Abstract:
Mangroves are specialized coastal ecosystems which are very productive due to their
particular adaptations to salty and wet settings. Chilaw lagoon, located in Sri Lanka's
North-Western Province, Puttalam district, is known for its substantial mangrove forest.
This study was carried out in the fringing area of Chilaw lagoon mangrove forest with
the objectives of accounting the stand productivity with identifying the present species
diversity and finding relationship between mangrove stand productivity and
biodiversity. Here, the systematic random sampling method was used to take the
measurements and observations. Near the shoreline (<50 m) and in each sampling plot,
true mangrove species were identified and counted. Make use of measured Diameter at
Breast Height (DBH) and height of the trees, computed the stand productivity of those
mangrove species. Analysis of mangrove stand productivity was done by calculating
the total volume of standing stock. The circumference at breast height of mangrove trees
to calculate DBH were measured by using a diameter tape. Total tree heights were
estimated using a Clinometer. Species diversity was calculated based on the forest
inventory data. The Species Diversity index was determined using the Shannon
Wiener’s Index. The mangrove stands in the research region comprised sixteen true
mangrove species namely: Rhizophora apiculata Bl., Rhizophora mucronata Poir.,
Bruguiera gymnorhiza (L.) Lamk., Bruguiera cylindrica (L.) Blume, Bruguiera
sexangula (Lour.) Poir., Ceriops tagal (Perr.) C.B. Rob., Sonneratia caseolaris (L.)
Engler, Acanthus ilicifolius L., Avicennia marina (Forsk.) Vierh., Avicennia officinalis
L., Nypa fruticans Wurmb., Lumnitzera racemose Willd., Xylocarpus granatum
Koenig, Aegiceras corniculatum (L.) Blanco, Heritiera littoralis Dryand., Excoecaria
agallocha L. Among them, Bruguiera sexangular showed the maximum average
potential stand productivity (133.57±63.66 m3 ha-1). Secondly, 51.20±10.43 m3 ha-1 was
found to be Rhizophora apiculata. Here, Nypa fruticans and Acanthus ilicifolius were
not considered in stand productivity calculations. From all sampling plots, two sampling
plots were more abundant with Bruguiera sexangular and Rhizophora apiculata species
and showed the maximum total average potential stand productivities (88.92±26.41 m3
ha-1 and 42.71±18.51 m3 ha-1). Those two sampling plots were found to be with medium
level of species diversities among all plots (1.19 and 1.17). So, through this research,
could be concluded as, stand productivity is not dependent only with high species
diversity but with the abundance with diverse high productivity trees. Anyway, as
productivity increases, it can create a more favourable environment for other species,
promoting further biodiversity. In turn, this enhanced biodiversity can support higher
productivity, establishing a positive feedback loop that strengthens ecosystem health.
