Background and aims: Antioxidant defense plays a vital part in organism protection against oxidative stress which is produced by reactive oxygen species (ROS). Oxidative stress represents a serious threat to the animals facing with heavy metals. This study was designed to analyze the habitat suitability for Caspian pond turtles, namely, Mauremys caspica in Mazandaran province by measuring lead (Hg) and mercury (Pb) tissues concentrations and heavy metals’ effects on the health status of Caspian pond turtles through quantifying the oxidative stress factors. Methods: Hg and Pb were measured in kidney and liver tissues of 20 sampled Caspian pond male turtles (treatment group) using atomic absorption spectrometry (AAS) and a Caspian pond male turtle was included in the control group. Moreover, glutathione (GSH) level, catalase (CAT), and superoxide dismutase (SOD) activities were investigated in kidney and liver tissues. Results: The mean (SD) concentration of Pb and Hg were 35.83 (4.20), and 0.604 (0.03) mg/kg for the sampled livers and also 31.01 (3.42) mg/kg and 0.316 (0.04) mg/kg for the sampled kidneys, respectively. Levels of trace elements, CAT, and SOD activities were found to be higher in the liver. Totally, GSH levels, as well as, CAT, and SOD activities were found to be higher and lower, respectively, in the control turtle as compared with the contaminated Caspian pond turtles. Trace-element levels had a positive correlation with CAT and SOD activities while having a negative association with GSH levels in contaminated Caspian pond sampled turtles. Conclusion: According to the results, it was inferred that high Hg and Pb concentrations in the turtles were due to the heavy metal contamination of their habitat in Mazandaran province. Based on the positive correlation between the heavy metal concentration of the tissue and dysfunction of oxidative stress defense markers, it can be concluded when the Caspian pond turtles are faced with heavy metal contamination risk, these markers can act as a bioindicator of their health status. No doubt, more studies are required to prove this hypothesis.
The Caspian seal (Pusa caspica) is an endangered species that only lives in the Caspian Sea. Little information is available on its exposure to contaminants, and no data exists for Southern sub-populations. From 2011 to 2016, tissues samples were collected from 20 Caspian seals to (i) Define the concentration of trace elements in five different matrices and the concentration of 30 pesticides in their blubber; (ii) Determine whether differences in contaminant concentrations are age- or sex-related; (iii) Evaluate if detected concentrations can represent a risk to the species. Age- and sex-related variations were detected for Zn and Hg in the blubber and Fe in the kidney by age only. Exceptionally high Hg concentrations and low levels of hepatic Zn were detected, raising some concern about the reproductive health of seals. Similarly, the DDTs levels detected were in the range of adverse reproductive effects in marine mammals. Based on these results, potentially adverse effects on the immune and endocrine systems of the Caspian seal cannot be ruled out. Therefore, it is of the utmost importance that pollutant monitoring becomes an integral component of conservation strategies for the Caspian seal.
Polycyclic aromatic hydrocarbons (PAHs), which contain many carcinogenic compounds, are a major ingredient of petroleum/oil. PAH pollution of the Caspian Sea, the world's largest lake, is rapidly occurring and may be affecting the endangered Caspian seal (Pusa caspica), the only marine mammal in this lake. To analyze the entrance of PAHs into the Caspian Sea food chain and the health status of Caspian seals, we measured 16 carcinogenic PAHs in the blubber, kidney, and liver tissues of 10 Caspian seal carcasses from the coastal region of northeastern Iran, using gas chromatography-mass spectrophotometry. Of the 16 PAHs investigated, anthracene, phenanthrene, and naphthalene only were identified in nine sampled Caspian seals. Concentrations of anthracene (𝑥̅ =84.83±79.86 ppb wet weight [w.w.]), phenanthrene (𝑥̅ =31.75±52.22 ppb w.w), and naphthalene (𝑥̅ =25.1±31.57 ppb w.w.) in blubber tissues were higher than in kidney and liver tissues. The concentration of PAHs in tissues was significantly higher in male than in female seals PAHs exposure in Caspian seals 3 and we found an inverse relationship between seal age and PAH concentration in tissues. Although no data exist concerning toxic effect concentrations of PAHs in Caspian seals, PAH detection in seal carcasses highlights a potentially stressful condition that may impact the health of Caspian seals and other sea life in this lake. Appropriate strategies for the control of PAH entrance into the Caspian Sea should be sought and studies for the determination of pathogenic and lethal doses of PAHs in Caspian seals should be pursued.
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