dc.description.abstract |
Reservoir water level fluctuations (WLFs), are known to influence littoral fauna. Also, as
WLFs influence nutrient levels, plankton communities are expected to be impacted. In the
present study, influence of hydrological regimes on macro-benthic invertebrate and plankton
communities was investigated in selected irrigation reservoirs in the Kala Oya river basin, Sri
Lanka. Studies were carried out from September 2014 to April 2015, and the study period was
divided into two distinct phases namely the drained period, and the inundated period
depending on the reservoir water level. Benthic macro-invertebrates and plankton were
sampled from littoral and limnetic zones of reservoirs, respectively. Water quality parameters
and sediment characteristics were measured following standard protocols. Rainfall data (from
Meteorological Department) and hydrological data (from Irrigation authorities) were also
obtained. Three hydrological indices viz. relative reservoir level fluctuation (RRLF), hydraulic
residence time (HRT) and mean exposure area (MEA) were determined for each reservoir.
Data related to macrobenthos, plankton, molluscs and physico-chemical parameters were
analysed using appropriate statistical and numerical data analyses. A macro-invertebrate based
integrity index (RB-MII) was determined for the reservoirs studied. Cluster analysis of
hydrological indices revealed that the reservoirs belonged to hydrological stress groups; HSG1
and HSG2. Of the 3 hydrological indices, only the RRLF was significantly different between
these two groups (p < 0.05). The macrobenthic diversity indices varied significantly between
HSG1 and HSG2 reservoirs during the drained and inundated periods (p < 0.05). The
macrobenthos could also be assigned into five different functional feeding groups namely
scrapers, collectors-gatherers, filter feeders, predators, and others that included the
ectoparasitic species. Scrapers were the dominant functional feeding group both in the HSG1
and HSG2 reservoirs. However, these functional feeding groups differed between these HSG1
and HSG2 reservoirs during the inundated and drained periods. The ratio of phytoplankton
density/ zooplankton showed a significant positive linear regression relationship with the
RRLF (R
= 0.695 and P < 0.05) indicating that the reservoirs with high RRLF favour high
phytoplankton abundance. The gastropods were the most abundant (96.5%) and diverse
molluscan taxon with ten genera and two bivalve genera were recorded. The gastropods with
large shell sizes were widely distributed in reservoirs and headwater streams in the river basin.
Also, the highest mollusc density was recorded in habitats with sandy bottoms than in other
soil types (p < 0.05). RRLF was found to be the major confounding hydrological factor that
affected the diversity of macroinvertebrates and plankton in these reservoirs. It was found that
upstream reservoir with low HRT were characterized by low RB-MII, while registering
downstream impaired reservoirs with high RB-MII. As such, present study highlighted the
importance of hydrological regimes and their influence on benthic macro-invertebrate and
plankton communities for reservoir water quality monitoring. |
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