International Archives of the Photogrammetry, Remote Sen
’ Zeytinburnu
DU
-
= Sea of Marmara
Figure 3. Inundation map drawn for the coastal area in front of
Zeytinburnu port. Line definitions are same as in Figure 2. The
inundation distance was calculated on the basis of
circumstantial characteristics of the inundation area along the
coastal zone which was classified for smooth terrains and areas
covered in buildings.
Sea of Marmara
Figure 4. Inundation map drawn for the Haydarpasa Port and
Kadikóy inlet placed at the Bosphorus junction of the Sea of
Marmara. Occasional steep coastal terrain at some localities
limits inundation. These lines are subject to changes on the
basis of prehistoric tsunami deposits found along the coast,
further computer tsunami modelings, and scientific studies of
other tsunamis that occurred in the Sea of Marmara.
sing and Spatial Information Sciences, Vol XXXV, Part B7. Istanbul 2004
3.2 Precision and Accuracy of the Inundation Lines
One of the largest sources of error is uncertainty in the absolute
run-up elevation at the open coast. Therefore, it is assumed to
be 2, 2.5 and 3 m in our calculations.
The numerical grids were refined enough to simulate the details
of the land topography (pixel size + 50 m). Therefore
uncertainty in the inundation distance (horizontal accuracy) is
small.
Due to the inherent uncertainties in tsunami models, the
parameters we used in calculations (models, topography etc)
and our judgement to infer inundation, the resulting error is
difficult to quantify. Vertical precision, for example, depended
on the spacing of the elevation contours and the proximity of
the contours to the inferred run-up elevation. The maximum
uncertainty between contours is 100 percent of the contour
interval. Where the inundation distance fell by chance at or very
close to an elevation contour, the precision is better. In addition,
the precision may be large at inlets, lagoons, river mouths and
estuaries and smaller at steep shorelines. In all cases the
precision of the inundation lines is limited by the resolution of
the images to no better than +5 m horizontal and £1.2 m
vertical.
In normal conditions, sea level changes should be considered
and possible co-seismic subsidence should be added to results
of inundation limit as an additional run-up. Tides are small in
amplitude; however maximum effective wave height in the
region is as much as 3.3 m in winter. During persistent
southerly winds, surges caused by wind setup are as high as | m
along the northern coasts of the Marmara. On the other hand,
co-seismic subsidence must be considered in some alluvial flats
along the European coasts. Subsidence inferred from the
prehistoric geologic record may increase in large estuaries.
Such factors may make minor differences in the mapped
inundation.
4, CONCLUSION
Tsunamis are unpredictable events and increasing the
uncertainty of preventive action, contribute to a very low social
memory on these phenomena that is inversely related with a
high demand for decision criteria based on scientific
knowledge. On the basis of this contextual situation. which
shows us the urgent necessity to develop integrated actions
research, tsunami risk maps in a microzonation sense along the
Sea of Marmara coasts of Istanbul were produced. The absolute
run-up elevation at the coast is assumed to be 2, 2.5 and 3 m in
our calculations. For particular areas, the inland distance of
inundation is apparently greater. Kücükcekmece lagoon is
separated from the coast by barriers with present elevations on
the order of a few metres. The inferred inundation is high
enough, within the uncertainties of the run-up estimates, to
inundate this lagoon.
We have produced 3 different case scenarios for absolute run-
up elevations of 2, 2.5 and 3 m at the coast. In fact, in normal
conditions, a single line representing a worst case scenario was
preferable, for it simplified the preparedness response of city
officials and it better informed the general public (Synolakis et
al, 2001). However, a comparison of low and high risk lines on
a same map indicates most vulnerable localities and helps us to
700
Inter
rank
maps
natur
netw
One
run-u
tsuna
magn
along
(<20
plain:
Zeyti
areas
small
dama
than
genet
Cons
poten
perpe
Our |
tsuna
Sea ¢
gener
enoug
the b;
be d
accur
Comr
allow
A mo
level
favou
At le
subm:
install
The r
tsunal
the m
make
inund
Narro
height
studie
Horn
in ba
that ¢
compl
behin
estuar
value
In fut
inferre
shoulc
define
sedim
indica
