Development of a Seamless, High-Resolution Bathymetric Model to Compare Reef Morphology around the Subtropical Island Shelves of Lord Howe Island and Balls Pyramid, Southwest Pacific Ocean

Michelle Linklater,Brendan Brooke,Alan Jordan,Colin Woodroffe,Scott Nichol,Sarah Hamylton

doi:10.3390/geosciences8010011

Michelle Linklater, Brendan Brooke + Show 4 more

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https://doi.org/10.3390/geosciences8010011

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Abstract

Lord Howe Island and Balls Pyramid are located approximately 600 km offshore of the southeastern Australian mainland, in the subtropical waters of the northern Tasman Sea. Lord Howe Island hosts the most southern coral reef in the Pacific Ocean, and the shelves surrounding both islands feature fossil coral reefs. This study creates a seamless, high-resolution (5 m cell size) bathymetry model of the two shelves to compare and contrast the extent of reef development and shelf morphology. This was produced by integrating satellite-derived depth data (derived to 35 m depth) and multibeam echosounder (MBES) data. Image partitioning and filtering improved the accuracy of the bathymetry estimates and the suitability for integration with MBES data. Diverse accretionary and erosional geomorphic features were mapped on both shelves, with fossil reefs dominating the shelves in 25–50 m depth. Similar patterns of shelf morphology were observed for the middle and outer shelves, while the inner shelf regions were most dissimilar, with reef development greater around Lord Howe Island compared to the more restricted inner shelf reefs around Balls Pyramid. Understanding the relative extent and morphology of shelf features provides insights into the geological and ecological processes that have influenced the formation of the shelves.

Highlights

Geomorphic characterisations of the seabed provide fundamental information for management of benthic biodiversity [1]
We report the development of a seamless bathymetric Digital elevation models (DEMs) for the shelf areas surrounding the world-heritage-listed Lord Howe Island and Balls Pyramid, which occur in subtropical waters offshore of the New South Wales (NSW) mainland, Australia
The estimated depth surface for the Lord Howe Island shelf was enhanced through the selection of input bandsbands, showed that the ratio ofofblue andand green bands had the strongest relationship known of suitable the application filters image partitioning

Summary

Introduction

Geomorphic characterisations of the seabed provide fundamental information for management of benthic biodiversity [1]. Geomorphic interpretations are often utilised as cost-effective baseline surveys for marine spatial planning, with broadscale, provincial mapping informing international and national policy [2,3,4] and mesoscale, regional mapping useful for local management applications [5,6,7]. Marine light detection and ranging (LiDAR) data and satellite-derived bathymetry can be utilised to fill the void in this coastal zone and create a seamless surface of the land and seafloor [9]. The acquisition of airborne LiDAR can often be prohibitively expensive, and the approach of extracting depth from satellite imagery offers an accessible and effective means to generate DEMs [10]

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