Post on 27-Feb-2018
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Bathymetry is the measurement of water depth: height fromwater bed to water surface. (Sounding)
- Measures the vertical distance from the ocean surface tomountains, valleys, plains, and other sea floor features
- 70.8% of Earth is covered by oceans
Importance:
Navigation Safety: Nautical charts
Water volume computation
Pollution control
Mineral & Fish industries
Under water engineering construction
Harbor & Docks construction & maintenance
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S O U N D I N G : WAT E R D E P T H M E A S U R E M E N TPoseidonus did the first sounding in 85 B.C.
Line with heavy weight was used, called sounding lineSounding lines were used for 2000 years
U N I T O F M E A S U R E I S A FATHOM
1 fathom =1.8 meters (6 feet)1- Sounding Pole2- Sounding Line
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Echo sounder or fathometerReflection of sound signalsGerman ship Meteor identified mid-Atlantic ridge in 1925
using echo-sounder.Disadvantages:
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- measurements are the time and cost associated withmaking measurements from a ship in deep waters or a smallvessel in shallow waters.
- In order to build up coherent images at high resolutionmany survey lines with overlapping tracks must be run.
- Because the swath width decreases in shallow water, many
more ship or glider tracks are required in coastal estuariesand bays with shallower water.
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Increased:
Bottom Coverage
Productivity
Resolution
Confidence
Vertical Beam Echo-sounding (VBES)
Used from 1939 to the present
Better coverage than lead-lines
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Green pulses (532 nm) reflected
from bottom
N-IR (1064 nm) laser pulses
reflected from water surface
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Simultaneous costal zone survey, both land and water underone approach
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- The surface of the ocean bulges outward and inwardrepresenting the topography of the ocean floor. The bumps,too small to be seen, can be measured accurately by a radaraltimeter aboard a satellite.
- the Geosat and ERS-1 altimeter data are comparable in valueto the radar altimeter data collected by the Magellan spacecraftduring its systematic mapping of Venus. (D.T. Sandwell &
W.H.F. Smith)
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Hsu, et al (2008) on their case study of Molokai illustratedthat depth estimates can be derived from high resolutionIKONOS multi-spectral imagery with vertical accuracy ofabout 2 m (RMSE) in water depths down to 20 m.
Although this level of vertical accuracy (2m) does not meetInternational Hydrographic Office (IHO) standards for safenavigation, these bathymetric data are highly valuable formany other purposes.
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Bathymetric information retrieval from optical satellite multispectralimagery enjoys the advantages of:
large surface coverage.
low-cost. As demonstrated (by many researchers)
Subtle and detailed morphological features can be detected andquantified using the image-derived bathymetric data.
Given that expansive areas of coastal bathymetry still need to besurveyed, bathymetric data derived from optical multispectral remote
sensing imagery represents a valuable alternative to costly ship-borneecho sounding and airborne LiDAR surveys.
This is particularly true for remote areas and developing countries.
All light and imaging techniques are dependent on the water clarity.
Thus, all light and imaging techniques are susceptible to error withmurky water.
The disturbing restriction is the limited water depth that can bemeasured. This is due to the fact that optical light cannot penetrateeven pure water for a depth more than 40m.
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Knowledge of ocean bathymetry has progressed rapidly in the last century
due to the advancement of techniques using acoustics, optics, and radar.
The ocean has been mapped at a variety of spatial resolutions butconsiderable work has yet to be done to accurately map the vast underwaterlandscape.
More acoustic soundings are required to validate gravimetric bathymetry inremote regions of the world.
Marine radar systems mounted on coastal stations have been used to infer
nearshore bathymetry. The technique was recently expanded for radar measurements collected on
moving vessel proving to be quite accurate down to 40-50 m water depthwith a horizontal resolution of 50-100 m pixels.
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