Abstract:
Spiny lobster Panulirus homarus is one of the commercially important, most abundant
crustacean species in the southern coastal belt of Sri Lanka (SCSL). Their wild populations
are declined due to over-exploitation and environmental changes however there is a
potential to mariculture. Therefore, this study focused on three main objectives that are
important in sustainable management of lobster fishery industry in Sri Lanka.
The first objective was to obtain DNA barcodes for five Panulirus spp. and to investigate
the phylogenetic status of P. homarus along the SCSL using mitochondrial DNA (mtDNA)
markers (16S rRNA and Cytochrome Oxidase I (COI)). Additional sequences were
downloaded from the NCBI Genbank and phylogenetic trees were constructed according to
the accepted methods. DNA barcode sequences for Sri Lankan lobster species were
produced and submitted to NCBI GenBank and BOLDSYSTEM. Phylogenetic trees
resulted from COI and 16S rRNA data analyses revealed three and two major clades
respectively. The most closely related species of P. homarus were P. ornatus and P.
versicolor. Sri Lankan P. homarus samples grouped with both sub species P. h. homarus
and P. h. megasculpta indicating 2.6% nucleotide divergent level between them.
Second objective was to assess the pattern of genetic diversity and genetic structure of wild
populations of P. homarus across the SCSL using mitochondrial DNA markers (partial
sequence analysis of mtDNA COI, Cytochrome b (CytB) and control region (D-Loop)
gene regions) and nuclear microsatellite markers (four loci). Four populations were
selected along the SCSL: Hikkaduwa (HIK), Weligama (WEL), Godawaya (GOD) and
Kirinda (KIR) to collect P. homarus samples. Analyses of mtDNA and microsatellite DNA
revealed high genetic variation within population and low variation among populations.
Two genetically distinct subpopulations could be recognized as southwest (HIK+WEL)
and southeast (GOD+KIR) based on both molecular markers. Tests of neutral evolution
and analysis of mismatch distribution suggested that potential in population expansion of
P. homarus along the SCSL.
Third objective was to determine habitat characteristics of P. homarus along the SCSL
using GIS technology. Four sites were selected from southeast (Kirinda, Godawaya) and
from southwest (Weligama, Hikkaduwa) of the SCSL. Four physiochemical parameters of
the bottom water and benthic substrate types of their habitats were analyzed using samples
from a 25m X 25m area including 16 sub sampling points with locality information. With the use of geographical information systems (GIS) tools, the spatially distribution maps of
environmental parameters were produced. Results indicated that preferable habitats of P.
homarus not only depend on one parameter however on several co-related factors, such as
temperature, salinity, Dissolved Oxygen (DO) and the substrate. The muddy sand and
rocks are the most common substrate types in all selected habitats. According to the
results, Patanagalle site could be suggested as the most suitable area for future culturing
and conservation programmes of P. homarus. In overall, this study suggests suitable
approaches to follow and carry out when constructing management and conservation
strategies to establish sustainable lobster fishery industry in Sri Lanka.