The Gippsland Lakes, Victoria : a geomorphological study
Abstract
The Gippsland Lakes are a group of coastal lagoons in
eastern Victoria, fed by rivers and cut off from the sea (Bass
Strait) by sandy coastal barriers bearing dune topography. The
lakes originated when a coastal embayment formed by Postglacial
submergence and extended by Recent tectonic subsidence was
sealed off by the successive formation of barriers. The pattern and growth of the coastal barriers has been
determined by wave action, notably by the constructive action of
ocean swell approaching from Bass Strait. Successively-formed
parallel foredunes show stages in podzolisation accompanied by
a vegetation succession from dune grasses and scrub to woodland
and heath. The foredunes were partly rearranged into parabolic
dunes in a mid-Recent phase of drier conditions. Contemporary
erosion and the initiation of blowouts along the outer shore of
the coastal barriers (the Ninety Mile Beach) are related to a
contemporary rise in sea level.
The development of the lakes has been influenced by
three processes, segmentation, alluviation, and encroachmento
Segmentation is a process by which a long narrow lagoon is
divided into smaller rounded lagoons separated by strips of
depositional land, and is the outcome of erosion and accretion
around the lake shores by wave action. Waves formed on the
lakes are related entirely to local winds, and segmentation began
as soon as the coastal barriers effectively excluded ocean swell
from the embayment. The submerged valleys have been partly
reclaimed by alluviation, and the larger rivers have built deltaic
silt jetties protruding into the lakes. Swamps have been built
up around the lake shores by means of encroachment by reeds,
followed by swamp scrub vegetation. The growth of the silt jetties
and the encroachment of swamps depend on the presence of a shoreline
reed vegetation (Phragmites), for in the eastern half of the
lakes where the reed fringe has disappeared the silt jetties and
lake-shore swamps are being eroded.
The disappearance of the reed fringe is correlated with
increasing salinity since the opening of an artificial entrance
near the eastern end of the lakes in 1889. The salinity of much
of the lakes is now above the limit of tolerance for Phragmites.
Previously the barriers largely excluded sea water and the lakes
were freshened by rain and rivers; shoreline vegetation initiated
delta growth and swamp encroachment, and impeded wave action so
that segmentation was reduced. Now shoreline erosion is widespread
and segmentation has revived.
The problem of shoreline erosion is discussed in terms of
these conclusions 0 It is thought that the introduction of a
halophytic vegetation (possibly Spartina townsendii) to the lake
shores will arrest erosion and revive encroachment .
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