Kj. Woolfe et al., Spatial variability in fluvial style and likely responses to sea-level change, Herbert River, Queensland, AUST J EART, 47(4), 2000, pp. 689-694
In broad terms, fluvial systems can be considered as comprising two basic g
eomorphologic features, a channel and its floodplain (overbank), each of wh
ich may accumulate sediment or undergo erosion. The sedimentary relationshi
ps between channels and floodplains, the resultant sedimentary architecture
and the form of the dependent landscape may all be considered in terms of
the relative rates of channel and floodplain aggradation and/or erosion. Us
ing this approach, the Herbert. River in north Queensland can be divided in
to seven 'fluvial fields'. By considering the likely migration directions o
f field boundaries in the lower floodplain we conclude that, contrary to ma
ny sequence-stratigraphic models, lowering sea-level would drive a general
aggradation of the system on the Great Barrier Reef shelf, whereas a sea-le
vel rise would cause further incision of the modern coastal plain.