A technique to extract the shoreline from optical satellite images has been developed,
evaluated and applied to the case study site of Progreso, Yucatán, México. This site
was chosen as it is frequently subject to hurricanes, shows shoreline erosion and has a
paucity of coastal data. The area under investigation is an 8 km length of shoreline that
faces north into the Gulf of México.
A novel method to extract satellite-derived shorelines (SDS) was developed ensuring
the maximum contrast between sea and land. The SDS was validated using quasisimultaneous
in situ shoreline measurements from one day in two different years (2008
and 2010). The in situ shoreline measurements recorded the instantaneous shorewards
extent of the wave run-up when walking along the beach.
The validation of SDS revealed that the SDS locates consistently seawards of the in
situ shoreline, explained by: a) the water depth that an optical satellite image requires
to identify a pixel either as sea or land, and b) the shorewards extent of the wave run-up.
At Progreso, the overall distance between SDS and in situ shoreline is 5.6 m on average
and standard deviation of 1.37 m (in the horizontal) over 8 km of shoreline.
For an accurate location of the mean SDS, estimation of the shorewards extent of the
wave run-up, tidal level and inter-tidal beach slope were required. In situ measurements
regarding the beach profile, shoreline location and water levels were taken into
consideration to achieve this.
The shoreline change observed over a 6.5 year period allowed the estimation of intraannual
and inter-annual shoreline changes and progressive changes in the shoreline
location. The intra-annual shoreline change revealed seasonality in the shoreline position.
The shoreline position from late winter (March 20, 2004) was landwards (approx.
5 to 9 m) in relation to the earlier winter shoreline position (November 11, 2003). The
assessed SDSs from the hurricane season (June to November) are at the landwards envelope
limit during the year, between -30 to 15 m in relation to the estimated mean
SDS. The largest landward movement (100 m) is related to Hurricane Ivan, detected
13 days after the hurricane passed by Yucatán. The inter-annual shoreline change highlighted
that an approximate length of 6 km of shoreline is retreating at a rate between
-2.4 and -1.2 m per year. Such estimates of shoreline change would not be possible
using other available coastal information at this site.
The results of this research show that optical satellite images can be used to study
shoreline change over large spatial scales (> 5 km), as well as in short (< 1 yr) and long
(> 5 yrs) temporal scales.
Date of Award | 2012 |
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Original language | English |
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Awarding Institution | |
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Supervisor | Paul Russell (Other Supervisor) |
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- Shoreline detection
- Coastal dynamics
- Remote sensing
- Coastal erosion
Evaluation of shoreline change using optical satellite images, case study of Progreso, Yucatán
Garcia-Rubio, G. (Author). 2012
Student thesis: PhD