Abstract:
Consequential implications of heavy metal contamination on wetland biota, including
prevailing ecotoxicological concern globally. As environmental sentinels of wetland ecosystems,
amphibians provide a cluster of biomarkers for xenobiotic induced stress mechanisms elicited as
intoxication and detoxication signals involving general physiological, immunological,
nueroendocrinological, reproductive and stress responses.
Severe immunotoxic effects demonstrated in Euphlyctis hexadaclylus (Indian green frog) with
heavy metal exposure in the Bellanwila Attidiya sanctuary, a polluted urban wetland in Sri
Lanka, through a pilot study conducted from 2010-2011, provided the rationale for the current
study. This study investigated the prevailing metal contamination in water and sediment of this
wetland from 2013-2015; Comparisons were drawn with a pristine reference site, the Labugama
reservoir catchment area, while E. hexadaclylus of the two sites served as the animal model.
Metal mediated stress signals were comprehensively evaluated by cytogenotoxicity,
haematotoxicity, immunotoxicity, histopathologic and biochemical alterations, and neuroendocrine
and reproductive toxicity. Field experiments were validated by laboratory exposure of
reference site adult E. hexadactylus to an equivalent heavy metal mixture as present in the
polluted wetland.
Water samples of the polluted site were contaminated with significantly high levels (18.39-3.75
ppm) of heavy metals, Cu>Cr>Pb>Zn>Cd, while the metal accumulation in the sediment
followed a dissimilar trend with Zn >Pb>Cu>Cd>Cr, both exceeding relevant water and
sediment quality criteria established by authorities. Bioaccumulation of metals, particularly Cr
and Cu, in frog liver was significantly higher compared to that of the muscle tissue, following a
universal trend. Comet and Allium cepa assays reported cytogenotoxic potential of a heavy
metal mixture (Cu, Cr, Pb, Zn and Cd) with significant genetic damage at ecologically relevant
concentrations (5 ppm), while the micronulcues assay substantiated its cytotoxic potential at
higher concentrations. Reduced RBC counts and corpuscular volume signified haematotoxity
(p<0.05) while immunotoxicity was demonstrated by significantly (p<0.05) abated total WBC
counts and elevated neutrophil/lymphocyte ratio. Significantly elevated Thl cytokines, IFNy
and TNFa, positively correlated (p<0.05) with neutrophil counts in blood, and
melanomacrophage centres in the liver that signified both systemic and hepatic inflammation.
Basal levels of IFNy, TNFa, IL6 and IL10 cytokines reported for E. hexadactylus were first time
records for any amphibian species locally and globally. A novel, semi quantitative scoring
method was validated to evaluate histopathological impairment of liver, kidney, lung and skin
tissue. Significant (p<0.05) aggregation of melanomacrophages, bile secretion, haemorrhages
and sinusoidal dilations of the liver, and distortions of alveolar sacs in the lungs manifested as
major impairments in metal exposed frogs. Liver injuries complemented significantly elevated
levels (p<0.05) of aspartate transaminase, alanine transaminase y-glutamyltransferase and
alkaline phosphatase in frog liver homogenates. Elevated levels of malondialdehyde indicated
increased lipid peroxidation. Neither neuroendocrine nor reproductive effects were observed;
Yet, Significantly elevated (p<0.05) oxidative stress hormones, cortisol and thyroxin, revealed
an endocrine disruptive role for heavy metals. A skewed sex ratio towards female E.
hexadactylus was apparent.
In conclusion, this study revealed significantly high contamination of heavy metals in the
Bellanwila Attidiya sanctuary, with considerable bioaccumulation and related toxic effects in E.
hexadactylus. An array of potential toxicity measures based on cytogenotoxicity,
haematotoxicity, immunotoxicity, and histopathological aberration associated biochemical
alterations, were corroborated as biomarkers of aquatic health, predominantly linked with heavy
metal toxicity of a sentinel amphibian species in a wetland ecosystem. (Key words- Heavy
metals, xenobiotics, immunotoxicity, cytogenotoxicity, haematotoxitiy, histopathology)
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