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Introduction to Oceanography Physical Oceanography -Coastlines 1-

Introduction to Oceanography Physical Oceanography -Coastlines 1-

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Page 1: Introduction to Oceanography Physical Oceanography -Coastlines 1-

Introduction to Oceanography

Physical Oceanography-Coastlines 1-

Page 2: Introduction to Oceanography Physical Oceanography -Coastlines 1-

© 2002 Brooks/Cole, a division of Thomson Learning, Inc.

Classifying Coasts

Coasts can be classified by a method that takes into account tectonic position and sea level.

Primary coasts are young coasts dominated by terrestrial influences. Land erosion coasts Coasts built out by land processes Volcanic coasts Coasts shaped by earth movements

Secondary coasts are older coasts that have been changed by marine influence. Waves and currents Stream erosion Abrasion of wind-driven particles Freeze/thaw cycles Slumping

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Primary Coasts

Many of the islands of Martha’s Vineyard and Nantucket are examples of a primary coast.

Page 4: Introduction to Oceanography Physical Oceanography -Coastlines 1-

© 2002 Brooks/Cole, a division of Thomson Learning, Inc.

Secondary Coasts

Waves are one of the forces that shape secondary coasts.

Page 5: Introduction to Oceanography Physical Oceanography -Coastlines 1-

© 2002 Brooks/Cole, a division of Thomson Learning, Inc.

Large Scale Features of Secondary Coasts

These features are associated with secondary coasts.

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© 2002 Brooks/Cole, a division of Thomson Learning, Inc.

Beaches

A beach is a zone of loose particles that covers a shore.

Note that larger particles are associated with more sloped beach.

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Breaking waves provide the energy that changes the shape and texture of the beach deposits.

• As waves shoal (touch bottom) in shallow water celerity decreases, wavelength decreases, wave height increases, waves become less stable and refraction occurs.

• Refraction is the bending of waves towards shallower water so that they break almost parallel to the shore.

• Waves become unstable and break in very shallow water.

• The beach is the part of the land that touches the sea. It can be divided into the: Off shore, Near shore (breaker zone, surf zone, swash zone), and the Back Shore

• Position of the divisions of the beach varies with the tides, advancing landward with high tide and retreating seaward with low tide.

11-1

Coastal Water Movement

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Waves generate longshore currents that flow parallel to the beach and rip currents that flow perpendicularly to the beach.

• Angle of wave approach is the acute angle (less than 90o) between the wave crest and the beach.

• The direction of longshore current varies with the direction of wave approach.

• Longshore currents can also be generated by wave set-up.

• Where two opposing longshore currents collide, they form a swift, narrow, seaward rip current.

11-1 Coastal Water Movement

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Beach sediments are moved by currents and waves, especially breakers.

• A beach profile is a cross section of the beach along a line that is perpendicular to the shoreline.

• A swell profile is concave upward with a wide, broad berm (relatively flat backshore) and steep intertidal beach face.

• A storm profile displays erosion of the berm and a broad flat intertidal beach face.

• A sand budget is the balance between sediment added to and sediment eroded from the beach.

11-2 Beaches

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Sections of coast in which sand input and sand output are balanced are referred to as coastal cells.

Coastal Cells

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Sand dunes are formed by winds blowing sand landward from the dry part of the beach.• Well developed dunes typically have a sinusoidal profile with the primary dune at the landward

edge of the beach and possible secondary dunes located farther inland.

• Vegetation on the dunes traps windblown sand on their downwind side and promotes dune growth and stability.

• Blowouts are wind-scoured breaks in the dune or depressions in the dune ridge and commonly occur if vegetation is destroyed.

• Dunes are best developed if sand is abundant, onshore winds are moderately strong and persistent, the tidal range is large and the beach is wide and gently sloping.

• Sand saltates (bounces) up the windward side of the dune, collects in the wind-shadow at the top and periodically slides down the leeward face of the dune when the accumulation of sand becomes over-steepened—resulting in dune migration.

• Wave erosion of sand dunes transports sand offshore and creates a steep scarp at the base of the dune.

• Dunes act as a natural barrier and prevent inland flooding.

• Human activity that damages vegetation leads to dune destruction by blowouts and washover by storm waves.

11-3Coastal Dunes

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Barrier islands are islands composed of sediment that parallel the coast and form where sand supply is abundant and a broad sea floor slopes gently seaward.• The islands are separated from the mainland by shallow bodies

of water which are connected to the ocean through tidal inlets.

• A series of distinct environments develop across the island parallel the beach and include the nearshore zone, dune field, back-island flats and salt marshes.

• Barrier islands are created in many ways including: sand ridges isolated by rising sea level, Sand spits breached during a storm, vertical growth and emergence of longshore sand bars.

• As sea level rises, barrier islands migrate landward as washover transports sediments from the seaward side of the island to the landward side.

11-4Barrier Islands

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A sea cliff is an abrupt rise of the land from sea level.• A sea cliff is most vulnerable to erosion at its base because waves that slam against the

cliff compress air inside cracks which expands violently, sediment is hurled against the cliff by the waves, and sea water dissolve some rock types.

• When sufficient rock at the base of the cliff has been removed, the upper part of the cliff collapses.

• Collapsed material protects the base of the sea cliff from additional erosion until it is destroyed and removed.

• Rate at which the cliff recedes is dependent upon:

– Composition and durability of cliff material.– Joints, fractures, faults and other weaknesses in the cliff material.– Amount of precipitation.– Steepness of the cliff.

• The wave-cut platform is the gentle sloping area in front of the sea cliff that was produced by sea-cliff retreat.

11-5Cliffed Coasts

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A delta is an emergent accumulation of sediment deposited at the mouth of a river as it flows into a standing body of water.• Deltas were named after the Greek letter delta .

• The three major areas of a delta are delta plain ,delta front and prodelta.

• In cross section, a delta’s deposits can be divided into three sets of beds: topset beds, foreset beds, and bottomset beds.

• As sediment accumulates the delta expands seaward with foreset beds burying bottomset beds and topset beds covering foreset beds.

• Shape of the delta can be altered by tides, waves and river deposition.

• Reduction in the supply of sediment to a delta results in delta erosion and subsidence as the sediments of the delta compact.

11-6Deltas

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The term coast has a much broader meaning than shoreline and includes many other habitats and ecosystems associated with terrestrial and marine processes.

• The six major coastal settings are: estuary, lagoon, salt marsh, mangrove swamp and coral reef.

• Shorelines are one of the most productive ecosystems and because they are shallow, they strongly respond to the effects of waves, tides and weather.

Types of coastal setting

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Estuaries are semi-enclosed bodies of water where fresh water from the land mixes with sea water.• Estuaries originate as:

drowned river valleys, fjords, bar-built estuaries, and tectonic estuaries.

• Salinity typically grades from normal marine salinity at the tidal inlet to fresh water at the mouth of the river.

12-1Estuaries

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Estuaries can be subdivided into three types based upon the relative importance of river inflow and tidal mixing.• Salt-wedge estuaries are dominated by the outflow from

rivers.

• Partially-mixed estuaries are dominated by neither river inflow nor tidal mixing.

• In well-mixed estuaries tidal turbulence destroys the halocline and water stratification.

• Because river discharge and tidal flow vary, conditions within an estuary can also change, being well-mixed when river flow decreases relative to tidal mixing, to becoming a salt-wedge estuary at times of maximum river discharge.

12-1Estuaries

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The widely fluctuating environmental conditions in estuaries make life stressful for organisms.

• Estuaries are extremely fertile because nutrients are brought in by rivers and recycled from the bottom because of the turbulence.

• Stressful conditions and abundant nutrients result in low species diversity, but great abundance of the species present.

• Despite abundance of nutrients, phytoplankton blooms are irregular and the base of the food chain is detritus washed in from adjacent salt marshes.

• The benthic fauna strongly reflects the nature of the substrate and most fishes are juvenile forms living within the estuary until they mature and migrate to the ocean.

12-1

Estuaries

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Chesapeake Bay