World leading Kelp Farm in Namibia uses WASSP to survey sites for innovative marine Industry

Improving Ocean Health with Sustainable Kelp  
World leading Kelp Farm in Namibia uses WASSP to survey sites for innovative marine Industry  

Background 

Kelp Blue is a collection of divers, sculptors, sailors, explorers and nature lovers who have the aim to restore the planet to equilibrium, or even to abundance by nurturing the marine ecosystems that help reverse climate change. Inspired by Giant Kelp, we will look to rapidly grow and deliver transformative benefits across markets. 

The team currently focuses on cost-effective, long term and environmentally sustainable solutions by growing and managing large-scale Giant Kelp forests. These underwater forests safely lock away vast amounts of Co2 in the ocean forever.   

Kelp forests also help sustain healthy marine ecosystems, providing food and shelter for countless species. 

Kelp Blue is currently conducting an Environmental Impact Assessment (EIA) and has applied for an operating licence in Namibia. If successful, a pilot scheme will be conducted off the coast of Luderitz, where it will benefit from the constant upwelling of the Benguela Current.    

Namibia’s offshore waters offer the perfect conditions for growing kelp. Namibia has a government supportive of the blue economy as well as a strong and capable workforce. Kelp Blue will work with Namibia’s academic institutions to facilitate research and skills development in marine biotechnology, mechanical and marine engineering, research and innovation. 

 

Problem 


For this particular project, Kelp Blue needed to map a number of assigned sites in coastal Namibia to determine suitability for kelp farming, all without experienced hydrographic experts or complex system configurations. Sites required detailed analysis of bathymetry as well as seafloor material which could be used to pinpoint the most favourable locations for substrate structures and anchors. 

Equipment Requirements 

Kelp Blue required a system that was simple enough to use without expert hydrographic survey knowledge, within a short time window. In addition, the system needed to be able to export to 3rd party software in order to do further post processing and analysis. 

 

The S3i is WASSP’s entry level Survey Multibeam system, and was chosen for this particular project due to its speed and ease of use, reducing setup and testing time. The Multibeam configuration from WASSP was also selected due to its integration capabilities and overall cost effectivenessand for cost saving was paired with lower cost GPS satellite compass and motion sensor for this project (superior results can be attained with higher grade sensors). 

  • The S3i setup kit included: 
  • IP66 DRX Processing Unit 
  • 90-190kHz Wideband Fairing Transducer 
  • Satellite Compass 
  • Motion Sensor  
  • CDX UI Software 
  • Survey Interface License 
  • Backscatter License 
  • Pelican Carry Cases 

Survey 

Overall scope was to survey 5 assigned sites were near the Namibian coast. Five days survey time was allocated to complete the survey. The sites were of differing depths and distance from the coast. 

Pilot Plots 

 

Sailing distance 

Water depth 

Plot A 

20 km 

  65m –   85m 

Plot B1 

30 km 

115m – 135m 

Plot B2 

20 km 

  50m –   70m 

Plot B3 

20 km 

  50m –   70m 

Plot C 

50 km 

140m – 160m 

 

 

Output Data 

Data was initially collected within WASSP CDX to allow real-time viewing of seafloor mapping and guiding navigation for correct mapping pattern. The WASSP was configured to record data  for 3D Bathymetry along with Backscatter functions. 

Files were then output to BeamworX Autoclean to process and export to external platforms such as GIS and Google Earth in order to be used for general site planning. 

Plot A 

Plot B1

Plot B2

Plot B3

Plot C

The Backscatter/Intensity capability of the WASSP S3i was particularly important for collecting the level of data required in order to determine seafloor material composition and ensure the sites selected would allow sufficient anchoring of structures with longterm viability. 

Plot B2

Plot B3

Plot C

Outcomes 

From the information gathered, Kelp Blue was able to successfully select and allocate 2 of the most suitable sites due to bottom bathymetry and material. With the data from the WASSP S3i multibeam it was clear these 2 sites had a flat, sandy bottom making them the best choice for anchoring and substate structures from the 5 allocated sites.  

Plot B2 Cross-section 
Small (± 35cm) height difference over 300m 

 

Plot B3 Cross-section 

Small (± 35cm) height difference over 300m 

 

Other sites were shown to have unsuitable bathymetry or contained materials such as rock or too much gravel.  

Kelp Blue were also able to completed the survey in a shorter period than initially planned. Utilising the WASSP Multibeam, the survey for all 5 allocated sites was completed in 1.5 days. This is much faster than the original planned 3-4 days survey time frame, saving the Kelp Blue team valuable time and money. 

Note: These surveys were conducted with entry level cost effective sensors, as deemed appropriate for this project. As such, it should be noted that WASSP results could be considerably improved by utilising higher grade WASSP RTK GNSS INS, and incorporating a Sound Velocity Sensor. 

Conclusion 

The site surveys with the WASSP Multibeam has allowed Kelp Blue to perfectly individualize the right locations for their project and everything was done in a shorter time period than initially planned due to the benefits of Multibeam technology mapping wide areas and speed of WASSP operation. Survey operations were able to be successfully completed without the use of expert hydrographic surveyors, reducing time, expense and improving in-house knowledge of the proposed sites. Plot sites B2 and B3 were identified as the most suitable for installing substrate structures for the kelp growing operations with bottom bathymetry identified as having relatively low water depths, with flat and even sea bottom contours, and uniform sediments. 

 

 Click here to Download the Case Study 

Click here to see an article by FishFocus on the Kelp Blue Project