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COASTS (Note: it is assumed that you know the basics of coastal geomorphology - the following is a brief review).

COASTS (Note: it is assumed that you know the basics of coastal geomorphology - the following is a brief review). At coastlines there is a constant source of energy capable of shaping the Earth's surface - moving water in the form of waves. Just as for the fluvial system, moving sea water can:

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COASTS (Note: it is assumed that you know the basics of coastal geomorphology - the following is a brief review).

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  1. COASTS (Note: it is assumed that you know the basics of coastal geomorphology - the following is a brief review). At coastlines there is a constant source of energy capable of shaping the Earth's surface - moving water in the form of waves. Just as for the fluvial system, moving sea water can: a. ERODE rock from high energy environments (fast moving water). b. TRANSPORT sediment, both from coastal erosion, and sediment supplied to the coast by rivers. c. DEPOSIT sediment in low energy coastal environments (slow moving water). Harry Williams, Geomorphology

  2. Wave Erosion.Wind-generated oscillatory waves break when they approach shore. The resulting landward-directed surge of water can cause erosion, particularly on steep coastlines because all the wave energy is concentrated into a narrow intertidal zone. Harry Williams, Geomorphology

  3. This usually results in a wave-cut notch at the base of cliffs, which periodically collapse, maintaining the steepness of the cliff. Harry Williams, Geomorphology

  4. The result of continuous wave erosion at the base of cliffed coastlines is the formation of a wave-cut platform - similar to parallel retreat & pediment. Harry Williams, Geomorphology

  5. Old wave-cut platform Modern wave-cut platform If sea-level falls, the wave-cut platform becomes a marine terrace. Harry Williams, Geomorphology

  6. Where the slope of the coast is gentle, the wave energy is dissipated over a wider intertidal zone, creating lower energy conditions and allowing sediment to accumulate, forming a wide beach. Erosion still occurs in the form of alongshore sediment transport. swash Wave direction backwash Harry Williams, Geomorphology

  7. Martha’s Vineyard, MA The alongshore-moving sediment accumulates at bends in coastlines forming various depositional landforms (e.g. spits, baymouth bars, barrier islands). Harry Williams, Geomorphology

  8. Many spits, baymouth bars and barrier islands create sheltered coastal wetlands where salt marshes develop. The shelter from wave-action allows mud to accumulate (usually from streams and rivers) and salt-tolerant vegetation grows on the mud. Harry Williams, Geomorphology

  9. Classification of North American Coastlines In North America, coasts are very varied, but they can be classified according to large scale tectonic setting and smaller scale local processes. A. TECTONIC SETTING: Convergent coasts, passive margin coasts, marginal seas (protected from open ocean by island arcs - dominated by rivers and deltas). In the U.S., the west coast is convergent; the east coast and Gulf Coast is a passive margin. Harry Williams, Geomorphology

  10. 1. Convergent coastlines: West Coast. Characteristics = erosion>deposition; relatively straight; mountainous; sea cliffs; rocky coasts; beaches in sheltered bays; marine terraces; narrow continental shelves; active volcanism; earthquakes. Harry Williams, Geomorphology

  11. 2. Passive margin coasts: East Coast/Gulf Coast. Characteristics = deposition>erosion; low-lying; wide coastal plain + continental shelf; commonly submerged; common spits, barrier islands, beaches, marshes. Cape Fear Harry Williams, Geomorphology

  12. B. LOCAL PROCESSES: Local effects are superimposed onto the larger scale tectonic features. These processes are subdivided into PRIMARY COASTS - dominated by terrestrial processes (T); and SECONDARY COASTS - dominated by marine processes(M). Glacial coast (T) Glacial coast (T) Stream erosion coast (T) Wave eroded coast (M) Marine deposition coast (M) Stream deposition coast (T) Marine deposition coast (M) Harry Williams, Geomorphology

  13. 1. Primary Coasts: a). Stream erosion coasts: areas dominated by well-developed stream networks which have been partly submerged by rising sea-level. Stream valleys become estuaries often with a dendritic pattern; hills become islands e.g. Chesapeake Bay, Delaware Bay, Pamlico Sound (N. Carolina). Harry Williams, Geomorphology

  14. b). Stream deposition coasts: at the mouths of large rivers, deltas may dominate the coastline e.g. Mississippi Delta (dominates the entire coast of Mississippi and Louisiana). Harry Williams, Geomorphology

  15. c). Glacial erosion & deposition coasts: due to their ruggedness and great relief, submerged glacially-eroded valleys usually dominate coastlines, whether in the east or west. Fjords tend to be straight and very deep (glacially scoured). E.g. Finger Lakes region of New York State, Southern New England. Glacial terminal moraines (deposits) form linear islands. Harry Williams, Geomorphology

  16. 2. Secondary Coasts: a). Wave eroded coasts: characterized by cliffs, stacks, arches, wave-cut platforms; headlands are worn back and bays filled in, smoothing the coastline in the long-term. e.g. California, Oregon, Washington. Harry Williams, Geomorphology

  17. b). Marine deposition coasts: characterized by beaches, barriers, marshes: in areas of wider coastal plain submerged by post-glacial sea-level rise. E.g. South Carolina, Georgia, Florida, Alabama, Texas. Harry Williams, Geomorphology

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