Abstract:
Zooplanktons are considered as an important component of ecosystem functioning and they are abundant in tropicalwaters. Nevertheless more studies are necessary to establish ecosystem-habitat species relationships of Calanoids. The objective of the present study was to investigate distribution patterns of Calanoid copepod species in Malala lagoon, Bundala National park, under different water quality conditions. Recently we experienced man made hydrological alteration of Malala lagoon due to sand bar opdning and intrusion of seawater. We made continuous analysis of Calanoid copepod species along with other physico-chemical parameters along established transects. Two Calanoid species (Acartia specrbs & Phyllodiaptomus annae) were selected for further studies. Relative abundance of Acartia specr'es increased remarkably (from '10 individualsimlto 120 individuals/ml)after
sand bar opening. Phyllodiaptomus annae showed a correlation (P<0.03g before the sand bar opening, P<0.046 after the sand bar opening) with spatial distribution pattern along the transect. Apparenfly salinity changes did not affect the spatial distribution of Acar'tia specles but p. annae decreased to undetectable levels with the salinity changes, Due to the sand bar opening by humans there was a great influx of phosphates coupled with a high abundance of Acafia species. However, p. annae was further reduced to very low numbers. lt may be hypothesized that the two species behave differenily with water quality alterations due to their salinity sensitivity. Sudden changes of water from fresh water to saline may destroy habitat and niche characteristics. Our study clearly indicates that distribution of copepod zooplankton in Malala lagoon, Acartia species and P annae. at least were parfly dependent on different physio-chemical parameters. Such interactions may be important for ecosystem management.