Chapter 3: The Physical Setting
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Transcript Chapter 3: The Physical Setting
Chapter 3
The Physical Setting
Physical oceanography
Instructor: Dr. Cheng-Chien Liu
Department of Earth Sciences
National Cheng Kung University
Last updated: 2 October 2003
The physical setting of the Earth
Prolate ellipsoid
• Rotation equatorial bulge
Measurement and unit
• Latitude measure distance
10 Latitude = 111 km
Meridian
• Longitude
10 Longitude = 111 cosf km
• Meter
• Mile
• Nautical mile
Ocean and seas
Oceans
• The Atlantic Ocean (Fig 3.1)
• The Pacific Ocean (Fig 3.2)
• The Indian Ocean (Fig 3.3)
Seas
• Mediterranean Seas
General definition
The Arctic Sea
The Caribbean Sea
• Marginal Seas
The Arabian Sea
South China Sea
Dimensions of the oceans
Dimension
• Area
70.8%
Order by size (Table 3.1)
• Width: 1500 – 13000 km
• Typical depth: 3 – 4 km
Similar scale to a piece of paper
• Exaggerated vertical scale of plot (Figure 3.4)
• Dynamical implication
vz 1% vx or vy
2D vertical vortex lines little vortex stretching
3D vortex stretching turbulence
Bathymetric features
Two types of crust
•
•
•
•
Oceanic crust: denser, 10km
Continental crust: lighter, 40km
Histogram of elevations: Fig 3.5
Plate tectonics relative motion of crust subsea
features (Fig 3.6)
Influences of subsea features
• Ocean circulation)
Separate oceans (deeper waters)
Interrupt ocean currents
Produce turbulence
Lead to vertical mixing
Subsea features
Basins (Fig 3.6)
Canyon
Continental shelf (Fig 3.7)
Continental slopes
Plains
Ridges
Seamounts (Fig 3.8)
Sills
Trenches (Fig 3.9)
Measuring the depth of the ocean
Echo sounder
• Principle: Fig 3.10
• Measurements
1922 US Navy Destroyer Steward
1925 – 1927 German Meteor research and survey ship
Uneven distributed maps (Fig 3.11)
• Error sources
Sound speed 4% (table of mean sound speed 1%)
Hill regions shallower depths off to the side
Ship position
Schools of marine zooplankton or fish remapping
Gaps
Measuring the depth of the ocean
(cont.)
Satellite altimetry
• Principle
Sea level (geoid) ellipsoid
Variation of gravity geoid undulations ( 60m) (Fig 3.12)
Depend on the strength of the seafloor and the age of the seafloor feature
Vary from region to region
Restless ocean topography ( 1m)
Sea level gravity (Fig 3.13)
Echo sounder
Measure the regional relationship between gravity and bathymetry
Satellite-altimeter
Measure the height of the sea surface relative to the center of mass of the Earth
Accuracy: GEOSAT (few meters), Topex/Poseidon ( 5cm)
Interpolate between echo sounder measurements bathymetry
First measured and classified by US Navy, released in 1996
Maps of the geoid with 3km spatial resolution
Bathymetric charts and data sets
Maps of the sea floor with 3km spatial
resolution
• BODC
GEBCO digital atlas 1:10 million
• US NGDC
ETOPO-5 CDROM
5-minute (5 nautical mile) grid
• Smith and Sandwell 1997
2-minute grid
Vertical accuracy: 100m
Fig 3.14
Sound in the ocean
Sound
• Communication
• Measurement
• Navigation
Sound speed
• Equation
C = 1448.96 + 4.591 T - 0.05304 T2 + 0.0002374 T3 + 0.0160 Z + ( 1.340 0.01025 T ) (S - 35) + 1.675×10-7Z - 7.139 × 10-13 T Z3
Range: 1450 – 1550 m/s (Fig 3.15)
Sensitivity
4 m/s per degree
16 m/s per km
1.5 m/s per 1 increase in salinity
Sound in the ocean (cont.)
Sound channel
• At a depth around 1000m
• Fig 3.16
• Practical importance
Propagate to great distances
• Range: 10 – 1200 m
Sound in the ocean (cont.)
Absorption of sound
• dI = -kIodx
• I = Io exp(-kx)
• Range of k
0.08 dB/km at 1000 Hz
50 dB/km at 100,000 Hz
• Experiment in 1960
15 Hz halfway around the world
Use of sound
• 1950s microphone on the sea floor submarine
• Whales, subsea volcanic eruptions
Important concepts
Scale of ocean is similar to a piece of paper
Only three official oceans
Exceed volume of ocean water
continental shelves
Echo sounder maps of bathymetry with
poor spatial resolution
Satellite altimeter maps of bathymetry
• 3km spatial resolution and 100m depth accuracy
Sound speed, channel, usage