The objective of this work is to explain the presence and shape of certain
morphological features along the practically tideless coast of the Falsterb
o Peninsula, and to validate to what extent numerical modeling of nearshore
waves can assist in the interpretation.
Clear indications that the peninsula has not yet reached its equilibrium sh
ape are found. The island of Maklappen will become totally integrated with
the peninsula, and the two sand-tongues on the south coast will eventually
join and establish a new coastline. Then, processes similar to those which
once created the peninsula, will fill the lagoon within. Both the joining o
f the two sand-tongues and the integration of Maklappen can be related to d
umped dredging material in the 1940s. The construction of the harbor led to
the birth of a downdrift spit, which is several kilometers long. The use o
f a near-coast wave model can provide useful information on the changes the
wave climate may undergo if the sea level rises. As an example, it is show
n that for a particular part of the peninsula coast, the nearshore wave hei
ghts can be expected to increase by 100% during storm conditions if the sea
level rises 1 m.