Sonardyne Scout for UNSW Survey Ops
The University of New South Wales (UNSW), is using underwater positioning technology from Sonardyne Asia in Singapore to support pioneering research into human impact on marine and estuarine habitats.
The Scout-Pro Ultra-Short BaseLine (USBL) system tracks the position of divers whilst they collect sediment samples, underwater video transects and biota.
UNSW began survey operations in 2015 to assess how the underwater environment changes in response to leisure activities, particularly around boat moorings. Much like on land, habitat degradation in seascapes can act to create a mosaic of habitats, each with varying suitability for the resident fauna and flora. Physical disturbance of the seafloor, nutrient and heavy metal contamination, and recreational fishing are naturally irregular and can lead to a ‘hidden’ layer of diversity in the ecosystem.
Quantifying these impacts and uncovering this diversity calls for precise, geo-located sampling data – a requirement that is now being met following UNSW’s acquisition of the Scout-Pro acoustic positioning technology.
At the start of a survey, each member of the dive team is equipped with a small tracking beacon, the exact position of which is continuously monitored by an acoustic transceiver deployed from the side of a surface vessel. The university’s vessel fleet is made up of small cabin cruisers, RIBs and even shoreline infrastructure such as wharves and jetties.
Diving operations are typically carried out in water depths of less than 10 metres, in poor visibility and around dense moorings. So in addition to precisely mapping where samples are collected from, Scout-Pro adds an extra layer of safety by tracking each diver as they traverse the potentially hazardous underwater seascape. Their distance, bearing and depth relative the survey boat, is clearly displayed on-screen and updated in real-time.
Dr Luke Hedge, research associate at UNSW, said: “In the short time we’ve been using it, Scout has proven to be an invaluable new piece of science equipment. Being able to record the precise location of where samples are taken from, allows us to present the region’s policy makers with more reliable geo-statistical models and maps that faithfully represent our impact upon native marine and estuarine ecosystems.”