Abstract
Palaeoshorelines that lie submerged on stable continental shelves are relict coastal depositional and erosional structures formed during periods of lower sea level. An analysis of the well-dated Late Quaternary (0–128 ka) sea-level record indicates that the most persistent (modal) lower sea levels were at 30 – 40m below present, which occurred between 97 and 116 ka and at approximately 85 ka and 10 ka. A secondary modal position was at 70–90m that occurred mostly during a period of fluctuating sea level between 30 and 60 ka, as well as at around 87 ka (70 – 80m only) and 12−15 ka. For the tectonically stable Australian continental shelf, we show that a range of shorelines formed at each of these sea level modal positions and their morphology and degree of preservation depends on composition (carbonate vs siliciclastic) and oceanographic setting (wave, tide and wind energy). These ancient coasts record a range of oceanographic and geological regimes that existed during relatively long periods of lower sea level and provide a guide to the general depth zones in which similar features likely occur on other shelves globally. Australian palaeoshorelines represent distinctive benthic habitats that strongly influence the distribution of biodiversity across the shelf. Accurate mapping of these features provides a robust geospatial framework for investigations of marine species distributions and environmental change monitoring. These data also enable the better targeting of relict coastal areas that potentially include sand resources and sites of human occupation during periods of lower sea level.
Highlights
Submerged palaeoshorelines are the remnants of relict coastal depositional and erosional landforms
Palaeoshorelines record the position at which sea level persisted for periods long enough for coastal processes to form these structures (e.g. Harris et al, 2005; Brooke et al, 2010a; Cawthra et al, 2014; Table 1). These structures capture a valuable record of environmental change and can inform our understanding of modern shelf ecosystems, the distribution of seabed features that provide important habitat for benthic biological communities (Banks et al, 2008; Nichol et al, 2012; Brooke et al, 2012a). These same features may indicate the location of relict coastal resources that were utilised by humans and so are of archaeological significance
Sea level was within this range during six episodes, with a total duration of 19 ka, including the longest episode of any single depth interval which lasted 9 ka
Summary
Submerged palaeoshorelines are the remnants of relict coastal depositional and erosional landforms. Palaeoshorelines record the position at which sea level persisted for periods long enough for coastal processes to form these structures (e.g. Harris et al, 2005; Brooke et al, 2010a; Cawthra et al, 2014; Table 1) Where preserved, these structures capture a valuable record of environmental change and can inform our understanding of modern shelf ecosystems, the distribution of seabed features that provide important habitat for benthic biological communities (Banks et al, 2008; Nichol et al, 2012; Brooke et al, 2012a). These same features may indicate the location of relict coastal resources that were utilised by humans and so are of archaeological significance (examples in Evans et al, 2014; Harff et al, 2015a)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
