New paper about Mangrove and sand cay dynamics on Australian and Indonesian low wooded islands

A new paper is just published in the Journal of Estuarine, Coastal and Shelf Science. The paper is entitled: "Mangrove and sand cay dynamics on Australian and Indonesian low wooded islands: A 45 year comparison of changes from remote sensing".

Hamylton et al., 2020


Changes to coral reef landscapes are driven by regional processes that are unique to particular localities, yet much of our global knowledge about how landscape changes manifest in coral reef environments is generalised from work undertaken on the Great Barrier Reef.


They compare observations of 45 years of change on sand cays and mangroves associated with low wooded islands in Australia and Indonesia. They draw on field observations from ground referencing campaigns, alongside remote sensing technology, including satellite images and unmanned aerial vehicle campaigns. Four low wooded island sites are compared: two in the Great Barrier Reef (GBR), Australia (Nymph Island and Two Isles) and two in the Spermonde Archipelago, Indonesia (Sabangko and Tanakeke Island).


The Spermonde and GBR sites can be distinguished in relation to the process regimes that entrain, distribute and deposit sediments on the reef surface thereby providing a substrate for further mangrove colonisation, particularly the presence or absence of cyclones as a key determinant of sediment transport. The influence of human populations inhabiting these sites is also an important control on their geomorphology. In the Spermonde Archipelago, local communities have altered sand cays through the development of infrastructure and converted mangroves to shrimp farms, while sand cays and mangroves have remained largely unaltered by humans on the GBR. This comparative evaluation of changes to sand cays and mangrove forest across low wooded islands emphasises the importance of considering changes within the context of their local geographic setting, inclusive of natural environmental and anthropogenic drivers of change.


This work was funded by a Regional Collaboration Grant from The Australian Academy of Sciences and a fieldwork grant from the Ministry of Research, Technology, & Higher Education, Indonesia.


This study is leaded by S. M. Hamylton (from University of Wollongong), and the DU Marine Mapping Group member Rafael C. Carvalho contributed to the publication.


Congrats to Rafael!

To read the full publication, click here.

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