Donegal, 29 March, 2014 -- A cutting edge, unmanned submarine was launched today off Donegal on a 30-day scientific mission to investigate the marine environment of the little-known slopes of the ocean shelf edge.
Fitted with the latest oceanographic sensors, battery technology and advanced satellite communication, Autosub Long Range (ALR) is a state-of-the-art autonomous underwater vehicle (AUV) developed by the National Oceanography Centre for collecting scientific data for a four-year research programme studying the water exchange between the UK’s shelf edge seas and the deep ocean. The shelf edge is where the shallow coastal waters of the UK’s continental shelf meet the deep ocean water across the steep sloping sides of the shelf edge. This area is nutrient-rich, productive, important for fisheries and is open to a lot of movement and exchange of water and nutrients.
Known as UK FASTNEt, short for "Fluxes Across Sloping Topography of the North East Atlantic", this research programme is a consortium of six British research institutes and universities which are combining their fields of expertise to reveal the processes at play on the shelf edges.
Dr Maaten Furlong, head of Marine Autonomous Robotic Systems (MARS) at the National Oceanography Centre (NOC) said: “I am very excited about the launch of Autosub Long Range AUV on this FASTNEt mission. The Autosub Long Range has been developed over a number of years by a dedicated group of engineers at NOC, and it is very rewarding for me and the team to see the vehicle starting to serve the scientific community.
“Autosub Long Range is an ideal vehicle to use with the FASTNEt programme. Its large payload capacity and very long range mean that it can be launched from a harbour in Donegal, undertake a 30-day mission and then return to the shore for recovery. This means the data can be gathered at a relatively low cost. The lower cost of this style of operation has significant potential to change how measurements are undertaken in the ocean, and could enable more routine monitoring of the oceans.”
Professor Mark Inall, lead scientist on FASTNEt at SAMS said: “Without ALR we would miss the crucial interaction between the strong northward flowing warm waters of the eastern north Atlantic and the uneven seabed terrain at the edge of the continental shelf. Autosub Long Range will provide a new and unique insight into the turbulent boundary between oceanic flows and the shelf edge.”
Dr Furlong said: “Cutting edge marine autonomous systems allow the FASTNEt consortium to study the ocean shelf edge in far greater detail than ever before. Autosub Long Range with its microstructure turbulence probe and dual Acoustic Doppler Current Profilers (ADCPs) will be traversing the shelf edge and tracking the continental slope down to 1500 metres while subsea gliders (remotely-operated AUVs) will be mapping the upper water column. These new measurement approaches will complement the more traditional ship-borne measurements and long term moorings, and this combined approach will allow the scientists to study the continental shelf edge in unprecedented detail.”
Autosub Long Range was launched from a small harbour in Donegal, towed out into the bay and released on its mission. Advanced satellite technology allows Dr Miles Pebody, the lead software engineer for Autosub Long Range, to pilot the vehicle from the comfort of his research laboratory at NOC, Southampton. He will guide Autosub to the edge of the continental shelf and then repeatedly run terrain-following survey lines down and up the slope that descends into the Rockall Trough.
Dr Pebody said: “Autosub Long Range’s mission is to collect detailed data from transects down the continental slope. The vehicle will start at the top of the slope in shallow water and will descend to the base of the slope at 1500 metres and then return. Each transect will take 15 hours and the AUV will repeat this process for up to 30 days. In order to get a clearer picture of seasonal changes on the shelf slope, Autosub will be deployed four times this year, once for each season.”
Dr Furlong added: “Autosub Long Range is designed with a target range of 6000 kilometres (over a six months period) and a depth rating of 6000 metres. This range is achieved by going slowly and using the onboard energy very efficiently. Autosub Long Range is designed with a large payload area which allows the vehicle to be customised for bespoke science applications as requirements change. Although still at an early stage, I am sure Autosub Long Range capabilities will have a major impact on how we gather oceanographic data in the future and will help keep the UK at the forefront of oceanographic science.”
For the FASTNEt campaign Autosub Long Range is equipped with: dual 600 kHz Acoustic Doppler Current Profilers (ADCPs) which measure the water velocities above and below the submarine to a range of 50 metres; a microstructure turbulence probe used to measure small scale turbulence in the undisturbed water in front of the AUV; a fluorometer which provides information on the turbidity of the water; and a standard CTD (conductivity, temperature and pressure) sensor used to calculate water salinity and to identify different water masses. This comprehensive sensor suite will provide data about the mixing processes which occur around the shelf edge.
NOC is at the forefront of the development of long range autonomous underwater vehicles and is currently building more to add to its fleet for scientific and commercial use. NOC also builds Autosub 3 and Autosub 6000.
For more information on the FASTNEt programme, please contact Prof. Mark Inall by email or on +44 (0) 1631 559 267
Or contact SAMS comms officer Cathy Winterton by email or on +44 (0) 1631 559 342 . In Cathy's absence, please contact SAMS Head of Communications Dr Anuschka Miller by email or on +44 (0) 1631 559 300.
Further information can be found:
1. The Autosub Long Range AUV: http://noc.ac.uk/research-at-sea/nmfss/nmep/autosubs
2. The MARS Programme: http://noc.ac.uk/research-at-sea/nmfss/mars
3. The FASTNEt Programme: http://www.sams.ac.uk/fastnet
Photo courtesy of NOC.