Dubbed a ‘living fossil’, the coelacanth is a unique fish with a history steeped in science and imagination. The coelacanth evolved 400 million years ago and lived alongside the dinosaurs. After disappearing from the fossil record 80 million years ago, scientists believed they were extinct until the discovery of a coelacanth specimen off East London, South Africa in 1938. The appearance of this ‘dinofish’ was hailed as the greatest biological discovery of the 20th century, the equivalent of finding a live dinosaur. Current evidence suggests that coelacanths exist in small populations, produce few young, and are specifically adapted to particular marine habitats. The coelacanth is formally recognised as an endangered species.
The coelacanth remained scarce, but small populations were discovered in the Comores in 1952, Mozambique in 1991, Madagascar in 1995, and Indonesia in 1998. These populations were encountered in water depths in excess of 200 metres, making them difficult to study. In November 2000, off the coast of South Africa, recreational divers observed six coelacanths in 104 metres of water in the Greater St Lucia Wetland Park World Heritage Site near Sodwana Bay. For the first time, relatively shallow water depths in close proximity to the shore coupled with the accessibility of Sodwana Bay, presented an unrivalled opportunity to study the fish in detail. The South African Coelacanth Conservation and Genome Programme, formed by a coalition of scientific organisations, is at the vanguard of international research in marine geophysics, biology, genomics, and conservation science pertaining to coelacanths.

Multibeam Mapping Programme
In March and April 2002, the programme began preliminary research in the marine protected area off Sodwana Bay. The first phase was a geophysical survey performed by Marine GeoSolutions (Pty) Ltd, with the assistance of Octopus Marine, using a Reson SeaBat 8111 multibeam echo sounder. Acquisition of the 8111 bathymetry data were accomplished using Reson’s 6042 multibeam acquisition and presentation software. The bathymetric data were edited for anomalous values, swell filtered, gridded and corrected for tidal variation and reduced to MSL using Caris HIPS. The gridded bathymetric data were imported as ASCII data into ERMapper for image rendering and contouring at a 10m intervals.
The survey collected invaluable bathymetry data of the submarine canyons of the Greater St Lucia Wetland Park. Numerous unknown canyons were mapped to produce an accurate Geographic Information Systems (GIS) basal layer on which to plan future exploration.
After predetermining the search area using the SeaBat 8111, the FRS Algoa along with the Jago submersible were tasked with the second research phase to:

• Define the physical structure and oceanographic habitat of the coelacanth
  
• Count and identify the species
  
• Conduct marine biodiversity and ecological research
  
• Collect material for genetic and stable isotope analyses
  
• Promote environmental education, capacity building, and public awareness