Abstract
We investigate the controls upon the shape of freely extending spits
using a one-contour-line model of shoreline evolution. In contrast to
existing frameworks that suggest that spits are oriented in the
direction of alongshore sediment transport and that wave refraction
around the spit end is the primary cause of recurving, our results
suggest that spit shoreline shapes are perhaps best understood as graded
features arising from a complex interplay between distinct morphodynamic
elements: the headland updrift of the spit, the erosive "neck" (which
may be overwashing), and the depositional "hook." Between the neck and
the hook lies a downdrift-migrating "fulcrum point" whose trajectory is
set by the angle of maximum alongshore sediment transport. Model results
demonstrate that wave climate characteristics affect spit growth;
however, we find that the rate of headland retreat exerts a dominant
control on spit shape, orientation, and progradation rate.
Interestingly, as a spit forms off of a headland, the rate of sediment
input to the spit itself emerges through feedbacks with the downdrift
spit end, and in many cases faster spit progradation may coincide with
reduced sediment input to the spit itself. Furthermore, as the
depositional hook rests entirely beyond the maximum in alongshore
sediment transport, this shoreline reach is susceptible to high-angle
wave instability throughout and, as a result, spit depositional signals
may be highly autogenic.
Original language | English |
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Pages (from-to) | 515-560 |
Journal | Earth Surface Dynamics Discussions |
Volume | 3 |
Issue number | 2 |
DOIs | |
Publication status | Published - 1 Jun 2015 |
Externally published | Yes |