops out of suspension before the finer material (i.e. silt)) crevasse: cuts through the levee crevasse splay: cuts through the levee allow sediments to spill across the delta plain in a broad fan-like shape Delta Environments Continued:  Delta Environments Continued Delta front: where the seaward edge of the delta plain merges with the sub-tidal portion of the delta sand is deposited first and is therefore closer to the delta front distributary mouth bars may form with this sandy material Prodelta: the seaward extension of the delta, which is largely built of fine sediments (silt & clay) waves and in some cases tides rework this material largely below sea-level Delta Formation:  Delta Formation Deltas can be river, tide, or wave dominated or can be influenced by a mixture of these forces these forces determine the fate of the river-borne sediment and the resultant morphology of the delta river-dominated (Mississippi Delta) a well developed delta plain, often with one lobe (the most recent one) projecting out beyond the general delta front tide-dominated (Ganges Delta-largest) freshwater is over-powered by tidal currents strong tidal currents mold the delta into elongate forms that are parallel to river flow and perpendicular to the coast often resemble estuaries due to the presence of embayed salt marshes, swamps, and tidal flats River vs. Tide Dominated Deltas:  River vs. Tide Dominated Deltas Mississippi Delta Ganges Delta large mangrove forest (largest remaining habitat of the Bengal tiger) Prone to devastating floods Delta Formation Continued:  Delta Formation Continued wave-dominated smooth shorelines with relatively few distributaries tend to be smaller than other types of deltas as wave action limits growth limited marsh or swamp areas mixed or intermediate deltas where one force (wave, river, or tidal) does not dominate the Nile River Delta shows characteristics of river and wave domination as it has both well developed distributaries and a smooth delta front Wave Dominated Delta:  Wave Dominated Delta Rhone River Delta Wave action has smoothed the coastline Nile Delta:  Nile Delta Smooth delta front A mixed or intermediate delta influenced by both river and wave forces Well developed distributaries Delta Progradation/Retrogradation:  Delta Progradation/Retrogradation Delta growth depends on drainage basin conditions the most important factors for the vitality of the delta are soil type and rainfall large amounts of rainfall and loose soils increase delta growth changes in climate, topography, and sediment supply may alter the growth of the delta humans can alter all of these important factors Delta Progradation/Retrogradation:  Delta Progradation/Retrogradation Progradation: the growth of a delta seaward this occurs by the accumulation of sediments in zones that shift seaward over time sandy materials first, then silt, and then clay if you bored through a delta you would find clay materials toward the bottom (essentially the prodelta that was over-ridden) and coarser materials toward the surface deltas will continue to prograde as long as the sediment supply exceeds the rate of relative sea level rise More Delta Progradation/Retrogradation!:  More Delta Progradation/Retrogradation! Retrogradation occurs when the delta begins to disappear because the supply of sediment is not enough to offset sea level rise this can happen for a variety of reasons sea level rises too fast drought in the river basin decreases river flow sediment supply declines due to climate change or human influence Delta Cycle:  Delta Cycle Pro-delta Delta front Delta plain Human-Impact:  Human-Impact People can affect Deltas in many ways For example, people often create dams which block sediment from reaching the delta Both the Nile and the Mississippi Deltas are examples of this phenomenon The Aswan Dam and the Nile Delta :  The Aswan Dam and the Nile Delta Aswan Dam (1971) The Aswan Dam has disrupted the Nile Delta’s normal development. The dam traps sediments formerly used to build the delta and agricultural area, allows saltwater intrusion, and reduces the amount of nutrients present in the Nile’s water. Lake Nasser The dam provides flood control, increased irrigable land area, and much needed hydroelectric power (about 40 percent of the country’s electricity). The Aswan Dam and the Nile Delta:  The Aswan Dam and the Nile Delta Effects of Sea Level Rise:  Effects of Sea Level Rise Sediment once transported by the Nile River to the coast, average of 100x10 6 t yr-1, is now almost cut off. People and the Mississippi:  People and the Mississippi Sediment deposited by distributaries Note the large sediment plumes Although the Mississippi River still carries 200 million tons of sediment into the Gulf of Mexico every year, much more sediment would be carried if not for the dams and levees constructed by people in its drainage basin for flood control & other purposes. The channel requires frequent dredging so that large vessels can navigate the channel Causes:  Causes The Mississippi River water level has fluctuated and fluctuates a great deal due to weather phenomena, glacial melt, and human use. The river valley has been struck by devastating floods many times.  Since the early 1800s, Americans have attempted to control the level of the river using different engineering techniques.  The most effective means of controlling the river has been damming, especially far upstream from the delta.  However, these flood control measures have led to the worst coastal erosion and wetland loss in the United States.  Since the turn of the 20th century, the rate of coastal land loss has accelerated from 5 mi2/yr in the 1930s to 40 mi2/yr in the 1970s.  The current rate of loss is approximately 25 mi2/yr (Penland, 1995). Flood control has cut off the sediment supply to the Mississippi Delta, which formerly counteracted the subsidence. Diversion control has stopped the delta from delta switching, the process by which the Mississippi River has built and maintained its delta plain, causing a net loss of land (Penland, 1995).  The average amount of shoreline erosion is 10m/yr. Other Factors:  Other Factors Canals: cause of bank erosion and incursion of saltwater into low salinity and brackish marshes Oil and Gas: fluid withdrawal and land collapse and subsidence Old pipelines: constructed since the 1930s Not really monitored until 1960s. Land Loss in the Mississippi Delta:  Land Loss in the Mississippi Delta The Danube Delta:  The Danube Delta The Danube Delta is the second largest in Europe (4300 square kilometers) and is home to one of the biggest reed beds in the world, vast stretches of other wetland types, and much wildlife. The Danube is the second longest river in Europe This delta attracts many tourists who enjoy watching the delta’s birds and other inhabitants Mekong River:  Mekong River Basin Maps:  Basin Maps Tonle Sap:  Tonle Sap Annual flooding from the Mekong swells the lake from 2500 km2 to over 13,000 km2 Fish spawning and migration cycle with the floods 40% of Mekong fish catch is in Cambodia (10% in the lake alone) 80% of animal protein consumed in Cambodia is from freshwater fish The Irrawaddy River Delta:  The Irrawaddy River Delta This river delta in Burma is one of the world’s great rice producing regions Fertile mud and sand have been deposited here during the last 2 million years mangrove forest Sediment plumes Sacred River Delta:  Sacred River Delta Godavari and Krishna River Delta The delta is a site of some of the earliest European settlements in India Both Rivers are sacred to the Hindu Religion

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