Details

Autor(en) / Beteiligte

• Sagar, Stephen
• Roberts, Dale
• Bala, Biswajit
• Lymburner, Leo

Titel

Extracting the intertidal extent and topography of the Australian coastline from a 28year time series of Landsat observations

Ist Teil von

• Remote sensing of environment, 2017-06, Vol.195, p.153-169

Ort / Verlag

Elsevier Inc

Erscheinungsjahr

2017

Quelle

ScienceDirect Pay Per View(PPV) Titles

Beschreibungen/Notizen

• The physical environment of the intertidal zone presents a number of challenges which make traditional surveying methods difficult to implement; whilst the acquisition cost of airborne elevation data can be prohibitive beyond localised applications. Remote sensing data from earth observation satellites has been well established as a method for mapping the extent and elevation profile of the intertidal zone; however the majority of these applications are local in nature, and based on analysis of a limited number of individual image observations. In this paper we outline an automated methodology to model the intertidal extent and topography of the Australian coastline, that leverages a full time series of Landsat observations from 1987 to 2015 managed in the Australian Geoscience Data Cube (AGDC). Our approach reframes the analysis from time of acquisition into the tidal domain through the use of a continental scale tidal model, combined with a median pixel compositing of Normalised Difference Water Index (NDWI) stacks, to robustly estimate the tidal extent and elevation profile across the observed tidal range. We demonstrate the ability of a median-based compositing approach to deal effectively with data quality, modelling outliers and other issues that commonly affect single scene methodologies. Our new framework enables us to produce a continental-scale intertidal model, detailing intertidal zone topography at a 25m spatial scale. We then demonstrate the potential of the modelling framework to derive digital elevation data based on tidal model attribution, validating our models against in-situ GPS observations, before discussing issues that must be addressed to move this capability to a continental scale. The ability of the model to examine coastal stability is introduced, in the context of the conceptual reframing of the data into the tidal domain, with a view to furthering this application in future versions of the model. •A method for deriving continental scale intertidal extent & topography is proposed.•The method analyses 28years of Landsat data over the Australian coastline.•Median compositing methods effectively deal with data noise and incompleteness.•Time-series data modelling is shifted from the temporal to the tidal domain.•The method has potential to derive elevation data and coastal stability indicators.