underwater ROVs

Scottish Tritonia Scientific and SAIC develop new underwater ROVs that could help the aquaculture sector to gain a more accurate picture of the seabeds

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Led by Oban, Scottland based Tritonia Scientific, with support from the Lyell Centre at Heriot-Watt University, seafood producer Mowi, and the Sustainable Aquaculture Innovation Centre (SAIC), the company is testing the effectiveness of using remotely operated vehicles (ROVs) to create digital twins of the seabed. This new imaging technology could help the aquaculture sector to gain a more accurate picture of the complex seabeds they are operating.

The experts in underwater imaging technology are trialing the use of a first-of-its-kind system that could see 3D digital models used by Scottish seafood producers to map out and monitor complex marine environments and habitats.

“The new system will use underwater ROVs linked to above water GPS technology and acoustic transponders to capture digital images of the seabed to assess the seabed at current of future finfish farms as well as identifying the presence of priority marine features –nationally protected habitats and essential underwater ecosystems for Scotland’s coastal seas.”

Using the images, Tritonia will create an accurate 3D model that can show various physical characteristics and be used alongside advanced comparison software to monitor changes on the seabed.

Martin Sayer, Managing Director of Tritonia Scientific, said: “Using imaging technology could help the aquaculture sector to gain a much more detailed, accurate picture of the complex seabeds they are operating beside or above. Our hope is that the system could ultimately support regulation and environmental monitoring in ways that would provide the levels of evidence that would be necessary for future sustainable operations.

underwater ROVs

Digital record of the hard substrate

Over the next 12 months, the team at Tritonia will develop a digital record of the hard substrate found at Mowi sites in the Western Isles, using a technique known as georeferenced photogrammetry.

“Compared to soft seabed, where samples of sediment can be taken regularly and easily, monitoring hard substrates can be challenging because of the low visibility of the water even when using divers or drop-down cameras to assess the terrain. The hard nature of the seabed makes it near impossible to grab samples.”

“At the moment, divers face a range of challenges in terms of visibility and climate, particularly if algal blooms are present, but the digital twin allows us to essentially remove the surrounding water at the click of a button, using images captured by an ROV. Just one survey can generate a 3D model that provides a permanent record of the seabed terrain at a fixed point in time, which could be used for comparisons for years to come,” said Sayer.

From a single ROV dive, a wealth of data and images can be captured to provide producers with accurate information to aid decision-making, such as the volume and area of specific geographical features, as well as detecting protected habitats such as marl beds, which are formed of red coralline algae and known to be difficult to locate.

First breakthrough into the aquaculture sector

Tritonia currently employs 3D photogrammetry to survey and monitor marine renewable installations, piers and harbors, and to inform decommissioning programs in the oil and gas sector, but this project represents the company’s first breakthrough into the aquaculture sector.

Heather Jones, CEO of SAIC, said: “Technology is becoming increasingly important for the aquaculture sector and collaborative research projects and trials can be an incredibly valuable demonstration of the real-world applications of new data-led techniques. In this case, we could see ROVs and imaging technology playing a vital role in reducing the sector’s environmental impact and increasing its economic impact by supporting future regulatory requirements.” 

“Coastal habitats are some of the most physically and biologically diverse ecosystems on our planet. The socioeconomic, environmental and cultural benefits we gain from them are worth billions around the world every year. Monitoring the effect of coastal industry and human activity on these habitats is crucial for understanding how best to protect them, but it remains logistically difficult. This project will allow us to overcome this using a scalable and flexible approach that brings the seabed into a virtual laboratory,” added Heidi Burdett, Associate Professor at the Lyell Centre.

The project, funded by the UK Seafood Innovation Fund, will provide the base data for further trials, and potentially help create a regulatory tool for long term monitoring of the potential impacts of aquaculture on hard substrates.

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