The objectives associated with UNCLOS-related survey activities are somewhat different from oil & gas prospecting or hydrographic survey, requiring a more innovative and holistic approach on the part of the contractor, making the best use of existing resources, skills and techniques gained from years of experience in the offshore industry.
During 2004, Gardline Geosurvey Ltd’s 64-metre vessel, M. V. Sea Surveyor (Figure 1) undertook 110 days of fieldwork on and around the continental margin of Namibia. This work was carried out under contract to the Brazilian consultancy Mar, Ambiente, Geologica e Serviçíos Ltda (MAG), in partnership with Empresa Gerencial de Projetos Navais (EMGEPRON), a Brazilian state-owned company linked to the Brazilian Navy. This company was representing the Namibian government in the preparation of their case for extension of continental shelf to the UN. The photograph in Figure 2 shows the well-attended mobilisation ceremony in Luderitz prior to the vessel sailing for the cruise; speaking is the Honorable Hifikepunye Pohamba, Namibian Minister of Lands, Rehabilitation and Resettlement. Whilst we cannot give exact details of the survey area, a general overview is shown in the map below (Figure 3).

Methodology
The scope of work was defined by MAG before the start of the project. There followed a period of constructive dialogue between MAG and Gardline to arrive at the best technical solution to meet Namibia’s objectives within budgetary constraints. As a contractor, Gardline worked to provide technical and operational solutions using its many years of practical surveying experience and equipment knowledge to the best advantage of the project in hand. Whilst much of the work was carried out using tried and tested methods, some aspects of the survey required the use of more innovative approaches to ensure requirements were met. Essentially, the survey required the collection of multi-beam bathymetric data, single and multi-channel reflection and refraction seismic data, and potential field data (magnetic and gravimetric, by Austin Exploration Inc. Texas, USA) all from a single survey vessel, across a wide area of ocean.
The project was undertaken in three phases. Firstly, the focus was on the collection of multi-channel seismic data. Secondly, the collection of hydrographic and single-channel seismic data to determine the foot of the continental slope and obtain shallow sediment information. Thirdly, seismic refraction data was collected to reinforce the velocity structure of margin sediments critical for the determination of sediment thickness (depth to the basement). All three phases included the simultaneous collection of multi-beam bathymetric data, 3.5kHz sub-bottom profiler data, and magnetic and gravimetric data.

Equipment
In addition to standard navigation and positioning packages, the following equipment was used on the vessel:

• Kongsberg Simrad EM 12S (13kHz) multi-beam echo sounder
  
• Kongsberg Simrad EM 502 (30/ 200kHz) single-beam echo sounder
  
• Knudsen 3.5kHz sub-bottom profiler
  
• SeaSpy Overhauser magnetometer
  
• LaCoste & Romberg gravity meter
  
• 1,310cu.in. Bolt airgun array source & 3,200m streamer
  
• 270cu.in. Bolt single airgun & 12 channel ‘mini-streamer’
  
• Sparton AN/SSQ-57SPC sonobuoys & WinRadio receiver.

• 27,900 line km multi-beam bathymetry data
  
• 27,900 line km 3.5kHz sub-bottom profiler data
  
• 27,900 line km gravity and magnetic data
  
• 3,600 line km multi-channel seismic data
  
• 22,400 line km single-channel seismic data
  
• 25 refraction seismic profiles.