This study focused on Chaceon somaliensis, a species in the geryonid family, which is commonly found in the Horn of Africa. The species has global commercial value, yet little is known about it.
The study adds to our understanding of the species by identifying its distribution, population structure, and fisheries potential in the Kenyan Coast.
Maxent modelling assessed the appropriate environmental variables and predicted potential species distribution and hotspot locations. Regression was used to explain Chaceon Somaliensis distribution and some aspects of the population structure.
Stratification by depth was observed with large male crabs (CW>150 mm, weight=1100 g) found in shallower depths (depth<501 m), while females, smaller in size (CW=92 mm, weight=316 g), seemed to prefer higher depths of >500 m. The males were dominant (0.94), and females and juveniles comprised only 0.06 of the population. The population was found to be skewed towards males of large size (CW> 140 mm, weight 1100 g). Bathymetry and environmental variables associated with feeding and nutrients, such as phytoplankton, iron, and silicate, were the best predictors of species presence. Potential sites occurred on a ridge at gentle slopes (0.98°– 4.31), with the hotspot areas being spatially about 3,230 km2 of 61,694 km2.
The fishery was considered productive and suitable for maintaining marine biodiversity (catch> 94% adults). Based on this study, it is recommended to prioritize the sustainable management of C. somaliensis fisheries, taking into account the depth stratification of the population, environmental variables, and identified hotspot locations to ensure long-term productivity and marine biodiversity conservation.