dc.description.abstract |
Many reservoirs provide multiple benefits to people around the world, in addition to primary
uses such as irrigation. Thus, reservoir management should address their multiple uses. The
water quality of ten irrigation reservoirs in Sri Lanka was examined in the present study with
the objective of better understanding the effects of hydrological regimes on reservoir water
quality and trophic state. Basic limnological parameters pertinent to the nutrient loads to,
and trophic state of, the reservoirs were collected from June 2013 to February 2016. The
sampling period was arbitrarily divided into two periods of approximately similar duration
(period 1 = June 2013–September 2014; period 2 = October 2014–February 2016) to investigate
whether or not there was a seasonal variation in the water quality parameters. Although
temporal and spatial variations were observed, most water quality parameters were within
the levels acceptable for drinking water standards. The 10 reservoirs were also ordinated by
principal component analysis (PCA) on the basis of the water quality parameters of the two
sampling periods in a two‐dimensional score plot. Reservoirs in the first principal component
(PC1) axis were represented by negative scores attributable to the dissolved oxygen
concentration and pH and, to a lesser extent, by electrical conductivity and chlorophyll‐a
concentration. Positive scores in PC1 were represented by reservoirs with a score loading
attributable to alkalinity, nitrate concentration, Secchi depth, temperature and seston weight
and, to a lesser extent, from the total phosphorus concentration. There was a significant
negative correlation of PC1 scores with relative reservoir water‐level fluctuation (RRLF; the
ratio of mean reservoir waterlevel amplitude to mean reservoir depth). Furthermore,
Carlson's trophic index also were influenced by RRLF, although not by hydraulic retention
time (HRT), indicating allochthonous nutrient inputs into the irrigation reservoirs were mainly
governed by RRLF, but not by HRT. Thus, the results of the present study provide useful
insights into achieving desirable reservoir water quality through the manipulation of the
hydrological regime. |
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