the dynamic ocean chapter 15
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The Dynamic Ocean Chapter 15. Cape Hatteras, NC. Learning Objectives. What is the force that drives the ocean’s currents? What is the basic pattern of surface currents? How do surface ocean currents influence climate? What is thermohaline circulation? - PowerPoint PPT PresentationTRANSCRIPT
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THE DYNAMIC OCEAN
CHAPTER 15
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Cape Hatteras, NC
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LEARNING OBJECTIVES What is the force that drives the ocean’s
currents? What is the basic pattern of surface currents?
How do surface ocean currents influence climate?
What is thermohaline circulation? Why is the shoreline considered to be a
dynamic interface? What factors influence the height,
length and period of a wave? Can you describe the motion of water within a wave?
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LEARNING OBJECTIVES How do waves erode? What are some typical features
produced by wave erosion and from sediment deposited by beach drift and longshore currents?
What are the local factors that influence shoreline erosion, and what are some basic responses to shoreline erosion problems?
How do emergent and submergent coasts differ in their formation and characteristic features?
How are tides produced? 4
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OCEAN WATER MOVEMENTS Surface circulation
Ocean currents are masses of water that flow from one place to another
Surface currents develop from friction between the ocean and the wind that blows across the surface
Huge, slowly moving gyres
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OCEAN WATER MOVEMENTS Surface circulation
Five main gyres North Pacific Gyre South Pacific Gyre North Atlantic Gyre South Atlantic Gyre Indian Ocean Gyre (mostly S. Hemisphere)
Related to atmospheric circulation Trade winds, westerlies Also influenced by major landmasses
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GLOBAL SURFACE CIRCULATION
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OCEAN WATER MOVEMENTS Surface circulation
Deflected by the Coriolis effect To the right in the Northern Hemisphere To the left in the Southern Hemisphere
Four main currents generally exist within each gyre ~6 years to make the loop in Pacific (Box 15.1)
Large central zone w/no well-defined currentsWest Wind Drift is the only one that
completely circles the Earth
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OCEAN WATER MOVEMENTS Surface circulation
Importance of surface currents Climate
Currents from low latitudes into higher latitudes (warm currents) transfer heat from warmer to cooler areas
As N. Atlantic Current approaches W. Europe, kit splits; part of it carries warm air to Great Britain, Norway, Iceland
Canary Current - travels south (cool)
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CORIOLIS EFFECT
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A) On a non-rotating Earth, rocket would travel straight to its target.
B) Earth rotates 15/hr so even though rocket travels in a straight line, it follows a curved line that veers to the right of the target.
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GULF STREAM
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A) ~1769: Benjamin Franklin’s Gulf Stream chart
B) Satellite image of Gulf Stream (warm – orange)
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OCEAN WATER MOVEMENTS Surface circulation
Importance of surface currents Climate
Influence of cold currents is most pronounced in the tropics or during the summer months in the middle latitudes
Cold currents travel equator, moderate climate
Aridity quite pronounced in w. South America, Africa Lower atmosphere chilled by cold offshore water Air is more stable, less likely to move upward and
form rain clouds
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OCEAN CURRENTS INFLUENCE CLIMATE
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ATACAMA DESSERT IS THE DRIEST ON EARTH
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OCEAN WATER MOVEMENTS Surface circulation
Importance of surface currents Upwelling
The rising of cold water from deeper layers Most characteristic along west coasts of
continents Coastal winds + Coriolis Effect surface water
moves away from shoreBrings greater concentrations of dissolved
nutrients to the ocean surface
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Coastal upwelling high photosynthesis
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OCEAN WATER MOVEMENTS Deep-ocean circulation
Significant vertical movement (surface circulation is mostly horizontal)
A response to density differencesFactors creating a dense mass of water
Temperature – cold water is dense Salinity – density increases with increasing
salinityCalled thermohaline circulation
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SEA ICE SURROUNDING ANTARCTICA
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When seawater freezes, salt doesn’t become part of ice; water becomes denser and sinks
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OCEAN WATER MOVEMENTS Deep-ocean circulation
Most water involved in deep-ocean currents begins in high latitudes at the surface
A simplified model of ocean circulation is similar to a conveyor belt that travels from the Atlantic Ocean, through the Indian and Pacific Oceans and back again
Warm water in ocean’s upper layers flows poleward Becomes dense and sinks Returns to equator as cold, deep water Eventual upwelling
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IDEALIZED “CONVEYOR BELT” MODEL OF OCEAN CIRCULATION
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THE COASTAL ZONE The land-sea boundary
Shoreline – contact between land and seaShore – area between lowest tidal level and
highest areas affected by storm wavesCoastline – the seaward edge of the coastBeach – accumulation of sediment along the
landward margin of the ocean
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THE COASTAL ZONE
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OCEAN WATER MOVEMENTS Waves
Energy traveling along the interface between ocean and atmosphere
Derive their energy and motion from wind Parts
Crest Trough
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OCEAN WATER MOVEMENTS Waves
Measurements of a wave Wave height – the distance between a trough
and a crest Wavelength – the horizontal distance between
successive crests (or troughs) Wave period – the time interval for one full wave
to pass a fixed position
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CHARACTERISTICS AND MOVEMENT OF A WAVE
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OCEAN WATER MOVEMENTS Waves
Wave height, length, and period depend on Wind speed Length of time the wind blows Fetch – the distance that the wind travels
As the wave travels, the water passes energy along by moving in a circle Waveform moves forward At a depth of about one-half the wavelength, the
movement of water particles becomes negligible (the wave base)
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CHANGES THAT OCCUR WHEN A WAVE MOVES ONTO SHORE
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WAVE EROSION Wave erosion
Caused by Wave impact and pressure Breaks down rock material and supplies sand to
beaches Abrasion – sawing and grinding action of water
armed with rock fragments
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SAND MOVEMENT ON THE BEACH Beaches are composed of whatever
material is available Some beaches have a significant biological
component Material does not stay in one place
Wave energy moves large quantities of sand parallel and perpendicular to the shoreline
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BEACHES AND SHORELINE PROCESSES Wave refraction
Bending of a waveWave arrives parallel to shore Results
Wave energy is concentrated against the sides and ends of headland
Wave erosion straightens an irregular shoreline
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WAVE REFRACTION ALONG AN IRREGULAR COASTLINE
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BEACHES AND SHORELINE PROCESSES Longshore transport
Beach drift – sediment moves in a zigzag pattern along the beach face
Longshore current Current in surf zone Flows parallel to the shore Moves substantially more sediment than beach drift
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BEACH DRIFT AND LONGSHORE CURRENTS
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SHORELINE FEATURES Erosional features
Wave-cut cliffWave-cut platform Marine terracesAssociated with headlands
Sea arch Sea stack
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SEA ARCH
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A SEA STACK AND A SEA ARCH
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SHORELINE FEATURES Depositional features
Spit – a ridge of sand extending from the land into the mouth of an adjacent bay with an end that often hooks landward
Baymouth bar – a sand bar that completely crosses a bay
Tombolo – a ridge of sand that connects an island to the mainland
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AERIAL VIEW OF A SPIT AND BAYMOUTH BAR ALONG THE MASSACHUSETTS COASTLINE
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SPIT
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TOMBOLO
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SHORELINE FEATURES Depositional features
Barrier islands Mainly along the Atlantic and Gulf Coastal Plains Parallel the coast Originate in several ways
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STABILIZING THE SHORE Shoreline erosion is influenced by the local
factors Proximity to sediment-laden rivers Degree of tectonic activity Topography and composition of the land Prevailing wind and weather patterns Configuration of the coastline
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STABILIZING THE SHORE Responses to erosion problems
Hard stabilization – building structures Types of structures
Groins – barriers built at a right angle to the beach that are designed to trap sand
Breakwaters – barriers built offshore and parallel to the coast to protect boats from breaking waves
Seawalls – Armors the coast against the force of breaking waves
Often these structures are not effective
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STABILIZING THE SHORE Responses to erosion problems
Alternatives to hard stabilization Beach nourishment by adding sand to the beach
system Relocating buildings away from beach
Erosion problems along U.S. CoastsShoreline erosion problems are different
along the opposite coasts
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MIAMI BEACH BEFORE BEACH NOURISHMENT
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MIAMI BEACH AFTER BEACH NOURISHMENT
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STABILIZING THE SHORE Erosion problems along U.S. Coasts
Atlantic and Gulf Coasts Development occurs mainly on barrier islands
Face open ocean Receive full force of storms
Development has taken place more rapidly than our understanding of barrier island dynamics
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STABILIZING THE SHORE Erosion problems along U.S. Coasts
Pacific Coast Characterized by relatively narrow beaches
backed by steep cliffs and mountain ranges Major problem is the narrowing of the beaches
Sediment for beaches is interrupted by dams and reservoirs
Rapid erosion occurs along the beaches
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COASTAL CLASSIFICATION Shoreline classification is difficult Classification based on changes with
respect to sea level Emergent coast
Caused by Uplift of the land, or A drop in sea level
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COASTAL CLASSIFICATION Classification based on changes with
respect to sea level Emergent coast
Features of an emergent coast Wave-cut cliffs Marine terraces
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COASTAL CLASSIFICATION Classification based on changes with
respect to sea level Submergent coast
Caused byLand adjacent to sea subsides, or Sea level rises
Features of a submergent coast Highly irregular shoreline Estuaries – drowned river mouths
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MAJOR ESTUARIES ALONG THE EAST COAST OF THE UNITED STATES
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TIDES Changes in elevation of the ocean
surface Caused by the gravitational forces
exerted upon Earth by the Moon, and to a lesser extent by the Sun
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IDEALIZED TIDAL BULGES ON EARTH
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TIDES Monthly tidal cycle
Spring tide During new and full moons Gravitational forces added together Especially high and low tides Large daily tidal range
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EARTH-MOON-SUN POSITIONS DURING THE SPRING TIDE
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EARTH-MOON-SUN POSITIONS DURING THE NEAP TIDE
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TIDES Monthly tidal cycle
Neap tide First and third quarters of the Moon Gravitational forces are offset Daily tidal range is least
Tidal patterns Many factors influence the tides
Shape of the coastline Configuration of the ocean basin Water depth
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TIDES Tidal patterns
Main tidal patterns Diurnal tidal pattern
A single high and low tide each tidal day Occurs along the northern shore of the Gulf of Mexico
Semidiurnal tidal pattern Two high and two low tides each tidal day Little difference in the high and low water heights Common along the Atlantic Coast of the United States
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TIDES Tidal patterns
Main tidal patterns Mixed tidal pattern
Two high and two low waters each day Large inequality in high water heights, low
water heights, or bothPrevalent along the Pacific Coast of the United
States
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TIDES Tidal patterns
Tidal currents Horizontal flow accompanying the rise and fall of
tides Types of tidal currents
Flood current – advances into the coastal zone Ebb current – seaward moving water
Sometimes tidal deltas are created by tidal currents
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FEATURES ASSOCIATED WITH TIDAL CURRENTS
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END OF CHAPTER 15
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